Air/Water Heat Pump TVDA
EIO0000003573.01
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www.schneider-electric.com
The information provided in this documentation contains general descriptions and/or technical characteristics of the performance of the products contained herein. This documentation is not intended as a substitute for and is not to be used for determining suitability or reliability of these products for specific user applications. It is the duty of any such user or integrator to perform the appropriate and complete risk analysis, evaluation and testing of the products with respect to the relevant specific application or use thereof. Neither Schneider Electric nor any of its affiliates or subsidiaries shall be responsible or liable for misuse of the information contained herein. If you have any suggestions for improvements or amendments or have found errors in this publication, please notify us. You agree not to reproduce, other than for your own personal, noncommercial use, all or part of this document on any medium whatsoever without permission of Schneider Electric, given in writing. You also agree not to establish any hypertext links to this document or its content. Schneider Electric does not grant any right or license for the personal and noncommercial use of the document or its content, except for a non-exclusive license to consult it on an "as is" basis, at your own risk. All other rights are reserved. All pertinent state, regional, and local safety regulations must be observed when installing and using this product. For reasons of safety and to help ensure compliance with documented system data, only the manufacturer should perform repairs to components. When devices are used for applications with technical safety requirements, the relevant instructions must be followed. Failure to use Schneider Electric software or approved software with our hardware products may result in injury, harm, or improper operating results. Failure to observe this information can result in injury or equipment damage. Š 2018 Schneider Electric. All Rights Reserved.
Contents Introduction Safety Information TVDA Introduction About the Book Air/Water Heat Pump TVDA System Architecture Hardware Components Controller TM172PDG42R Performance Logic Controller TM172E28R Expansion Module TM171DGRP Remote Display Motor Control TeSys D Contactor TeSys GV2L Motor Circuit Breaker Altivar 212 Variable Speed Drive Altistart 22 Soft Starter Electrical Distribution and Monitoring Compact INS Switch Disconnector iEM3250 Energy Meter IC60N Modular Circuit Breaker Phaseo ABL6TS Transformer TM171VEVM4 Electronic Expansion Valve Driver Electronic Expansion Valve Reversing Valves Detection and Safety-Related Devices Temperature and Pressure Sensors Harmony XALK, XB4 and XB5 Signaling and Control Units Software Components PLC Project Introduction Function blocks and functions Optimum Start Mode Selection Water Temperature Setpoint Defrost Management Reversing Valves Management Pressure Management Circuit Management Pumps Management Coefficient Of Performance (COP) Calculation PID Management Working Mode Scheduling QR Code Web Site Introduction Template Pages PID Compressors Test Scheduler 12/18
5 5 10 10 12 15 17 17 17 18 18 20 20 21 21 22 23 23 23 24 25 25 26 26 27 27 27 28 28 28 30 35 35 36 37 38 38 39 39 39 42 42 43 44 44 46 49 50 iii
HMI Project Introduction Navigation Monitoring Pages Main Menu Pages PID Compressors Test Scheduler Clock Settings HMI Password Management Variables Description I/O Variables Other Variables Parameters Description Heat Pump Configuration Parameters Application Parameters Alarms General Alarms Wiring Errors System Implementation Software and Hardware Implementation Implementation Procedure Device Configuration Implementation Details Special Settings Appendixes Appendix A - Variables and Parameters Location Tables I/O Variables Other Variables Parameters Service Variables and Parameters Appendix B - Alarm Location Tables General Alarms Wiring Errors Appendix C - BOM and Wiring Diagram Introduction Bill of Material (BOM) Wiring Diagram Glossary of Terms and Acronyms
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52 52 53 56 64 67 68 70 70 72 72 75 80 80 82 96 96 100 103 103 103 106 108 110 111 111 111 117 126 151 156 156 157 159 159 159 161 192
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INTRODUCTION Safety Information Notice Read these instructions carefully, and look at the equipment to become familiar with the device before trying to install, operate, service, or maintain it. The following special messages may appear throughout this documentation or on the equipment to warn of potential hazards or to call attention to information that clarifies or simplifies a procedure. The addition of this symbol to a "Danger" or "Warning" safety label indicates that an electrical hazard exists which will result in personal injury if the instructions are not followed. This is the safety alert symbol. It is used to alert you to potential personal injury hazards. Obey all safety messages that follow this symbol to avoid possible injury or death.
DANGER DANGER indicates a hazardous situation which, if not avoided, will result in death or serious injury.
WARNING WARNING indicates a hazardous situation which, if not avoided, could result in death or serious injury.
CAUTION CAUTION indicates a hazardous situation which, if not avoided, could result in minor or moderate injury.
NOTICE NOTICE is used to address practices not related to physical injury. Please Note Electrical equipment should be installed, operated, serviced, and maintained only by qualified personnel. No responsibility is assumed by Schneider Electric for any consequences arising out of the use of this material. A qualified person is one who has skills and knowledge related to the construction and operation of electrical equipment and its installation, and has received safety training to recognize and avoid the hazards involved.
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Before You Begin Do not use this product on machinery lacking effective point-of-operation guarding. Lack of effective point-of-operation guarding on a machine can result in serious injury to the operator of that machine.
WARNING UNGUARDED EQUIPMENT l
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Do not use this software and related automation equipment on equipment which does not have point-of-operation protection. Do not reach into machinery during operation.
Failure to follow these instructions can result in death, serious injury or equipment damage. This automation equipment and related software is used to control a variety of industrial processes. The type or model of automation equipment suitable for each application will vary depending on factors such as the control function required, degree of protection required, production methods, unusual conditions, government regulations, etc. In some applications, more than one processor may be required, as when backup redundancy is needed. Only you, the user, machine builder or system integrator can be aware of all the conditions and factors present during setup, operation, and maintenance of the machine and, therefore, can determine the automation equipment and the related safeties and interlocks which can be properly used. When selecting automation and control equipment and related software for a particular application, you should refer to the applicable local and national standards and regulations. The National Safety Council's Accident Prevention Manual (nationally recognized in the United States of America) also provides much useful information. In some applications, such as packaging machinery, additional operator protection such as point-ofoperation guarding must be provided. This is necessary if the operator's hands and other parts of the body are free to enter the pinch points or other hazardous areas and serious injury can occur. Software products alone cannot protect an operator from injury. For this reason the software cannot be substituted for or take the place of point-of-operation protection. Ensure that appropriate safeties and mechanical/electrical interlocks related to point-of-operation protection have been installed and are operational before placing the equipment into service. All interlocks and safeties related to point-of-operation protection must be coordinated with the related automation equipment and software programming. NOTE: Coordination of safeties and mechanical/electrical interlocks for point-of-operation protection is outside the scope of the Function Block Library, TVDA, or other implementation referenced in this documentation. Start-up and Test Before using electrical control and automation equipment for regular operation after installation, the system should be given a start-up test by qualified personnel to verify correct operation of the equipment. It is important that arrangements for such a check be made and that enough time is allowed to perform complete and satisfactory testing.
WARNING EQUIPMENT OPERATION HAZARD l l
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Verify that all installation and set up procedures have been completed. Before operational tests are performed, remove all blocks or other temporary holding means used for shipment from all component devices. Remove tools, meters, and debris from equipment.
Failure to follow these instructions can result in death, serious injury, or equipment damage. 6
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Follow all start-up tests recommended in the equipment documentation. Store all equipment documentation for future references. Software testing must be done in both simulated and real environments. Verify that the completed system is free from all short circuits and temporary grounds that are not installed according to local regulations (according to the National Electrical Code in the U.S.A, for instance). If high-potential voltage testing is necessary, follow recommendations in equipment documentation to prevent accidental equipment damage. Before energizing the equipment: l l l l
Remove tools, meters, and debris from equipment. Close the equipment enclosure door. Remove all temporary grounds from incoming power lines. Perform all start-up tests recommended by the manufacturer.
Operation and Adjustments The following precautions are from the NEMA Standards Publication ICS 7.1-1995 (English version prevails): l
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Regardless of the care exercised in the design and manufacture of equipment or in the selection and ratings of components, there are hazards that can be encountered if such equipment is improperly operated. It is sometimes possible to misadjust the equipment and thus produce unsatisfactory or unsafe operation. Always use the manufacturer’s instructions as a guide for functional adjustments. Personnel who have access to these adjustments should be familiar with the equipment manufacturer’s instructions and the machinery used with the electrical equipment. Only those operational adjustments actually required by the operator should be accessible to the operator. Access to other controls should be restricted to prevent unauthorized changes in operating characteristics.
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Product Related Information
DANGER HAZARD OF ELECTRIC SHOCK, EXPLOSION OR ARC FLASH l
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Disconnect all power from all equipment including connected devices prior to removing any covers or doors, or installing or removing any accessories, hardware, cables, or wires except under the specific conditions specified in the appropriate hardware guide for this equipment. Always use a properly rated voltage sensing device to confirm the power is off where and when indicated. Replace and secure all covers, accessories, hardware, cables, and wires and confirm that a proper ground connection exists before applying power to the unit. Use only the specified voltage when operating this equipment and any associated products.
Failure to follow these instructions will result in death or serious injury. This equipment has been designed to operate outside of any hazardous location. Install this equipment only in areas known to be free of a hazardous atmosphere.
DANGER POTENTIAL FOR EXPLOSION l
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Install and use this equipment in non-hazardous locations only. Do not install and use this equipment in applications capable of generating hazardous atmospheres, such as those applications employing flammable refrigerants.
Failure to follow these instructions will result in death or serious injury.
WARNING LOSS OF CONTROL l
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The designer of any control scheme must consider the potential failure modes of control paths and, for certain critical control functions, provide a means to achieve a safe state during and after a path failure. Examples of critical control functions are emergency stop and overtravel stop, power outage and restart. Separate or redundant control paths must be provided for critical control functions. System control paths may include communication links. Consideration must be given to the implications of unanticipated transmission delays or failures of the link. Observe all accident prevention regulations and local safety guidelines(1) . Each implementation of this equipment must be individually and thoroughly tested for proper operation before being placed into service.
Failure to follow these instructions can result in death, serious injury or equipment damage. (1) For additional information, refer to NEMA ICS 1.1 (latest edition), "Safety Guidelines for the Application, Installation, and Maintenance of Solid State Control" and to NEMA ICS 7.1 (latest edition), "Safety Standards for Construction and Guide for Selection, Installation and Operation of Adjustable-Speed Drive Systems" or their equivalent governing your particular location.
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WARNING UNINTENDED EQUIPMENT OPERATION l l
Only use software tools approved by Schneider Electric for use with this equipment. Update your application program every time you change physical hardware configuration.
Failure to follow these instructions can cause death, serious injury or equipment damage.
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TVDA Introduction About the Book Document Scope This TVDA provides a reference to a tested and validated architecture based on Modicon M172 Performance Logic Controller for a heat pump application. It is not intended to replace any specific product documentation, nor any of your own design documentation. On the contrary, it offers additional information to the product documentation for installing, configuring and implementing the system. A detailed functional description or the specification for a specific user application is not part of this document. Nevertheless, the document outlines some typical applications where the system might be implemented. Validity Note This document has been updated with the release of EcoStruxure Machine Expert™ - HVAC 1.0. Related Documents You can download these technical publications and other technical information from our website at www.schneider-electric.com/en/download/. Component
Reference Documentation
Altistart22
998-1175971AltiStart Family Brochure BBV51330 ATS22 User manual AR021 Argu-Cat Altivar 212 S1A53832 ATV212 Programming manual LVPED213024Compact switch-disconnectors INS-INV40 to 2500 A catalog DIA5ED2130508EN Harmony XALD, XALK Plastic control stations catalog 156220601A55 XALD/K Harmony control sation DIA5ED2110706EN Catalog S1A99838 ZB4BC, ZB5AC ZB4BC, ZB5AC Pushbuttons Heads LVPED308005EN Complementary technical information A9MA03 Reflex iC60 Integrated Control Circuit Breaker - iC60 Circuit-Breakers - Reference Manual NHA15795 iEM3200 / iEM3250 Installation sheet DOCA0005 iEM3000 series - Energy Meters - User Manual DIA3ED2131105EN Phaseo Power supplies & Transformers W91606355 ABL1••• Regulated switch mode power supplies, Phaseo Dedicated EIO0000003412 EcoStruxure Machine Expert™ – HVAC Operating Guide EIO0000002057 Application function HVAC library guide MKTED210011 Tesys catalogue EIO0000002015 Modicon M172 - Logic Controller, Hardware guide EAV96014 TM171 Performance Display, Instruction sheet EIO0000002030 Modicon M171 - Performance Logic Controller, Hardware Guide
Altivar 212 Compact INS Harmony XALK
Harmony ZB4BC-ZB5AC, Pushbuttons heads IC60N
iEM3250 Phaseo ABL6TS
EcoStruxure Machine Expert™ - HVAC TeSys GV2L TM172E28R TM171DGRP
10
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TVDA Introduction
Component
Reference Documentation
TM171VEVM2
EAV96021 Modicon M171 - Electronic Expansion Valve Drivers, Instruction sheet EIO0000002034 Modicon M171 Electronic - Expansion Valve Drivers, User Manual NHA87740 Modicon M172 - Performance Logic Controller, Instruction sheet EIO0000002015 Modicon M172 - Logic Controller, Hardware guide CPTG003_EN Control Panel technical guide
TM172PDG42R
General
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Air/Water Heat Pump TVDA What Is a TVDA With Tested Validated Documented Architectures (TVDAs), Schneider Electric provides a controlling system solution applicable for a wide range of applications. A TVDA is an example of how Schneider Electric components may be integrated to fulfill an industrial application.
WARNING UNINTENDED EQUIPMENT OPERATION Do not include the code from templates or examples in your machine or process and put into service without thoroughly testing your entire application. Failure to follow these instructions can result in death, serious injury, or equipment damage. TVDA Aim The TVDA is meant to help in: l l l
finding fast cost efficient controlling solutions optimizing system implementation time gaining a competitive advantage and optimizing overall costs for your machine
With detailed component lists, wiring diagrams, implementation guides, PLC and HMI projects, the effort to assemble and setup the system is significantly reduced. TVDA Validation The TVDA has been tested in our laboratories using the specific references you will find in the component list reported in the Appendix, see "Bill of Material (BOM)" on page 159. TVDA Adaptations Your specific application requirements may be different and will require additional and/or different components. TVDAs provide a high level of openness for adaptations. With a separated EcoStruxure Machine Expert™ project structure and dedicated functions embedded in EcoStruxure Machine Expert™ - HVAC, required modifications can be done quickly. Pay particular attention in conforming to any safety information, electrical requirements and normative standards that would apply to your adaptation in the country you will install it and consult the specific product documentation of the components that you are substituting in this architecture.
WARNING REGULATORY INCOMPATIBILITY Ensure that all equipment applied and systems designed comply with all applicable local, regional, and national regulations and standards. Failure to follow these instructions can result in death, serious injury, or equipment damage. There are some major components in the architecture described in this document that cannot be substituted without completely invalidating the architecture, descriptions, instructions, wiring diagrams and compatibility between the various software and hardware components specified herein.
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CAUTION EQUIPMENT INCOMPATIBILITY OR INOPERABLE EQUIPMENT Read and thoroughly understand all hardware and software documentation for the characteristics and properties of the devices employed before attempting any component substitutions or before modifying parameters that may alter those characteristics and properties. Failure to follow these instructions can result in injury or equipment damage. Be aware of the consequences of component substitution in the architecture described in this document as substitutions may impair the compatibility and interoperability of software and hardware. Deliverables The following table indicates the deliverables for the air/water heat pump TVDA: Deliverable
Description
Air/Water Heat Pump TVDA TVDA EcoStruxure Machine Expert™ HVAC Project
This document (EcoStruxure Machine Expert™ - HVAC version: 1.0) PLC project Ready-to-use PLC project covering the system configuration (including network configuration). The project contains pre-configured application code to operate field devices, monitor the system status, and handle detected errors. See "PLC Project" on page 28. Web site PLC project resources allowing system control and setup via web server. Template pages, specifically designed for this TVDA, allow customization of the web site. See "Web Site" on page 44. HMI project The ready-to-use interface for both controller and remote display can be used to: l l l
control the main system functionalities indicate system status display detected system errors
See "HMI Project" on page 52. For details about the heat pump configurations supported, see "System Description" on page 13. TVDA BOM and (See "Appendix C - BOM and Wiring Diagram" on page 159). Bill of Material Wiring Diagram (BOM) and wiring diagram of the TVDA described in this document and can be reused as a model to generate the technical documentation for your specific system. Wiring diagrams can be also downloaded from the Schneider Electric web page www.schneider-electric.com and are available in the following formats: l l
PDF DWG
System Description Air/water heat pump TVDA has been implemented for controlling an air/water heat pump with the following main features: l l
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one or two circuits for each circuit: l from one to four compressors with or without Variable Speed Drive (VSD) l from one to four stages of secondary heat exchanger fans 13
one stepper Electronic Expansion Valves (EEVs) with or without solenoid valve with pump-down management l one reversing valve l one heating resistor one or two pumps (second redundant) l
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For details about the implementation guidelines depending on the heat pump features, see "Commissioning Overview" on page 103. Tested and Validated Electric Panel The electric panel tested and validated during development allows control of heat pumps with the following main features: l l
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two circuits for each circuit: l two compressors l two stages of secondary heat exchanger fans l one EEV with solenoid valve l one reversing valve l one heating resistor two pumps temperature probes pressure sensors pump flow switch
Exterior Temperature Probe
System Main Functions The TVDA project has been designed to control the heat pump by using the following functions: l
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manage the two compressors circuits in balance or saturation mode, see "Circuit Management" on page 39 manage compressors and fans through standard Application Function Blocks (AFBs) control floating high/low pressure through standard AFBs manage the main pump with fixed speed or variable speed modulated on the differential between input and output water temperature, see "Pumps Management " on page 39 calculate water setpoint (fixed or dependent on the external air temperature and on a setpoint line slope) see "Water Temperature Setpoint" on page 36 calculate the best start-up time to achieve the desired temperature based on an adaptive predictive algorithm, see "Optimum Start" on page 35 manage the heat and cool working mode, see "Mode Selection" on page 35 manage defrost operations, see "Defrost Management" on page 37 manage alarms estimate Coefficient Of Performance (COP) values and create trends without the need of flow meters, see "Coefficient Of Performance (COP) Calculation" on page 39 create energy consumption trends for different periods of time (day, week, month, year and user-defined period) 12/18
define the water regulation PID parameters manually or with auto-tuning function, see "PID Management" on page 42 schedule system working mode (weekly or by time period), see "Working Mode Scheduling" on page 42 display QR code representing a user-defined string (e.g. web site, email address), see "QR Code" on page 43
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System Architecture Overview The architecture is based on the Modicon M172 Performance Logic Controller. An expansion module allows management of additional inputs and outputs of a second heat pump circuit. A remote display installed on the door of the electric panel allows interaction with the controller. Compressors are driven with Variable Speed Drives (VSDs), if VSD compressors are installed, or with soft starters or simple contactors, if no-VSD compressor is installed. Condenser fans are driven on two levels: a VSD regulates the speed of the circuit fans; contactors turn single fan stages on and off. The main pump is driven by a VSD, the redundant pump by a contactor. Each Electronic Expansion Valve (EEV) is controlled by a EEV driver.Each heating resistor is driven by a contactor . The system measures energy consumption data using an energy meter and estimates useful thermal energy absorption/production data using temperature sensors, pressure sensors and data coming from the operation of the system.In combination, this data allows for the calculation of the heat pump COP. The heating/cooling changeover is managed by reversing valves. Circuit breakers help protect the electrical system. A transformer converts input voltage from 230 Vac to 24 Vac. TVDAÂ Layout
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16 13 12
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Part
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Description
Code/ Model
See
1
Switch-disconnector
Compact INS
2
Energy meter
iEM3250
"Compact INS Switch Disconnector " on page 23 "iEM3250 Energy Meter " on page 23
15
Part
Description
Code/ Model
3
Contactor for entire system
Tesys D
4
Modular circuit breaker
5
Transformer
6
Performance Logic Controller
7
Expansion module
8
Remote display
9
Emergency stop push button
10
Motor circuit breaker
11
12
Contactor for single component (fan stage, compressor, heating resistor, pump) Variable Speed Drive
13
Soft starter
Altistart 22
14
Temperature sensors
-
15
Pressure sensors
-
16
Electronic Expansion Valve driver
TM171VEVM4
17
Electronic Expansion Valve
-
18
Reversing valve
-
19
Control and signaling units
XB4, XB5
See
"TeSys D Contactor " on page 20 "IC60N Modular Circuit IC60N Breaker " on page 24 "Phaseo ABL6TS Phaseo ABL6 Transformer " on page 25 TM172PDG42R "TM172PDG42R Performance Logic Controller " on page 17 "TM172E28R Expansion TM172E28R Module " on page 18 "TM171DGRP Remote TM171DGRP Display " on page 18 Harmony XALK "Harmony XALK, XB4 and XB5 Signaling and Control Units " on page 27 "TeSys GV2L Motor Circuit TeSys GV2L Breaker " on page 21 "TeSys D Contactor " on page Tesys D 20 Altivar 212
"Altivar 212 Variable Speed Drive " on page 21 "Altistart 22 Soft Starter " on page 22 "Temperature and Pressure Sensors " on page 27 "Temperature and Pressure Sensors " on page 27 "TM171VEVM4 Electronic Expansion Valve Driver " on page 25 "Electronic Expansion Valve " on page 26 "Reversing Valves " on page 26 "Harmony XALK, XB4 and XB5 Signaling and Control Units " on page 27
TVDAÂ Communication The system includes three different communication networks. l
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Modbus RTU network: for communication between controller (master) and energy meter, VSDs, soft starters and EEV drivers (slaves). CAN Expansion bus: for communication between controller, its expansion module and remote display. Ethernet Modbus TCP for communication between controller and a PC (e.g.: for downloading the PLC project or for accessing the web server).
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HARDWARE COMPONENTS Controller TM172PDG42R Performance Logic Controller
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Description The Modicon M172 Performance Logic Controller (M172P) is part of the Modicon M171/M172 range, suitable for large and connected HVAC machines or related. Function The version used for the TVDA can manage up to 42 I/Os and has a built-in display. This controller is the main element of the TVDA: it embeds the controller program, the web server and a local HMI. Reference Documentation Information
Reference
Description, features, documents and download Wiring
http://www.schneiderelectric.com/en/product/TM172PDG42R Wiring Diagram on page 167 and from page 171 to 177
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Hardware Components
TM172E28R Expansion Module
7
Description This module is compatible with the Modicon M171/M172 Performance Logic Controllers. Function The version used for the TVDA adds 28 I/Os and allows the controller to manage an extra heat pump circuit. Communication with the controller is achieved via CAN Expansion bus. Reference Documentation Information
Reference
Description, features, documents and download Wiring
https://www.schneiderelectric.com/en/product/TM172E28R Wiring Diagram on page 167 and from page 178 to 182
TM171DGRP Remote Display
8
Description This display is compatible with the Modicon M171/M172 Performance Logic Controllers. With an LCD 128 x 64 px backlit display, three LEDs and buttons, this remote display allow interaction with 18
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Controller
the controller and set of the parameters even if the electric panel is closed. Function Communication with the controller is achieved via CAN Expansion bus. Reference Documentation Information
Reference
Description, features, documents and download Wiring
http://www.schneiderelectric.com/en/product/TM171DGRP Wiring Diagram on page 167
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Motor Control TeSys D Contactor
3
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Description TeSys D contactor is designed for power switching, control applications, and integration into control systems. Function The main contactor [3] is triggered from the following components: l l l
emergency push button key switch start/stop push buttons
The contactors to power individual fan stages and compressors [11] are triggered from Modicon M172 Performance Logic Controller and high pressure switch (for compressors protection). Reference Documentation Information
Reference
Description, features, documents and download
http://www.schneider-electric.com/en/product-rangepresentation/664-tesys-d Wiring Diagram on page 162 and from page 188to 191
Wiring
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Motor Control
TeSys GV2L Motor Circuit Breaker
10
Description The TeSys GV2 P motor circuit breakers are three-pole thermal-magnetic circuit breakers designed for the protection of motors. The motor protection is provided by the thermal-magnetic elements incorporated in the industrial motor circuit breaker. Function These circuit breakers help protect individual compressors, pumps and fan stages within a system. They can be fine tuned to suit the power consumption of the controlled motor. Reference Documentation Information
Reference
Description, features, documents and download Wiring
http://www.schneider-electric.com/en/product-rangepresentation/684-tesys-gv2 Wiring Diagram on page 163, 164, 188 and 189
Altivar 212 Variable Speed Drive
12
Description The Altivar 212 is a VSD for three-phase asynchronous or Permanent Magnet Synchronous Motors (PMSM) type from 0.75 kW to 75 kW. It is specifically intended for commonly encountered fluid management applications in tertiary sector buildings (HVAC): heating, ventilation, air conditioning and pumping. 12/18
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Function In the TVDA VSDs are used to control the main pump, the fan stages of the entire circuit and for one compressor for each circuit. Reference Documentation Information
Reference
Description, features, documents and download Wiring
http://www.schneider-electric.com/en/product-rangepresentation/60162-altivar-212 Wiring Diagram on page 183, 184, 186, 188 and 189
Altistart 22 Soft Starter
13
Description The ATS22 offers acceleration and deceleration control of three-phase asynchronous induction (squirrel cage) motors. The ATS22 controls the motor performance based on the motor torque rather than using a voltage or current based control. Advanced control algorithms are incorporated to help smooth rotation throughout the starting ramp and to reduce mechanical instability at the end of starting. Function The TVDA uses soft starters to control compressors not managed by VSDs. Reference Documentation Information
Reference
Description, features, documents and download Wiring
http://www.schneider-electric.com/en/product-rangepresentation/5745-altistart-22 Wiring Diagram on page 185 and 187
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Electrical Distribution and Monitoring Compact INS Switch Disconnector
1
Description Switch-disconnector with positive contact indication. A product that covers applications from 40 A to 25000 A. A mechanical system helps ensure that the position of the handle reflects the position of the main contacts. Reference Documentation Information
Reference
Description, features, documents http://www.schneider-electric.com/en/product-rangeand download presentation/62074-compact--ins-inv Wiring Wiring Diagram on page 162
iEM3250 Energy Meter
2
Description The iEM3000 serie meters provide the essential measurement capabilities (for example, current, voltage, and energy) required to monitor a single- or three-phase electrical installation. 12/18
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Function The version used for the TVDA has a RS485 port to communicate with the controller via Modbus protocol. Reference Documentation Information
Reference
Description, features, documents http://www.schneider-electric.com/en/product-rangeand download presentation/61273-acti-9-iem3000 Wiring Wiring Diagram on page 162 and 170
IC60N Modular Circuit Breaker
4
Description iC60N circuit breakers are multi-standard circuit breakers which combine the following functions: l l l l
circuit protection against short-circuit currents circuit protection against overload currents industrial isolation according to IEC/EN 60947-2 standard fault tripping indication by a red mechanical indicator on the circuit breaker front face.
Function The TVDA includes: l l
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two three-phase IC60N circuit breakers for 400 Vac: helping to protect the heating resistors one two-phase IC60N circuit breaker for 230 Vac: helping to protect the controller (with expansion module and remote display) one two-phase IC60N circuit breaker for 24 Vac: helping to protect the EEV drivers
Reference Documentation Information
Reference
Description, features, documents and download Wiring
Wiring Diagram on page 162, 165 and 166
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Electrical Distribution and Monitoring
Phaseo ABL6TS Transformer
5
Description The Phaseo ABL6TS single-phase transformer is designed to provide control circuits in electrical equipment from 230 to 400 Vac supply at 50 or 60 Hz connectors at the primary and adaptation to the actual values of the supply networks to which they are connected. Function The output voltage of the version used for the TVDA is 24 Vac. Reference Documentation Information
Reference
Description, features, documents and download Wiring
Wiring Diagram on page 165 and 166
TM171VEVM4 Electronic Expansion Valve Driver
16
Description TM171VEV is the compact solution of the Schneider Electric platform of drivers managing step-bystep electronic expansion motor valves, suited for a range of needs in the HVAC/R market and beyond. 12/18
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Function The version used for the TVDA has an RS485 port to communicate with the controller via Modbus protocol. Reference Documentation Information
Reference
Description, features, documents and download Wiring
http://www.schneiderelectric.com/en/product/TM171VEVM4 Wiring Diagram on page 168 and 169
Electronic Expansion Valve
17
Compatible EEVs Only the EEVs supported by the TM171VEVM4 Electronic Expansion Valve driver can be used. The Electronic Expansion Valve driver supports the following EEV references: l l l l
SXVB261 (Body 1) SXVB262 (Body 2) SXVB263 (Body 3) SXVB264 (Body 4)
For detailed information see EEV driver documentation.
Reversing Valves
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Introduction Schneider Electric offers a wide range of reversing valves, for information see www.eliwell.com website.
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Detection and Safety-Related Devices Temperature and Pressure Sensors
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Introduction Schneider Electric offers a wide range of temperature and pressure sensors, for information see www.schneider-electric.com website.
Harmony XALK, XB4 and XB5 Signaling and Control Units
9
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Description Schneider Electric offers a comprehensive range for control and signaling devices in industrial and commercial applications. All aspects of control and signaling needs are considered for including pilot devices such as push-buttons, indicator lamps, selector switches, and joysticks for standard hole cutouts. Function TVDA includes: l l l l
an emergency push button a key switch a start/stop push button two status LEDs
Reference Documentation Information
Reference
Description, features, documents and download
XALK: http://www.schneider-electric.com/en/product-rangepresentation/660-harmony-xald%2C-xalk XB4/XB5: http://www.schneider-electric.com/en/product-rangepresentation/61148-harmony-xb4-xb5 Wiring Diagram on page 191
Wiring
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SOFTWARE COMPONENTS PLC Project Introduction Description The PLC project contains pre-configured application code to operate field devices, monitor the system status, and handle detected errors. For more information about variables, parameters and alarms see "Variables Description" on page 72, "Parameters Description" on page 80 and "Alarms" on page 96.
WARNING UNINTENDED EQUIPMENT OPERATION Do not include the code from templates or examples in your machine or process and put into service without thoroughly testing your entire application. Failure to follow these instructions can result in death, serious injury, or equipment damage. PLC Project Program Overview The graphic below depicts an overview of the PLC project program and the interaction between tasks: SR_Phy2Log
SR_SystemStatus
SR_PumpCntrl
SR_CompCir1Cntrl
SR_CompCir2Cntrl SR_CircuitCompCntrl SR_WaterSetAndScheduler
SR_EEVCir2Cntrl
SR_init
SR_Params
SR_Alarms
SR_EEVCir1Cntrl SR_HPDefrostAndRevValves
SR_FanCir1Cntrl
SR_FanCir2Cntrl
SR_EnergyMeter SR_COPCalculation SR_FlowCalculation
SR_Log2Phy
SR_Display
28
SR_QRcodeGen
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PLC Project
Timed Tasks The table below presents a list of the functions and the involved AFB for each timed task of the PLC project: Program
Function
SR_Phy2Log
Creates a logical connection between the controller/expansion module input variables and the application input variables Controls the switch on/off of the l machine, manages the settings for the heating/cooling changeover Controls the reversing valves, l manages the defrost l procedures, determines the defrost priority in a double circuit machine, controls the heating resistors Manages the pumps, including l redundant pump, VSD and l operating hours count l
SR_SystemStatus
SR_ DefrostAndRevValves
SR_PumpCntrl
Involved AFB and FB
l
SR_CircuitCompCntrl
Efficiently manages the compressors on the two circuits regulating water temperature
l l l l l
SR_CompCir1Cntrl
Manages circuit 1 compressors, fixed or variable speed, including alarms
l l l l l
SR_CompCir2Cntrl
Manages circuit 2 compressors, fixed or variable speed, including alarms
l l l l l
SR_FanCir1Cntrl
SR_FanCir2Cntrl
SR_EEVCirc1Cntrl SR_EEVCirc2Cntrl
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Manages circuit 1 secondary heat exchanger's fans, with or without VSD, depending on pressure control, with or without floating pressure Manages circuit 2 secondary heat exchanger's fans, with or without VSD, depending on pressure control, with or without floating pressure Manages the EEVs and solenoids on circuit 1 Manages the EEVs and solenoids on circuit 2
l l l l
ModeSelection
HPDefrostAndRevValve HPDefrCircuitPriority
PIDAdvanced RedundantPumpCntr ATV212ModbusCom OperatingHours PIDAdvanced PIDAutoTuning CircuitMgmt CompMgmtVS CompMgmt CompAlarmMgmt CompCntrl_OnOff Altistart22ModbusCom CompCntrl_VS ATV212ModbusCom CompAlarmMgmt CompCntrl_OnOff Altistart22ModbusCom CompCntrl_VS ATV212ModbusCom FloatingHighPresCntrl EvapPressCntrl FanMgmt ATV212ModbusCom
l
FloatingHighPresCntrl EvapPressCntrl FanMgmt ATV212ModbusCom
l
TM171VEVModbusCom
l
TM171VEVModbusCom
l l l
29
Software Components
Program
Function
SR_EnergyMeter
Stores data on energy consumption collected by the energy meter, make them available as trends and for heat pump COP calculation Calculates the circuit mass flow to be used for heat pump COPÂ calculation
SR_FlowCalculation
SR_COPCalculation
Involved AFB and FB
Estimates the heat pump COP based on thermal power and electrical power data
l l
l l l l l l l
SR_Alarms
SR_Log2Phy
EnergyTrend Word2IEEE754
Temp2Press DoubleInterpo_5x8 Fluid_Density Fluid_Enthalpy Temp2Press ThermalPower_Enthalpy COPCalculation
Monitors the global heat pump status by means of alarm signals Creates a logical connection between the application output variables and the controller/expansion module variables
Background Tasks The table below presents a list of the function and the involved AFB of each background task of the PLC project: Program
Function
Involved AFB
SR_Params SR_Display
Manages EEV driver parameters Prepares data for displaying the QR code image on controller and remote display pages, manages the initialization of timers, saves date if modified, copies alarms to status variables and prepares variables for HMI SR_ Schedules water temperature setpoints for l WaterSetAndScheduler energy saving purposes, working mode l changes, machine starts and stops, and l defrosts. It manages the calculation of the l best machine working mode at start-up and of the best start-up time. It calculates the outlet water setpoint.
FloatingWaterTempSet YearlyEvent WeekSchedule OptimumStart
Init Tasks The table below presents a list of the function and the involved AFB of the init task of the PLC project: Program Function SR_Init
Involved AFB
Initializes the variables used in other tasks when the controller is powered and transfers configuration parameters to expansion module
Function blocks and functions Function blocks In the PLC project program the following function blocks have been used: 30
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PLC Project
l
l
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FB_Altistart22ModbusCom: manages the communication between the controller and the Altistart22 drive through Modbus serial line communication protocol. FB_TM171VEVModbusCom: manages the communication between the controller and the TM171VEV drive through Modbus serial line communication protocol. FB_Word2IEEE754: converts two WORD values into a REAL value using IEEE754 32bit format. OptimumStart: calculates the best start-up time and working mode (heat/cool) of the machine in order to obtain the desired temperature at a scheduled time.
FB_Altistart22ModbusCom The table below presents the input and output pins of the function block: Name Input xEn xCommand usiNodeNr uiTimeOut rMb_uiDrvStatus rMb_uiDrvAlarm xReset Output usiState uiAlarmID uiAlertID wMb_uiCmd
Description TRUE: FB enabled, FALSE: FB disabled. TRUE: Start Drive, FALSE: Stop Drive Node number of the slave Communication timeout Altistart status Altistart Alarm TRUE: Reset error, FALSE: No reset error State of the FB Alarm ID, see "FB_Altistart22ModbusCom: Alarm ID Description" on page 31 Alert ID, see "FB_Altistart22ModbusCom: Alert ID Description" on page 32 Drive command
For further information, see the description of the similar AFB ATV212ModbusCom in Application function HVAC library guide. FB_Altistart22ModbusCom: Alarm ID Description The uiAlarmID output represents a value from 0 to 65535, whereby each bit represents a detected alarm. The table below presents the bit positions and their description: Alarm Alarm Cause Bit
Effect
0
The function block is disabled.
Invalid range input usiNodeNr 1 Invalid range input uiTimeOut 2 A communication error has been detected. 3 Reserved 4 Over current 5 Short circuit 6 Over load 7 Output phase lost 8 Over voltage 9 Input phase lost 10-15 Reserved
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The function block is disabled. Communication to Altistart22 drive is not possible. FB will try to automatically recover communication. Drive alarm. The function block is disabled.
-
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Software Components
FB_Altistart22ModbusCom: Alert ID Description The uiAlertID output represents a value from 0 to 65535, whereby each bit represents a detected alert. The table below presents the bit positions and their description: Alert Alert Cause Bit 0
Effect
The controlled parameter usiNodeNr has been modified. NOTE: The controlled configuration parameter setting is effective only after a restart of the function block. 1 The controlled parameter uiTimeOut has been modified. NOTE: The controlled configuration parameter setting is effective only after a restart of the function block. 2-15 Reserved
The modified parameter value is not taken into account. The function block uses the value of the parameter prior to its modification.
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FB_TM171VEVModbusCom The table below presents the input and output pins of the function block: Name
Description
Input xEn xCommand usiMode usiNodeNr rMb_uiDrvStatus rMb_uiDrvAlarm xReset Output usiState uiAlarmID uiAlertID wMb_uiCmd
TRUE: FB enabled, FALSE: FB disabled. TRUE: Start Drive, FALSE: Stop Drive EEV select operating mode (0…3) Node number of the slave TM171VEV status TM171VEV Alarm TRUE: Reset error, FALSE: No reset error State of the FB Alarm ID, see "FB_TM171VEVModbusCom: Alarm ID Description" on page 32 Alert ID, see "FB_TM171VEVModbusCom: Alert ID Description" on page 33 Drive command
For further information, see the description of the similar AFB ATV212ModbusCom in Application function HVAC library guide and in Modicon M171 Electronic - Expansion Valve Drivers, User Manual. FB_TM171VEVModbusCom: Alarm ID Description The uiAlarmID output represents a value from 0 to 65535, whereby each bit represents a detected alarm. The table below contains the bit positions and their description: Alarm Alarm Cause Bit 0 1 2
32
Invalid range input usiNodeNr Reserved A communication error has been detected.
Effect The function block is disabled. Communication to TM171VEV drive is not possible. FB will try to automatically recover communication.
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PLC Project
Alarm Alarm Cause Bit
Effect
3
The EEV is stopped. The function block is disabled.
An error caused by motor over current has been detected. 4 An error caused by motor phase 1 loss has been detected. 5 An error caused by motor phase 1 short circuit has been detected. 6 An error caused by motor phase 2 loss has been detected. 7 An error caused by motor phase 2 short circuit has been detected. 8 Maximum Operating Pressure (MOP) alarm 9 External alarm (digital input) 10-15 Reserved
EEV is closed. The function block is disabled. EEV is closed. The function block is disabled. -
FB_TM171VEVModbusCom:Â Alert ID Description The uiAlertID output represents a value from 0 to 65535, whereby each bit represents a detected alarm. The table below contains the bit positions and their description: Alert Alert Cause Bit
Effect
0
The controlled parameter usiNodeNr has been modified. Modifying a controlled parameter requires a system restart. NOTE: The controlled configuration parameter setting is effective only after a restart of the function block. 1 Probe 1 not connected or short circuited 2 Probe 2 not connected or short circuited 3 Probe 3 not connected or short circuited 4 Probe 4 not connected or short circuited 5 Evaporator output probe not connected or short circuited 6 Evaporation probe not connected or short circuited 7 Maximum output opening alert 8 No-link alert 9-15 Reserved
The modified parameter value is not taken into account.The function block uses the value of the parameter prior to its modification.
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OptimumStart The table below presents the description of the function block input and output pins: Name
Description
Input xEn
TRUE: FBÂ enabled, FALSE: FB disabled
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Software Components
Name
Description
iOAT iZoneTemp iHeatingSetp uiHys usiStartID usiStopID uiMinAdvMinute uiMaxAdvMinute xUnitType xReset ptrE2_SchEvents ptrE2_OptiStartTab
Outdoor air temperature Room temperature Heating set point Width of the hysteresis band to define cooling setpoint Identifier of the occupation event start stored in the EEPROM Identifier of the occupation event stop stored in the EEPROM Minimum advance time for optimum start Maximum advance time for optimum start Temperature measurement unit Reset the optimum start heating/cooling rates to default values Pointer to the first element of the first event stored in the EEPROM Pointer to the first record in the heat/cool bands tables stored in the EEPROM Number of scheduled events stored in the EEPROM
usiEventsNumber Output usiState usiMode xOptimumCmd uiAdvMinute dtNextOptStartSchedule usiAlarm
State of the FB Working mode at start-up Occupied operation command Time to the next optimum start Optimum start date and time Alarm ID
For further information on how the start-up time and the working mode are calculated, see "Optimum Start" on page 35. Functions In the PLC project program the following functions have been used: l l
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l l
34
C2F_Converter: converts temperature values from degrees Celsius to degrees Fahrenheit. C2F_Probe_Converter: converts temperature values from degrees Celsius to degrees Fahrenheit, it does not convert the probe error special value -32768. F_Word4IntToReal: converts four WORD values into a REAL value using IEEE754 64bit format. F_Rescale: rescale a value inside an X1, X2 range (with X1 < X2) to a value between Y1,Y2 range. F_CalcFreqSet: rescale a value between 0 and 1000 in a value inside the range uiFreqMin, uiFreqMax (use F_Rescale). F_CalcFreqSetPerc: rescale a value between uiFreqMin and uiFreqMax in a value inside the range 0...1000 (use F_Rescale). F_ProbeScale: rescale a value between 0 and 1000 in a value inside the range ValueMin, ValueMax (use F_Rescale). If input is -32768 or -32767 (probe error) it is reported on output. F2C_Converter: converts temperature values from degrees Fahrenheit to degrees Celsius. F2C_Probe_Converter: converts temperature values from degrees Fahrenheit to degrees Celsius; it does not convert the probe error special value -32768. psi2bar_Converter: converts pressure values from PSI to bar. psi2bar_Probe_Converter: converts pressure values from PSIto bar; it does not convert the probe error special value -32768.
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PLC Project
Optimum Start Introduction This function is implemented in the SR_WaterSetAndScheduler program. The system calculates the best start-up time and working mode (heat/cool) of the heat pump in order to achieve the temperature setpoint at a scheduled time of occupation. The calculation is managed by the OptimumStart function block. Start-up Time Calculation The system calculates how much time before occupation the machine must start-up by means of an adaptive predictive algorithm. The algorithm is based on the room temperature (iRoomTemp variable), on the outdoor air temperature (iOutdoorAirTemp variable) and on past events records (E2_OptStartHotBand parameter). In fact, the system records the time taken by the machine to achieve the temperature setpoint at sixteen different outdoor air temperature bands (8 bands for heating and 8 bands for cooling). Based on these records, the system calculates the best start-up time. The calculation in constantly improved by new records. Mode Selection The system selects the working mode at the start-up (xRemoteHeatCool variable) in the following way: l
l
heat mode (TRUE), if the room temperature (iRoomTemp variable) and the outdoor air temperature (iOutdoorAirTemp variable) are below the room heating setpoint (E2_ iRoomSetHeat parameter) cool mode (FALSE), if the room temperature (iRoomTemp variable) and the outdoor air temperature (iOutdoorAirTemp variable) are above the room heating setpoint (E2_ iRoomSetHeat parameter) plus the cooling hysteresis (E2_iRoomSetCool-E2_ iRoomSetHeat)
The machine does not start in advance if the outdoor air temperature or the room temperature are within the cooling hysteresis band. NOTE: The selected working mode is applied only if the mode type management is set to remote (E2_usiModeType parameter =Â 1). Further Information For further information about Optimum Start, see SR_WaterSetAndScheduler program.
Mode Selection Introduction This function is implemented in the SR_SystemStatus program. The system can manage the selection of the heat pump working mode (heat/cool) in four different ways (E2_usiModeType parameter): l l
l l
manually (0): setting the mode directly from the controller/remote display or from the web site from remote command (1): using an output signal of the WeekSchedule or OptimumStart AFBs or a Modbus RTU command from digital input (2): using a digital switch automatically (3): determining the mode with an algorithm.
Automatic Mode Selection If the automatic mode selection is enabled, the system calculates the working mode in the following way: l
l
heat mode: if the external temperature (iOutdoorAirTemp variable) is below the heat mode temperature threshold (E2_iHeatTempThr parameter) cool mode: if the external temperature (iOutdoorAirTemp variable) is above the cool mode temperature threshold (E2_iCoolTempThr parameter)
The automatic mode selection can also control the changeover from a mode to the other one. If the external temperature remains above/below the heat/cool mode threshold for a set time period (E2_ uiDelayChangeOver parameter), then the mode switches to cool/heat. 12/18
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Software Components
Further Information For further information about mode selection, see SR_SystemStatus program.
Water Temperature Setpoint Introduction This function is implemented in the SR_WaterSetAndScheduler program. The water temperature setpoint can be calculated in two different ways (E2_xEnWaterAirLinkSet parameter): l l
law mode (TRUE): see "Law Mode" on page 36 fixed mode (FALSE): see "Fixed Mode" on page 36
Control of the Water Temperature Setpoint It is possible to set the minimum and maximum values for the water temperature setpoint by means of the E2_iWaterSetMin and E2_iWaterSetMax parameters. Furthermore, in order to attenuate water temperature setpoint variations, the system controls the temperature and time steps of the output filter by means of the E2_uiWaterSetStepFilter and E2_ uiWaterSetTimeStep parameters. Law Mode The system calculates the water temperature setpoint based on a room temperature setpoint (E2_ iRoomSetCool/E2_iRoomSetHeatparameters), outdoor temperature (iOutdoorAirTemp variable) and the slope of the setpoint line (E2_iWaterSetSlope parameter). iCurrentWaterTempSet (E2_iRoomSet + E2_iWaterSetEcoOffset)*( E2_iWaterSetSlope +1) E2_iWaterSetMax
E2_iRoomSet + E2_iWaterSetEcoOffset
E2_iWaterSetSlope
E2_iWaterSetMin
iOutdoorAirTemp E2_iRoomSet + E2_iWaterSetEcoOffset
(E2_iRoomSet + E2_iWaterSetEcoOffset)*( E2_iWaterSetSlope+1) E2_iWaterSetSlope
The following parameters must be set: Parameter Name
Description
Default Min Max Unit
E2_iWaterSetMin
Water temperature setpoint minimum value
100
0
400
°C/°F XXX.Y
E2_iWaterSetMax
Water temperature setpoint maximum value
200
0
800
°C/°F XXX.Y
E2_iRoomSetCool
Room temperature (pivot) to calculate water setpoint in cool mode
250
0
800
°C/°F XXX.Y
E2_iRoomSetHeat
Room temperature (pivot) to calculate water setpoint in heat mode 200
0
400
°C/°F XXX.Y
0
1000 -
E2_iWaterSetSlope Slope to calculate water setpoint
100
Format
XX.YY
Fixed Mode The setpoint is set with the E2_iWaterTempSetCool and E2_iWaterTempSetHeat parameters. °C/°F
E2_iWaterSetMax E2_iWaterTempSetHeat E2_iWaterSetEcoOffset
E2_iWaterSetEcoOffset E2_iWaterTempSetCool E2_iWaterSetMin t
The following parameters must be set: 36
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PLC Project
Parameter Name
Description
Default
Min Max Unit
Format
E2_iWaterTempSetCool
Water temperature setpoint in cool mode (fixed)
140
0
400
°C/°F XXX.Y
E2_iWaterTempSetHeat
Water temperature setpoint in heat mode (fixed)
350
0
800
°C/°F XXX.Y
E2_iWaterSetMin
Water temperature setpoint minimum value
100
0
400
°C/°F XXX.Y
E2_iWaterSetMax
Water temperature setpoint maximum value
200
0
800
°C/°F XXX.Y
Offset in Economy Mode If the system is working in economy mode, an offset parameter (E2_iWaterSetEcoOffset) will be added or subtracted (depending if system is in cool or heat mode) to the setpoint (both law mode or fixed), see "Working Mode Scheduling" on page 42. Further Information For further information about water temperature setpoint, see SR_WaterSetAndScheduler program.
Defrost Management Introduction This function is implemented in the SR_DefrostAndRevValves program. The system manages defrost operations by controlling the involved actuators (pumps, fans, heating resistors and compressors) and the reversing valves switch by means of the HPDefrostAndRevValve AFB. Furthermore, the system manages the priority and timing of defrost in a double circuit heat pump by means of the HPDefrCircuitPriority AFB. Defrost Launch The system automatically launches defrost based on the outdoor air temperature (iOutdoorAirTemp variable). NOTE: It is also possible to set the low pressure probe (iLowPressCirc variable) for the automatic launch of defrost. In this case, the launch defrost value (iEnDefrostValue variable) must be changed accordingly. Defrost launch can also be forced by setting the xCmdDefrostStartCir variable to TRUE. Defrost End Defrost ends when the evaporator coil temperature (iEvapCoilTempCir variable) is above the defrost end temperature (E2_iDefrostEndTemp parameter). NOTE: It is also possible to set the high pressure probe (iHighPressCirc variable) to end defrost. In this case, the end defrost value (iDefrostEndValue variable) must be changed accordingly. Defrost Priority in a Double Circuit Heat Pump If the system has two circuits, it is possible to manage the two defrost cycles in four different modes (E2_usiDefrostType parameter): l l
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disabled (0): the defrost is disabled on both circuits synchronous (1): if defrost has been launched on one circuit (usiDefrostStatusCir1/usiDefrostStatusCir2>1), it will also be activated on the other one asynchronous (2): if defrost has been launched on one circuit (usiDefrostStatusCir1/usiDefrostStatusCir2>2), it will not be launched on the other one. When defrost on the first circuit is complete, it can be launched on the second circuit after a set period of time (E2_uiTimeBetweenDefrosts parameter). At first start-up, if both circuits are ready for defrost, circuit 1 has priority over circuit 2. independent (3): each circuit can launch defrost independently from the other one.
Further Information For further information about defrost management, see SR_DefrostAndRevValves program. For further information about reversing valve management, see , "Reversing Valves Management" on page 38.
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Software Components
Reversing Valves Management Introduction This function is implemented in the SR_DefrostAndRevValves program. The system manages the reversing valves switch by means of the HPDefrostAndRevValve AFB both during heating/cooling changeover and during defrost. Reversing Valves Switch When executing the reversing valve switch, the system controls both the reversing valve and the deactivation/activation of the compressors. The timings of the operations are set by two parameters that determine the delay between compressors deactivation and valves switch and between valves switch and compressors reactivation. The parameters are the following: l
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during heating/cooling changeover: E2_uiModeChangeCompValveTime and E2_ uiModeChangeValveCompTime during defrost: E2_uiDefrostCompValveTime and E2_uiDefrostValveCompTime
Further Information For further information about reversing valves management, see SR_DefrostAndRevValves program.
Pressure Management Introduction This function is implemented in the SR_FanCir1Cntrl and SR_FanCir2Cntrl programs. The system maintains a constant low/high refrigerant pressure in the secondary heat exchanger by means of two AFBs that operate alternately, according to the working mode of the system: l l
heat mode: EvapPresCntrl cool mode: FloatingHighPresCntrl
Constant Pressure Control In order to maintain a constant refrigerant pressure, the system calculates: l
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the refrigerant temperature setpoint (iEvapTempSetpCir/iCondTempSetpCir variable), see "Refrigerant Temperature Setpoint" on page 38 the refrigerant evaporation/condensation temperature (iEvapTempCir/iCondTempCir variable) based on the refrigerant type (E2_usiRefrigerantType parameter) and pressure measurements the speed of the secondary heat exchanger's fan stages to modulate air volume through the heat exchanger
Refrigerant Temperature Setpoint The system calculates the refrigerant temperature setpoint in three different modes (E2_ usiFanEvapControlMode/E2_usiFanCondControlMode parameters): l
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floating (0): the setpoint is calculated based on the outdoor air temperature (iOutdoorAirTemp variable) and on a constant offset (E2_iFanEvapTempOffset/E2_ iFanCondTempOffset parameter) floating with variable offset (1): the setpoint is calculated based on the outdoor air temperature (iOutdoorAirTemp variable) and on a variable offset (iFanEvapTempOffsetAtMin/iFanCondTempOffsetAtMinand iFanEvapTempOffsetAtMax/iFanCondTempOffsetAtMax parameters) fixed (2): the setpoint is provided by the E2_iFanEvapTempExtSetp/E2_ iFanCondTempExtSetp parameter.
Further Information For further information about pressure management, see SR_FanCir1Cntrl and SR_FanCir2Cntrl programs. 38
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PLC Project
Circuit Management Introduction This function is implemented in the SR_CircuitCompCntrl program. The CircuitMgmt AFB is used to control a double circuit rack of compressors for a heat pump system. It splits power percentage driven by the control AFB (PidAdvanced) in the two circuits to optimize functionalities and energy consumption of compressors. Each circuit is managed by the CompMgmtVS AFB. Power Splitting Strategies Power can be split between the two circuits using two different strategies (E2_ usiCircRegulStrategy parameter): l l
balance (TRUE): splitting the power in a homogeneous way between the circuits saturation (FALSE): using first one of the circuits and then the other only if necessary
Further Information For further information about circuit management, see SR_CircuitCompCntrl program.
Pumps Management Introduction This function is implemented in the SR_PumpCntrl program. The system manages two pumps, a main pump (with VSD) and a redundant pump (contactor). The main pump, if present and not in alarm, is energized when the system is powered up. Pump activation and error detection is managed by the RedundantPumpCntrl AFB. Main Pump Management Strategies The main pump can be managed in two ways (E2_xPumpFixedSpeed parameter): l l
with fixed speed (TRUE), defined by the E2_uiPumpSetFixedSpeed parameter with automatic modulation (FALSE) on the differential between input and output water temperature in heat and cool working mode (E2_uiPumpDiffSetpHeat/E2_ uiPumpDiffSetpCool, E2_uiPumpPbHeat/E2_uiPumpPbCool, E2_uiPumpTi, E2_ uiPumpTd parameters)
Pumps Management During Defrost When the machine works in defrost mode, the pump works at minimum speed. Further Information For further information about how the pumps are managed, see SR_PumpCntrl program.
Coefficient Of Performance (COP) Calculation Introduction This function is implemented in the SR_FlowCalculation and SR_COPCalculation programs. Heat pump COP is the ratio between thermal power and electrical power and it defines the efficiency of the heat pump, both in heat and cool mode. Electrical power is calculated by the energy meter; thermal power is calculated internally by the system. COP calculation is not active during defrost and heating/cooling changeover. Data for Thermal Power Calculation For mass flow and enthalpy calculation, necessary for thermal power calculation, the system uses: l
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data provided by the operator: l compressors characteristics, see "How to Define Compressor Characteristics" on page 40 l refrigerant type (E2_usiRefrigerantType parameter)
39
Software Components
l
for each circuit, data already present in the system: l high pressure sensors (iHighPressCir1 and iHighPressCir2 variables) l low pressure sensors (iLowPressCir1 and iLowPressCir2 variables) l evaporator output temperature sensors (iEvapOutTempCir1 and iEvapOutTempCir2 variables) l condenser output temperature sensors (iCondOutTempCir1 and iCondOutTempCir2 variables) NOTE: For each circuit, the value of the iCondOutTempCir variable is read from two different probes according to the working mode of the machine (heat/cool). If a probe is not connected, the COP calculation during the related working mode (heat/cool) is disabled. l
number of energized compressors and speed
NOTE: No additional flow meters are needed. How to Define Compressor Characteristics NOTE: The SR_COPCalculation program assumes that all compressors have the same characteristics.
40
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PLC Project
Step
Example
1. Gather the following compressors data (see only the highlighted data in the datasheet of the compressor used as example): l mass flow values related to condensing temperature (5 values) and evaporating temperature (8 values) l superheat l speed
© 2010 Emerson Climate Technologies, Inc. 2. Organize mass flow data in a 5 x 8 matrix, with the condensing temperatures as rows and the evaporating temperatures as columns, both in increasing order. In the example, missing mass flow values are taken as the same value of the lower condensing temperature value. 3. If necessary, l convert mass flow values in g/s. In the example kg/h have been converted to g/s. l scale mass flow values coherently with the compressors nominal speed defined in the E2_uiCompNomFreq parameter. If in the example, data are relative to 60 Hz and the compressors nominal speed is 60 Hz (E2_uiCompNomFreq = 60 Hz), then there is no need to scale the values.
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Evap t (°C)/ Cond t (°C)
-19
-14
-10
32
794
972
1135
1360
1615
1840
2080
2410
41
772
950
1115
1340
1600
1825
2070
2410
46
772
933
1095
1325
1585
1815
2070
2410
51
772
933
1075
1310
1570
1802
2050
2400
56
772
933
1075
1285
1550
1785
2040
2390
-14
-10
-5
0
4
8
13
Evap t (°C)/ Cond t (°C)
-19
-5
0
4
8
13
32
220,6 270,0 315,3 377,8 448,6 511,1 577,8 669,4
41
214,4 263,9 309,7 372,2 444,4 506,9 575,0 669,4
46
214,4 259,2 304,2 368,1 440,3 504,2 575,0 669,4
51
214,4 259,2 298,6 363,9 436,1 500,6 569,4 666,7
56
214,4 259,2 298,6 356,9 430,6 495,8 566,7 663,9
41
Software Components
Step
Example
4. In the PLC project in Global variables > Constants > Ungrouped_vars insert: l in the five vectors (aiMFOEML1,aiMFOEML2, aiMFOEML3, aiMFOEML4, aiMFOEML5) the eight mass flow values (expressed in decimal) at each condensation temperature l in the aiTCondRange vector the five condensation temperatures l in the aiTEvapRange vector the eight evaporator temperatures 5. If necessary, in the PLC project in SR_FlowCalculation program (row 0007 and 0008) insert the superheat of the compressors. Default = 11.1 K (expressed in decimal).
l
l
l
l
l
l l
aiMFOEML1 = [2206, 2700, 3153, 3778, 4486, 5111, 5778, 6694] aiMFOEML2 = [2144, 2639, 3097, 3722, 4444, 5069, 5750, 6694] aiMFOEML3 = [2144, 2592, 3042, 3681, 4403, 5042, 5750, 6694] aiMFOEML4 = [2144, 2592, 2986, 3639, 4361, 5006, 5694, 6667] aiMFOEML5 = [2144, 2592, 2986, 3569, 4306, 5958, 5667, 6639] aiTCondRange = [32, 41, 46, 51, 56] aiTEvapRange =Â [-19, -14, -10, -5, 9, 4, 8, 13]
Further Information For further information about COP calculation, see SR_FlowCalculation and SR_COPCalculation programs.
PID Management Setting PID Parameters This function is implemented in the SR_CircuitCompCntrl program. The water regulation PID parameters can be defined using the following methods: l
l
manually (E2_uiCompressorsPBCool, E2_uiCompressorsPBHeat, E2_ uiCompressorsTi, E2_uiCompressorsTd) with auto-tuning function (E2_uiCompressorsPBCool, E2_uiCompressorsPBHeat,E2_ uiCompressorsTi only)
The selected working mode (heat/cool) determines if the parameters E2_uiCompressorsPBCool or E2_uiCompressorsPBHeat must be used and/or calculated. For instructions on how to enable the auto-tuning function: l l
on controller or remote display, see "PID Compressors Test" on page 67 on web site: see "PID Compressors Test" on page 49
Further Information For further information about PID management see PIDAutoTuning and PIDAdvanced AFB descriptions in Application function HVAC library guide.
Working Mode Scheduling Introduction This function is implemented in the SR_WaterSetAndScheduler program. The system can be scheduled in the following modes (E2_usiEventID parameters):
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PLC Project
l
l l l l l l l
economy on, in which an offset (E2_iWaterSetEcoOffset parameter) is subtracted/added to the water regulation setpoint according to the machine working mode (heat/cool) economy off, in which no offset is applied heat cool defrost circuit 1 defrost circuit 2 occupation off
If the OptimumStart AFB is enabled, the scheduled start-up time in occupation mode can change on the basis of the time calculated by the OptimumStart AFB, see "Optimum Start" on page 35. Schedulers The working mode of the system can be defined using two different schedulers: l l
weekly scheduler: to plan the working mode during the week yearly scheduler: to plan economy mode periods (e.g.: holiday closings)
If a certain period is managed both with the yearly and the weekly scheduler and the two are in conflict, the yearly scheduler prevails. For instructions on how to set the schedulers: l l
from the controller or remote display, see "Scheduler" on page 68 from the web site: see "Scheduler" on page 50
Further Information For further information about working mode scheduling, see SR_WaterSetAndScheduler program.
QR Code Introduction This function is implemented in the SR_QRcodeGen program. The QR code is an image that allows quick access to a URL or to web resources with a mobile device (by default the web page of this TVDA). The image is displayed only on the controller and remote display pages (selecting QRcode in the main menu), not on the web site pages. Customizing the QR Code In Init > Sr_Init program, modify the following variable: l
sQRSource: string to be displayed (e.g. URL or web site path)
Further Information For further information about the QR code, see the QRCodeGenDisplay AFB description in Application function HVAC library guide.
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43
Web Site Introduction Description The web site pages have been designed to set and monitor the system by accessing the controller web server from a web browser. These pages are resources of the PLC project. To modify them, open the TVDA_HeatPump.plcprj file, they can be found in Resources, Web site. NOTE: Schneider Electric adheres to industry best practices in the development and implementation of control systems. This includes a "Defense-in-Depth" approach to secure an Industrial Control System. This approach places the controllers behind one or more firewalls to restrict access to authorized personnel and protocols only.
WARNING UNAUTHENTICATED ACCESS AND SUBSEQUENT UNAUTHORIZED MACHINE OPERATION Evaluate whether your environment or your machines are connected to your critical infrastructure and, if so, take appropriate steps in terms of prevention, based on Defense-inDepth, before connecting the automation system to any network. Limit the number of devices connected to a network to the minimum necessary. Isolate your industrial network from other networks inside your company. Protect any network against unintended access by using firewalls, VPN, or other, proven security measures. Monitor activities within your systems. Prevent subject devices from direct access or direct link by unauthorized parties or unauthenticated actions. Prepare a recovery plan including backup of your system and process information.
l
l l l
l l
l
Failure to follow these instructions can result in death, serious injury, or equipment damage. Accessing the Web Site NOTE: The web site can only be accessed if the web server has been downloaded on the controller from the EcoStruxure Machine Expertâ&#x201E;˘ - HVAC software. 1. Enter the IP address of the controller in the address bar in the web browser. 2. Enter EcoStruxure Machine Expertâ&#x201E;˘ - HVAC default credentials (Username: administrator, Password: password): the web site main page is displayed. Page Description
A
D
44
B
C
E
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Web Site
Part
Description
A
Connection status between the pc and the controller server web:
B C D E
: connected l : not connected Date and time of last page update Goes back to the upper level page List of pages. Click + to go to display lower level pages. Page specific content l
Buttons Description Part
Function Opens the variable graphic. Click + to add other variables choosing them from other variables displayed in the same page. Parameters pages only. Saves on the local disk a .txt file containing the settings for the selected parameters Parameters pages only. Uploads the parameter settings from a .txt file Saves the values of the selected parameters on the controller Displays the values on the controller for the selected parameters
Setting Parameters NOTE: All parameter pages are password protected (default password is "1234"). See "Password Management" on page 45. 1. 2. 3. 4. 5.
Select a parameter page. Click : the parameters already set are displayed. Enter the parameter values. Select the parameter changed. Click to save the values on the controller.
Password Management To change the password, in the PLC project, in Resources, Web site select the page and edit the Password box. Change the default password upon first use. In addition, consider carefully the implications for giving any access to other people.
WARNING UNAUTHORIZED DATA ACCESS l l
Immediately change any and all default passwords to new, secure passwords. Do not distribute passwords to unauthorized or otherwise unqualified personnel.
Failure to follow these instructions can result in death, serious injury, or equipment damage. NOTE: A secure password is one that has not been shared or distributed to any unauthorized personnel and does not contain any personal or otherwise obvious information. Further, a mix of upper and lower case letters and numbers offer greater security. You should choose a password length of at least seven characters. Do not exceed 50 characters and use only alpha-numeric characters. 12/18
45
Template Pages Introduction Specific templates have been designed for this TVDA to make the web site creation easier. Content Types The table below presents the description of the contents available in the templates: Content Type
Description
Text - Read-only variable for plotting graph
Analog variable displayed as value and as a graphic
Image - Read-only variable for showing image for boolean values
Boolean variable displayed as a LED:
Example Image
: on : off Command button. Click the button to set the value of the linked variable to TRUE. l l
Button - Button to write to the PLC
Text - Read/Write textbox
General parameter displayed as a text box
Image - Alarms
Alarms displayed as icons: l l
: active : inactive
Template Types The table below presents descriptions of the available templates:
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Web Site
Example Page in Heat Pump TVDA Web Site
Template Name
Description
TVDACalendar
60 parameters, 3 for each event Weekly Scheduler (2 displayed as text box and 1 as weekly calendar)
TVDAChiller
l l
l
l l
TVDAChillerCircuit
l l
l
l l
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Heat pump image 10 analog variables displayed as values and as graphics 5 boolean variables displayed as LEDs 5 command buttons 5 parameters displayed as text boxes
Air-Water Heat Pump
Circuit image 10 analog variables displayed as values and as graphics 5 boolean variables displayed as LEDs 5 command buttons 5 parameters displayed as text boxes
Circuit 1
47
Template Name
Description
Example Page in Heat Pump TVDA Web Site
TVDAlarms
50 alarms displayed as icons
Alarms
TVDAParameter
100 general parameters displayed as text boxes
Parameters general
TVDAResources
l
l
l l
35 analog variables displayed as values and as graphics 25 boolean variables displayed as LEDs 5 command buttons 5 parameters displayed as text boxes
PIDÂ compressors test
Creating a Web Page from a Template Step
Action
1
In the PLC project, in Resources, right-click on Web site and select Add Template page. Select a template and click OK: the new page is displayed in the resources list below Web Site. Open the new page. In Page title enter the title for the browser page.
2 3 4
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Web Site
Step
Action
5
In Site template, click Choose and select the TVDA.sitetempl site template (in the EcoStruxure Machine Expertâ&#x201E;˘ - HVAC installation folder Catalog\FreeAdvance\WebSiteTemplates\Base\) If necessary, modify the refresh time for the page and set a password. Enter the required variables/parameters and labels for the page. NOTE: Only the elements for which a variable or parameter has been associated are displayed.
6 7
Setting the Home Page of the Web Site The Home page is the first page listed in Resources, Web Site. To move a page, right-click on it and select Move up or Move down.
PID Compressors Test Page Description Element PID output Auto tune ID message Auto tune prop. band Auto tune integral time Manual mode (LED)
Description Compressors PID output Auto-tuning result
Reference Variable/Parameter rSpCompressors uiAutoTuneCompMessageID
Proportional band value (manual or uiAutoTuneCompPb calculated with auto-tuning) Integral time value (manual or calculated uiAutoTuneCompTi with auto-tuning) PID management mode: xCompressorsManualMode : auto mode : manual mode Auto-tuning activation status: l l
Auto tuning
: off : on Compressors control manual value Command to change Auto tune prop. band and Auto tune integral time values:
xStartAutoTuneCompressors
l l
Manual ouput Selection of PID parameters
l
l l l
uiCompressorsManualValue usiAutoTuneCompMode
0=values set in uiCompressorsPbCool /uiCompressorsPbHeat and in uiCompressorsTi 1= slow 2= medium 3=fast
NOTE: Auto tune prop. band and Auto tune integral time values in fast, medium and slow are calculated only at the end of auto-tuning (Auto tune ID message = 1/2/3), otherwise they are equal to parameters in manual. Manual mode (button)
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Command to start PID manual mode/stop PID auto mode
xCmdCompressorsManualMode
49
Element Auto mode Start auto tuning Stop auto tuning Save new parameters
Description Command to start PID auto mode/stop PID manual mode Command to start PID auto-tuning Command to stop PID auto-tuning Button to save Auto tune prop. band and Auto tune integral time values
Reference Variable/Parameter xCmdCompressorsAutoMode xCmdCompressorsManualMode xCmdCompressorsAutoMode xSaveAutoTuneParams
PID Parameters Auto-Tuning Process Stage
Description
1
2
In the PID compressors test page (default password =Â 1234), you start the autotuning, by pressing Start auto tuning button. Result: Auto tuning = and Auto tune ID message = 0. NOTE: For important information on password security, see "Password Management" on page 45 The system runs the auto-tuning and at the end:
3
it shows the result in Auto tuning ID message. it stops the auto-tuning: Auto tuning = . You: l l
l
l
select PID parameters changing the values in Selection of PIDÂ parameters and verify the machine behavior with the Auto tune prop. band and Auto tune integral time values calculated and showed accordingly. save the Auto tune prop. band and Auto tune integral time desired by clicking the Save new parameters button.*
* If Auto tune prop. band and Auto tune integral time have been modified but not saved, the new values are used for water regulation PID only until the system is power cycled, at which point the formerly saved values of the parameters will be applied. Depending on the working mode (heat/cool), the corresponding prop. band is saved.
WARNING UNINTENDED EQUIPMENT OPERATION Ensure that the correct PID parameters are saved before a power cycle. Failure to follow these instructions can result in death, serious injury, or equipment damage.
Scheduler Setting the Weekly Scheduler Step Action 1 2 3 4
50
Select the Weekly Scheduler page. Enter the password (default = 1234). Click : the parameters already set will be displayed. In Event ID define the type of event to start (no event = 0, occupied mode = 1, economy mode on = 2, off mode = 3, cool mode = 4, heat mode = 5, defrost mode on circuit 1 = 6, defrost mode on circuit 2 = 7, economy mode off= 8).
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Web Site
Step Action 5 6 7 8
In Time define the stat time of the event. Select the days in which to schedule the event. Repeat steps 2-4 to define when to start the new event and therefore stop the one set before. Click to save the values on the controller and confirm the schedule.
NOTE: For important information on password security, see "Password Management" on page 45 Setting the Yearly Scheduler Step
Action
1 2 3 4 5
Select the Yearly Scheduler page. Enter the password (default = 1234). Click : the parameters already set will be displayed. Define the month, day and time when to start the heat mode. Define the month, day and time when to stop the heat mode and start the cool mode. Select the parameters changed. Click to save the values on the controller and confirm the schedule.
6 7
NOTE: For important information on password security, see "Password Management" on page 45
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51
HMI Project Introduction Description The HMI project manages the HMI for the controller and the remote display. NOTE: The remote display HMI must be uploaded from the controller, for instructions see Modicon M171 - Performance Logic Controller, Hardware User Manual.
52
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HMI Project
Navigation Monitoring Pages Navigation Tree From Circuit 1 Circuit 2 pages are visible only if the heat pump has two circuits. Dotted arrows describe the navigation from circuit 2 pages to circuit 1 pages that is allowed only if navigation starts from circuit 1 pages. A
B
C
D
E
F
OK
G If alarms OK
OK
H
I
L
M
N
Key press and release Key press and hold
Circuit 1
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Circuit 2
53
Monitoring Pages Navigation Tree From Circuit 2 B
C
D
E
F
OK
OK
G
H
If alarms OK
L
N
Key press and release Key press and hold
Circuit 1
Circuit 2
Monitoring pages Part
54
Description
A
Circuit 1 compressors page
B
Circuit 2 compressors page
C D E F G H
Pumps page Splash page Circuit 1 page, home page of the system Circuit 2 page Alarm page Main menu
I
Circuit 1 fans and EEV page
See " Compressors Pages (Circuit 1 and 2)" on page 58 " Compressors Pages (Circuit 1 and 2)" on page 58 "Pumps Page" on page 61 "Circuit 1 and 2 Pages" on page 56 "Circuit 1 and 2 Pages" on page 56 "Alarm Page" on page 62 "Main Menu Navigation Tree" on page 55 "Main Menu Pages" on page 64 "Fans and EEV Page (Circuit 1 and 2)" on page 59
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HMI Project
Part
Description
See
L
Circuit 2 fans and EEV page
M N
Circuit 1 defrost page Circuit 2 defrost page
"Fans and EEV Page (Circuit 1 and 2)" on page 59 "Defrost Page (Circuit 1 and 2)" on page 63 "Defrost Page (Circuit 1 and 2)" on page 63
Main Menu Navigation Tree
A
QR code
Energy
B
I/0 View
Password
Part A B
Description Circuit 1 page, home page of the system Main menu
See "Circuit 1 and 2 Pages" on page 56 "Main Menu Pages" on page 64
Main Menu Key Functions For a description of the key functions in the monitoring pages see "Monitoring Pages Navigation Tree From Circuit 1" on page 53 and "Monitoring Pages Navigation Tree From Circuit 2" on page 54.
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55
Key ˄
Function Scroll up Increase/modify a value l Go to next label l Scroll down l Decrease/modify a value l Go to previous label l Exit menu page/ go back to previous menu l Move cursor to left in Edit mode l (press and hold) Exit Edit mode without saving Move cursor to right in Edit mode l Move to next level/menu (open folder, subfolder, parameter, value) l Enter/exit Edit mode l Confirm operation l l
˅
˂
˃ OK
Setting a Parameter Step Action 1 2 3
4 5 6 7
From the circuit pages, press and hold the OK key. Select the Settings menu and press the OK key. Insert the password and press the OK key. NOTE: No password is set by default, so you can use any password to access the parameters. Use the ˄ and ˅ keys to select a category of parameters then press the OK key to enter the submenu. Use the ˄ and ˅ keys to select a parameter then press the OK key to enter the edit mode Use the ˄, <, > and ˅ keys to select an option or set a value Press the OK key to confirm the option or the value.
Monitoring Pages Circuit 1 and 2 Pages
A
B C D E F G
Part A B C
56
Description System variables Circuit variables Circuit identifier
Reference Variable/Parameter -
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HMI Project
Part D
Description l l
E
F
: at least one alarm is active. : wiring short-or open-circuit
xIsAlarmActive/ xIsWiringFaultActive
NOTE: If both conditions are present, the icons are displayed alternatively. : Pb and Ti values used for PID calculation are not equal to those saved in memory.
Systemoperating status: : on, heat mode l : on, cool mode l : on and PID in manual mode l : off Password level, see "HMI Password Management" on page 70 l
G
Reference Variable/Parameter
uiAutoTuneCompPb uiAutoTuneCompTi E2_uiCompressorsPbCool/E2_ uiCompressorsPbHeat E2_uiCompressorsTi uiOperationMode xCompressorsManualMode
(HMI controller local variable) usiPermLevelCur
System Variables Part
Description
OUT SET
Outlet water temperature Water temperature setpoint Inlet water temperature
INT OAT Pum
Outdoor air temperature Start/stop command pump: 1: pump 1 on 2: pump 2 on VSD output pump
Unit of Measure
Reference Variable
°C/°F °C/°F
iOutletWaterTemp iCurrentWaterTempSet
°C/°F °C/°F -
iInletWaterTemp
% kW %
iPump rActivePower uiCOP (HMI controller local variable) rTotalCapacity = rReqCapacityCir1 + rReqCapacityCir2 (HMI controller local variable) rMaxCapacity = rCapMaxCir1 + rCapMaxCir2
Unit of Measure
Circuit 1 Reference Variable
iOutdoorAirTemp xPump1/ xPump2
l l
POW COP
Active power COP instant Percentage of capacity generated by the system
Circuit 1 and 2 Variables Part
Description
HP
High pressure
CnT
Condensation temperature Condensation temperature setpoint
SET
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Circuit 2 Reference Variable
bar/PSI °C/°F
iHighPressCir1 iCondTempCir1
iHighPressCir2 iCondTempCir2
°C/°F
iCondTempSetpCir1
iCondTempSetpCir2
57
Unit of Measure
Circuit 1 Reference Variable
Circuit 2 Reference Variable
Part
Description
COT
Condenser output temperature
째C/째F
iCondOutTempCir1
iCondOutTempCir2
LP EvT
Low pressure Evaporation temperature
bar/PSI 째C/째F
iLowPressCir1 iEvapTempCir1
iLowPressCir2 iEvapTempCir2
SH
Superheat Percentage of circuit capacity
K/R %
iSuperHeatCir1 rReqCapacityCir1 rCapMaxCir1
iSuperHeatCir2 rReqCapacityCir2 rCapMaxCir2
Compressors Pages (Circuit 1 and 2)
A
B
C
NOTE: The displayed variables depend on parameter settings. Part A
Description l
l
: compressor on nothing: compressor off
B
Total number of operating hours
h
C
Total number of starts
-
1
Compressor identifier 0.0% VSD output compressor 1 Circuit identifier On
58
Unit of Measure
Remaining time before minimum On time elapsed
% s
Circuit 1 Reference Variable/Parameter
Circuit 2 Reference Variable/Parameter
xComp1Cir1/ xComp2Cir1/ xComp3Cir1/ xComp4Cir1
xComp1Cir2/ xComp2Cir2/ xComp3Cir2/ xComp4Cir2
E2_udiOpHoursComp1Cir1/ E2_udiOpHoursComp2Cir1/ E2_udiOpHoursComp3Cir1/ E2_udiOpHoursComp4Cir1 E2_udiNbStartsComp1Cir1/ E2_udiNbStartsComp2Cir1/ E2_udiNbStartsComp3Cir1/ E2_udiNbStartsComp4Cir1 -
E2_udiOpHoursComp1Cir2/ E2_udiOpHoursComp2Cir2/ E2_udiOpHoursComp3Cir2/ E2_udiOpHoursComp4Cir2 E2_udiNbStartsComp1Cir2/ E2_udiNbStartsComp2Cir2/ E2_udiNbStartsComp3Cir2/ E2_udiNbStartsComp4Cir2 -
iComp1Cir1/ iComp2Cir1/ iComp3Cir1/ iComp4Cir1 -
iComp1Cir2/ iComp2Cir2/ iComp3Cir2/ iComp4Cir2 -
uiElapsedOnTimeComp1Cir1/ uiElapsedOnTimeComp2Cir1/ uiElapsedOnTimeComp3Cir1/ uiElapsedOnTimeComp4Cir1
uiElapsedOnTimeComp1Cir2/ uiElapsedOnTimeComp2Cir2/ uiElapsedOnTimeComp3Cir2/ uiElapsedOnTimeComp4Cir2
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HMI Project
Part
Description
Unit of Measure
Circuit 1 Reference Variable/Parameter
Circuit 2 Reference Variable/Parameter
Off
Remaining time before minimum Off time elapsed
s
uiElapsedOffTimeComp1Cir1/ uiElapsedOffTimeComp2Cir1/ uiElapsedOffTimeComp3Cir1/ uiElapsedOffTimeComp4Cir1
Cy
Remaining time before minimum cycle time elapsed
s
uiElapsedCycleTimeComp1Cir 1/ uiElapsedCycleTimeComp2Cir 1/ uiElapsedCycleTimeComp3Cir 1/ uiElapsedCycleTimeComp4Cir 1 xAlarmMotorComp1Cir1/ xAlarmMotorComp2Cir1/ xAlarmMotorComp3Cir1/ xAlarmMotorComp4Cir1 xOilPressSwitchComp1Cir1/ xOilPressSwitchComp2Cir1/ xOilPressSwitchComp3Cir1/ xOilPressSwitchComp4Cir1
uiElapsedOffTimeComp1Cir2/ uiElapsedOffTimeComp2Cir2/ uiElapsedOffTimeComp3Cir2/ uiElapsedOffTimeComp4Cir2 uiElapsedCycleTimeComp1Cir 2/ uiElapsedCycleTimeComp2Cir 2/ uiElapsedCycleTimeComp3Cir 2/ uiElapsedCycleTimeComp4Cir 2 xAlarmMotorComp1Cir2/ xAlarmMotorComp2Cir2/ xAlarmMotorComp3Cir2/ xAlarmMotorComp4Cir2 xOilPressSwitchComp1Cir2/ xOilPressSwitchComp2Cir2 xOilPressSwitchComp3Cir2/ xOilPressSwitchComp4Cir2
Reset command for operating hours Press the ˄ and ˅ keys to scroll the commands.
xCmdOpHoursResetComp1Cir 1/ xCmdOpHoursResetComp2Cir 1/ xCmdOpHoursResetComp3Cir 1/ xCmdOpHoursResetComp4Cir 1
xCmdOpHoursResetComp1Cir 2/ xCmdOpHoursResetComp2Cir 2/ xCmdOpHoursResetComp3Cir 2/ xCmdOpHoursResetComp4Cir 2
Compressor or alarm/ oil pressure alarm/ VSD alarm *
* Information received by VSD via serial communication (uiRMbATVDrvAlarmNodeX variable, where "X" is the Modbus address of the device). Fans and EEV Page (Circuit 1 and 2)
A
B
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59
Part Fans A
C1 0.0%
Description
Unit of Measure
For each fan h stage, total number of operating hours
l l
E2_ udiOpHoursFanStage1Cir2/ E2_ udiOpHoursFanStage2Cir2/ E2_ udiOpHoursFanStage3Cir2/ E2_ udiOpHoursFanStage4Cir2 -
iCondFanCir1
iCondFanCir2
K/R -
iSubCoolingCir1 xCondFan1Cir1/ xCondFan2Cir1/ xCondFan3Cir1/ xCondFan4Cir1
iSubCoolingCir2 xCondFan1Cir2/ xCondFan2Cir2/ xCondFan3Cir2/ xCondFan4Cir2
-
xAlarmCondFan1Cir1 / xAlarmCondFan2Cir1 / xAlarmCondFan3Cir1 / xAlarmCondFan4Cir1 xCmdOpHoursResetFansCir1
xAlarmCondFan1Cir2 / xAlarmCondFan2Cir2 / xAlarmCondFan3Cir2 / xAlarmCondFan4Cir2 xCmdOpHoursResetFansCir2
xSolenoidCir1
xSolenoidCir2
-
-
-
%
uiRMbTM171VEVOpenCir1
uiRMbTM171VEVOpenCir2
K/R
iSuperHeatCir1
iSuperHeatCir2
: on : off
Alarm condenser fan stage
Reset h Reset command for operation hours of all fans EEV B Start/stop h command solenoid valve: l l
C1 0.0%
SH
60
Circuit 2 Reference Variable/Parameter
E2_ udiOpHoursFanStage1Cir1/ E2_ udiOpHoursFanStage2Cir1/ E2_ udiOpHoursFanStage3Cir1/ E2_ udiOpHoursFanStage4Cir1 -
Circuit identifier VSD output % condenser
SC Subcooling 1/ 2/ 3/ 4 Start/stop command fan stage 1/ 2/ 3/ 4:
Circuit 1 Reference Variable/Parameter
: on : off
Circuit identifier Valve opening from EEV drive Superheat
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HMI Project
Part E
ST
Description
Unit of Measure
Errors from EEV driver. (First dot =Â Er15, last dot = Er01) For error legend, see Modicon M171 Electronic Expansion Valve Drivers, User Manual. Status from EEV driver. (First dot = EEV_ STTS_ FORCE_ OPEN- bit 7; last dot = EEV_ STTS_ON bit 0). For status legend, see Modicon M171 Electronic Expansion Valve Drivers, User Manual.
Circuit 1 Reference Variable/Parameter
Circuit 2 Reference Variable/Parameter
uiRMbTM171VEVErrorCir1
uiRMbTM171VEVErrorCir2
uiRMbTM171VEVStatusCir1
uiRMbTM171VEVStatusCir2
Pumps Page
A
B
C
D
NOTE: The displayed variables depend on parameter settings.
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61
Part A B C D 0.0% 1
Remaining time before pump 1 switches over to pump 2 Remaining time before pump 2 switches over to pump 1 Total number of operating hours pump 1 Total number of operating hours pump 2 VSD output pump Start/stop command pump 1:
uiRemainTimePump1
h
uiRemainTimePump2
h h % -
E2_udiOpHoursPump1 E2_udiOpHoursPump2 iPump xPump1 uiRMbATVDrvAlarmNode21
Alarm thermal block pump 1
-
xAlarmThermBlockPump1
Start/stop command pump 2:
-
xPump2
-
xAlarmThermBlockPump2
l
l l
: on : off
: on : off
Alarm thermal block pump 2 Idle t Reset h
Flow switch
Reference Variable/Parameter
h
l
2
Unit of Measure
Description
Remaining time before pump starts for h uiPModeRunTime Reset command for operation hours of all pumps. To reset, press OK key
uiRemainIdleTimePumps
Pump flow switch
xPumpFlowSwitch
-
xOpHoursResetPumps
Alarm Page
C
A B
Part
Description
A B C
Alarm ID Alarm description The upper value is the progressive number of the displayed alarm. The lower value is the total number of alarms. Resets all alarms. The alarms list is refreshed: only the alarms whose causes are still active are displayed.
RESET ALL
62
Reference Variable See "General Alarms" on page 96 Â -
xCmdAlarmsReset
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HMI Project
Defrost Page (Circuit 1 and 2)
A
Part
Description
Unit of Measure
A
Circuit identifier Valve Mode of the reversing valve: : cool mode l : heat mode Heater Status of the heating resistor:
Circuit 1 Reference Variable xReversingValveCir1
Circuit 2 Reference Variable xReversingValveCir2
l
-
: off : on l : alarm Status Defrost status: 0 â&#x20AC;&#x201C; 13 For status legend, see HPDefrostAndRevVa lve in Application function HVAC library guide Next Time to next defrost min on the circuit Timer Remaining time to the s/min end of the present defrost status Wait Time to wait for next min defrost on the circuit if defrost has been launched on the other circuit StartD Command to start ef defrost manually l
xHeatingResistorCir1 xHeatingResistorCir2 xAlarmThermHeatResistor xAlarmThermHeatResistor Cir1 Cir2
l
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usiDefrostStatusCir1
usiDefrostStatusCir2
uiTimerNextDefrostCir1
uiTimerNextDefrostCir2
uiTimerDefrPhaseCir1
uiTimerDefrPhaseCir2
uiTimerNextDefrost
uiTimerNextDefrost
xDefrostStartCir1
xDefrostStartCir2
63
Main Menu Pages Main Menu Description Menu Item
Description
See
Settings
Configuration and application parameters NOTE: An access password is required, see "HMI Password Management" on page 70.
QR code Energy
QR code to access the URL defined in the PLC project (by default the web page of this TVDA) Energy values and trends, COP values and trends
"Settings Menu Description" on page 64 "Parameter Page Description" on page 64 "QR Code" on page 43
I/O view
Status of the analog and digital I/Os
Password Password management
"Energy Menu Description" on page 66 " I/O View Menu Description" on page 66 "I/O View Page Description" on page 66 "HMI Password Management" on page 70
Settings Menu Description Menu Item
Description
Param. general Param. compressors Parameters EEV1 Parameters EEV2 Parameters defrost
General system parameters
Parameters fans Parameters pumps Yearly scheduler Weekly scheduler PID comp. test
Condenser fans parameters Pumps parameters
Optimum start Expert
Optimum start monitoring and management See "Expert Menu Description" on page 65
Compressors parameters EEV driver 1 parameters EEV driver 2 parameters Defrost parameters
Economy mode periods planning, see "Scheduler" on page 68 Weekly working mode planning, see "Scheduler" on page 68 Manual PIDÂ setting and auto-tuning management, see "PID Compressors Test" on page 67
Parameter Page Description
F A B C D E 64
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HMI Project
Part A B C D E F
Description Submenu title Parameter name Parameter description Value/option Only for values, unit of measure The upper value is the progressive number of the displayed parameter The lower value is the total number of parameters in the submenu
Optimum Start Page Description
A
Part A
Description Subtitle menu Enable OptimumStart FB State of the OptimumStart FB Working mode of the OptimumStart FB
Enable State Mode Calc. time Time to next Optimum Start Start Cmd. Start machine command Reset Command to reset OptimumStart FB Expert Menu Description Menu Item
Description
AI Parameters to define the probe type, the operating range and offset value, if any configuration AO Parameters to define the analog outputs type configuration RS485 Parameters to define RS485 Modbus communication config. Ethernet Parameters to define Ethernet communication config. Clock config. Date and time setting, see "Clock Settings" on page 70, useful for machine working mode planning (see "Working Mode Scheduling" on page 42)
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Energy Menu Description Menu Item Current values
Reference Variable/Parameter
Description Energy related information:
l l
Active power Thermal power l Active energy l Thermal energy l Mass flow 1 l Mass flow 2 Energy consumption trends: l
l
l
Trends
l l l
l l
COP
l l
Daily consumption (present and previous day) Weekly consumption (present and previous week) Monthly consumption (present month, previous month, past 12 months) Yearly consumption (present and previous year) Period consumption (present and previous period, present period start).
NOTE: Start time of the present period is the last time the RESET button was pressed. COP values: l l l l
RESET
l
See "Energy" on page 91
l l
Instant COP Short-term COP Long-term COP COP period start
l
NOTE: Start time of the period is the last time the RESET button was pressed. Reset of trend values, energy trend period and COP period. NOTE: Last reset date and time are displayed in Curr. period start and COP period start.
rActivePower rThermalPower rActiveEnergy rThermalEnergy uiMassFlowCir1 uiMassFlowCir2
uiCOP uiShortTermCOP uiLongTermCOP
xCmdConsumReset
I/O View Menu Description Menu Item
Description
Analog inputs Analog outputs
Analog inputs description and values Analog outputs description and values
Digital inputs Digital outputs
Digital inputs description and statuses Digital outputs description and statuses
I/O View Page Description
E A B C D 66
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HMI Project
Part A B C D E
Description Submenu title I/O identifier (E = expansion module) I/O description I/O status The upper value is the progressive number of the displayed I/O The lower value is the total number of I/Os in the submenu
PID Compressors Test PID Page
A B C Part A B C
0.0% SET ID Pb Ti SAVE
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Description
Unit of Measure
PID management mode and button to change it Auto-tuning activation status and button to start/stop the auto-tuning l manual: Pb and Ti values set manually in uiCompressorsPbCool /uiCompressorsPbHeat and uiCompressorsTi parameters (in Settings > Par. compressors) l fast/ medium/ slow: Pb and Ti values calculated post auto-tuning NOTE: Pb and Ti values in fast, medium and slow are calculated only at the end of auto-tuning (ID = 1/2/3), otherwise they are equal to parameters in manual. Compressors PID output Compressors control manual value Auto-tuning result Proportional band value (manual or calculated with auto-tuning) Integral time value (manual or calculated with auto-tuning) Button to save Pb and Ti values
Reference Variable xCompressorsManualMode xStartAutoTuneCompressors usiAutoTuneCompMode
% % °C/ °F
rSpCompressors uiCompressorsManualValue uiAutoTuneCompMessageID uiAutoTuneCompPb
s
uiAutoTuneCompTi
-
xSaveAutoTuneParams
67
PID Parameters Auto-Tuning Process Stage 1
Description
2
You start the auto-tuning, selecting the button in B. Result: tune ON = and ID = 0. The system runs the auto-tuning and at the end:
3
in ID it shows the result. it stops the auto-tuning: tune OFF = You: l l
l
l
.
select PID parameters changing the values in C and verify the machine behavior with the Pb and Ti values calculated and showed accordingly. save the Pb and Ti desired pressing the SAVE button.*
* If Pb and Ti have been modified, but not saved, the new parameter values are used for water regulation PID only until the system is power cycled, at which point the formerly saved values of the parameters will be applied. The icon on circuit page alerts that the values presently in use are not saved. Depending on the working mode (heat/cool), the corresponding Pb is saved.
WARNING UNINTENDED EQUIPMENT OPERATION Ensure that the correct PID parameters are saved before a power cycle. Failure to follow these instructions can result in death, serious injury, or equipment damage.
Scheduler Weekly Scheduler
C
A
D
B
68
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HMI Project
Part
Description
A
Type of event:
B
OCCUPAT.: the system works in occupied mode l ECO ON: the system works in economy mode l ECO OFF: the system works in normal mode l COOL: the system works in cool mode l HEAT: the system works in heat mode l DEFROST CIR1: the system works in defrost mode on circuit 1 l DEFROST CIR2: the system works in defrost mode on circuit 2 l NOÂ EVENT: no event set l OFF: the system is off For each day of the week:
Reference Parameter E2_usiEventID parameters
l
: the event will occur that day of the week : the event will not occur that day of the week l Progressive number of the displayed event l Total number of available events Start time of the set event NOTE: If the event type is NO EVENT, the event is disabled.
E2_usiEventWeekDays parameters
l l
C D
E2_uiEventTime parameters
Sequence of procedures to Set the Weekly Scheduler 1. Select the field to modify, using the < and > keys. 2. Define the type of event to start (e.g. economy mode). 3. Define the start time of the event. 4. Select the days to schedule the event, using the < and > keys to move on the day button and press the OK key to toggle the day status. 5. Press the Ë&#x2026; key to display the following event and repeat steps 1-4 to define when to start the new event and therefore stop the previous one. 6. Press and hold the < key to exit. Yearly Scheduler
D
A B C Part
Description
A
Parameter name
B
Parameter description
Reference Parameter l l l l
C
Parameter option
l l
D
l l
12/18
Progressive number of the displayed event Total number of available events
E2_usiStartDayMonth E2_usiStartHours E2_usiStartMonth E2_usiStopDayMonth E2_usiStopHours E2_usiStopMonth
69
Sequence of procedures to Set the Yearly Scheduler 1. Define the month, day and time when to start the heat mode. 2. Define the month, day and time when to stop the heat mode and start the cool mode.
Clock Settings Setting Date and Time
Step Action 1 2 3
Use the < and > keys to select the field to modify. To modify the field, press the OK key: the UPDATE button is displayed and the icon flashes. To save the changes, select UPDATE and press the OK key: the UPDATE button disappears and the icon stops flashing.
HMI Password Management Introduction To set parameters you need to enter a password having the same level as the parameter itself. There are four password/parameter levels, where level 0 is the least restrictive. By default, all parameters are set to level 0 and no default factory password is set. Identifying the Password Level The password level (usiPermLevelCur local variable) is contained in the circuit page [A] and can be displayed by entering the password in the Settings menu [B].
A
B
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HMI Project
Changing the Password Level for a Parameter Step Action 1 2 3
Open the HMI_TVDA_HeatPump.pajx file. In Resources, Sets change the Visible parameter property to the desired level (e.g.: PermLevActive[1] = permission level 1). Repeat in all the sets where the parameter is included.
Modifying the Password Step Action 1 2
On the controller or the remote display, go to Password > Edit Password, and enter the present password: the Edit Password page is displayed. Select the desired password level and enter the new password. Reference variables are: l l l
E2_uiPwdPermLev1: level 1 password E2_uiPwdPermLev2: level 2 password E2_uiPwdPermLev3: level 3 password NOTE: Only the passwords for the present or lower level passwords can be changed.
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Variables Description Data Type of the VariablesIntroduction The names of the variables include reference to the data type as follows: l l l l l l l
x = BOOL i = INT ui = UINT si = SINT usi = USINT udi = UDINT r = REAL
For example, the variable xCmdAlarmsReset is boolean. NOTE: The following lists only include TVDA project variables which can also be accessed from the controller or remote display. For information about each variable (such as the Modbus address, where it is displayed on the controller and remote display, and which AFB uses it), see "I/O Variables" on page 111 and "Other Variables" on page 117.
I/O Variables Digital Inputs Variable Name
Description
I/O Identifier *
Circuit 1 xAlarmComp1Cir1
Alarm compressor 1
xAlarmComp2Cir1
Alarm compressor 2
DI1 (C) DI2 (C)
xAlarmComp3Cir1
Alarm compressor 3
-
xAlarmComp4Cir1
Alarm compressor 4
-
xAlarmFan1Cir1
Alarm fan stage 1
xAlarmFan2Cir1
Alarm fan stage 2
DI7 (C) DI8 (C)
xAlarmFan3Cir1
Alarm fan stage 3
-
xAlarmFan4Cir1
Alarm fan stage 4
-
xHPSwitchCir1
Alarm high pressure
xLPSwitchCir1
Alarm low pressure
DI5 (C) DI6 (C)
xOilPressSwitchComp1Cir1
Oil pressure compressor 1
xOilPressSwitchComp2Cir1
Oil pressure compressor 2
DI3 (C) DI4 (C)
xOilPressSwitchComp3Cir1
Oil pressure compressor 3
-
xOilPressSwitchComp4Cir1 xAlarmThermHeatResistorCir1
Oil pressure compressor 4 Alarm Heating Resistor
DI9 (C)
Circuit 2 xAlarmComp1Cir2
Alarm compressor 1
xAlarmComp2Cir2
Alarm compressor 2
DI1 (E) DI2 (E)
xAlarmComp3Cir2
Alarm compressor 3
-
xAlarmComp4Cir2
Alarm compressor 4
-
xAlarmFan1Cir2
Alarm fan stage 1
xAlarmFan2Cir2
Alarm fan stage 2
AI7 (E)** AI8 (E)**
xAlarmFan3Cir2
Alarm fan stage 3
-
xAlarmFan4Cir2
Alarm fan stage 4
-
xHPSwitchCir2
Alarm high pressure
xLPSwitchCir2
Alarm low pressure
DI5 (E) DI6 (E)
xOilPressSwitchComp1Cir2
Oil pressure compressor 1
DI3 (E)
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Variables Description
Variable Name
Description
I/O Identifier *
xOilPressSwitchComp2Cir2
Oil pressure compressor 2
DI4 (E)
xOilPressSwitchComp3Cir2
Oil pressure compressor 3
-
xOilPressSwitchComp4Cir2 xAlarmThermHeatResistorCir2
Oil pressure compressor 4 Alarm Heating Resistor
AI9 (E)**
General xAlarmThermBlockPump1
Alarm pump 1
xAlarmThermBlockPump2
Alarm pump 2
DI10 (C) AI10 (E)**
xCommonAlarm
Common alarm
xEmergencyStop
Emergency stop switch
xLocalStartStop
Local start/stop
xPumpFlowSwitch
Pump/Evaporator flow switch
AI12 (C) ** DI11 (C)
xRemoteStartStop
Remote start/stop
AI1 (C) **
AI2 (C) ** DI12 (C)
* E = expansion module terminal, C = controller terminal. ** Analog input used as digital input. Analog Inputs Variable Name
Description
Unit
Format I/O Identifier *
Circuit 1 iCondOutTempCir1
Sensor condenser output temperature
°C/ °F XXX.Y
iDischTempComp1Cir1 Sensor discharge temperature compressor 1
°C/ °F XXX.Y
AI10 (C) in cool mode, Pb4 (EEV1) in heat mode AI7 (C)
iDischTempComp2Cir1 Sensor discharge temperature compressor 2
°C/ °F XXX.Y
AI8 (C)
iDischTempComp3Cir1 Sensor discharge temperature compressor 3
°C/ °F XXX.Y
-
iDischTempComp4Cir1 Sensor discharge temperature compressor 4
°C/ °F XXX.Y
-
iEvapOutTempCir1
Sensor evaporator output temperature °C/ °F XXX.Y
iHighPressCir1
Sensor high pressure
bar/ PSI
XX.YY
Pb3 (EEV1) AI6 (C)
iLowPressCir1
Sensor low pressure
bar/ PSI
XX.YY
Pb1 (EEV1)
iEvapCoilTempCir1
Evaporator coil temperature (defrost) circuit 1
°C/°F
XXX.Y
AI11 (C)
Sensor condenser output temperature
°C/ °F XXX.Y
Circuit 2 iCondOutTempCir2
iDischTempComp1Cir2 Sensor discharge temperature compressor 1
°C/ °F XXX.Y
AI1 (E) in cool mode, Pb4 (EEV2) in heat mode AI3 (E)
iDischTempComp2Cir2 Sensor discharge temperature compressor 2
°C/ °F XXX.Y
AI4 (E)
iDischTempComp3Cir2 Sensor discharge temperature compressor 3
°C/ °F XXX.Y
-
iDischTempComp4Cir2 Sensor discharge temperature compressor 4
°C/ °F XXX.Y
-
iEvapOutTempCir2
Sensor evaporator output temperature °C/ °F XXX.Y
iHighPressCir2
Sensor high pressure
bar/ PSI
XX.YY
Pb3 (EEV2) AI6 (E)
iLowPressCir2
Sensor low pressure
bar/ PSI
XX.YY
Pb1 (EEV2)
iEvapCoilTempCir2
Evaporator coil temperature (defrost) circuit 2
°C/°F
XXX.Y
AI2 (E)
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Variable Name
Description
Unit
Format I/O Identifier *
General iOutletWaterTemp
Sensor outlet water temperature
°C/ °F XXX.Y
iInletWaterTemp
Sensor inlet water temperature
°C/ °F XXX.Y
iOutdoorAirTemp
Sensor outdoor air temperature
°C/ °F XXX.Y
iRoomTemp
Room temperature
°C/°F
XXX.Y
AI3 (C) AI4 (C) AI9 (C) Pb2 (EEV1)
* E = expansion module terminal, C = controller terminal, EEV1 = EEV driver circuit 1 terminal, EEV2 = EEV driver circuit 2 terminal. Digital Outputs Variable Name
Description
I/O Identifier *
Circuit 1 xReversingValveCir1
Start/Stop Command Reversing valve circuit 1
DO2 (C)**
xComp1Cir1
Start/stop command VSD compressor 1
xComp2Cir1
Start/stop command soft start compressor 2
DO4 (C)** DO5 (C)**
xComp3Cir1
Start/stop command compressor 3 circuit 1
xComp4Cir1
Start/stop command compressor 4 circuit 1
xFan1Cir1
Start/stop command fan stage 1
xFan2Cir1
Start/stop command fan stage 2
DO6 (C) DO7 (C)
xFan3Cir1
Start/stop command fan stage 3
DO12 (C)
xFan4Cir1
Start/stop command fan stage 4
-
xSolenoidCir1 xHeatingResistorCir1
Start/stop command solenoid valve Start/Stop Command Heating Resistor 1
DO8 (C) DO9 (C)
Circuit 2 xReversingValveCir2
Start/Stop Command Reversing valve circuit 2
DO7 (E)**
xComp1Cir2
Start/stop command VSD compressor 1
xComp2Cir2 xComp3Cir2
Start/stop command soft start compressor 2
DO1 (E)** DO2 (E)**
xComp4Cir2
Start/stop command compressor 4 circuit 2
xFan1Cir2
Start/stop command fan stage 1
xFan2Cir2
Start/stop command fan stage 2
DO3 (E) DO4 (E)
xFan3Cir2
Start/stop command fan stage 3
-
xFan4Cir2
Start/stop command fan stage 4
-
xSolenoidCir2 xHeatingResistorCir2
Start/stop command solenoidvalve Start/Stop Command Heating Resistor 2
DO5 (E) DO8 (E)
General xGeneralAlarm
General alarm
xPump1
Start/stop command pump 1
DO3 (C) DO1 (C)
xPump2
Start/stop command pump 2
DO9 (E)
DO10 (C)** DO11 (C)**
DO6 (E)** DO10 (E)**
Start/stop command compressor 3 circuit 2
* E = expansion module terminal, C = controller terminal. ** To be used if you do not want to use the Modbus command. Analog Outputs Variable Name
Description
Unit
Format
I/O Identifier *
Circuit 1 iComp1Cir1
Regulation command VSD compressor 1
%
XXX.Y
iComp2Cir1
Regulation command VSD compressor 2
%
XXX.Y
AO1 (C) ** AO4 (C) **
iComp3Cir1
Regulation command VSD compressor 3
%
XXX.Y
AO5 (C) **
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Variables Description
Variable Name
Description
Unit
Format
I/O Identifier *
iComp4Cir1
Regulation command VSD compressor 4
%
XXX.Y
iFanCir1
Regulation command VSD fan
%
XXX.Y
AO6 (C) ** AO2 (C) **
Circuit 2 iComp1Cir2
Regulation command VSD compressor 1
%
XXX.Y
AO1 (E) **
iComp2Cir2
Regulation command VSD compressor 2
%
XXX.Y
-
iComp3Cir2
Regulation command VSD compressor 3
%
XXX.Y
-
iComp4Cir2
Regulation command VSD compressor 4
%
XXX.Y
-
iFanCir2
Regulation command VSD fan
%
XXX.Y
AO2 (E) **
General iPump
Regulation command VSD pump 1
%
XXX.Y
AO3 (C) **
* E = expansion module terminal, C = controller terminal. ** To be used if you do not want to use the Modbus command.
Other Variables General Variable Name
Description
Unit
Format
Circuit 1 iCondTempCir1
Condensation temperature
°C/°F
XXX.Y
iCondTempSetpCir1
Condensation temperaturesetpoint
°C/°F
XXX.Y
iEvapTempCir1
Evaporation temperature circuit 1
°C/°F
XXX.Y
iEvapTempSetpCir1
Evaporation temperature current setpoint circuit 1
°C/°F
XXX.Y
iSuperHeatCir1
Superheat for circuit 1
K/R
XXX.Y
rCapMaxCir1
Maximum capacity for circuit 1
-
-
rReqCapacityCir1
Actual capacity for circuit 1
-
-
Circuit 2 iCondTempCir2
Condensation temperature
°C/°F
XXX.Y
iCondTempSetpCir2
Condensation temperature setpoint
°C/°F
XXX.Y
iEvapTempCir2
Evaporation temperature circuit 1
°C/°F
XXX.Y
iEvapTempSetpCir2
Evaporation temperature current setpoint circuit 2
°C/°F
XXX.Y
iSuperHeatCir2
Superheat for circuit 2
K/R
XXX.Y
rCapMaxCir2
Maximum capacity for circuit 2
-
-
rReqCapacityCir2
Actual capacity for circuit 2
-
-
General uiRemoteEventCmdTimer
Watchdog timer for external scheduler control
s
-
usiRemoteEventID
External scheduler event ID
-
-
iCurrentWaterTempSet
Water temperature setpoint
°C/°F
XXX.Y
xCmdOnOffToggle
Toggle ON/OFF status
-
-
xOnOffStatus
Global Machine ON/OFF Status
-
-
xOnOffRemote
ON/OFF Status from HMI
-
-
xDigitalHeatCool
Digital input heat/cool command
-
-
xRemoteHeatCool
Remote heat/cool command (TRUE= heat, FALSE=cool)
-
-
xModeHeatCool
Heat/cool mode status (TRUE=heat, FALSE=cool)
-
-
xCmdHeatCoolToggle
Toggle Heat/Cool status
-
-
uiOperationMode
Operation mode
-
-
xIsAlarmActive
Alarm active
-
-
xIsWiringFaultActive xEn
Wiring error active Global enable/disable
-
-
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Compressors Variable Name
Description
Unit
Format
Circuit 1 E2_udiNbStartsComp1Cir1
Total number of starts
-
-
E2_udiNbStartsComp2Cir1
Total number of starts
-
-
E2_udiNbStartsComp3Cir1
Total number of starts
-
-
E2_udiNbStartsComp4Cir1
Total number of starts
-
-
E2_udiOpHoursComp1Cir1
Total number of operating hours
h
-
E2_udiOpHoursComp2Cir1
Total number of operating hours
h
-
E2_udiOpHoursComp3Cir1
Total number of operating hours
h
-
E2_udiOpHoursComp4Cir1
Total number of operating hours
h
-
uiElapsedCycleTimeComp1Cir1
Remaining time before minimum cycle time elapsed compressor 1 circuit 1
s
-
uiElapsedCycleTimeComp2Cir1
Remaining time before minimum cycle time elapsed compressor 2 circuit 1
s
-
uiElapsedCycleTimeComp3Cir1
Remaining time before minimum cycle time elapsed compressor 3 circuit 1
s
-
uiElapsedCycleTimeComp4Cir1
Remaining time before minimum cycle time elapsed compressor 4 circuit 1
s
-
uiElapsedOffTimeComp1Cir1
Remaining time before minimum Off time elapsed compressor 1 circuit 1
s
-
uiElapsedOffTimeComp2Cir1
Remaining time before minimum Off time elapsed compressor 2 circuit 1
s
-
uiElapsedOffTimeComp3Cir1
Remaining time before minimum Off time elapsed compressor 3 circuit 1
s
-
uiElapsedOffTimeComp4Cir1
Remaining time before minimum Off time elapsed compressor 4 circuit 1
s
-
uiElapsedOnTimeComp1Cir1
Remaining time before minimum On time elapsed compressor 1 circuit 1
s
-
uiElapsedOnTimeComp2Cir1
Remaining time before minimum On time elapsed compressor 2 circuit 1
s
-
uiElapsedOnTimeComp3Cir1
Remaining time before minimum On time elapsed compressor 3 circuit 1
s
-
uiElapsedOnTimeComp4Cir1
Remaining time before minimum On time elapsed compressor 4 circuit 1
s
-
xCmdOpHoursResetComp1Cir1
Reset command for operation hours compressor 1 circuit 1
-
-
xCmdOpHoursResetComp2Cir1
Reset command for operation hours compressor 2 circuit 1
-
-
xCmdOpHoursResetComp3Cir1
Reset command for operation hours compressor 3 circuit 1
-
-
xCmdOpHoursResetComp4Cir1
Reset command for operation hours compressor 4 circuit 1
-
-
Circuit 2 E2_udiNbStartsComp1Cir2
Total number of starts
-
-
E2_udiNbStartsComp2Cir2
Total number of starts
-
-
E2_udiNbStartsComp3Cir2
Total number of starts
-
-
E2_udiNbStartsComp4Cir2
Total number of starts
-
-
E2_udiOpHoursComp1Cir2
Total number of operating hours
h
-
E2_udiOpHoursComp2Cir2
Total number of operating hours
h
-
E2_udiOpHoursComp3Cir2
Total number of operating hours
h
-
E2_udiOpHoursComp4Cir2
Total number of operating hours
h
-
uiElapsedCycleTimeComp1Cir2
Remaining time before minimum cycle time elapsed compressor 1 circuit 2
s
-
uiElapsedCycleTimeComp2Cir2
Remaining time before minimum cycle time elapsed compressor 2 circuit 2
s
-
uiElapsedCycleTimeComp3Cir2
Remaining time before minimum cycle time elapsed compressor 3 circuit 2
s
-
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Variables Description
Variable Name
Description
Unit
Format
uiElapsedCycleTimeComp4Cir2
Remaining time before minimum cycle time elapsed compressor 4 circuit 2
s
-
uiElapsedOffTimeComp1Cir2
Remaining time before minimum Off time elapsed compressor 1 circuit 2
s
-
uiElapsedOffTimeComp2Cir2
Remaining time before minimum Off time elapsed compressor 2 circuit 2
s
-
uiElapsedOffTimeComp3Cir2
Remaining time before minimum Off time elapsed compressor 3 circuit 2
s
-
uiElapsedOffTimeComp4Cir2
Remaining time before minimum Off time elapsed compressor 4 circuit 2
s
-
uiElapsedOnTimeComp1Cir2
Remaining time before minimum On time elapsed compressor 1 circuit 2
s
-
uiElapsedOnTimeComp2Cir2
Remaining time before minimum On time elapsed compressor 2 circuit 2
s
-
uiElapsedOnTimeComp3Cir2
Remaining time before minimum On time elapsed compressor 3 circuit 2
s
-
uiElapsedOnTimeComp4Cir2
Remaining time before minimum On time elapsed compressor 4 circuit 2
s
-
xCmdOpHoursResetComp1Cir2
Reset command for operation hours compressor 1 circuit 2
-
-
xCmdOpHoursResetComp2Cir2
Reset command for operation hours compressor 2 circuit 2
-
-
xCmdOpHoursResetComp3Cir2
Reset command for operation hours compressor 3 circuit 2
-
-
xCmdOpHoursResetComp4Cir2
Reset command for operation hours compressor 4 circuit 2
-
-
Condenser Fans Variable Name
Description
Unit
Format
Circuit 1 E2_udiOpHoursFanStage1Cir1 Total number of operating hours
h
-
E2_udiOpHoursFanStage2Cir1 Total number of operating hours
h
-
E2_udiOpHoursFanStage3Cir1 Total number of operating hours
h
-
E2_udiOpHoursFanStage4Cir1 Total number of operating hours
h
-
iSubCoolingCir1
K/R
XXX.Y
Circuit 2 E2_udiOpHoursFanStage1Cir2 Total number of operating hours
h
-
E2_udiOpHoursFanStage2Cir2 Total number of operating hours
h
-
E2_udiOpHoursFanStage3Cir2 Total number of operating hours
h
-
E2_udiOpHoursFanStage4Cir2 Total number of operating hours
h
-
iSubCoolingCir2
Subcooling for circuit 2
K/R
XXX.Y
General xCmdOpHoursResetFans
Reset command for operation hours all fans
-
-
Subcooling for circuit 1
EEV Drivers Variable Name
Description
Unit
Format
Circuit 1 uiRMbTM171VEVErrorCir1
Errors from EEV drive
-
%04x
uiRMbTM171VEVOpenCir1 Valve opening from EEV drive
%
XXX.Y
uiRMbTM171VEVStatusCir1 Status from EEV drive
-
%04x
Circuit 2 uiRMbTM171VEVErrorCir2
-
%04x
uiRMbTM171VEVOpenCir2 Valve opening from EEV drive
%
XXX.Y
uiRMbTM171VEVStatusCir2 Status from EEV drive
-
%04x
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Errors from EEV drive
77
Pumps Variable Name
Description
Unit
Format
E2_udiOpHoursPump1
Total number of operating hours
h
-
E2_udiOpHoursPump2
Total number of operating hours
h
-
uiRemainIdleTimePumps
Remaining time before pump starts for uiPModeRunTime
h
-
uiRemainTimePump1
Remaining time before pump 1 switches over to pump 2
h
-
uiRemainTimePump2
Remaining time before pump 2 switches over to pump 1
h
-
xOpHoursResetPumps
Reset command for operation hours all pumps
-
-
Defrost Variable Name
Description
Unit
Format
Circuit 1 xCmdDefrostStartCir1
Command defrost start on circuit 1
-
-
usiDefrostStatusCir1
Defrost status circuit 1
-
-
uiTimerNextDefrostCir1
Time before next defrost for circuit 1
min
-
uiTimerDefrPhaseCir1
Timer for defrost phase for circuit 1
s/min
-
Circuit 2 xCmdDefrostStartCir2
Command defrost start on circuit 2
-
-
usiDefrostStatusCir2
Defrost status circuit 2
-
-
uiTimerNextDefrostCir2
Time before next defrost for circuit 2
min
-
uiTimerDefrPhaseCir2
Timer for defrost phase for circuit 2
s/min
-
Time to wait for next defrost
min
-
General uiTimerNextDefrost
Energy Variable Name
Description
Unit
Format
uiMassFlowCir1
Mass flow circuit 1
g/s
XXX.Y
uiMassFlowCir2
Mass flow circuit 2
g/s
XXX.Y
rThermalPower
Active power
kW
%.2f
rThermalEnergy
Thermal Energy
kWh
-
uiCOP
COP instant
-
XX.YY
uiShortTermCOP
COP short term
-
XX.YY
uiLongTermCOP
COP long term
-
XX.YY
xCmdConsumReset
Reset Energy related variables
-
-
rActiveEnergy
Active Energy
kWh
-
rActivePower
Active Power
kW
%.2f
PID Variable Name
Description
Unit
Format
rSpCompressors
Compressors PID output
%
%.1f
uiAutoTuneCompMessageID
0=auto-tuning active, 1=completed OK, 2= completed oversized, 3= completed undersized
-
-
uiAutoTuneCompPb
Pb value, manual or calculated with auto-tuning
°C/°F XXX.Y
uiAutoTuneCompTi
Ti value, manual or calculated with auto-tuning
s
XXX.Y
uiCompressorsManualValue
Compressors control manual value
%
XXX.Y
usiAutoTuneCompMode
Changes the PID parameters of the outputs rKp and uiTi. (0=manual param, 1= slow, 2= medium, 3=fast)
-
-
xCmdCompressorsAutoMode
To toggle state in WEB page
-
-
xCmdCompressorsManualMode To toggle state in WEB page
-
-
xCmdCompressorsTuneOff
-
-
78
To toggle state in WEB page
12/18
Variables Description
Variable Name
Description
Unit
Format
xCmdCompressorsTuneOn
To toggle state in WEB page
-
-
xCompressorsManualMode
Enable compressors manual mode
-
-
xSaveAutoTuneParams
Accept and save auto-tuning parameters
-
-
xStartAutoTuneCompressors
A rising edge activates auto-tuning
-
-
QRÂ Code Variable Name
Description
Unit
Format
xUpdateImageHMI strQRString1
Update QR code HMI
-
-
QR code transmission input string part 1
-
-
strQRString2
QR code transmission input string part 2
-
-
strQRString3
QR code transmission input string part 3
-
-
strQRString4
QR code transmission input string part 4
-
-
strQRString5
QR code transmission input string part 5
-
-
strQRString6
QR code transmission input string part 6
-
-
strQRString7
QR code transmission input string part 7
-
-
strQRString8
QR code transmission input string part 8
-
-
strQRString9
QR code transmission input string part 9
-
-
strQRString10
QR code transmission input string part 10
-
-
strQRString11
QR code transmission input string part 11
-
-
Alarms Variable Name
Description
Unit
Format
xCmdAlarmsReset
Reset alarms
-
-
12/18
79
Parameters Description Data Type of the Parameters The names of the parameters include reference to the data type as follows: l l l l l l l
x = BOOL i = INT ui = UINT si = SINT usi = USINT udi = UDINT r = REAL
For example, the parameter E2_xUnitTypeTemp is boolean. NOTE: The parameters values described in this document relate to the TVDA project and the test equipment used during development. For information about each parameter (such as the Modbus address, where it is displayed on the controller and remote display, and which AFB uses it), see "Appendix A - Variables and Parameters Location Tables" on page 111.
Heat Pump Configuration Parameters Introduction The following tables present the heat pump configuration parameters. These parameters must be verified and adjusted, if needed, during the commissioning of the system. General Parameter Name
Description
Default Min Max Unit Format
E2_xHeatCool
Compressors heat or cool mode (FALSE = cool, TRUE = heat)
0
-
-
-
-
E2_ Refrigerant type (0 = R22, 1 = R134a, 2 = R404A, 3 = R407C, 4 = usiRefrigerantType R410A, 5 = R407A, 6 = R407F, 7 = R290, 8 = R507A, 9 = R717, 10 = R723, 11 = R1234ZE, 12 = R744)
0
0
12
-
-
E2_ xUnitTypeTemp
Unit of measure for temperature values (FALSE=°C, TRUE=°F) *
0
-
-
-
-
E2_ xUnitTypePress
Unit of measure for pressure values (FALSE=bar, TRUE=PSI) *
0
-
-
-
-
E2_usiNbCircuits
Number of circuits
2
1
2
-
-
* Analog input values are automatically converted, parameters values need to be converted manually. Controller Analog Inputs Parameter Name
Description
Default
Min
Max
Unit
Format
Cfg_AI5
Type of analog input AI5
4=0-10 V
0
11
num
-
Cfg_AI6
Type of analog input AI6
4=0-10 V
0
11
num
-
FullScaleMin_AI5
First value analog input AI5 scale
0
-9999
9999
digit
XXX.Y
FullScaleMax_AI5
Last value analog input AI5 scale
3000
-9999
9999
digit
XXX.Y
FullScaleMin_AI6
First value analog input AI6 scale
0
-9999
9999
digit
XXX.Y
FullScaleMax_AI6
Last value analog input AI6 scale
3000
-9999
9999
digit
XXX.Y
NOTE: The parameters are also parameters of the controller BIOS. For information on the possible values, see Modicon M172 - Logic Controller, Hardware guide.
80
12/18
Parameters Description
Expansion Module Analog Inputs Parameter Name
Description
Default
Min
Max
Unit
Format
iAIE5FullScaleMin
Expansion module AIE5 low limit
0
-9999
9999
digit
-
iAIE5FullScaleMax
Expansion module AIE5 high limit
1000
-9999
9999
digit
-
iAIE6FullScaleMin
Expansion module AIE6 low limit
0
-9999
9999
digit
-
iAIE6FullScaleMax
Expansion module AIE6 high limit
1000
-9999
9999
digit
-
E2_Cfg_AIE5
Type of input AI5 expansion
4
0
8
num
-
E2_Cfg_AIE6
Type of input AI6 expansion
4
0
8
num
-
NOTE: The parameters are also parameters of the expansion module. For information on the possible values, see Modicon M172 - Logic Controller, Hardware guide. Compressors Parameter Name
Description
Default Min Max
Unit Format
E2_usiCompNbOnOffCir1
Number of fix speed compressors circuit 1
1
0
4
-
-
E2_usiCompNbVSCir1
Number of variable speed compressors circuit 1
1
0
4
-
-
E2_uiCompCapOnOffCir1
Capacity of the On Off compressors
25
0
1000 -
-
E2_uiCompCapVSCir1
Capacity of the variable speed compressors at 50.0 Hz
25
0
1000 -
-
E2_usiCompNbOnOffCir2
Number of fix speed compressors circuit 2
1
0
4
-
-
E2_usiCompNbVSCir2
Number of variable speed compressors circuit 2
1
0
4
-
-
E2_uiCompCapOnOffCir2
Capacity of the On Off compressors
25
0
1000 -
-
E2_uiCompCapVSCir2
Capacity of the variable speed compressors at 50.0 Hz
25
0
1000 -
-
EEV Drivers Parameter Name
Description
Default Min Max Unit
EEV Driver Format Parameter Name
E2_ uiPardL00EEVCir1
Type of Probe 1 EEV driver (0=diS, 1=ntc, 2=Pt1000, 3=420 mA, 4= rA 5=010 V, 6= ntcE)
5
0
6
-
-
dL00
E2_ uiPardL02EEVCir1
Type of Probe 3 EEV driver (0=diS, 1=ntc, 2=Pt1000, 3=n/a, 4= n/a 5=n/a, 6= ntcE)
1
0
6
-
-
dL02
E2_ iPardL10EEVCir1
Upper value for Pb 1 EEV
1000
(A)
9999 bar/PSI XX.YY
E2_ iPardL11EEVCir1
Lower value for Pb 1 EEV
0
(B) 145
bar/PSI XX.YY
dL11
E2_ Type of EEV (see Modicon M171 Electronic usiEEVTypeEEVCir1 Expansion Valve Drivers, User Manual)
15
0
15
-
-
dE00
E2_ uiPardL00EEVCir2
Type of Probe 1 EEV driver 0=diS, 1=ntc, 2=Pt1000, 3=420 mA, 4= rA 5=010 V, 6= ntcE
5
0
6
-
-
dL00
E2_ uiPardL02EEVCir2
Type of Probe 3 EEV driver 0=diS, 1=ntc, 2=Pt1000, 3=n/a, 4= n/a 5=n/a, 6= ntcE
1
0
6
-
-
dL02
E2_ iPardL10EEVCir2
Upper value for Pb 1 EEV
1000
(C) 9999 bar/PSI XX.YY
dL10
E2_ iPardL11EEVCir2
Lower value for Pb 1 EEV
0
(D) 145
bar/PSI XX.YY
dL11
15
0
-
dE00
E2_ Type of EEV (see Modicon M171 Electronic usiEEVTypeEEVCir2 Expansion Valve Drivers, User Manual) Legend:
15
-
dL10
(A) iPardL11EEVCir1 (B) iPardL10EEVCir1 (C) iPardL11EEVCir2 (D) iPardL10EEVCir2
NOTE: The parameters are also parameters of the EEV driver device. For information on the possible values, see Modicon M171 Electronic - Expansion Valve Drivers, User Manual. 12/18
81
Condenser Fans Parameter Name
Description
Default
Min
Max
Unit
Format
E2_usiFanNbStageCir1
Number of fan stages circuit 1
2
1
4
-
-
E2_usiFanNbStageCir2
Number of fan stages circuit 2
2
1
4
-
-
E2_usiFanNbStage1Cir1
Number of fan for stage1 circuit 1
1
1
12
-
-
E2_usiFanNbStage2Cir1
Number of fan for stage 2 circuit 1
1
1
12
-
-
E2_usiFanNbStage1Cir2
Number of fan for stage1 circuit 2
1
1
12
-
-
E2_usiFanNbStage2Cir2
Number of fan for stage 2 circuit 2
1
1
12
-
-
Application Parameters Introduction The following tables present the parameters defining the type and operation logic of the heat pump. These parameters must be verified and adjusted, if needed, to customize the system operation. General Parameter Name
Description
Default Min Max Unit
Format
E2_iWaterTempSetCool
Water temperature setpoint in cool mode (fixed)
140
0
400
°C/°F XXX.Y
E2_iWaterTempSetHeat
Water temperature setpoint in heat mode (fixed)
350
0
800
°C/°F XXX.Y
E2_iWaterSetEcoOffset
Water temperature setpoint offset for economy mode
50
100 100
K/R
XXX.Y
E2_xEnWaterAirLinkSet
Setpoint type selection (FALSE=fixed, TRUE=linked to 0 outside air temperature)
-
-
-
-
E2_iWaterSetMin
Water temperature setpoint minimum value
100
0
400
°C/°F XXX.Y
E2_iWaterSetMax
Water temperature setpoint maximum value
200
0
800
°C/°F XXX.Y
E2_iLowTemperatureMinLimit
Minimum water temperature
0
-
-
°C/°F XXX.Y
E2_uiComTimeOut
Communication timeout
5
0
100
s
E2_iRoomSetCool
Room temperature (pivot) to calculate water setpoint in cool mode
250
0
800
°C/°F XXX.Y
E2_iRoomSetHeat
Room temperature (pivot) to calculate water setpoint in heat mode
200
0
400
°C/°F XXX.Y
E2_iWaterSetSlope
Slope to calculate water setpoint
100
0
1000 -
E2_usiModeType
Mode type management (0= Manual, 1=Remote, 2=DI, 3=Automatic)
0
0
3
E2_iHeatTempThr
Heating mode temperature threshold
200
(A) 580
E2_iCoolTempThr
Cooling mode temperature threshold
250
(B)
3020 °C/°F XXX.Y
E2_uiDelayChangeOver
Delay for heat/cool changeover
3600
-
-
s
E2_uiWaterSetStepFilter
Step of filter in water temperature setpoint change
1
-
-
°C/°F XXX.Y
E2_uiWaterSetTimeStep
Time of step in water temperature setpoint change
1
-
-
s
XXX.Y
E2_xEnOptimumStart
Enable Optimum Start
0
-
-
-
-
E2_ Delay between compressors stopped and valve uiModeChangeCompValveTime switch during mode change
60
-
-
s
-
E2_ Delay between valve switch and compressors on uiModeChangeValveCompTime during mode change Legend: (A) E2_iCoolTempThr (B) E2_iHeatTempThr
60
-
-
s
-
-
XX.YY
num °C/°F XXX.Y
-
Controller Analog Inputs Parameter Name
Description
Default
Min
Max
Unit
Format
Cfg_AI1
Type of analog input AI1
1=DI
0
11
num
-
Cfg_AI2
Type of analog input AI2
1=DI
0
11
num
-
82
12/18
Parameters Description
Parameter Name
Description
Default
Min
Max
Unit
Format
Cfg_AI3
Type of analog input AI3
2=NTC(103AT)
0
11
num
-
Cfg_AI4
Type of analog input AI4
2=NTC(103AT)
0
11
num
-
FullScaleMin_AI1
First value analog input AI1 scale
0
-9999
9999
digit
XXX.Y
FullScaleMax_AI1
Last value analog input AI1 scale
1000
-9999
9999
digit
XXX.Y
FullScaleMin_AI2
First value analog input AI2 scale
0
-9999
9999
digit
XXX.Y
FullScaleMax_AI2
Last value analog input AI2 scale
1000
-9999
9999
digit
XXX.Y
FullScaleMin_AI3
First value analog input AI3 scale
0
-9999
9999
digit
XXX.Y
FullScaleMax_AI3
Last value analog input AI3 scale
1000
-9999
9999
digit
XXX.Y
FullScaleMin_AI4
First value analog input AI4 scale
0
-9999
9999
digit
XXX.Y
FullScaleMax_AI4
Last value analog input AI4 scale
1000
-9999
9999
digit
XXX.Y
Calibration_AI1
Analog input AI1 offset
0
-1000
1000
digit
XXX.Y
Calibration_AI2
Analog input AI2 offset
0
-1000
1000
digit
XXX.Y
Calibration_AI3
Analog input AI3 offset
0
-1000
1000
digit
XXX.Y
Calibration_AI4
Analog input AI4 offset
0
-1000
1000
digit
XXX.Y
Calibration_AI5
Analog input AI5 offset
0
-1000
1000
digit
XXX.Y
Calibration_AI6
Analog input AI6 offset
0
-1000
1000
digit
XXX.Y
Cfg_AI7
Type of analog input AI7
0=NTC(NK103)
0
11
num
-
Cfg_AI8
Type of analog input AI8
0=NTC(NK103)
0
11
num
-
Cfg_AI9
Type of analog input AI9
2=NTC(103AT)
0
11
num
-
Cfg_AI10
Type of analog input AI10
2=NTC(103AT)
0
11
num
-
Cfg_AI11
Type of analog input AI11
2=NTC(103AT)
0
11
num
-
Cfg_AI12
Type of analog input AI12
1=DI
0
11
num
-
FullScaleMin_AI7
First value analog input AI7 scale
0
-9999
9999
digit
XXX.Y
FullScaleMax_AI7
Last value analog input AI7 scale
1000
-9999
9999
digit
XXX.Y
FullScaleMin_AI8
First value analog input AI8 scale
0
-9999
9999
digit
XXX.Y
FullScaleMax_AI8
Last value analog input AI8 scale
1000
-9999
9999
digit
XXX.Y
FullScaleMin_AI9
First value analog input AI9 scale
0
-9999
9999
digit
XXX.Y
FullScaleMax_AI9
Last value analog input AI9 scale
1000
-9999
9999
digit
XXX.Y
FullScaleMin_AI10
First value analog input AI10 scale
0
-9999
9999
digit
XXX.Y
FullScaleMax_AI10
Last value analog input AI10 scale
1000
-9999
9999
digit
XXX.Y
FullScaleMin_AI11
First value analog input AI11 scale
0
-9999
9999
digit
XXX.Y
FullScaleMax_AI11
Last value analog input AI11 scale
1000
-9999
9999
digit
XXX.Y
FullScaleMin_AI12
First value analog input AI12 scale
0
-9999
9999
digit
XXX.Y
FullScaleMax_AI12
Last value analog input AI12 scale
1000
-9999
9999
digit
XXX.Y
Calibration_AI7
Analog input AI7 offset
0
-1000
1000
digit
XXX.Y
Calibration_AI8
Analog input AI8 offset
0
-1000
1000
digit
XXX.Y
Calibration_AI9
Analog input AI9 offset
0
-1000
1000
digit
XXX.Y
Calibration_AI10
Analog input AI10 offset
0
-1000
1000
digit
XXX.Y
Calibration_AI11
Analog input AI11 offset
0
-1000
1000
digit
XXX.Y
Calibration_AI12
Analog input AI12 offset
0
-1000
1000
digit
XXX.Y
NOTE: The parameters are also parameters of the controller BIOS. For information on the possible values, see Modicon M172 - Logic Controller, Hardware guide. Expansion Module Analog Inputs Parameter Name
Description
Default
Min
Max
Unit
Format
iAIE3FullScaleMin
Expansion module AIE3 low limit
0
-9999
9999
bar/PSI
XX.YY
iAIE3FullScaleMax
Expansion module AIE3 high limit
3000
-9999
9999
bar/PSI
XX.YY
iAIE4FullScaleMin
Expansion module AIE4 low limit
0
-9999
9999
bar/PSI
XX.YY
12/18
83
Parameter Name
Description
Default
Min
Max
Unit
Format
iAIE4FullScaleMax
Expansion module AIE4 high limit
3000
-9999
9999
bar/PSI
XX.YY
E2_Cfg_AIE1
Type of input AI1 expansion
2
0
2
num
-
E2_Cfg_AIE2
Type of input AI2 expansion
2
0
2
num
-
E2_Cfg_AIE3
Type of input AI3 expansion
0
0
8
num
-
E2_Cfg_AIE4
Type of input AI4 expansion
0
0
8
num
-
E2_Cfg_AIE7
Type of input AI7 expansion
1
0
8
num
-
E2_Cfg_AIE8
Type of input AI8 expansion
1
0
8
num
-
E2_Cfg_AIE9
Type of input AI9 expansion
1
0
8
num
-
E2_Cfg_AIE10
Type of input AI10 expansion
1
0
8
num
-
E2_Calibration_AIE1
AI1 expansion offset
0
-1000
1000
digit
-
E2_Calibration_AIE2
AI2 expansion offset
0
-1000
1000
digit
-
E2_Calibration_AIE3
AI3 expansion offset
0
-1000
1000
digit
-
E2_Calibration_AIE4
AI4 expansion offset
0
-1000
1000
digit
-
E2_Calibration_AIE5
AI5expansion offset
0
-1000
1000
digit
-
E2_Calibration_AIE6
AI6 expansion offset
0
-1000
1000
digit
-
E2_Calibration_AIE7
AI7expansion offset
0
-1000
1000
digit
-
E2_Calibration_AIE8
AI8 expansion offset
0
-1000
1000
digit
-
E2_Calibration_AIE9
AI9 expansion offset
0
-1000
1000
digit
-
E2_Calibration_AIE10
AI10 expansion offset
0
-1000
1000
digit
-
NOTE: The parameters are also parameters of the expansion module. For information on the possible values, see Modicon M172 - Logic Controller, Hardware guide. Controller Analog Outputs Parameter Name
Description
Default
Min
Max
Unit
Format
Cfg_AO3
Type of analog output AO3
2=Voltage modulation
0
3
num
-
Cfg_AO4
Type of analog output AO4
2=Voltage modulation
0
3
num
-
NOTE: The parameters are also parameters of the controller BIOS. For information on the possible values, see Modicon M172 - Logic Controller, Hardware guide. Expansion Module Analog Outputs Parameter Name
Description
Default
Min
Max
Unit
Format
Cfg_AOE1
Type of analog output AO1 expansion
2
0
2
num
-
Cfg_AOE2
Type of analog output AO2 expansion
2
0
2
num
-
Compressors Parameter Name
Description
Default Min Max
Unit
Format
E2_usiCircMode
Circuit control sequence mode (0=FIFO, 1=Runtime, 2=LIFO)
0
0
2
-
-
E2_usiCircRegulStrategy
Circuit regulation strategy (FALSE=saturation, TRUE=balance)
0
0
1
-
-
E2_usiPriorityCircuit1
Priority for circuit 1
1
1
2
-
-
E2_usiPriorityCircuit2
Priority for circuit 2
2
1
2
-
-
E2_uiCircuitHysteresis
Hysteresis to start next circuit
0
0
999
%
XXX.Y
E2_uiCircSpMaxVar
Time to increase/ decrease compressors setpoint of 10 % (0=leave rSp as is)
0
0
1000
s
-
E2_uiCompressorsPbCool
100
1
100
1
10000 K/R 10000 K/R
XXX.Y
E2_uiCompressorsPbHeat
Compressors PID proportional band in Cool mode Compressors PID proportional band in Heat mode
E2_uiCompressorsTi
Compressors PID integral time
600
0
6000
s
XXX.Y
E2_uiCompressorsTd
Compressors PID derivative time
0
0
6000
s
XXX.Y
84
XXX.Y
12/18
Parameters Description
Parameter Name
Description
Default Min Max
Unit
Format
E2_uiMinOnTimeComp
Minimum time the compressor is running
0
-
-
s
-
E2_uiMinOffTimeComp
Minimum time the compressor is stopped
0
-
-
s
-
E2_uiMinCycleTimeComp
Minimum time between 2 consecutive starts of the compressor
0
-
-
s
-
E2_uiStartingTimeVSComp
Duration of the starting mode for VS compressor
0
-
-
s
-
E2_uiStoppingTimeVSComp
Duration of the stopping mode for VS compressor
0
-
-
s
-
E2_ uiOilRecoveryTimeVSComp
Maximum time oil recovery mode will be started for VS compressor
0
-
-
min
-
E2_ Duration of the oil recovery mode for VS compressor uiOilRecoveryPeriodVSComp
0
-
-
s
-
E2_iHighPressureMaxLimit
Maximum value of the high pressure
10000
-
-
bar/PSI XX.YY
E2_iLowPressureMinLimit
Minimum value of the low pressure
0
-
-
bar/PSI XX.YY
E2_uiDelayEnAlarm
Start delay for LP switch and alarm when compressor 0 running
-
-
s
-
E2_uiDelayMotorAlarm
Delay for the motor alarm
0
-
-
s
-
E2_uiDelayOilPressSwitch
Delay for the oil pressure switch alarm
0
-
-
s
-
E2_uiDelayHPSwitch
Delay for the HP switch alarm
0
-
-
s
-
E2_uiDelayLPSwitch
Delay for the LP switch alarm
0
-
-
s
-
E2_uiDelayGenericAlarm
Delay for the generic alarm
0
-
-
s
-
E2_uiDelayHPAlarm
Delay for the HP alarm
0
-
-
s
-
E2_uiDelayLPAlarm
Delay for the LP alarm
0
-
-
s
-
E2_usiPriorityComp1Cir1
Priority for compressor 1 circuit 1
1
1
4
-
-
E2_usiPriorityComp2Cir1
Priority for compressor 2 circuit 1
2
1
4
-
-
E2_usiPriorityComp3Cir1
Priority for compressor 3 circuit 1
3
1
4
-
-
E2_usiPriorityComp4Cir1
Priority for compressor 4 circuit 1
4
1
4
-
-
E2_usiPriorityComp1Cir2
Priority for compressor 1 circuit 2
1
1
4
-
-
E2_usiPriorityComp2Cir2
Priority for compressor 2 circuit 2
2
1
4
-
-
E2_usiPriorityComp3Cir2
Priority for compressor 3 circuit 2
3
1
4
-
-
E2_usiPriorityComp4Cir2
Priority for compressor 4 circuit 2
4
1
4
-
-
E2_xCompSwitchCtrlMode
Control mode (power cycle of the compressors) (FALSE=Delay/Neutral, TRUE=Hysteresis/Proportional)
0
-
-
-
-
E2_usiCompMode
Compressor control sequence mode (0=FIFO, 1=Runtime, 2=LIFO)
0
0
2
-
-
E2_uiCompNomFreq
Nominal speed of the compressors
500
0
5000
Hz
XXX.Y
E2_uiCompMinFreq
Minimum frequency of the variable speed compressors (read from VSD if configured )
100
0
(A)
Hz
XXX.Y
E2_uiCompMaxFreq
Maximum frequency of the variable speed compressors (read from VSD if configured )
500
(B) 5000
Hz
XXX.Y
E2_uiCompMinRange
Low limit of the range for compressors control
1
0
%
XXX.Y
E2_uiCompMaxRange
High limit of the range for compressors control
999
(D) 999
%
XXX.Y
E2_uiCompDelayOn
Delay to increment the number of requested compressors
5
0
6000
s
-
E2_uiCompDelayOff
Delay to decrement the number of requested compressors
5
0
6000
s
-
E2_uiCompHysteresis
Hysteresis to increment and decrement the number of 0 requested compressors
0
999
%
XXX.Y
E2_uiCompBand1
Band low for neutral zone
200
-
-
째C/째F
XXX.Y
E2_uiCompBand2
Band high for neutral zone
400
-
-
째C/째F
XXX.Y
E2_uiCompTIncBand1
Delay to increment the number of requested compressors for band 1 only in neutral zone regulation
60
-
-
s
-
12/18
(C)
85
Parameter Name
Description
Default Min Max
Unit
Format
E2_uiCompTDecBand1
Delay to decrement the number of requested compressors for band 1 only in neutral zone regulation
30
-
-
s
-
E2_uiCompTIncBand2
Delay to increment the number of requested compressors for band 2 only in neutral zone regulation
30
-
-
s
-
E2_uiCompTDecBand2
Delay to decrement the number of requested compressors for band 2 only in neutral zone regulation
15
-
-
s
-
E2_xCompEnPpDownCir1
Enable pump down on circuit 1
0
-
-
-
-
E2_xCompEnPpDownCir2
Enable pump down on circuit 2
0
-
-
-
-
E2_uiCompSolenDelayCir1
Delay to open solenoid after EEV for circuit 1
0
0
120
s
-
E2_uiCompSolenDelayCir2
Delay to open solenoid after EEV for circuit 2
0
0
120
s
-
E2_iCompPDownPressLimit
Minimum value of the low pressure during pump down
0
-
-
bar/PSI XX.YY
Legend: (A) uiCompMaxFreq (B) uiCompMinFreq (C) uiCompMaxRange (D) uiCompMinRange
EEV Drivers Parameter Name
Description
Default Min Max Unit
EEV Driver Format Parameter Name
E2_uiPardL01EEVCir1
Type of Probe 2 EEV driver (0=diS, 1=ntc, 2=Pt1000, 3=420 mA, 4= rA 5=010 V, 6= ntcE)
0
0
6
-
-
dL01
E2_uiPardL03EEVCir1
Type of Probe 4 EEV driver (0=diS, 0 1=ntc, 2=Pt1000, 3=n/a, 4= n/a 5=n/a, 6= ntcE)
0
6
-
-
dL03
E2_iPardL12EEVCir1
Upper value for Pb 2 EEV
1000
(A)
E2_iPardL13EEVCir1
Lower value for Pb 2 EEV
0
145
9999 bar/PSI XX.YY (B) bar/PSI XX.YY
E2_iPardL20EEVCir1
Offset for Pb1 EEV
0
120 120
-
XXX.Y
dL20
E2_iPardL21EEVCir1
Offset for Pb2 EEV
0
120 120
-
XXX.Y
dL21
E2_iPardL22EEVCir1
Offset for Pb3 EEV
0
120 120
-
XXX.Y
dL22
E2_iPardL23EEVCir1
Offset for Pb4 EEV
0
120 120
-
XXX.Y
dL23
E2_uiPardL30EEVCir1
Configuration of Probe 1 EEV driver 2 0=nu, 1=outev, 2=sat, 3=outev back , 4= sat back, 5=out direct
0
5
-
-
dL30
E2_uiPardL31EEVCir1
Configuration of Probe 1 EEV driver 0 0=nu, 1=outev, 2=sat, 3=outev back , 4= sat back, 5=out direct
0
5
-
-
dL31
E2_uiPardL32EEVCir1
Configuration of Probe 1 EEV driver 1 0=nu, 1=outev, 2=sat, 3=outev back , 4= sat backt
0
4
-
-
dL32
E2_uiPardL33EEVCir1
Configuration of Probe 1 EEV driver 0 0=nu, 1=outev, 2=sat, 3=outev back , 4= sat back
0
4
-
-
dL33
E2_usiPardE21EEVCir1
Type of system operating mode 0 (see Modicon M171 Electronic Expansion Valve Drivers, User Manual)
0
16
-
-
dE21
86
10
dL12 dL13
12/18
Parameters Description
Parameter Name
Description
Default Min Max Unit
EEV Driver Format Parameter Name
E2_usiPardE22EEVCir1
Type of system operating mode 1 (see Modicon M171 Electronic Expansion Valve Drivers, User Manual)
10
0
16
-
-
dE22
E2_usiPardE23EEVCir1
Type of system operating mode 2 (see Modicon M171 Electronic Expansion Valve Drivers, User Manual)
10
0
16
-
-
dE23
E2_usiPardE24EEVCir1
Type of system operating mode 3 (see Modicon M171 Electronic Expansion Valve Drivers, User Manual)
10
0
16
-
-
dE24
E2_xEnSHSetCalcEEVCir1
Enable superheat setpoint auto calculation
0
-
-
-
-
dE30
E2_uiSHSetMaxEEVCir1
Superheat max setpoint (auto calculation)
150
0
1000 K/R
XXX.Y
dE31
E2_uiSHSetEEVCir1
Superheat setpoint
60
0
1000 K/R
XXX.Y
dE32
E2_ xEEVManualOpenEnEEVCir1
Enable EEV manual open
0
-
-
-
dE47
E2_ EEV manual open value uiEEVManualOpenValueEEVCir1
0
0
1000 %
XXX.Y
dE48
E2_uiPardL01EEVCir2
Type of Probe 2 EEV driver 0=diS, 1=ntc, 2=Pt1000, 3=420 mA, 4= rA 5=010 V, 6= ntcE
0
0
6
-
-
dL01
E2_uiPardL03EEVCir2
Type of Probe 4 EEV driver 0=diS, 0 1=ntc, 2=Pt1000, 3=n/a, 4= n/a 5=n/a, 6= ntcE
0
6
-
-
dL03
E2_iPardL12EEVCir2
Upper value for Pb 2 EEV
1000
dL12
E2_iPardL13EEVCir2
Lower value for Pb 2 EEV
0
(C) 9999 bar/PSI XX.YY (D) bar/PSI XX.YY 145
E2_iPardL20EEVCir2
Offset for Pb1 EEV
0
120 120
-
XXX.Y
dL20
E2_iPardL21EEVCir2
Offset for Pb2 EEV
0
120 120
-
XXX.Y
dL21
E2_iPardL22EEVCir2
Offset for Pb3 EEV
0
120 120
-
XXX.Y
dL22
E2_iPardL23EEVCir2
Offset for Pb4 EEV
0
120 120
-
XXX.Y
dL23
E2_uiPardL30EEVCir2
Configuration of Probe 1 EEV driver 2 0=nu, 1=outev, 2=sat, 3=outev back , 4= sat back, 5=out direct
0
5
-
-
dL30
E2_uiPardL31EEVCir2
Configuration of Probe 1 EEV driver 0 0=nu, 1=outev, 2=sat, 3=outev back , 4= sat back, 5=out direct
0
5
-
-
dL31
E2_uiPardL32EEVCir2
Configuration of Probe 1 EEV driver 1 0=nu, 1=outev, 2=sat, 3=outev back , 4= sat backt
0
4
-
-
dL32
E2_uiPardL33EEVCir2
Configuration of Probe 1 EEV driver 0 0=nu, 1=outev, 2=sat, 3=outev back , 4= sat back
0
4
-
-
dL33
E2_usiPardE21EEVCir2
Type of system operating mode 0 (see Modicon M171 Electronic Expansion Valve Drivers, User Manual)
10
0
16
-
-
dE21
E2_usiPardE22EEVCir2
Type of system operating mode 1 (see Modicon M171 Electronic Expansion Valve Drivers, User Manual)
10
0
16
-
-
dE22
12/18
-
dL13
87
Parameter Name
Description
Default Min Max Unit
EEV Driver Format Parameter Name
E2_usiPardE23EEVCir2
Type of system operating mode 2 (see Modicon M171 Electronic Expansion Valve Drivers, User Manual)
10
0
16
-
-
dE23
E2_usiPardE24EEVCir2
Type of system operating mode 3 (see Modicon M171 Electronic Expansion Valve Drivers, User Manual)
10
0
16
-
-
dE24
E2_xEnSHSetCalcEEVCir2
Enable superheat setpoint auto calculation
0
-
-
-
-
dE30
E2_uiSHSetMaxEEVCir2
Superheat max setpoint (auto calculation)
150
0
1000 K/R
XXX.Y
dE31
E2_uiSHSetEEVCir2
Superheat setpoint
60
0
1000 K/R
XXX.Y
dE32
E2_ xEEVManualOpenEnEEVCir2
Enable EEV manual open
0
-
-
-
dE47
0
0
1000 %
XXX.Y
dE48
E2_ EEV manual open value uiEEVManualOpenValueEEVCir2 Legend:
-
(A) iPardL13EEVCir2 (B) iPardL12EEVCir2 (C) iPardL13EEVCir2 (D) iPardL12EEVCir2
NOTE: The I/O parameters are also parameters of the EEV driver device. For information on the possible values, see Modicon M171 Electronic - Expansion Valve Drivers, User Manual. Condenser Fans Parameter Name
Description
Default Min Max
Unit
Format
E2_iFanCondTempMin
Fan minimum condensing temperature
300
(A) 580
°C/°F
XXX.Y
E2_iFanCondTempMax
Fan maximum condensing temperature
500
(B)
3020
°C/°F
XXX.Y
E2_iFanCondTempExtSetp Fan external setpoint for the condensing temperature in fixed mode
400
(B)
(A)
°C/°F
XXX.Y
E2_xHeatRecovery
Heat recovery activation
0
-
-
-
-
E2_iFanCondTempOffset
Fan condensing temperature offset
100
0
200
°C/°F
XXX.Y
E2_ Fan temperature offset at minimum condensing iFanCondTempOffsetAtMin temperature
150
0
200
°C/°F
XXX.Y
E2_ Fan temperature offset at maximum condensing iFanCondTempOffsetAtMax temperature
200
0
200
°C/°F
XXX.Y
E2_xFanLowNoiseOper
Low noise operation (FALSE=deactivates, TRUE=activates)
0
-
-
-
-
E2_usiFanNbStage3Cir1
Number of fan for stage 3 circuit 1
1
1
12
-
-
E2_usiFanNbStage4Cir1
Number of fan for stage 4 circuit 1
1
1
12
-
-
E2_usiFanNbStage3Cir2
Number of fan for stage 3 circuit 2
1
1
12
-
-
E2_usiFanNbStage4Cir2
Number of fan for stage 4 circuit 2
1
1
12
-
-
E2_usiFanMode
Fan power cycle sequence mode (0=FIFO, 1=Runtime, 2=LIFO)
0
0
2
-
-
E2_usiFanPriorityStage1
Priority of stage 1 in LIFO mode
1
0
255
-
-
E2_usiFanPriorityStage2
Priority of stage 2 in LIFO mode
2
0
255
-
-
E2_usiFanPriorityStage3
Priority of stage 3 in LIFO mode
3
0
255
-
-
E2_usiFanPriorityStage4
Priority of stage 4 in LIFO mode
4
0
255
-
-
E2_uiFanFreqMin
Fan VSD minimum frequency (read from VSD if configured)
100
50
5000
Hz
XXX.Y
88
12/18
Parameters Description
Parameter Name
Description
Default Min Max
Unit
Format
E2_uiFanFreqMax
Fan VSD maximum frequency (read from VSD if configured)
500
51
5000
Hz
XXX.Y
E2_ uiFanLowNoiseMaxFreq
Fan VSD low noise operation frequency reduction
500
(C)
(D)
Hz
XXX.Y
E2_uiFanDelayIncr
Delay to increment the running fan stages
0
0
60
s
-
E2_uiFanDelayDecr
Delay to decrement the running fan stages
0
0
60
s
-
E2_uiFanMinOffTime
Fan minimum Off time of the stages
0
-
-
s
-
E2_uiFanHysteresis E2_uiFanCondPb
Fan hysteresis for the frequency Fan condenser PID integral time
50
1
5000
160
E2_uiFanCondTi
Fan condenser PID integral time
0
E2_uiFanCondDeadband
Fan deadband for condensing temperature
E2_ usiFanCondControlMode
XXX.Y
0
Hz 10000 K/R
0
3600
0
0
500
s K/R
XXX.Y XXX.Y
High pressure control type (0=Floating 1= Floating 0 with variable offset 2= Fixed)
0
2
-
XXX.Y
XXX.Y
E2_iHeatRecoverySetpoint Heat recovery setpoint
0
-
-
°C/°F
E2_uiRampSetpFilter
Ramp setpoint filter for switching from normal mode to heat recovery mode
6
-
-
°C°F/min -
E2_iFanEvapTempMin
Fan minimum evaporating temperature
-200
(E) 580
°C/°F
XXX.Y
E2_iFanEvapTempMax
Fan maximum evaporating temperature
250
(F)
3020
°C/°F
XXX.Y
E2_iFanEvapTempExtSetp Fan external setpoint for the condensing evaporating in fixed mode
50
(F)
(E)
°C/°F
XXX.Y
E2_iFanEvapTempOffset
Fan evaporating temperature offset
-100
0 200
°C/°F
XXX.Y
E2_ iFanEvapTempOffsetAtMin
Fan evaporating temperature offset at minimum condensing temperature
-50
0 200
°C/°F
XXX.Y
E2_ Fan evaporating temperature offset at maximum iFanEvapTempOffsetAtMax condensing temperature
-150
0 200
°C/°F
XXX.Y
E2_uiFanEvapPb
Fan evaporator PID proportional band
160
0
10000 K/R
XXX.Y
E2_uiFanEvapTi
Fan evaporator PID integral time
0
0
3600
s
XXX.Y
E2_uiFanEvapDeadband
Fan deadband for evaporating temperature
0
0
500
K/R
XXX.Y
E2_ usiFanEvapControlMode Legend: (A) iFanCondTempMax (B) iFanCondTempMin (C) uiFanFreqMin (D) uiFanFreqMax (E) iFanEvapTempMax (F) iFanEvapTempMin
Low pressure control type (0=Floating 1= Floating with variable offset 2= Fixed)
0
0
2
-
-
Pumps Parameter Name
Description
Default
Min Max
Unit Format
E2_ uiPumpSetFixedSpeed
Fixed speed for modulated pump
1000
0
1000
%
-
E2_xPumpFixedSpeed
0
-
-
-
-
E2_uiPumpDiffSetpCool
Pump management (FALSE=automatic modulation, TRUE=fixed speed) Differential setpoint for modulated pump in Cool mode
40
0
1000
K/R
-
E2_uiPumpPbCool
Pump PID proportional band in Cool mode
100
0
10000
K/R
XXX.Y
E2_uiPumpTi
Pump PID integral time
0
0
6000
s
XXX.Y
E2_uiPumpTd
Pump PID derivative time
0
0
6000
s
XXX.Y
E2_uiMaxRunTimeP1
Maximum running time of pump 1
1000
1
1000
h
-
E2_uiMaxRunTimeP2
Maximum running time of pump 2
1000
1
1000
h
-
12/18
89
Parameter Name
Description
Default
Min Max
Unit Format
E2_uiPModeRunTime
Duration of the locked rotor protection (P-mode)
1
1
60000
min
-
E2_uiPModeIdleTime
Max idle time - Pump will be started for uiPModeRunTime
0
0
1000
h
-
E2_uiPumpMinFreq
Minimum frequency of the pump
100
0
(A)
Hz
XXX.Y
E2_uiPumpMaxFreq
Maximum frequency of the pump
500
(B)
5000
Hz
XXX.Y
E2_xPumpAutoManual
Pump automatic or manual mode
0
-
-
-
-
E2_xManualRunPump1
Start pump 1 in manual mode
0
-
-
-
-
E2_xManualRunPump2
Start pump 2 in manual mode
0
-
-
-
-
E2_uiPumpDiffSetpHeat
Differential setpoint for modulated pump in heat mode
80
0
1000
K/R
XXX.Y
E2_uiPumpPbHeat Legend: (A) uiPumpMaxFreq (B) uiPumpMinFreq
Pump PID proportional band in Heat mode
100
0
10000
K/R
XXX.Y
Parameter Name
Description
Default Min Max
Unit
Format
E2_usiDefrostType
Defrost type (0=disabled, 1=synchronous, 2=asynchronous, 3=independent)
2
0
3
-
-
E2_ uiTimeBetweenDefrosts
Minimum time between two defrosts
0
-
-
min
-
E2_iEnDefrostTemp
Enabling defrost temperature
70
3020 °C /°F 580
XXX.Y
E2_uiDefrostDelay1
Delay between 2 defrosts (working time) when external temperature is below iAuthDefrostTemp
1440
-
-
E2_iMinDefrostTemp
Temperature minimum to define the second delay
10
3020 °C/°F 580
XXX.Y
E2_iEnDefrostResetTemp Defrost timer reset temperature
100
3020 °C/°F 580
XXX.Y
E2_uiDefrostDelay2
Second delay when the external temperature is below iMinDefrostTemp
360
-
-
E2_iDefrostEndTemp
Defrost end temperature
100
3020 °C/°F 580
XXX.Y
E2_uiMaxDefrostTime
Maximum defrost time
5
-
-
min
-
E2_uiMinDefrostTime
Minimum defrost time
2
-
-
min
-
30
-
-
s
-
E2_ Delay between valve switch and compressors on during 30 uiDefrostValveCompTime defrost
-
-
s
-
E2_uiDrippingTime
Dripping time
5
-
-
min
-
E2_uiDefrostCpCapCir1
Compressors capacity (%) during defrost for circuit 1
200
-
-
%
XXX.Y
E2_uiDefrostCpCapCir2
Compressors capacity (%) during defrost for circuit 2
200
0
1000 %
XXX.Y
10000
-
-
Defrost
E2_ Delay between compressors stopped and valve switch uiDefrostCompValveTime during defrost
E2_ Value of the high pressure to start fans during defrost iHighPressureDefrostLimit
-
min
-
min
bar/PSI XX.YY
Communication Parameter Name
Description
Default
Min Max
Unit
RS485 communication Addr_RS485_OB1
RS485_1 On Board address
1
0
255
num
Proto_RS485_OB1
Select RS485-1 On Board protocol
3=Modbus/RTU
2
4
num
DataBit_RS485_OB1
RS485_1 On Board Data bit number
8
8
8
num
StopBit_RS485_OB1
RS485_1 On Board stop bit number
1
1
2
num
Parity_RS485_OB1
RS485_1 On Board parity protocol
2=Even
0
2
num
90
12/18
Parameters Description
Parameter Name
Description
Default
Min Max
Unit
Baud_RS485_OB1
RS485_1 On Board baud rate protocol
2=38400
0
5
num
Ethernet communication Port_HTTP_PI
HTTP Port number, 0 is equal to default port 80
0
0
65535
num
Port_ETH_PI
TCP/IP Port number
502
0
65535
num
Ip_1_ETH_PI
Ethernet IP address (1st part)
10
0
255
num
Ip_2_ETH_PI
Ethernet IP address (2 nd part)
0
0
255
num
Ip_3_ETH_PI
Ethernet IP address (3 rd part)
0
0
255
num
Ip_4_ETH_PI
Ethernet IP address (4 th part)
100
0
255
num
DefGtwy_1_ETH_PI
Default Gateway (1 st part)
10
0
255
num
DefGtwy_2_ETH_PI
Default Gateway (2 nd part)
0
0
255
num
DefGtwy_3_ETH_PI
Default Gateway (3 rd part)
0
0
255
num
DefGtwy_4_ETH_PI
Default Gateway (4 th part)
1
0
255
num
NetMsk_1_ETH_PI
Net mask (1 st part)
255
0
255
num
NetMsk_2_ETH_PI
Net mask (2 nd part)
255
0
255
num
NetMsk_3_ETH_PI
Net mask (3 rd part)
255
0
255
num
NetMsk_4_ETH_PI
Net mask (4 th part)
0
0
255
num
PriDNS_1_ETH_PI
Primary DNS server (1 st part)
8
0
255
num
PriDNS_2_ETH_PI
Primary DNS server (2 nd part)
8
0
255
num
PriDNS_3_ETH_PI
Primary DNS server (3 rd part)
8
0
255
num
PriDNS_4_ETH_PI
Primary DNS server (4 th part)
8
0
255
num
SecDNS_1_ETH_PI
Secondary DNS server (1 st part)
8
0
255
num
SecDNS_2_ETH_PI
Secondary DNS server (2 nd part)
8
0
255
num
SecDNS_3_ETH_PI
Secondary DNS server (3 rd part)
4
0
255
num
SecDNS_4_ETH_PI
Secondary DNS server (4 th part)
4
0
255
num
EnableDHCP_ETH_PI
Enable DHCP
False
0
1
flag
Energy Parameter Name
Description
Default
Min
Max Unit
Format
E2_rConsumDayPrev
Energy consumption of the previous day
0
-
-
kWh
%.2f
E2_rConsumDay
Energy consumption of the day
0
-
-
kWh
%.2f
E2_rConsumWeekPrev
Energy consumption of the previous week
0
-
-
kWh
%.2f
E2_rConsumWeek
Energy consumption of the present week
0
-
-
kWh
%.2f
E2_rConsumMonthPrev
Energy consumption of the previous month
0
-
-
kWh
%.2f
E2_rConsumMonth
Energy consumption of the present month
0
-
-
kWh
%.2f
E2_rConsumMonth_Jan
Energy consumption of January
0
-
-
kWh
%.2f
E2_rConsumMonth_Feb
Energy consumption of February
0
-
-
kWh
%.2f
E2_rConsumMonth_March
Energy consumption of March
0
-
-
kWh
%.2f
E2_rConsumMonth_April
Energy consumption of April
0
-
-
kWh
%.2f
E2_rConsumMonth_May
Energy consumption of May
0
-
-
kWh
%.2f
E2_rConsumMonth_June
Energy consumption of June
0
-
-
kWh
%.2f
E2_rConsumMonth_July
Energy consumption of July
0
-
-
kWh
%.2f
E2_rConsumMonth_Aug
Energy consumption of Aug
0
-
-
kWh
%.2f
E2_rConsumMonth_Sept
Energy consumption of Sept
0
-
-
kWh
%.2f
E2_rConsumMonth_Oct
Energy consumption of Oct
0
-
-
kWh
%.2f
E2_rConsumMonth_Nov
Energy consumption of Nov
0
-
-
kWh
%.2f
E2_rConsumMonth_Dec
Energy consumption of Dec
0
-
-
kWh
%.2f
E2_rConsumYearPrev
Energy consumption of the previous year
0
-
-
kWh
%.2f
E2_rConsumYear
Energy consumption of the present year
0
-
-
kWh
%.2f
12/18
91
Parameter Name
Description
Default
Min
Max Unit
Format
E2_rConsumPrvReset
Energy consumption of the previous reset period
0
-
-
kWh
%.2f
E2_rConsumReset
Energy consumption since last reset
0
-
-
kWh
%.2f
E2_ usiConsumeResetMinutes
Minutes when Reset command is active
0
0
59
min
-
E2_usiConsumeResetHours Hours when Reset command is active
0
0
23
h
-
E2_ Month Day when Reset command is active usiConsumeResetMonthDay
0
1
31
-
-
E2_usiConsumeResetMonth Month when Reset command is active (0 = January, 1 0 = February, 2 = …., 11 = December)
1
12
-
-
E2_usiConsumeResetYear
Year when Reset command is active
0
10
99
-
-
E2_usiSaveWeekDay
Day of week saved
0
0
6
num
-
E2_usiSaveDayMonth
Day of month saved
1
1
31
num
-
E2_usiSaveMonth
Month saved
1
1
12
num
-
E2_usiSaveYear E2_ usiCOPLastResetMinutes
Year saved Minutes when reset is active
10 0
10 0
99 59
num min
-
E2_usiCOPLastResetHours
Hours when reset is active
0
0
23
h
-
E2_ MonthDay when the Reset command is active usiCOPLastResetMonthDay
1
1
31
-
-
E2_usiCOPLastResetMonth Month when the Reset command is active (0 = January, 1 = February, 2 = …., 11 = December)
1
1
12
-
-
E2_usiCOPLastResetYear
10
10
99
-
-
Year when the Reset command is active
Schedulers Parameter Name
Description
Default Min Max Unit
Format
Yearly scheduler E2_usiStartMonth
Yearly scheduler start month of event
1
1
12
-
-
E2_ usiStartDayMonth
Yearly scheduler start day month of event
1
1
31
-
-
E2_usiStartHours
Yearly scheduler start hours of event
0
0
23
-
-
E2_usiStopMonth
Yearly scheduler stop month of event
1
1
12
-
-
E2_ usiStopDayMonth
Yearly scheduler stop day month of event
1
1
31
-
-
E2_usiStopHours
Yearly scheduler stop hours of event
0
0
23
-
-
Event 1 ID (0=NO EVENT, 1=OCCUPIED, 2=ECO ON, 3=OFF, 4=COOL, 5=HEAT, 6=DEFROST CIR1, 7=DEFROST CIR2, 8=ECO OFF)
0
0
255
-
-
E2_ Event 1 days of week usiEventWeekDays_ 1
0
0
127
-
%04x
E2_uiEventTime_1
Event 1 scheduler time
0
0
1439 h:min HH:MM
E2_usiEventID_2
Event 2 ID (0=NO EVENT, 1=OCCUPIED, 2=ECO ON, 3=OFF, 4=COOL, 5=HEAT, 6=DEFROST CIR1, 7=DEFROST CIR2, 8=ECO OFF)
0
0
255
-
-
E2_ Event 2 days of week usiEventWeekDays_ 2
0
0
127
-
%04x
E2_uiEventTime_2
Event 2 scheduler time
0
0
1439 h:min HH:MM
E2_usiEventID_3
Event 3 ID (0=NO EVENT, 1=OCCUPIED, 2=ECO ON, 3=OFF, 4=COOL, 5=HEAT, 6=DEFROST CIR1, 7=DEFROST CIR2, 8=ECO OFF)
0
0
255
-
-
0
0
127
-
%04x
Weekly scheduler E2_usiEventID_1
E2_ Event 3 days of week usiEventWeekDays_ 3
92
12/18
Parameters Description
Parameter Name
Description
Default Min Max Unit
E2_uiEventTime_3
Event 3 scheduler time
0
0
1439 h:min HH:MM
E2_usiEventID_4
Event 4 ID (0=NO EVENT, 1=OCCUPIED, 2=ECO ON, 3=OFF, 4=COOL, 5=HEAT, 6=DEFROST CIR1, 7=DEFROST CIR2, 8=ECO OFF)
0
0
255
-
-
E2_ Event 4 days of week usiEventWeekDays_ 4
0
0
127
-
%04x
E2_uiEventTime_4
Event 4 scheduler time
0
0
1439 h:min HH:MM
E2_usiEventID_5
Event 5 ID (0=NO EVENT, 1=OCCUPIED, 2=ECO ON, 3=OFF, 4=COOL, 5=HEAT, 6=DEFROST CIR1, 7=DEFROST CIR2, 8=ECO OFF)
0
0
255
-
-
E2_ Event 5 days of week usiEventWeekDays_ 5
0
0
127
-
%04x
E2_uiEventTime_5
Event 5 scheduler time
0
0
1439 h:min HH:MM
E2_usiEventID_6
Event 6 ID (0=NO EVENT, 1=OCCUPIED, 2=ECO ON, 3=OFF, 4=COOL, 5=HEAT, 6=DEFROST CIR1, 7=DEFROST CIR2, 8=ECO OFF)
0
0
255
-
-
E2_ Event 6 days of week usiEventWeekDays_ 6
0
0
127
-
%04x
E2_uiEventTime_6
Event 6 scheduler time
0
0
1439 h:min HH:MM
E2_usiEventID_7
Event 7 ID (0=NO EVENT, 1=OCCUPIED, 2=ECO ON, 3=OFF, 4=COOL, 5=HEAT, 6=DEFROST CIR1, 7=DEFROST CIR2, 8=ECO OFF)
0
0
255
-
-
E2_ Event 7 days of week usiEventWeekDays_ 7
0
0
127
-
%04x
E2_uiEventTime_7
Event 7 scheduler time
0
0
1439 h:min HH:MM
E2_usiEventID_8
Event 8 ID (0=NO EVENT, 1=OCCUPIED, 2=ECO ON, 3=OFF, 4=COOL, 5=HEAT, 6=DEFROST CIR1, 7=DEFROST CIR2, 8=ECO OFF)
0
0
255
-
-
E2_ Event 8 days of week usiEventWeekDays_ 8
0
0
127
-
%04x
E2_uiEventTime_8
Event 8 scheduler time
0
0
1439 h:min HH:MM
E2_usiEventID_9
Event 9 ID (0=NO EVENT, 1=OCCUPIED, 2=ECO ON, 3=OFF, 4=COOL, 5=HEAT, 6=DEFROST CIR1, 7=DEFROST CIR2, 8=ECO OFF)
0
0
255
-
-
E2_ Event 9 days of week usiEventWeekDays_ 9
0
0
127
-
%04x
E2_uiEventTime_9
Event 9 scheduler time
0
0
1439 h:min HH:MM
E2_usiEventID_10
Event 10 ID (0=NO EVENT, 1=OCCUPIED, 2=ECO ON, 3=OFF, 4=COOL, 5=HEAT, 6=DEFROST CIR1, 7=DEFROST CIR2, 8=ECO OFF)
0
0
255
-
-
E2_ Event 10 days of week usiEventWeekDays_ 10
0
0
127
-
%04x
E2_uiEventTime_10 Event 10 scheduler time
0
0
1439 h:min HH:MM
E2_usiEventID_11
0
0
255
-
-
E2_ Event 11 days of week usiEventWeekDays_ 11
0
0
127
-
%04x
E2_uiEventTime_11 Event 11 scheduler time
0
0
1439 h:min HH:MM
12/18
Event 11 ID (0=NO EVENT, 1=OCCUPIED, 2=ECO ON, 3=OFF, 4=COOL, 5=HEAT, 6=DEFROST CIR1, 7=DEFROST CIR2, 8=ECO OFF)
Format
93
Parameter Name
Description
Default Min Max Unit
Format
E2_usiEventID_12
Event 12 ID (0=NO EVENT, 1=OCCUPIED, 2=ECO ON, 3=OFF, 4=COOL, 5=HEAT, 6=DEFROST CIR1, 7=DEFROST CIR2, 8=ECO OFF)
0
0
255
-
-
E2_ Event 12 days of week usiEventWeekDays_ 12
0
0
127
-
%04x
E2_uiEventTime_12 Event 12 scheduler time
0
0
1439 h:min HH:MM
E2_usiEventID_13
0
0
255
-
-
E2_ Event 13 days of week usiEventWeekDays_ 13
0
0
127
-
%04x
E2_uiEventTime_13 Event 13 scheduler time
0
0
1439 h:min HH:MM
E2_usiEventID_14
0
0
255
-
-
E2_ Event 14 days of week usiEventWeekDays_ 14
0
0
127
-
%04x
E2_uiEventTime_14 Event 14 scheduler time
0
0
1439 h:min HH:MM
E2_usiEventID_15
0
0
255
-
-
E2_ Event 15 days of week usiEventWeekDays_ 15
0
0
127
-
%04x
E2_uiEventTime_15 Event 15 scheduler time
0
0
1439 h:min HH:MM
E2_usiEventID_16
0
0
255
-
-
E2_ Event 16 days of week usiEventWeekDays_ 16
0
0
127
-
%04x
E2_uiEventTime_16 Event 16 scheduler time
0
0
1439 h:min HH:MM
E2_usiEventID_17
0
0
255
-
-
E2_ Event 17 days of week usiEventWeekDays_ 17
0
0
127
-
%04x
E2_uiEventTime_17 Event 17 scheduler time
0
0
1439 h:min HH:MM
E2_usiEventID_18
0
0
255
-
-
E2_ Event 18 days of week usiEventWeekDays_ 18
0
0
127
-
%04x
E2_uiEventTime_18 Event 18 scheduler time
0
0
1439 h:min HH:MM
E2_usiEventID_19
0
0
255
-
-
E2_ Event 19 days of week usiEventWeekDays_ 19
0
0
127
-
%04x
E2_uiEventTime_19 Event 19 scheduler time
0
0
1439 h:min HH:MM
E2_usiEventID_20
0
0
255
94
Event 13 ID (0=NO EVENT, 1=OCCUPIED, 2=ECO ON, 3=OFF, 4=COOL, 5=HEAT, 6=DEFROST CIR1, 7=DEFROST CIR2, 8=ECO OFF)
Event 14 ID (0=NO EVENT, 1=OCCUPIED, 2=ECO ON, 3=OFF, 4=COOL, 5=HEAT, 6=DEFROST CIR1, 7=DEFROST CIR2, 8=ECO OFF)
Event 15 ID (0=NO EVENT, 1=OCCUPIED, 2=ECO ON, 3=OFF, 4=COOL, 5=HEAT, 6=DEFROST CIR1, 7=DEFROST CIR2, 8=ECO OFF)
Event 16 ID (0=NO EVENT, 1=OCCUPIED, 2=ECO ON, 3=OFF, 4=COOL, 5=HEAT, 6=DEFROST CIR1, 7=DEFROST CIR2, 8=ECO OFF)
Event 17 ID (0=NO EVENT, 1=OCCUPIED, 2=ECO ON, 3=OFF, 4=COOL, 5=HEAT, 6=DEFROST CIR1, 7=DEFROST CIR2, 8=ECO OFF)
Event 18 ID (0=NO EVENT, 1=OCCUPIED, 2=ECO ON, 3=OFF, 4=COOL, 5=HEAT, 6=DEFROST CIR1, 7=DEFROST CIR2, 8=ECO OFF)
Event 19 ID (0=NO EVENT, 1=OCCUPIED, 2=ECO ON, 3=OFF, 4=COOL, 5=HEAT, 6=DEFROST CIR1, 7=DEFROST CIR2, 8=ECO OFF)
Event 20 ID (0=NO EVENT, 1=OCCUPIED, 2=ECO ON, 3=OFF, 4=COOL, 5=HEAT, 6=DEFROST CIR1, 7=DEFROST CIR2, 8=ECO OFF)
-
-
12/18
Parameters Description
Parameter Name
Description
Default Min Max Unit
Format
E2_ Event 20 days of week usiEventWeekDays_ 20
0
0
127
%04x
E2_uiEventTime_20 Event 20 scheduler time
0
0
1439 h:min HH:MM
-
Clock Parameter Name
Description
Default
Min
Max
Unit
sysClock_seconds
Second value
0
0
59
s
sysClock_minutes
Minute value
0
0
59
min
sysClock_hours
Hour value
0
0
23
hours
sysClock_dayweek
Day of week value
0
0
6
num
sysClock_daymonth
Day of the month value
1
1
31
num
sysClock_month
Month value
1
1
12
num
sysClock_year
Year value
0
10
99
num
sysClockSet_seconds
Second value (write)
0
0
59
s
sysClockSet_minutes
Minute value (write)
0
0
59
min
sysClockSet_hours
Hour value (write)
0
0
23
hours
sysClockSet_dayweek
Day of week value (write)
0
0
6
num
sysClockSet_daymonth
Day of the month value (write)
1
1
31
num
sysClockSet_month
Month value (write)
1
1
12
num
sysClockSet_year
Year value (write)
10
10
99
num
sysClockSet_Upload
RTC upload
False
0
1
flag
Password Parameter Name
Description
Default
Min
Max
Unit
Format
E2_uiPwdPermLev1
Password level 1
1
0
9999
1
0
E2_uiPwdPermLev2
Password level 2
2
0
9999
1
0
E2_uiPwdPermLev3
Password level 3
3
0
9999
1
0
12/18
95
Alarms Introduction The following tables present lists of alarms relevant to the TVDA project and the specific equipment used in its development. For information about the alarm (such as the Modbus address, where it is displayed on the controller and remote display, and which AFB uses it), see "Appendix A - Variables and Parameters Location Tables" on page 111.
General Alarms Alarm List Alarm Name
Description
Causes
1
xAlarmWaterInLowTemperature
Water low temperature in entry line (A)
iInletWaterTemp<E2_ Stops all iLowTemperatureMinLimit for at least compressors 3 seconds
AUTO (B)
2
xAlarmWaterOutLowTemperature
Water low temperature in exit line (A)
iOutletWaterTemp<E2_ Stops all iLowTemperatureMinLimit for at least compressors 3 seconds
AUTO (C)
3
xAlarmEmergencyStop
xEmergencyStop input activated
Stops all compressors
MANUAL
4
xSchedulerError
Emergency Stop Alarm Scheduler input variable out of range
Alarm from YearlyEvent or WeeklyScheduler
Scheduler AFBs do not work properly
AUTO (D)
5
xRTCError
Real time Clock error
Error in RTC reading
Energy trend and Schedulers disabled
AUTO (E)
10
xAlarmPump
Pump alarm (F)
Both pumps in alarm (xAlarmThermBlockPump input or Altivar alarm active) or both pumps not active
Stops all compressors
MANUAL
11
xAlarmFlowSwitch
Flow switch alarm (F)
xPumpFlowSwitch active for at least 3 seconds
Stops all compressors, stop pumps
AUTO
12
xAlarmPumpConfig
Error in PID parameters for pump modulation Stops all pump not correct compressors, configuration stop pumps (F)
MANUAL
13
xAlarmPIDCompressorsConfig
Error in PID parameters for compressors compressors modulation not correct PID configuration (F)
Stops all compressors
MANUAL
14
xAlarmCircuit
Error in Parameters in CircuitMgmt not circuits correct management (F)
Stops all compressors
AUTO
100
xAlarmHighPressSwitchCir1
High xHPSwitchCir1 input activated and pressure the timer E2_uiDelayHPSwitch has switch alarm elapsed in circuit 1
Stops all compressors in circuit 1
MANUAL
101
xAlarmLowPressSwitchCir1
Low xLPSwitchCir1 input activated and pressure the timer E2_uiDelayLPSwitch has switch alarm elapsed in circuit 1
Stops all compressors in circuit 1
MANUAL
96
Effects
Rearm Type
ID
12/18
Alarms
Alarm Name
Description
Causes
102
xAlarmHighPressCir1
High pressure alarm in circuit 1
iHighPressCir1 > E2_ Stops all iHighPressureMaxLimit and the compressors timerE2_DelayHPAlarm has elapsed in circuit 1
MANUAL
103
xAlarmLowPressCir1
Low pressure alarm in circuit 1
iLowPressCir1 < E2_ Stops all iLowPressureMinLimit and the compressors timerE2_DelayLPAlarm has elapsed in circuit 1
MANUAL
104
xAlarmCompressorsConfigCir1
Error in Parameters in ComprCntrlOnOff or compressors CompCntrl_VS in circuit 1 are not configuration correct in circuit 1
Correspondent AUTO compressor in (G) circuit 1 is stopped
105
xAlarmCompressorsCir1
Error in compressor management in circuit 1 (H)
Parameters in CompMgmt or CompMgmtVS in circuit 1 are not correct, or compressors in alarm, or clock not correctly set
Stops all compressors in circuit 1
MANUAL
106
xAlarmEEVDriverCir1
Alarm from Alarm or Alert from FB_TM171VEV EEV driver in (see "FB_TM171VEVModbusCom: circuit 1 (H) Alarm ID Description" on page 32 and "FB_ TM171VEVModbusCom: Alert ID Description" on page 33)
Stops all compressors in circuit 1
MANUAL
111
xAlarmMotorComp1Cir1
Motor alarm in compressor 1 of circuit 1
xAlarmComp1Cir1 input activated or Stops Altivar/Altistart Comp1 Cir1 in alarm compressor 1 and the timer E2_uiDelayMotorAlarm in circuit 1 has elapsed
MANUAL
112
xAlarmMotorComp2Cir1
Motor alarm in compressor 2 of circuit 1
xAlarmComp2Cir1 input activated or Stops Altivar/Altistart Comp2 Cir1 in alarm compressor 2 and the timer E2_uiDelayMotorAlarm in circuit 1 has elapsed
MANUAL
113
xAlarmMotorComp3Cir1
Motor alarm in compressor 3 of circuit 1
xAlarmComp3Cir1 input activated or Stops Altivar/Altistart Comp3 Cir1 in alarm compressor 3 and the timer E2_uiDelayMotorAlarm in circuit 1 has elapsed
MANUAL
114
xAlarmMotorComp4Cir1
Motor alarm in compressor 4 of circuit 1
xAlarmComp4Cir1 input activated or Stops Altivar/Altistart Comp4 Cir1 in alarm compressor 4 and the timer E2_uiDelayMotorAlarm in circuit 1 has elapsed
MANUAL
121
xAlarmOilPressureSwitchComp1Cir1 Oil pressure xOilPressSwitchComp1Cir1 input switch alarm activated and the timer E2_ in uiDelayOilPressSwitch has elapsed compressor 1 of circuit 1
Stops compressor 1 in circuit 1
MANUAL
122
xAlarmOilPressureSwitchComp2Cir1 Oil pressure xOilPressSwitchComp2Cir1 input switch alarm activated and the timer E2_ in uiDelayOilPressSwitch has elapsed compressor 2 of circuit 1
Stops compressor 2 in circuit 1
MANUAL
123
xAlarmOilPressureSwitchComp3Cir1 Oil pressure xOilPressSwitchComp3Cir1 input switch alarm activated and the timer E2_ in uiDelayOilPressSwitch has elapsed compressor 3 of circuit 1
Stops compressor 3 in circuit 1
MANUAL
124
xAlarmOilPressureSwitchComp4Cir1 Oil pressure xOilPressSwitchComp4Cir1 input switch alarm activated and the timer E2_ in uiDelayOilPressSwitch has elapsed compressor 4 of circuit 1
Stops compressor 4 in circuit 1
MANUAL
12/18
Effects
Rearm Type
ID
97
Alarm Name
Description
Causes
150
xAlarmFanCir1
Fans management alarm in circuit 1 (H)
Alarm in FanMgmt Cir 1 or alarm in Stops all FloatingHighPresCntrl Cir 1 or compressors EvapPressCntrl Cir 1 or alarm in Fan in circuit 1 Altivar Cir1 or Fan stages in Cir 1 in alarm. All inputs xAlarmCondFan activated (configuration error, see Application function HVAC library guide)
MANUAL (I)
151
xAlertFanCir1
Fans management alert in circuit 1
Fans are not operating as expected
AUTO (J)
152
xAlarmHeatResistorCir1
Alarm heat resistor circuit 1
Alert in FanMgmt Cir 1 or alert in FloatingHighPresCntrl Cir 1 or EvapPressCntrl Cir 1 or alert in Fan Altivar Cir1(configuration error, see Application function HVAC library guide) xAlarmThermHeatResistorCir1 active for at least 3 seconds
Stops heat resistor 1
AUTO
160
xAlarmGenericAlarmCir1
Stops all compressors in circuit 1
MANUAL
170
xAlertCOPCalcCir1
Generic xCommonAlarm input activated or Alarm circuit blocking Wiring Error (see list) and 1 the timer E2_uiDelayGenericAlarm has elapsed COP Alert in Interpolation, Density, calculation Evaporation enthalpy or circuit 1 alert condensation enthalpy calculation for circuit 1
Not precise COP calculation
AUTO (K)
200
xAlarmHighPressSwitchCir2
High xHPSwitchCir2 input activated and pressure the timer E2_uiDelayHPSwitch has switch alarm elapsed in circuit 2
Stops all compressors in circuit 2
MANUAL
201
xAlarmLowPressSwitchCir2
Low xLPSwitchCir2 input activated and pressure the timer E2_uiDelayLPSwitch has switch alarm elapsed in circuit 2
Stops all compressors in circuit 2
MANUAL
202
xAlarmHighPressCir2
High pressure alarm in circuit 2
iHighPressCir2 > E2_ Stops all iHighPressureMaxLimit and the compressors timerE2_DelayHPAlarm has elapsed in circuit 2
MANUAL
203
xAlarmLowPressCir2
Low pressure alarm in circuit 2
iLowPressCir2 < E2_ Stops all iLowPressureMinLimit and the compressors timerE2_DelayLPAlarm has elapsed in circuit 2
MANUAL
204
xAlarmCompressorsConfigCir2
Error in Parameters in some compressors ComprCntrlOnOff or CompCntrl_VS configuration in circuit 1 are not correct in circuit 2
Correspondent AUTO compressor in (G) circuit 2 is stopped
205
xAlarmCompressorsCir2
Error in compressor management in circuit 2 (H)
Parameters in CompMgmt or CompMgmtVS in circuit 2 are not correct, or compressors in alarm, or clock not correctly set
Stops all compressors in circuit 2
MANUAL
206
xAlarmEEVDriverCir2
Alarm from Alarm or Alert from FB_TM171VEV EEV driver in (see "FB_TM171VEVModbusCom: circuit 2 (H) Alarm ID Description" on page 32 and "FB_ TM171VEVModbusCom: Alert ID Description" on page 33)
Stops all compressors in circuit 2
MANUAL
211
xAlarmMotorComp1Cir2
Motor alarm in compressor 1 of circuit 2
xAlarmComp1Cir2 input activated or Stops Altivar/Altistart Comp1 Cir2 in alarm compressor 1 and the timer E2_uiDelayMotorAlarm in circuit 2 has elapsed
MANUAL
212
xAlarmMotorComp2Cir2
Motor alarm in compressor 2 of circuit 2
xAlarmComp2Cir2 input activated or Stops Altivar/Altistart Comp2 Cir2 in alarm compressor 2 and the timer E2_uiDelayMotorAlarm in circuit 2 has elapsed
MANUAL
98
Effects
Rearm Type
ID
12/18
Alarms
Alarm Name
Description
Causes
213
xAlarmMotorComp3Cir2
Motor alarm in compressor 3 of circuit 2
xAlarmComp3Cir2 input activated or Stops Altivar/Altistart Comp3 Cir2 in alarm compressor 3 and the timer E2_uiDelayMotorAlarm in circuit 2 has elapsed
MANUAL
214
xAlarmMotorComp4Cir2
Motor alarm in compressor 4 of circuit 2
xAlarmComp4Cir2 input activated or Stops Altivar/Altistart Comp4 Cir2 in alarm compressor 4 and the timer E2_uiDelayMotorAlarm in circuit 2 has elapsed
MANUAL
221
xAlarmOilPressureSwitchComp1Cir2 Oil pressure xOilPressSwitchComp1Cir2 input switch alarm activated and the timer E2_ in uiDelayOilPressSwitch has elapsed compressor 1 of circuit 2
Stops compressor 1 in circuit 2
MANUAL
222
xAlarmOilPressureSwitchComp2Cir2 Oil pressure xOilPressSwitchComp2Cir2 input switch alarm activated and the timer E2_ in uiDelayOilPressSwitch has elapsed compressor 2 of circuit 2
Stops compressor 2 in circuit 2
MANUAL
223
xAlarmOilPressureSwitchComp3Cir2 Oil pressure xOilPressSwitchComp3Cir2 input switch alarm activated and the timer E2_ in uiDelayOilPressSwitch has elapsed compressor 3 of circuit 2
Stops compressor 3 in circuit 2
MANUAL
224
xAlarmOilPressureSwitchComp4Cir2 Oil pressure xOilPressSwitchComp4Cir2 input switch alarm activated and the timer E2_ in uiDelayOilPressSwitch has elapsed compressor 4 of circuit 2
Stops compressor 4 in circuit 2
MANUAL
250
xAlarmFanCir2
Fans management alarm in circuit 2 (H)
Alarm in FanMgmt Cir 2 or alarm in Stops all FloatingHighPresCntrl Cir 2 or alarm compressors in Fan Altivar Cir2 or Fan stages in in circuit 2 Cir 2 in alarm. All inputs xAlarmCondFan activated (configuration error, see Application function HVAC library guide)
MANUAL (I)
251
xAlertFanCir2
Fans management alert in circuit 2
Fans are not operating as expected
AUTO (J)
252
xAlarmHeatResistorCir2
Alarm heat resistor circuit 2
Alert in FanMgmt Cir 2 or alert in FloatingHighPresCntrl Cir 2 or alert in Fan Altivar Cir2 (configuration error, see Application function HVAC library guide) xAlarmThermHeatResistorCir2 active for at least 3 seconds
Stops heat resistor 2
AUTO
260
xAlarmGenericAlarmCir2
Generic xCommonAlarm input activated or Alarm circuit blocking Wiring Error (see list) and 2 the timer E2_uiDelayGenericAlarm has elapsed
Stops all compressors in circuit 2
MANUAL
12/18
Effects
Rearm Type
ID
99
ID
Alarm Name
Description
Causes
Effects
270
xAlertCOPCalcCir2
COP Alert in Interpolation, Density, calculation Evaporation enthalpy or circuit 2 alert condensation enthalpy calculation for circuit 2
Not precise COP calculation
Rearm Type AUTO (K)
Related alarms: (A) xGeneralAlarm (if cooling and machine ON) (F) xGeneralAlarm (H) xGeneralAlarm (if both circuit in alarm) Rearm notes: (B) iInletWaterTemp > E2_iLowTemperatureMinLimit+1.0 for at least 3 seconds (C) iOutletWaterTemp>E2_iLowTemperatureMinLimit+1.0 for at least 3 seconds (D) Check scheduler AFBs parameters (E) Set time or substitute real time clock (G) Compressor is automatically restarted after the timers uiMinCycleTime and uiMinOffTime have elapsed (I) Automatic rearm after all Fan stages in alarm (J) Except bit 0 alert (see Application function HVAC library guide) in FanMgmt or bit 3 in FloatingHighPresCntrl: if parameters are changed a new startup (OFF->ON) is needed (K) Check COP calculation settings
Wiring Errors Alarm List Alarm Name
Description Causes
6
xAlarmEnergyMeter
Energy Meter
Missing communication Disable COP calculation with energy meter or wrong behaviou of EnergyTrend
AUTO
15
xAlarmWaterInTempSensor
Water iHotWaterTemp related Modulated pump at fixed temperature probe in Error speed in entry line sensor error
AUTO
16
xAlarmWaterOutTempSensor
Water iChilledWaterTemp temperature related probe in Error in exit line sensor error (A)
Modulated pump at fixed speed, stops all devices
AUTO (B)
17
xAlarmOutdoorAirTempSensor
Outdoor air iOutdoorAirTemp temperature related probe in Error sensor error
Floating high pressure and Water setpoint algorithm disabled
AUTO
18
xAlarmRoomTemp
Room iRoomTemp related temperature probe in Error sensor fault
Optimum start disable
AUTO
107 xAlarmLowPressureSensorCir1
Low iLowPressCir1 related pressure probe in Error sensor error in circuit 1 (C)
Stops all compressors in circuit 1
AUTO (D)
108 xAlarmHighPressureSensorCir1
High iHighPressCir1 related Stops all compressors in pressure probe in Error circuit 1 sensor error in circuit 1 (C)
AUTO (D)
109 xAlarmCondenserOutTempSensorCir1
Condenser iCondOutTempCir1 out related probe in Error temperature sensor error in circuit 1
AUTO
100
Effects
Rearm Type
ID
Subcooling calculation disable, COP calculation disable
12/18
Alarms
ID
Alarm Name
110 xAlarmEvaporatorOutTempSensorCir1
Rearm Type
Description Causes
Effects
Evaporator iEvapOutTempCir1 out related probe in Error temperature sensor error in circuit 1
Superheat calculation AUTO disable, COP calculation disable, EEV circuit 1 controlled at fixed position (see Modicon M171 Electronic - Expansion Valve Drivers, User Manual)
131 xAlarmDischargeTempSensorComp1Cir1 Discharge iDischTempComp1Cir1 User to manage the effect of AUTO temperature related probe in Error the alarm sensor error in compressor 1 of circuit 1 132 xAlarmDischargeTempSensorComp2Cir1 Discharge iDischTempComp2Cir1 User to manage the effect of AUTO temperature related probe in Error the alarm sensor error in compressor 2 of circuit 1 133 xAlarmDischargeTempSensorComp3Cir1 Discharge iDischTempComp3Cir1 User to manage the effect of AUTO temperature related probe in Error the alarm sensor error in compressor 3 of circuit 1 134 xAlarmDischargeTempSensorComp4Cir1 Discharge iDischTempComp4Cir1 User to manage the effect of AUTO temperature related probe in Error the alarm sensor error in compressor 4 of circuit 1 135 xAlarmEvapCoilTempCir1
Evaporator iEvapCoilTempCir1 coil related probe in Error temperature sensor fault circuit 1
Defrost terminates by time
AUTO
207 xAlarmLowPressureSensorCir2
Low iLowPressCir2 related pressure probe in Error sensor error in circuit 2 (C)
Stops all compressors in circuit 2
AUTO (E)
208 xAlarmHighPressureSensorCir2
High iHighPressCir2 related Stops all compressors in pressure probe in Error circuit 2 sensor error in circuit 2 (C)
AUTO (E)
209 xAlarmCondenserOutTempSensorCir2
Condenser iCondOutTempCir2 out related probe in Error temperature sensor error in circuit 2
Subcooling calculation disable, COP calculation disable
AUTO
210 xAlarmEvaporatorOutTempSensorCir2
Evaporator iEvapOutTempCir2 out related probe in Error temperature sensor error in circuit 2
Superheat calculation AUTO disable, COP calculation disable, EEV circuit 2 controlled at fixed position (see Modicon M171 Electronic - Expansion Valve Drivers, User Manual)
231 xAlarmDischargeTempSensorComp1Cir2 Discharge iDischTempComp1Cir2 User to manage the effect of AUTO temperature related probe in Error the alarm sensor error in compressor 1 of circuit 2
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101
ID
Alarm Name
Description Causes
Effects
Rearm Type
232 xAlarmDischargeTempSensorComp2Cir2 Discharge iDischTempComp2Cir2 User to manage the effect of AUTO temperature related probe in Error the alarm sensor error in compressor 2 of circuit 2 233 xAlarmDischargeTempSensorComp3Cir2 Discharge iDischTempComp3Cir2 User to manage the effect of AUTO temperature related probe in Error the alarm sensor error in compressor 3 of circuit 2 234 xAlarmDischargeTempSensorComp4Cir2 Discharge iDischTempComp4Cir2 User to manage the effect of AUTO temperature related probe in Error the alarm sensor error in compressor 4 of circuit 2 235 xAlarmEvapCoilTempCir2
Evaporator iEvapCoilTempCir2 coil related probe in Error temperature sensor fault circuit2
Defrost terminates by time
AUTO
Related alarms: (A) xGeneralAlarm (C) xGeneralAlarm (if both circuit in alarm) Rearm notes:: (B) Activates also xAlarmGenericAlarm (Cir 1 & Cir 2) with MANUAL rearm (D) Activate also xAlarmGenericAlarm (Cir 1) with MANUAL rearm (E) Activate also xAlarmGenericAlarm (Cir 2) with MANUAL rearm
102
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SYSTEM IMPLEMENTATION Software and Hardware Implementation Implementation Procedure Introduction Follow the steps below for the hardware components configuration and system commissioning. 1. "Installing and Configuring the Hardware" on page 103. 2. "Installing the Software and Opening the TVDA Project" on page 103. 3. Commissioning, see "Commissioning Overview" on page 103. For an overview on the files to be customized, according to the configuration, see "Modifying the TVDA Project" on page 109. Installing and Configuring the Hardware Step Action 1
2
3
See
Acquire the hardware components for the application.
Tested and validated electric panel BOM as example: "Bill of Material (BOM)" on page 159 Install the devices on the board and perform the electrical Tested and validated electric connections. panel wiring diagram as example: "Wiring Diagram" on page 161 Configure the devices that require configuration "Device Configuration" on page (expansion module, remote display, VSDs, soft starters, 106 EEV drivers, energy meter, motor circuit breakers).
Installing the Software and Opening the TVDA Project Step Action 1
Install the EcoStruxure Machine Expertâ&#x201E;˘ - HVAC software.
2
Open the TVDA project.
3
Modify the PLC project parameters and/or program code, if necessary, to the specific, customized requirements of your system.
See "Software Requirements" on page 108 "Access TVDA Project" on page 108 "Commissioning (Extended)" on page 105
Commissioning Overview The commissioning procedure depends on the features of the heat pump to be controlled:
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103
System Implementation
If the controlled heat pump...
Then...
See
has up to two circuits and up to two compressors and two fan stages per circuit has up to two circuits and up to four compressors and four fan stages per circuit has only one circuit with up to eight bistable compressors (no VSD)
only PLC project parameters need to be customized
"Commissioning (Standard)" on page 104
the PLC project program code needs to be customized
"Commissioning (Extended)" on page 105
does not have the EEV
"Commissioning (All Bistable Compressors)" on page 105 PLC project global variables and "Commissioning (Without I/O configuration need to be EEV)" on page 106 customized the PLC project program code needs to be customized
Commissioning (Standard) Step Action 1
2
Double click on the TVDA_HeatPump_Conf.CFN file icon: the program EcoStruxure Machine Expert™ – HVAC Installer starts automatically. NOTE: If you are customizing the PLC project, see "Commissioning (Extended)" on page 105, and/or "Commissioning (All Bistable Compressors)" on page 105, and/or "Commissioning (Without EEV)" on page 106 before continuing. Connect the controller to EcoStruxure Machine Expert™ – HVAC Installer.
See -
8
EcoStruxure Machine Expert™ – HVAC Operating Guide Modicon M172 Logic Controller, Hardware guide Download the TVDA project on the controller (Application, HMI, EcoStruxure HMI Remote, Cfg files, Web site). Also download the default values.* Machine Expert™ – HVAC NOTE: If the communication between controller and EEV driver is correctly set, EEV drivers are automatically configured by the PLC project Operating Guide (see "EEV Drivers" on page 81 and "EEV Drivers" on page 86). From the remote display, load the HMI downloaded on the controller. Modicon M172 Logic Controller, Hardware guide Set heat pump configuration parameters according to the system. "Heat Pump Configuration Parameters" on page 80 "Parameters Setting" on page 109 Set application parameters according to the system. "Application Parameters" on page 82 "Parameters Setting" on page 109 If necessary, modify specific system characteristics. "Special Settings" on page 110 Restart all devices to make parameters modifications operational. -
104
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3
4
5
6
7
Software and Hardware Implementation
* After download, the controller is rebooted and starts executing the application.
WARNING AUTOMATIC RESTART OF CONTROLLER l l
Do not download your application without first accessing the state of your machine or process. Do not download your application without first ascertaining that there is no risk of injury to anyone in or around your machine or process.
Failure to follow these instructions can result in death, serious injury, or equipment damage. Commissioning (Extended) Step Action 1
2
3 4
See
Open the TVDA_HeatPump.plcprj file and modify the program code EcoStruxure Machine as needed and adjust the I/O map (Phy2Log and Log2Phy timed Expert™ – HVAC programs). Operating Guide NOTE: If necessary, modify the web site pages (in Resources > Web site) and the HMI of the controller and the remote display (HMI_TVDA_HeatPump.pajx file). If necessary (for example an expansion module has been added), open the TVDA_HeatPump_Conf.CON file and adjust network configuration. Build the application and open it with the EcoStruxure Machine Expert™ – HVAC Installer. Go to step 2 of the "Commissioning (Standard)" on page 104 procedure.
Commissioning (All Bistable Compressors) Step Action 1 2
Open the TVDA_HeatPump.plcprj file. In the SR_CircuitCompCntrl program (row 0010), set the xCmdeC1...xCmdeC8 outputs of the CompMgmt AFB to the following variables: l l l l l l l l
3 4
12/18
See EcoStruxure Machine Expert™ – HVAC Operating Guide
xStartC1Cir1 xStartC2Cir1 xStartC3Cir1 xStartC4Cir1 xStartC1Cir2 xStartC2Cir2 xStartC3Cir2 xStartC4Cir2
If compressors of the "circuit 2" are used, set the E2_ usiNbCircuits parameter = 2. Go to step 2 of the "Commissioning (Standard)" on page 104 procedure.
105
System Implementation
Commissioning (Without EEV) Step Action 1 2
See
Open the TVDA_HeatPump.plcprj file. In Global variables > Automatic variables > Ungrouped_vars set the following variables to FALSE: l l
EcoStruxure Machine Expert™ – HVAC Operating Guide
xEnableModbusEEVCir1 and xEnableModbusEEVCir2 xTEvapFromTM171VEV
NOTE: In the TVDA, the evaporator output temperature sensor, the low pressure sensor, the heat mode condenser output temperature sensor and the room temperature sensor are connected to the EEV driver. Go to step 2 of the "Commissioning (Standard)" on page 104 procedure.
3
Device Configuration Introduction The following section presents information concerning the required settings for each component. Set these parameters to enable communication with the controller. Component TM172E28R Expansion module TM171DGRP Remote display Altivar 212 VSD
Required Setting l
CAN Expansion bus communication
l
CAN Expansion bus communication
l
Modbus communication (except communication timeout which is established by E2_uiComTimeOut controller parameter) Component specific parameters Modbus communication (except communication timeout which is established by E2_uiComTimeOut controller parameter) Component specific parameters Modbus communication Refrigerant type selection mode Component specific parameters
l
Power consumption of the controlled motor
l
l
Altistart 22 Soft starter
l
l
TM171VEVM4 EEV driver iEM3250 Energy meter TeSys GV2L motor circuit breaker
l l
See "TM172E28R Expansion Module" on page 106 "TM171DGRP Remote Display" on page 107 "Altivar 212 VSD" on page 107
"Altistart 22 Soft Starter" on page 107
"TM171VEVM4 EEV Driver" on page 108 "iEM3250 Energy Meter" on page 108 "TeSys GV2L Motor Circuit Breaker" on page 108
TM172E28R Expansion Module To set up CAN Expansion bus communication with the controller using the DIP switches, set the following values: l l
106
address: 1 baud rate: 500000
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Software and Hardware Implementation
For instructions on how to correctly connect I/Os and for more detailed information, see Modicon M172 - Logic Controller, Hardware guide and "I/O Variables" on page 111. TM171DGRP Remote Display In the Bios parameters > CAN menu, set the following parameters for CAN Expansion bus communication with the controller: l l
Address: 126 Baud rate: 500000
In the HMI Management > CAN menu, set the following parameters for allowing the upload of the HMI from the controller: l l l
File: HMIREM.KBD Id: 0 Address: 123
For detailed instructions about how to start the HMI upload and other information, see Modicon M172 - Logic Controller, Hardware guide. Altivar 212 VSD For each Altivar 212 VSD, set the following parameters for Modbus communication with the controller: Parameter
Value Description
Main menu CMod [Command mode sel] FMod [Frequency mode sel]
2 4
Drive commands via serial communication Drive speed reference via serial communication
1...4 5...8 21 22 23
For compressors 1...4, respectively, for circuit 1 For compressors 1...4, respectively, for circuit 2 For pump For circuit 1 fans For circuit 2 fans
F820 [Mdb network baud] F821 [Mdb network parity] F829 [Network protocol] F851 [Com fault setting]
1 1 1 4
19200 bps Even Mdb RTU
F807 [Com channel choice]
1
Sub-menu Com F802 [Modbus address]
Communication error activates an alarm Modbus command via Open style port
NOTE: Modbus communication time out (F803 parameter) is defined by the E2_uiComTimeOut PLC project parameter. To set the other device specific parameters and for more detailed information, see ATV212 Programming manual. Altistart 22 Soft Starter For each Altistart 22 soft starter, set the following parameters for Modbus communication with the controller: Parameter Cop menu Add [Modbus address]
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Value
Description
11...14 15...18
For compressors 1...4, respectively, for circuit 1 For compressors 1...4, respectively, for circuit 2
107
System Implementation
Parameter
Value
Description
tbr [Modbus baud rate] For [Modbus format] Ctrl [Command channel]
19.2 Kbps 8E1 dbS
8 bit, even parity, 1 stop bit Commands via serial communication
NOTE: Modbus communication time out (tt0 parameter) is defined by the E2_uiComTimeOut PLC project parameter. TM171VEVM4 EEV Driver For each TM171VEVM4 EEV driver, set the following parameters for Modbus communication with the controller: Parameter Main menu dF00 dF02 dF30 dF31 dF32
Value
Description
1 1 40 41
Modbus Commands via serial communication Modbus address for circuit 1 Modbus address for circuit 2
4 1
19.2 Kbps Even
All other EEV driver parameters are defined by the controller application, see "EEV Drivers" on page 81 and "EEV Drivers" on page 86. To allow the refrigerant type setting by controller parameter, set the pin 4, 5 and 6 of the EEV driver DIP switch to ON. For detailed information, see Modicon M171 Electronic - Expansion Valve Drivers, User Manual. iEM3250 Energy Meter Set the parameters for Modbus communication with the controller. Parameter
Value
Configuration menu, communication section Slave Address 30 Baud rate 19200 Parity Even
Description 19200 bps -
To set the other device specific parameters and for more detailed information, see iEM3000 series Energy Meters - User Manual. TeSys GV2L Motor Circuit Breaker For each TeSys GV2L motor circuit breaker, set the selector switch to the appropriate power consumption of the controlled motor.
Implementation Details Software Requirements To open and modify the TVDA project, the EcoStruxure Machine Expertâ&#x201E;˘ - HVAC software version 1.0 or greater must be installed. Download the most recent version which can be found at www.schneider-electric.com. Access TVDA Project The TVDA project files are available in EcoStruxure Machine Expertâ&#x201E;˘ - HVAC in the directory ..\Schneider Electric\EcoStruxureMachineExpertHVAC\TVDA\Air-water Heat Pump\Project. Here a list of the files included in the package: 108
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Software and Hardware Implementation
File Name
Description
EcoStruxure Machine File Name Expert™ - HVAC Extension Component Involved
TVDA_ HeatPump_ Conf TVDA_ HeatPump TVDA_ HeatPump_ Conf HMI_ TVDA_ HeatPump
PLC project configuration files
CFN
Commissioning
PLC project with web site pages integrated Network configuration files
plcprj
Programming
CON
Configuration
HMI project pajx All the files required by the HMI project are included in the same folder with the executable file.
Display
Parameters Setting Parameters can be set from one of the following devices: l l l l
EcoStruxure Machine Expert™ – HVAC Installer Controller display Remote display Web site
For a list of the parameters, see "Appendix A - Variables and Parameters Location Tables" on page 111. For detailed information on how to set the parameters from the different devices: Device
Document
EcoStruxure Machine Expert™ – HVAC Installer
EcoStruxure Machine Expert™ – HVAC Operating Guide
Controller
Modicon M172 - Logic Controller, Hardware guide This document ("HMI Project" on page 52) Modicon M171 - Performance Logic Controller, Hardware User Manual This document ("HMI Project" on page 52) This document ("Web Site" on page 44)
Remote display
Web site
Modifying the TVDA Project The table below presents a list of the files to edit according to the required action: To
Edit File
Set up parameters
TVDA_HeatPump_ Conf.CFN TVDA_HeatPump.plcprj TVDA_HeatPump_ Conf.CON
Modify the program code Modify network configuration
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EcoStruxure Machine Expert™ HVAC Component Involved Commissioning Programming Configuration
109
System Implementation
To
Edit File
EcoStruxure Machine Expertâ&#x201E;˘ HVAC Component Involved
Customize web site pages TVDA_HeatPump.plcprj Programming (Resources > Web site) Customize controller and HMI_TVDA_HeatPump.pajx Display remote display HMI
Special Settings Modifying Specific System Characteristics The table below presents instructions on how to modify specific system characteristics in the controller application. If you need to...
Then...
set the communication between set the following parameters to FALSE: controller and VSDs, soft l xAuthComp1Cir1 starters and EEV drivers as l xAuthComp1Cir2 read only. l xAuthComp2Cir1 l xAuthComp2Cir2 l xAuthComp3Cir1 l xAuthComp3Cir2 l xAuthComp4Cir1 l xAuthComp4Cir2 l xAuthFansCir1 l xAuthFansCir2 l xAuthPump create additional vectors. manage compressors with different characteristics NOTE: In the PLC project the vectors used to define compressor characteristics are aiMFOEML1, aiMFOEML2, aiMFOEML3, aiMFOEML4, aiMFOEML5, aiTCondRange and aiTEvapRange. manage a different number of modify the usiWeeklySchedNrEvents variable (default value = events in the weekly scheduler 20) and modify HMI project accordingly implement a water/water heat 1. in the SR_DefrostAndRevValves program, set the E2_ pump usiDefrostType parameter to 0. 2. For the secondary heat exchanger, modify the PLC project in order to add: pump control heating resistor management in the SR_DefrostAndRevValves program, replace the xHeaterCir variables with the xEn or xStartCompressor variable. It is also possible to modify the PLC project in order to set: l l
use the heating resistors as an integration in heat mode
l
l
110
an additional water temperature setpoint, usually lower than the main water temperature setpoint (E2_ iWaterTempSetHeat parameter) a hysteresis
12/18
APPENDIXES Appendix A - Variables and Parameters Location Tables Introduction For information about each variable and parameter (such as default value, min and max value, unit of measure, format, and data type), see "Variables Description" on page 72 and "Parameters Description" on page 80. NOTE: The following lists only include TVDA project variables which can also be accessed from the controller or remote display.
I/O Variables Digital Inputs Variable Name Circuit 1 xAlarmComp1Cir1
Description
Controller/ Remote Web Site Page Display Page
AFB/Program
Modbus Address
Alarm compressor 1
Circuit 1 compressors, I/O View > Digital input
Air-water heat pump > SR_Phy2Log, Circuit 1 > Compressor CompAlarmMgmt 1, I/O View: Inputs
9444
xAlarmComp2Cir1
Alarm compressor 2
Circuit 1 compressors, I/O View > Digital input
Air-water heat pump > SR_Phy2Log, Circuit 1 > Compressor CompAlarmMgmt 2, I/O View : Inputs
9445
xAlarmComp3Cir1
Alarm compressor 3
Circuit 1 compressors, I/O View > Digital input
Air-water heat pump > SR_Phy2Log, Circuit 1 > Compressor CompAlarmMgmt 3
9446
xAlarmComp4Cir1
Alarm compressor 4
Circuit 1 compressors, I/O View > Digital input
Air-water heat pump > SR_Phy2Log, Circuit 1 > Compressor CompAlarmMgmt 4
9447
xAlarmFan1Cir1
Alarm fan stage 1 Circuit 1 fans, I/O view > Digital input
Air-water heat pump > SR_Phy2Log, 9454 Circuit 1 > Fans > Fans FanMgmt, SR_Alarms alarms, I/O View: Inputs
xAlarmFan2Cir1
Alarm fan stage 2 Circuit 1 fans, I/O view > Digital input
Air-water heat pump > SR_Phy2Log, 9455 Circuit 1 > Fans > Fans FanMgmt, SR_Alarms alarms, I/O View: Inputs
xAlarmFan3Cir1
Alarm fan stage 3 Circuit 1 fans, I/O view > Digital input
Air-water heat pump > SR_Phy2Log, 9456 Circuit 1 > Fans > Fans FanMgmt, SR_Alarms alarms
xAlarmFan4Cir1
Alarm fan stage 4 Circuit 1 fans, I/O view > Digital input
Air-water heat pump > SR_Phy2Log, 9457 Circuit 1 > Fans > Fans FanMgmt, SR_Alarms alarms
xHPSwitchCir1
Alarm high pressure
I/O view > Digital input
I/O View: Inputs
xLPSwitchCir1
Alarm low pressure
I/O view > I/O View: Inputs Digital inputI/O view
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SR_Phy2Log, 9452 CompAlarmMgmt, FloatingHighPresCntrl SR_Phy2Log, CompAlarmMgmt
9453
111
Appendixes
Controller/ Remote Web Site Page Display Page
Description
xOilPressSwitchComp1Cir1
Oil pressure compressor 1
Circuit 1 compressors, I/O View > Digital input
Air-water heat pump > SR_Phy2Log, Circuit 1 > Compressor CompAlarmMgmt 1, I/O View: Inputs
9448
xOilPressSwitchComp2Cir1
Oil pressure compressor 2
Circuit 1 compressors, I/O View > Digital input
Air-water heat pump > SR_Phy2Log, Circuit 1 > Compressor CompAlarmMgmt 2, I/O View: Inputs
9449
xOilPressSwitchComp3Cir1
Oil pressure compressor 3
Circuit 1 compressors, I/O View > Digital input
Air-water heat pump > SR_Phy2Log, Circuit 1 > Compressor CompAlarmMgmt 3
9450
xOilPressSwitchComp4Cir1
Oil pressure compressor 4
Circuit 1 compressors, I/O View > Digital input Circuit 1 > Defrost, I/O View > Digital input
Air-water heat pump > SR_Phy2Log, Circuit 1 > Compressor CompAlarmMgmt 4
9451
Alarm compressor 1
Circuit 2 compressors, I/O view > Digital input
Air-water heat pump > SR_Phy2Log, Circuit 2 > Compressor CompAlarmMgmt 1, I/O View: Inputs
9462
xAlarmComp2Cir2
Alarm compressor 2
Circuit 2 compressors, I/O view > Digital input
Air-water heat pump > SR_Phy2Log, Circuit 2 > Compressor CompAlarmMgmt 2, I/O View: Inputs
9463
xAlarmComp3Cir2
Alarm compressor 3
Circuit 2 compressors, I/O view > Digital input
Air-water heat pump > SR_Phy2Log, Circuit 2 > Compressor CompAlarmMgmt 3
9464
xAlarmComp4Cir2
Alarm compressor 4
Circuit 2 compressors, I/O view > Digital input
Air-water heat pump > SR_Phy2Log, Circuit 2 > Compressor CompAlarmMgmt 4
9465
xAlarmFan1Cir2
Alarm fan stage 1 Circuit 2 fans, I/O view > Digital input
Air-water heat pump > SR_Phy2Log, 9472 Circuit 2 > Fans > Fans FanMgmt, SR_Alarms alarms, I/O View: Inputs
xAlarmFan2Cir2
Alarm fan stage 2 Circuit 2 fans, I/O view > Digital input
Air-water heat pump > SR_Phy2Log, 9473 Circuit 2 > Fans & FanMgmt, SR_Alarms Defrost > Fans alarms, I/O View: Inputs
xAlarmFan3Cir2
Alarm fan stage 3 Circuit 2 fans, I/O view > Digital input
Air-water heat pump > SR_Phy2Log, 9474 Circuit 2 > Fans > Fans FanMgmt, SR_Alarms alarms
xAlarmFan4Cir2
Alarm fan stage 4 Circuit 2 fans, I/O view > Digital input
Air-water heat pump > SR_Phy2Log, 9475 Circuit 2 > Fans > Fans FanMgmt, SR_Alarms alarms
xHPSwitchCir2
Alarm high pressure
I/O view > Digital input
I/O View: Inputs
SR_Phy2Log, 9470 CompAlarmMgmt, FloatingHighPresCntrl
xLPSwitchCir2
Alarm low pressure
I/O view > Digital input
I/O View: Inputs
SR_Phy2Log, CompAlarmMgmt
9471
xOilPressSwitchComp1Cir2
Oil pressure compressor 1
Circuit 2 compressors, I/O view > Digital input
Air-water heat pump > SR_Phy2Log, Circuit 2 > Compressor CompAlarmMgmt 1, I/O View: Inputs
9466
xAlarmThermHeatResistorCir1 Alarm Heating Resistor
Circuit 2 xAlarmComp1Cir2
112
Air-water heat pump > Circuit 1 > Defrost, I/O View
AFB/Program
Modbus Address
Variable Name
9618 SR_Alarms, SR_ DefrostAndRevValves
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Appendix A - Variables and Parameters Location Tables
Controller/ Remote Web Site Page Display Page
Description
xOilPressSwitchComp2Cir2
Oil pressure compressor 2
Circuit 2 compressors, I/O view > Digital input
Air-water heat pump > SR_Phy2Log, Circuit 2 > Compressor CompAlarmMgmt 2, I/O View: Inputs
9467
xOilPressSwitchComp3Cir2
Oil pressure compressor 3
Circuit 2 compressors, I/O view > Digital input
Air-water heat pump > SR_Phy2Log, Circuit 2 > Compressor CompAlarmMgmt 3
9468
xOilPressSwitchComp4Cir2
Oil pressure compressor 4
Circuit 2 compressors, I/O view > Digital input Circuit 2 > Defrost, I/O View > Digital input
Air-water heat pump > SR_Phy2Log, Circuit 2 > Compressor CompAlarmMgmt 4
9469
Air-water heat pump > Circuit 2 > Defrost, I/O View
SR_Alarms, SR_ 9619 DefrostAndRevValves
Air-water heat pump > Pumps, I/O View: Inputs Air-water heat pump > Pumps, I/O View: Inputs
SR_Phy2Log, 9458 RedundantPumpCntrl
xAlarmThermHeatResistorCir2 Alarm Heating Resistor
AFB/Program
Modbus Address
Variable Name
General xAlarmThermBlockPump1
Alarm pump 1
Pumps, I/O view > Digital input
xAlarmThermBlockPump2
Alarm pump 2
Pumps, I/O view > Digital input
xCommonAlarm
Common alarm
I/O view > Analog input
I/O View: Inputs
SR_Phy2Log, SR_ CompCir1Cntrl, SR_ CompCir2Cntrl,
9443
xEmergencyStop
Emergency stop switch
I/O view > Digital input
I/O View: Inputs
SR_Phy2Log, SR_ Alarms, CompAlarmMgmt
9461
xLocalStartStop
Local start/stop
I/O view > Analog input
I/O View: Inputs
SR_Phy2Log, SR_ PumpCntrl, SR_ Alarms
9442
xPumpFlowSwitch
Pump/Evaporator Pumps, I/O flow switch view > Digital input
Air-water heat pump > Pumps, I/O View: Inputs
SR_Phy2Log, SR_ 9460 Alarms, RedundantPumpCntrl
xRemoteStartStop
Remote start/stop I/O view > Analog input
I/O View: Inputs
SR_Phy2Log, SR_ PumpCntrl, SR_ Alarms
SR_Phy2Log, 9459 RedundantPumpCntrl
9441
Analog Inputs Variable Name Circuit 1 iCondOutTempCir1
Description
Web Site Page
AFB/Program
Modbus Address
Circuit 1, I/O Air-water heat view > pump > Circuit 1, Analog input I/O View: Inputs
Fluid_Enthalpy, SR_Alarms, SR_ Phy2Log
9415
iDischTempComp1Cir1 Sensor discharge temperature compressor 1
I/O view > I/O View: Inputs Analog input
SR_Alarms
9410
iDischTempComp2Cir1 Sensor discharge temperature compressor 2
I/O view > I/O View: Inputs Analog input
SR_Alarms
9411
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Sensor condenser output temperature
Controller/ Remote Display Page
113
Appendixes
Variable Name
Description
Controller/ Remote Display Page
Web Site Page
AFB/Program
Modbus Address
iDischTempComp3Cir1 Sensor discharge temperature compressor 3
I/O view > Analog input
SR_Alarms
9412
iDischTempComp4Cir1 Sensor discharge temperature compressor 4
I/O view > Analog input
SR_Alarms
9413
iEvapOutTempCir1
Sensor evaporator output temperature
I/O view > Air-water heat Analog input pump > Circuit 1, I/O View: Inputs
Fluid_Density, Fluid_Enthalpy, SR_ Alarms, SR_Phy2Log
9416
iHighPressCir1
Sensor high pressure
Circuit 1, I/O Air-water heat view > pump > Circuit 1, Analog input I/O View: Inputs
Fluid_Enthalpy, CompAlarmMgmt, SR_Alarms, FloatingHighPresCntrl
9408
iLowPressCir1
Sensor low pressure
Circuit 1, I/O Air-water heat view > pump > Circuit 1, Analog input I/O View: Inputs
Press2Temp, Fluid_Density, Fluid_ Enthalpy, CompAlarmMgmt, SR_ Alarms, SR_CircuitCompCntrl (pump down)
9407
iEvapCoilTempCir1
Evaporator Circuit 1, I/O coil view > temperature Analog inpu (defrost) circuit 1
Circuit 2 iCondOutTempCir2
9610
Circuit 2, I/O Air-water heat view > pump > Circuit 2, Analog input I/O View: Inputs
Fluid_Enthalpy, SR_Alarms, SR_ Phy2Log
9424
iDischTempComp1Cir2 Sensor discharge temperature compressor 1
I/O view > I/O View: Inputs Analog input
SR_Alarms
9420
iDischTempComp2Cir2 Sensor discharge temperature compressor 2
I/O view > I/O View: Inputs Analog input
SR_Alarms
9421
iDischTempComp3Cir2 Sensor discharge temperature compressor 3
I/O view > Analog input
SR_Alarms
9422
iDischTempComp4Cir2 Sensor discharge temperature compressor 4
I/O view > Analog input
SR_Alarms
9423
iEvapOutTempCir2
Sensor evaporator output temperature
I/O view > Air-water heat Analog input pump > Circuit 2, I/O View: Inputs
Fluid_Density, Fluid_Enthalpy, SR_ Alarms, SR_Phy2Log
9425
iHighPressCir2
Sensor high pressure
Circuit 2, I/O Air-water heat view > pump > Circuit 2, Analog input I/O View: Inputs
Fluid_Enthalpy, CompAlarmMgmt, SR_Alarms, FloatingHighPresCntrl
9418
iLowPressCir2
Sensor low pressure
Circuit 2, I/O Air-water heat view > pump > Circuit 2, Analog input I/O View: Inputs
Press2Temp, Fluid_Density, Fluid_ Enthalpy, CompAlarmMgmt, SR_ Alarms, SR_CircuitCompCntrl (pump down)
9417
iEvapCoilTempCir2
Evaporator Circuit 2, I/O Air-water heat FB_HPDefrosAndRevValve coil view > pump > Circuit 2 > temperature Analog input Defrost, I/O View: (defrost) circuit Inputs 2
114
Sensor condenser output temperature
Air-water heat FB_HPDefrosAndRevValve pump > Circuit 1 > Defrost, I/O View: Inputs
9611
12/18
Appendix A - Variables and Parameters Location Tables
Variable Name General iOutletWaterTemp
Description
Controller/ Remote Display Page
Web Site Page
AFB/Program
Modbus Address
Sensor outlet water temperature
Circuit 1, Air-water heat Circuit 2, I/O pump > I/O View: view > Inputs Analog input
CompMgmt, PIDAdvanced (REAL), SR_Alarms
9404
iInletWaterTemp
Sensor inlet water temperature
Circuit 1, Air-water heat Circuit 2, I/O pump, I/O View: view > Inputs Analog input
SR_PumpCntrl, SR_Alarms
9405
iOutdoorAirTemp
Sensor outdoor air temperature
Circuit 1, Air-water heat Circuit 2, I/O pump > I/O View: view > Inputs Analog input
FloatingHighPressCntrl, SR_Alarms, SR_WaterSetAndScheduler
9414
iRoomTemp
Room temperature
I/O view > Air-water heat Analog input pump > I/O View: Inputs
Sr_WaterSetAndScheduler
9615
Digital Outputs Variable Name
Description
Circuit 1 xReversingValveCir1 Start/Stop Command Reversing valve circuit 1
Controller/ Remote Display Page
Web Site Page
AFB/Program
Modbus Address
Circuit 1 > Defrost, Air-water heat pump > I/O View > Digital Circuit 1 > Defrost output
FB_ HPDefrosAndRevValve
9601
xComp1Cir1
Start/stop command VSD compressor 1
Circuit 1 compressors, I/O View > Digital output
Air-water heat pump > Circuit 1 > Compressor 1, I/O View: Outputs
SR_Log2Phy, CompAlarmMgmt, CompCntrl_OnOff, CompCntrl_VS
9479
xComp2Cir1
Start/stop command soft start compressor 2
Circuit 1 compressors, I/O View > Digital output
Air-water heat pump > Circuit 1 > Compressor 2, I/O View: Outputs
SR_Log2Phy, CompAlarmMgmt, CompCntrl_OnOff, CompCntrl_VS
9480
xComp3Cir1
Start/stop command compressor 3 circuit 1
Circuit 1 compressors, I/O View > Digital output
Air-water heat pump > Circuit 1 > Compressor 3, I/O View: Outputs
SR_Log2Phy, CompAlarmMgmt, CompCntrl_OnOff, CompCntrl_VS
9481
xComp4Cir1
Start/stop command compressor 4 circuit 1
Circuit 1 compressors, I/O View > Digital output
Air-water heat pump > Circuit 1 > Compressor 4, I/O View: Outputs
SR_Log2Phy, CompAlarmMgmt, CompCntrl_OnOff, CompCntrl_VS
9482
xFan1Cir1
Start/stop command fan stage 1
Circuit 1 fans, I/O view > Digital output
Air-water heat pump > Circuit 1 > Fans, I/O View: Outputs
SR_Log2Phy, FanMgmt
9483
xFan2Cir1
Start/stop command fan stage 2
Circuit 1 fans, I/O view > Digital output
Air-water heat pump > Circuit 1 > Fans, I/O View: Outputs
SR_Log2Phy, FanMgmt
9484
xFan3Cir1
Start/stop command fan stage 3
Circuit 1 fans, I/O view > Digital output
Air-water heat pump > Circuit 1 > Fans, I/O View: Outputs
SR_Log2Phy, FanMgmt
9485
xFan4Cir1
Start/stop command fan stage 4
Circuit 1 fans, I/O view > Digital output
Air-water heat pump > Circuit 1 > Fans, I/O View: Outputs
SR_Log2Phy, FanMgmt
9486
xSolenoidCir1
Start/stop command solenoid valve
Circuit 1 EEV, I/O view > Digital output
Air-water heat pump > Circuit 1, I/O View: Outputs
SR_Log2Phy, SR_ CircuitCompCntrl
9491
12/18
115
Appendixes
Variable Name
Description
Controller/ Remote Display Page
Web Site Page
xHeatingResistorCir1 Start/Stop Circuit 1 > Defrost, Air-water heat pump > Command I/O View > Digital Circuit 1 > Defrost Heating Resistor output 1 Circuit 2 xReversingValveCir2 Start/Stop Command Reversing valve circuit 2
AFB/Program
Modbus Address
FB_ HPDefrosAndRevValve
9602
Circuit 2 > Defrost, Air-water heat pump > I/O View > Digital Circuit 2 > Defrost output
FB_ HPDefrosAndRevValve
9603
xComp1Cir2
Start/stop command VSD compressor 1
Circuit 2 compressors, I/O view > Digital output
Air-water heat pump > Circuit 2 > Compressor 1, I/O View: Outputs
SR_Log2Phy, CompAlarmMgmt, CompCntrl_OnOff, CompCntrl_VS
9492
xComp2Cir2
Start/stop command soft start compressor 2
Circuit 2 compressors, I/O view > Digital output
Air-water heat pump > Circuit 2 > Compressor 2, I/O View: Outputs
SR_Log2Phy, CompAlarmMgmt, CompCntrl_OnOff, CompCntrl_VS
9493
xComp3Cir2
Start/stop command compressor 3 circuit 2
Circuit 2 compressors, I/O view > Digital output
Air-water heat pump > Circuit 2 > Compressor 3, I/O View: Outputs
SR_Log2Phy, CompAlarmMgmt, CompCntrl_OnOff, CompCntrl_VS
9494
xComp4Cir2
Start/stop command compressor 4 circuit 2
Circuit 2 compressors, I/O view > Digital output
Air-water heat pump > Circuit 2 > Compressor 4, I/O View: Outputs
SR_Log2Phy, CompAlarmMgmt, CompCntrl_OnOff, CompCntrl_VS
9495
xFan1Cir2
Start/stop command fan stage 1
Circuit 2 fans, I/O view > Digital output
Air-water heat pump > Circuit 2 > Fans, I/O View: Outputs
SR_Log2Phy, FanMgmt
9496
xFan2Cir2
Start/stop command fan stage 2
Circuit 2 fans, I/O view > Digital output
Air-water heat pump > Circuit 2 > Fans, I/O View: Outputs
SR_Log2Phy, FanMgmt
9497
xFan3Cir2
Start/stop command fan stage 3
Circuit 2 fans, I/O view > Digital output
Air-water heat pump > Circuit > Fans
SR_Log2Phy, FanMgmt
9498
xFan4Cir2
Start/stop command fan stage 4
Circuit 2 fans, I/O view > Digital output
Air-water heat pump > Circuit 2 > Fans
SR_Log2Phy, FanMgmt
9499
Circuit 2 EEV, I/O view > Digital output Circuit 2 > Defrost, I/O View > Digital output
Air-water heat pump > Circuit 2, I/O View: Outputs
SR_Log2Phy, SR_ CircuitCompCntrl
9504
Air-water heat pump > Circuit 2 > Defrost
FB_ HPDefrosAndRevValve
9604
General alarm
I/O view > Digital ouput
I/O View: Outputs
SR_Log2Phy, SR_ Alarms, PIDAutoTuning, PIDAdvanced
9478
xPump1
Start/stop command pump 1
Pumps, Circuit 1/ Circuit 2, I/O view > Digital output
Air-water heat pump > Pumps, I/O View: Outputs
SR_Log2Phy, SR_ Alarms, RedundantPumpCntrl, OperatingHours
9476
xPump2
Start/stop command pump 2
Pumps, Circuit 1/ Circuit 2, I/O view > Digital output
Air-water heat pump > Pumps, I/O View: Outputs
SR_Log2Phy, SR_ Alarms, RedundantPumpCntrl, OperatingHours
9477
xSolenoidCir2
Start/stop command solenoidvalve xHeatingResistorCir2 Start/Stop Command Heating Resistor 2 General xGeneralAlarm
** To be used if you do not want to use the Modbus command.
116
12/18
Appendix A - Variables and Parameters Location Tables
Analog Outputs Variable Name
Controller/ Remote Display Page
Description
Circuit 1 iComp1Cir1 Regulation command VSD compressor 1
Web Site Page
AFB/Program
Modbus Address
Circuit 1 compressors, I/O Air-water heat pump > Circuit 1> SR_ View > Analog output Compressor 1, I/O View: Outputs CompCir1Cntrl
9430
iComp2Cir1 Regulation command VSD compressor 2
Circuit 1 compressors, I/O Air-water heat pump > Circuit 1> SR_ View > Analog output Compressor 2, I/O View: Outputs CompCir1Cntrl
9431
iComp3Cir1 Regulation command VSD compressor 3
Circuit 1 compressors, I/O Air-water heat pump > Circuit 1> SR_ View > Analog output Compressor 3, I/O View: Outputs CompCir1Cntrl
9432
iComp4Cir1 Regulation command VSD compressor 4
Circuit 1 compressors, I/O Air-water heat pump > Circuit 1> SR_ View > Analog output Compressor 4, I/O View: Outputs CompCir1Cntrl
9433
iFanCir1
Circuit 1 fans, I/O View > Analog output
9434
Regulation command VSD fan
Circuit 2 iComp1Cir2 Regulation command VSD compressor 1
Air-water heat pump > Circuit 1> SR_ Fans, I/O View: Outputs FanCir1Cntrl
Circuit 2 compressors, I/O Air-water heat pump > Circuit 2> SR_ View > Analog output Compressor 1, I/O View: Outputs CompCir2Cntrl
9435
iComp2Cir2 Regulation command VSD compressor 2
Circuit 2 compressors, I/O Air-water heat pump > Circuit 2> SR_ View > Analog output Compressor 2, I/O View: Outputs CompCir2Cntrl
9436
iComp3Cir2 Regulation command VSD compressor 3
Circuit 2 compressors, I/O Air-water heat pump > Circuit 2> SR_ View > Analog output Compressor 3, I/O View: Outputs CompCir2Cntrl
9437
iComp4Cir2 Regulation command VSD compressor 4
Circuit 2 compressors, I/O Air-water heat pump > Circuit 2> SR_ View > Analog output Compressor 4, I/O View: Outputs CompCir2Cntrl
9438
iFanCir2
Regulation command VSD fan
Circuit 2 fans, I/O View > Analog output
Air-water heat pump > Circuit 2> SR_ Fans, I/O View: Outputs FanCir2Cntrl
9439
Regulation command VSD pump 1
Pumps, Circuit 1, Circuit 2, I/O View > Analog output
Air-water heat pump> Pumps, I/O PID_Advanced View: Outputs (SR_ PumpCntrl)
9440
General iPump
Other Variables General Variable Name Circuit 1 iCondTempCir1
Description
Controller/ Remote Display Page
Web Site Page
AFB/Program
Modbus Address
Condensation temperature
Circuit 1
Air-water heat pump > Circuit 1
MassFlowOEMCalcCir1, FloatingHighPressCntrl, SR_ Phy2Log
9400
iCondTempSetpCir1
Condensation temperaturesetpoint
Circuit 1
Air-water heat pump > Circuit 1
FloatingHighPressCntrl
9401
iEvapTempCir1
Evaporation temperature circuit 1
Circuit 1
Air-water heat pump > Circuit 1
Press2Temp, MassFlowOEMCalcCir1, Fluid_ Density
9409
iEvapTempSetpCir1
Evaporation temperature current setpoint circuit 1
Circuit 1
Air-water heat pump > Circuit 1
FB_EvapPressCntrl
9616
iSuperHeatCir1
Superheat for circuit 1 Circuit 1, Circuit 1 EEV
Air-water heat pump > Circuit 1
SR_Phy2Log
9426
12/18
117
Appendixes
Controller/ Remote Display Page
Web Site Page
AFB/Program
Modbus Address
Maximum capacity for Circuit 1 circuit 1
-
FB_CircuitMgmt, CompMgmtVS
9276
Actual capacity for circuit 1
Circuit 1
Air-water heat pump > Circuit 1
CompMgmtVS, CompMgmt
9268
Condensation temperature
Circuit 2
Air-water heat pump > Circuit 2
MassFlowOEMCalcCir2, FloatingHighPressCntrl, SR_ Phy2Log
9402
iCondTempSetpCir2
Condensation temperature setpoint
Circuit 2
Air-water heat pump > Circuit 2
FloatingHighPressCntrl
9403
iEvapTempCir2
Evaporation temperature circuit 1
Circuit 2
Air-water heat pump > Circuit 2
Press2Temp, MassFlowOEMCalcCir2, Fluid_ Density
9419
iEvapTempSetpCir2
Evaporation temperature current setpoint circuit 2
Circuit 2
Air-water heat pump > Circuit 2
FB_EvapPressCntrl
9617
iSuperHeatCir2
Superheat for circuit 2 Circuit 2, Circuit 2 EEV
Air-water heat pump > Circuit 2
SR_Phy2Log
9427
rCapMaxCir2
Maximum capacity for Circuit 2 circuit 2
-
FB_CircuitMgmt, CompMgmtVS
9278
rReqCapacityCir2
Actual capacity for circuit 2
Circuit 2
Air-water heat pump > Circuit 2
CompMgmtVS, CompMgmt
9270
General uiRemoteEventCmdTimer Watchdog timer for external scheduler control
-
-
SR_Display, SR_Scheduler
8978
usiRemoteEventID
External scheduler event ID
-
-
SR_Scheduler
8979
iCurrentWaterTempSet
Water temperature setpoint
Circuit 1, Circuit 2
Air-water heat pump
CompMgmt, PIDAdvanced (REAL), 9406 SR_Alarms
xCmdOnOffToggle
Toggle ON/OFF status Circuit 1, Circuit 2
Air-water heat pump
SR_Display
9600
xOnOffStatus
Global Machine ON/OFF Status
Circuit 1, Circuit 2
Air-water heat pump
SR_CircuitCompCntrl, SR_ SystemStatus
9605
xOnOffRemote
ON/OFF Status from HMI
Circuit 1, Circuit 2
-
SR_WaterSetAndScheduler
9606
xDigitalHeatCool
Digital input heat/cool Circuit 1, command Circuit 2
-
FB_ModeSelection
9607
xRemoteHeatCool
Remote heat/cool command (TRUE= heat, FALSE=cool)
Circuit 1, Circuit 2
-
FB_ModeSelection
9608
xModeHeatCool
Heat/cool mode status (TRUE=heat, FALSE=cool)
Circuit 1, Circuit 2
Air-water heat pump
FB_HPDefrosAndRevValve, SR_ CircuitCompCntrl, SR_ PumpControl, FB_ModeSelection
9609
xCmdHeatCoolToggle
Toggle Heat/Cool status
Circuit 1, Circuit 2
Air-water heat pump
SR_Display
9612
uiOperationMode
Operation mode
Circuit 1, Circuit 2
-
SR_Display
10009
xIsAlarmActive
Alarm active
Circuit 1, Circuit 2
Air-water heat pump
SR_Display
10010
xIsWiringFaultActive
Wiring error active
Circuit 1, Circuit 2 Global enable/disable -
Air-water heat pump
SR_Display
10011
Air-water heat pump
All
10012
Variable Name
Description
rCapMaxCir1 rReqCapacityCir1
Circuit 2 iCondTempCir2
xEn
118
12/18
Appendix A - Variables and Parameters Location Tables
Compressors Controller/ Remote Web Site Page Display Page
AFB/Program
Modbus Address
Variable Name
Description
Circuit 1 E2_udiNbStartsComp1Cir1
Total number of starts
Circuit 1Air-water heat CompCntrl_ Compressor 1 pump > Circuit 1 > OnOff, Compressor 1 CompCntrl_ VS
16472
E2_udiNbStartsComp2Cir1
Total number of starts
Circuit 1Air-water heat CompCntrl_ Compressor2 pump > Circuit 1 > OnOff, Compressor 2 CompCntrl_ VS
16474
E2_udiNbStartsComp3Cir1
Total number of starts
Circuit 1Air-water heat CompCntrl_ Compressor 3 pump > Circuit 1 > OnOff, Compressor 3 CompCntrl_ VS
16476
E2_udiNbStartsComp4Cir1
Total number of starts
Circuit 1Air-water heat CompCntrl_ Compressor 4 pump > Circuit 1 > OnOff, Compressor 4 CompCntrl_ VS
16478
E2_udiOpHoursComp1Cir1
Total number of operating hours
Circuit 1Air-water heat CompCntrl_ Compressor 1 pump > Circuit 1 > OnOff, Compressor 1 CompCntrl_ VS
16456
E2_udiOpHoursComp2Cir1
Total number of operating hours
Circuit 1Air-water heat CompCntrl_ Compressor2 pump > Circuit 1 > OnOff, Compressor 2 CompCntrl_ VS
16458
E2_udiOpHoursComp3Cir1
Total number of operating hours
Circuit 1Air-water heat CompCntrl_ Compressor 3 pump > Circuit 1 > OnOff, Compressor 3 CompCntrl_ VS
16460
E2_udiOpHoursComp4Cir1
Total number of operating hours
Circuit 1Air-water heat CompCntrl_ Compressor 4 pump > Circuit 1 > OnOff, Compressor 4 CompCntrl_ VS
16462
uiElapsedCycleTimeComp1Cir1 Remaining time before Circuit 1 minimum cycle time elapsed compressors compressor 1 circuit 1
Air-water heat CompCntrl_ pump > Circuit 1 > VS, Compressor 1 CompCntrl_ OnOff
9531
uiElapsedCycleTimeComp2Cir1 Remaining time before Circuit 1 minimum cycle time elapsed compressors compressor 2 circuit 1
Air-water heat CompCntrl_ pump > Circuit 1 > VS, Compressor 2 CompCntrl_ OnOff
9532
uiElapsedCycleTimeComp3Cir1 Remaining time before Circuit 1 minimum cycle time elapsed compressors compressor 3 circuit 1
Air-water heat CompCntrl_ pump > Circuit 1 > VS, Compressor 3 CompCntrl_ OnOff
9533
uiElapsedCycleTimeComp4Cir1 Remaining time before Circuit 1 minimum cycle time elapsed compressors compressor 4 circuit 1
Air-water heat CompCntrl_ pump > Circuit 1 > VS, Compressor 4 CompCntrl_ OnOff
9534
uiElapsedOffTimeComp1Cir1
Remaining time before minimum Off time elapsed compressor 1 circuit 1
Circuit 1 compressors
Air-water heat CompCntrl_ pump > Circuit 1 > VS, Compressor 1 CompCntrl_ OnOff
9523
uiElapsedOffTimeComp2Cir1
Remaining time before minimum Off time elapsed compressor 2 circuit 1
Circuit 1 compressors
Air-water heat CompCntrl_ pump > Circuit 1 > VS, Compressor 2 CompCntrl_ OnOff
9524
12/18
119
Appendixes
Controller/ Remote Web Site Page Display Page
AFB/Program
Modbus Address
Variable Name
Description
uiElapsedOffTimeComp3Cir1
Remaining time before minimum Off time elapsed compressor 3 circuit 1
Circuit 1 compressors
Air-water heat CompCntrl_ pump > Circuit 1 > VS, Compressor 3 CompCntrl_ OnOff
9525
uiElapsedOffTimeComp4Cir1
Remaining time before minimum Off time elapsed compressor 4 circuit 1
Circuit 1 compressors
Air-water heat CompCntrl_ pump > Circuit 1 > VS, Compressor 4 CompCntrl_ OnOff
9526
uiElapsedOnTimeComp1Cir1
Remaining time before minimum On time elapsed compressor 1 circuit 1
Circuit 1 compressors
Air-water heat CompCntrl_ pump > Circuit 1 > VS, Compressor 1 CompCntrl_ OnOff
9515
uiElapsedOnTimeComp2Cir1
Remaining time before minimum On time elapsed compressor 2 circuit 1
Circuit 1 compressors
Air-water heat CompCntrl_ pump > Circuit 1 > VS, Compressor 2 CompCntrl_ OnOff
9516
uiElapsedOnTimeComp3Cir1
Remaining time before minimum On time elapsed compressor 3 circuit 1
Circuit 1 compressors
Air-water heat CompCntrl_ pump > Circuit 1 > VS, Compressor 3 CompCntrl_ OnOff
9517
uiElapsedOnTimeComp4Cir1
Remaining time before minimum On time elapsed compressor 4 circuit 1
Circuit 1 compressors
Air-water heat CompCntrl_ pump > Circuit 1 > VS, Compressor 4 CompCntrl_ OnOff
9518
xCmdOpHoursResetComp1Cir1 Reset command for Circuit 1 operation hours compressor compressors 1 circuit 1
Air-water heat CompCntrl_ pump > Circuit 1 > VS, Compressor 1 CompCntrl_ OnOff
9505
xCmdOpHoursResetComp2Cir1 Reset command for Circuit 1 operation hours compressor compressors 2 circuit 1
Air-water heat CompCntrl_ pump > Circuit 1 > VS, Compressor 2 CompCntrl_ OnOff
9506
xCmdOpHoursResetComp3Cir1 Reset command for Circuit 1 operation hours compressor compressors 3 circuit 1
Air-water heat CompCntrl_ pump > Circuit 1 > VS, Compressor 3 CompCntrl_ OnOff
9507
xCmdOpHoursResetComp4Cir1 Reset command for Circuit 1 operation hours compressor compressors 4 circuit 1
Air-water heat CompCntrl_ pump > Circuit 1 > VS, Compressor 4 CompCntrl_ OnOff
9508
Circuit 2 E2_udiNbStartsComp1Cir2
Total number of starts
Circuit 2Air-water heat CompCntrl_ Compressor 1 pump > Circuit 2 > OnOff, Compressor 1 CompCntrl_ VS
16480
E2_udiNbStartsComp2Cir2
Total number of starts
Circuit 2Air-water heat CompCntrl_ Compressor2 pump > Circuit 2 > OnOff, Compressor 2 CompCntrl_ VS
16482
E2_udiNbStartsComp3Cir2
Total number of starts
Circuit 2Air-water heat CompCntrl_ Compressor 3 pump > Circuit 2 > OnOff, Compressor 3 CompCntrl_ VS
16484
E2_udiNbStartsComp4Cir2
Total number of starts
Circuit 2Air-water heat CompCntrl_ Compressor 4 pump > Circuit 2 > OnOff, Compressor 4 CompCntrl_ VS
16486
E2_udiOpHoursComp1Cir2
Total number of operating hours
Circuit 2Air-water heat CompCntrl_ Compressor 1 pump > Circuit 2 > OnOff, Compressor 1 CompCntrl_ VS
16464
120
12/18
Appendix A - Variables and Parameters Location Tables
Controller/ Remote Web Site Page Display Page
AFB/Program
Modbus Address
Variable Name
Description
E2_udiOpHoursComp2Cir2
Total number of operating hours
Circuit 2Air-water heat CompCntrl_ Compressor2 pump > Circuit 2 > OnOff, Compressor 2 CompCntrl_ VS
16466
E2_udiOpHoursComp3Cir2
Total number of operating hours
Circuit 2Air-water heat CompCntrl_ Compressor 3 pump > Circuit 2 > OnOff, Compressor 3 CompCntrl_ VS
16468
E2_udiOpHoursComp4Cir2
Total number of operating hours
Circuit 2Air-water heat CompCntrl_ Compressor 4 pump > Circuit 2 > OnOff, Compressor 4 CompCntrl_ VS
16470
uiElapsedCycleTimeComp1Cir2 Remaining time before Circuit 2 minimum cycle time elapsed compressors compressor 1 circuit 2
Air-water heat CompCntrl_ pump > Circuit 2 > VS, Compressor 1 CompCntrl_ OnOff
9535
uiElapsedCycleTimeComp2Cir2 Remaining time before Circuit 2 minimum cycle time elapsed compressors compressor 2 circuit 2
Air-water heat CompCntrl_ pump > Circuit 2 > VS, Compressor 2 CompCntrl_ OnOff
9536
uiElapsedCycleTimeComp3Cir2 Remaining time before Circuit 2 minimum cycle time elapsed compressors compressor 3 circuit 2
Air-water heat CompCntrl_ pump > Circuit 2 > VS, Compressor 3 CompCntrl_ OnOff
9537
uiElapsedCycleTimeComp4Cir2 Remaining time before Circuit 2 minimum cycle time elapsed compressors compressor 4 circuit 2
Air-water heat CompCntrl_ pump > Circuit 2 > VS, Compressor 4 CompCntrl_ OnOff
9538
uiElapsedOffTimeComp1Cir2
Remaining time before minimum Off time elapsed compressor 1 circuit 2
Circuit 2 compressors
Air-water heat CompCntrl_ pump > Circuit 2 > VS, Compressor 1 CompCntrl_ OnOff
9527
uiElapsedOffTimeComp2Cir2
Remaining time before minimum Off time elapsed compressor 2 circuit 2
Circuit 2 compressors
Air-water heat CompCntrl_ pump > Circuit 2 > VS, Compressor 2 CompCntrl_ OnOff
9528
uiElapsedOffTimeComp3Cir2
Remaining time before minimum Off time elapsed compressor 3 circuit 2
Circuit 2 compressors
Air-water heat CompCntrl_ pump > Circuit 2 > VS, Compressor 3 CompCntrl_ OnOff
9529
uiElapsedOffTimeComp4Cir2
Remaining time before minimum Off time elapsed compressor 4 circuit 2
Circuit 2 compressors
Air-water heat CompCntrl_ pump > Circuit 2 > VS, Compressor 4 CompCntrl_ OnOff
9530
uiElapsedOnTimeComp1Cir2
Remaining time before minimum On time elapsed compressor 1 circuit 2
Circuit 2 compressors
Air-water heat CompCntrl_ pump > Circuit 2 > VS, Compressor 1 CompCntrl_ OnOff
9519
uiElapsedOnTimeComp2Cir2
Remaining time before minimum On time elapsed compressor 2 circuit 2
Circuit 2 compressors
Air-water heat CompCntrl_ pump > Circuit 2 > VS, Compressor 2 CompCntrl_ OnOff
9520
uiElapsedOnTimeComp3Cir2
Remaining time before minimum On time elapsed compressor 3 circuit 2
Circuit 2 compressors
Air-water heat CompCntrl_ pump > Circuit 2 > VS, Compressor 3 CompCntrl_ OnOff
9521
uiElapsedOnTimeComp4Cir2
Remaining time before minimum On time elapsed compressor 4 circuit 2
Circuit 2 compressors
Air-water heat CompCntrl_ pump > Circuit 2 > VS, Compressor 4 CompCntrl_ OnOff
9522
12/18
121
Appendixes
Variable Name
Controller/ Remote Web Site Page Display Page
Description
AFB/Program
Modbus Address
xCmdOpHoursResetComp1Cir2 Reset command for Circuit 2 operation hours compressor compressors 1 circuit 2
Air-water heat CompCntrl_ pump > Circuit 2 > VS, Compressor 1 CompCntrl_ OnOff
9509
xCmdOpHoursResetComp2Cir2 Reset command for Circuit 2 operation hours compressor compressors 2 circuit 2
Air-water heat CompCntrl_ pump > Circuit 2 > VS, Compressor 2 CompCntrl_ OnOff
9510
xCmdOpHoursResetComp3Cir2 Reset command for Circuit 2 operation hours compressor compressors 3 circuit 2
Air-water heat CompCntrl_ pump > Circuit 2 > VS, Compressor 3 CompCntrl_ OnOff
9511
xCmdOpHoursResetComp4Cir2 Reset command for Circuit 2 operation hours compressor compressors 4 circuit 2
Air-water heat CompCntrl_ pump > Circuit 2 > VS, Compressor 4 CompCntrl_ OnOff
9512
Condenser Fans Controller/ Remote Web Site Page Display Page
AFB/Program
Modbus Address
Circuit 1
Air-water heat pump > Circuit 1 > Fans
FanMgmt
16518
E2_ Total number of udiOpHoursFanStage2Cir1 operating hours
Circuit 1
Air-water heat pump > Circuit 1 > Fans
FanMgmt
16520
E2_ Total number of udiOpHoursFanStage3Cir1 operating hours
Circuit 1
Air-water heat pump > Circuit 1 > Fans
FanMgmt
16522
E2_ Total number of udiOpHoursFanStage4Cir1 operating hours
Circuit 1
Air-water heat pump > Circuit 1 > Fans
FanMgmt
16524
iSubCoolingCir1
Circuit 1 fans Air-water heat pump > Circuit 1 > Fans
SR_Phy2Log
9428
Circuit 2
Air-water heat pump > Circuit 2 > Fans
FanMgmt
16526
E2_ Total number of udiOpHoursFanStage2Cir2 operating hours
Circuit 2
Air-water heat pump > Circuit 2 > Fans
FanMgmt
16528
E2_ Total number of udiOpHoursFanStage3Cir2 operating hours
Circuit 2
Air-water heat pump > Circuit 2 > Fans
FanMgmt
16530
E2_ Total number of udiOpHoursFanStage4Cir2 operating hours
Circuit 2
Air-water heat pump > Circuit 2 > Fans
FanMgmt
16532
iSubCoolingCir2
Subcooling for circuit 2
Circuit 2 fans Air-water heat pump > Circuit 2 > Fans
SR_Phy2Log
9429
Reset command for operation hours all fans
Circuit 1 fans, Air-water heat pump > Circuit 1 Circuit 2 fans > Fans, Air-water heat pump > Circuit 2 > Fans
FanMgmt
9513
Variable Name
Description
Circuit 1 E2_ Total number of udiOpHoursFanStage1Cir1 operating hours
Subcooling for circuit 1
Circuit 2 E2_ Total number of udiOpHoursFanStage1Cir2 operating hours
General xCmdOpHoursResetFans
EEV Drivers Variable Name Circuit 1 uiRMbTM171VEVErrorCir1
122
Description
Errors from EEV drive
Controller/ Remote Display Web Site Page Page Circuit 1 EEV
Air-water heat pump > Circuit 1 > EEV
AFB/Program
FB_ TM171VEVModbusCom
Modbus Address
9203
12/18
Appendix A - Variables and Parameters Location Tables
Variable Name
Description
Controller/ Remote Display Web Site Page Page
AFB/Program
Modbus Address
uiRMbTM171VEVOpenCir1 Valve opening Circuit 1 EEV from EEV drive
Air-water heat pump > Circuit 1
FB_ TM171VEVModbusCom
9202
uiRMbTM171VEVStatusCir1 Status from EEV drive
Circuit 1 EEV
Air-water heat pump > Circuit 1 > EEV
FB_ TM171VEVModbusCom
9204
Circuit2 EEV
Air-water heat pump > Circuit 1 > EEV
FB_ TM171VEVModbusCom
9211
uiRMbTM171VEVOpenCir2 Valve opening Circuit 2 EEV from EEV drive
Air-water heat pump > Circuit 1
FB_ TM171VEVModbusCom
9210
uiRMbTM171VEVStatusCir2 Status from EEV drive
Air-water heat pump > Circuit 1 > EEV
FB_ TM171VEVModbusCom
9212
Circuit 2 uiRMbTM171VEVErrorCir2
Errors from EEV drive
Circuit2 EEV
Pumps Controller/ Remote Display Page
AFB/Program
Modbus Address
Air-water heat pump > Pumps
OperatingHours
16547
Pumps
Air-water heat pump > Pumps
OperatingHours
16549
Remaining time before pump starts for uiPModeRunTime
Pumps
Air-water heat pump > Pumps
RedundantPumpCntrl
9548
uiRemainTimePump1
Remaining time before pump 1 switches over to pump 2
Pumps
Air-water heat pump > Pumps
RedundantPumpCntrl
9546
uiRemainTimePump2
Remaining time before pump 2 switches over to pump 1
Pumps
Air-water heat pump > Pumps
RedundantPumpCntrl
9547
xOpHoursResetPumps
Reset command for operation hours all pumps
Pumps
Air-water heat pump > Pumps
OperatingHours
9545
Variable Name
Description
E2_udiOpHoursPump1
Total number of operating hours
Pumps
E2_udiOpHoursPump2
Total number of operating hours
uiRemainIdleTimePumps
Web Site Page
Defrost Variable Name Circuit 1 xCmdDefrostStartCir1
Description
Controller/ Remote Web Site Page Display Page
AFB/Program
Modbus Address
Command Circuit 1 > defrost start on Defrost circuit 1
Air-water heat pump > Circuit 1 > Defrost
SR_Phy2Log, SR_Log2Phy, 9613 Sr_WaterSetAndScheduler
usiDefrostStatusCir1
Defrost status circuit 1
Air-water heat pump > Circuit 1 > Defrost
FB_HPDefrosAndRevValve
9620
uiTimerNextDefrostCir1
Time before Circuit 1 next defrost for >Â Defrost circuit 1
Air-water heat pump > Circuit 1 > Defrost
FB_HPDefrosAndRevValve
9622
uiTimerDefrPhaseCir1
Timer for defrost phase for circuit 1
Air-water heat pump > Circuit 1 > Defrost
FB_HPDefrosAndRevValve
9624
Circuit 1 > Defrost
Circuit 1 > Defrost
Circuit 2
12/18
123
Appendixes
Controller/ Remote Web Site Page Display Page
Description
xCmdDefrostStartCir2
Command Circuit 2 > defrost start on Defrost circuit 2
Air-water heat pump > Circuit 2 > Defrost
SR_Phy2Log, SR_Log2Phy, 9614 Sr_WaterSetAndScheduler
usiDefrostStatusCir2
Defrost status circuit 2
Circuit 2 > Defrost
Air-water heat pump > Circuit 2 > Defrost
FB_HPDefrosAndRevValve
9621
uiTimerNextDefrostCir2
Time before Circuit 2 next defrost for > Defrost circuit 2
Air-water heat pump > Circuit 2 > Defrost
FB_HPDefrosAndRevValve
9623
uiTimerDefrPhaseCir2
Timer for defrost phase for circuit 2
Air-water heat pump > Circuit 2 > Defrost
FB_HPDefrosAndRevValve
9625
Circuit 2 > Defrost
AFB/Program
Modbus Address
Variable Name
General uiTimerNextDefrost
Time to wait for Circuit 1, next defrost Circuit2 > Defrost
Air-water heat pump FB_HPDefrCircuitPriority > Circuit 1, Circuit 2 > Defrost
9626
Energy Variable Name
Description
Controller/ Remote Display Page
Web Site AFB/Program Page
Modbus Address
uiMassFlowCir1
Mass flow circuit 1
Energy > Current values
Energy
ThermalPower_Enthalpy
8980
uiMassFlowCir2
Mass flow circuit 2
Energy > Current values
Energy
ThermalPower_Enthalpy
8981
rThermalPower
Active power
Energy > Current values
Energy
COPCalculation
8982
rThermalEnergy
Thermal Energy
Energy > Current values
Energy
COPCalculation
8984
uiCOP
COP instant
Energy > COP, Circuit1 , Circuit 2
Energy > COPCalculation COP
8986
uiShortTermCOP
COP short term
Energy > COP
Energy > COPCalculation COP
8987
uiLongTermCOP
COP long term
Energy > COP
Energy > COPCalculation COP
8988
xCmdConsumReset Reset Energy related variables
Energy
Energy
SR_Phy2Log, SR_Log2Phy
8989
rActiveEnergy
Active Energy
Energy > Current values
Energy
9272
rActivePower
Active Power
Energy > Current values, Circuit 1, Circuit 2
Energy
EnergyTrend, COPCalculation, SR_ EnergyMeter COPCalculation, SR_ EnergyMeter
9274
PID Controller/ Remote Web Site Display Page Page
Description
rSpCompressors
Compressors PID output
uiAutoTuneCompMessageID
0=auto-tuning active, Settings > 1=completed OK, 2= completed PID comp. oversized, 3= completed Test undersized
PID PIDAutoTuning, 9541 compressors SR_ test CircuitCompCntrl
uiAutoTuneCompPb
Pb value, manual or calculated with auto-tuning
Settings > PID comp. Test
PID PIDAutoTuning, 9542 compressors SR_ test CircuitCompCntrl
uiAutoTuneCompTi
Ti value, manual or calculated with auto-tuning
Settings > PID comp. Test
PID PIDAutoTuning, 9543 compressors SR_ test CircuitCompCntrl
124
Settings > PID comp. Test
AFB/Program
Modbus Address
Variable Name
PID PIDAdvanced compressors test
8998
12/18
Appendix A - Variables and Parameters Location Tables
Controller/ Remote Web Site Display Page Page
Modbus Address
Variable Name
Description
uiCompressorsManualValue
Compressors control manual value
usiAutoTuneCompMode
Changes the PID parameters of Settings > the outputs rKp and uiTi. PID comp. (0=manual param, 1= slow, 2= Test medium, 3=fast)
PID PIDAutoTuning, 9540 compressors SR_ test CircuitCompCntrl
xCmdCompressorsAutoMode
To toggle state in WEB page
-
PID SR_Display compressors test
8975
xCmdCompressorsManualMode To toggle state in WEB page
-
PID SR_Display compressors test
8974
xCmdCompressorsTuneOff
To toggle state in WEB page
-
PID SR_Display compressors test
8977
xCmdCompressorsTuneOn
To toggle state in WEB page
-
PID SR_Display compressors test
8976
xCompressorsManualMode
Enable compressors manual mode
Settings > PID comp. Test
PID PIDAdvanced compressors test
8969
xSaveAutoTuneParams
Accept and save auto-tuning parameters
Settings > PID comp. Test
PID PIDAutoTuning, 9544 compressors SR_ test CircuitCompCntrl
xStartAutoTuneCompressors
A rising edge activates autotuning
Settings > PID comp. Test
PID PIDAutoTuning, 9539 compressors SR_ test CircuitCompCntrl
Settings > PID comp. Test
AFB/Program
PID PIDAdvanced compressors test
8970
Optimum Start Controller/ Remote Display Page
Web Site Page
AFB/Program
Modbus Address
Variable Name
Description
usiOptStartState
Optimum start state machine
Settings > Optimum start
Air-water heat OptimumStart pump > Optimum Start
9631
usiOptStartMode
Optimum start mode
Settings > Optimum start
Air-water heat OptimumStart pump > Optimum Start
9632
xOptStartCmd
Optimum start occupied operation command
Settings > Optimum start
Air-water heat OptimumStart pump > Optimum Start
9633
uiOptStartAdvMin
Optimum start calculated time
Settings > Optimum start
Air-water heat OptimumStart pump > Optimum Start
9634
xOptStartReset
Optimum start reset the heating & cooling rates to default values
Settings > Optimum start
Air-water heat OptimumStart pump > Optimum Start
9635
QRÂ Code Variable Name
Description
Controller/ Remote Display Page
AFB/Program
Modbus Address
xUpdateImageHMI strQRString1
Update QR code HMI
QR code
SR_Display
10001
QR code transmission input string part 1
QR code
SR_Display
10100
strQRString2
QR code transmission input string part 2
QR code
SR_Display
10116
12/18
125
Appendixes
Variable Name
Description
Controller/ Remote Display Page
AFB/Program
Modbus Address
strQRString3
QR code transmission input string part 3
QR code
SR_Display
10132
strQRString4
QR code transmission input string part 4
QR code
SR_Display
10148
strQRString5
QR code transmission input string part 5
QR code
SR_Display
10164
strQRString6
QR code transmission input string part 6
QR code
SR_Display
10180
strQRString7
QR code transmission input string part 7
QR code
SR_Display
10196
strQRString8
QR code transmission input string part 8
QR code
SR_Display
10212
strQRString9
QR code transmission input string part 9
QR code
SR_Display
10228
strQRString10
QR code transmission input string part 10
QR code
SR_Display
10244
strQRString11
QR code transmission input string part 11
QR code
SR_Display
10260
Alarm Variable Name
Controller/ Web Remote Description Site AFB/Program Display Page Page
xCmdAlarmsReset Reset alarms
Alarms
Airwater heat pump
Modbus Address
RedundantPumpCntrl, ATV212ModbusCom, EnergyTrend, CompAlarmMgmt, FB_Altistart22ModbusCom, FloatingHighPresCntrl (re-init), FanMgmt (re-init), PIDAdvanced, CompMgmt, FB_TM171VEVModbusCom
9514
Parameters The parameters values described in this document relate to the TVDA project and the test equipment used during development. General Parameter Name
Description
Controller/ Remote Web Site Display Page Page
E2_xHeatCool
Compressors heat or cool mode (FALSE = cool, TRUE = heat)
Settings > Param. general
E2_usiRefrigerantType
Refrigerant type (0 = Settings > R22, 1 = R134a, 2 = Param. R404A, 3 = R407C, 4 = general R410A, 5 = R407A, 6 = R407F, 7 = R290, 8 = R507A, 9 = R717, 10 = R723, 11 = R1234ZE, 12 = R744)
Parameters Press2Temp, Fluid_ general Density, Fluid_Enthalpy, FloatingHighPresCntrl, (sent to EEV drivers)
E2_xUnitTypeTemp
Unit of measure for Settings > temperature values Param. (FALSE=°C, TRUE=°F) * general
Parameters FloatingHighPresCntrl,(sent 16386 general to EEV drivers dL08), OptimumStart
E2_xUnitTypePress
Unit of measure for Settings > pressure values Param. (FALSE=bar, TRUE=PSI) general *
Parameters FloatingHighPresCntrl,(sent 16387 general to EEV drivers dL09)
126
AFB/Program
Modbus Address
Parameters PIDAutoTuning,CompMgmt, 16384 general (sign of Kp for compressors and pump PIDs) 16385
12/18
Appendix A - Variables and Parameters Location Tables
Controller/ Remote Web Site Display Page Page
Description
E2_usiNbCircuits
Number of circuits
Settings > Param. general
Parameters CircuitMgmt general
E2_iWaterTempSetCool
Water temperature setpoint in cool mode (fixed)
Settings > Param. general
Parameters CompMgmt, (used to select 16389 general water setpoint), FloatingWaterTempSet
E2_iWaterTempSetHeat
Water temperature setpoint in heat mode (fixed)
Settings > Param. general
Parameters FloatingWaterTempSet general
16808
E2_iWaterSetEcoOffset
Water temperature setpoint offset for economy mode
Settings > Param. general
Parameters FloatingWaterTempSet general
16390
E2_xEnWaterAirLinkSet
Setpoint type selection (FALSE=fixed, TRUE=linked to outside air temperature)
Settings > Param. general
Parameters FloatingWaterTempSet general
16391
E2_iWaterSetMin
Water temperature setpoint minimum value
Settings > Param. general
Parameters FloatingWaterTempSet general
16392
E2_iWaterSetMax
Water temperature setpoint maximum value
Settings > Param. general
Parameters FloatingWaterTempSet general
16751
E2_iLowTemperatureMinLimit
Minimum water temperature
Settings > General
Parameters (to generate anti-freeze general alarm)
16540
E2_uiComTimeOut
Communication timeout
Settings > Param. general
Parameters ATV212ModbusCom general
16560
E2_iRoomSetCool
Room temperature (pivot) to calculate water setpoint in cool mode
Settings > Param. general
Parameters OptimumStart general
16752
E2_iRoomSetHeat
Room temperature (pivot) to calculate water setpoint in heat mode
Settings > Param. general
Parameters OptimumStart general
16809
E2_iWaterSetSlope
Slope to calculate water setpoint
Settings > Param. general
Parameters FloatingWaterTempSet general
16753
E2_usiModeType
Mode type management Settings > (0= Manual, 1=Remote, Param. 2=DI, 3=Automatic) general
Parameters ModeSelection general
16784
E2_iHeatTempThr
Heating mode temperature threshold
Settings > Param. general
Parameters ModeSelection general
16785
E2_iCoolTempThr
Cooling mode temperature threshold
Settings > Param. general
Parameters ModeSelection general
16786
E2_uiDelayChangeOver
Delay for heat/cool changeover
Settings > Param. general
Parameters ModeSelection general
16787
E2_uiWaterSetStepFilter
Step of filter in water temperature setpoint change
Settings > Param. general
Parameters FloatingWaterTempSet general
16806
E2_uiWaterSetTimeStep
Time of step in water temperature setpoint change
Settings > Param. general
Parameters FloatingWaterTempSet general
16807
E2_xEnOptimumStart
Enable Optimum Start
Settings > Param. general
Parameters OptimumStart general
16842
12/18
AFB/Program
Modbus Address
Parameter Name
16388
127
Appendixes
Parameter Name
Controller/ Remote Web Site Display Page Page
Description
Modbus Address
AFB/Program
E2_ Delay between uiModeChangeCompValveTime compressors stopped and valve switch during mode change
Settings > Param. general
Parameters HPDefrostAndRevValve general
16853
E2_ Delay between valve uiModeChangeValveCompTime switch and compressors on during mode change
Settings > Param. general
Parameters HPDefrostAndRevValve general
16854
* Analog input values are automatically converted, parameters values need to be converted manually. Controller Analog Inputs Controller/ Remote Display Page
Web Site Page
Modbus Address
Type of analog input AI1
Settings > Expert > AI configuration
-
15726
Cfg_AI2
Type of analog input AI2
Settings > Expert > AI configuration
-
15727
Cfg_AI3
Type of analog input AI3
Settings > Expert > AI configuration
-
15728
Cfg_AI4
Type of analog input AI4
Settings > Expert > AI configuration
-
15729
Cfg_AI5
Type of analog input AI5
Settings > Expert > AI configuration
-
15730
Cfg_AI6
Type of analog input AI6
Settings > Expert > AI configuration
-
15731
FullScaleMin_AI1
First value analog input AI1 scale Settings > Expert > AI configuration
-
15736
FullScaleMax_AI1 Last value analog input AI1 scale Settings > Expert > AI configuration
-
15737
FullScaleMin_AI2
First value analog input AI2 scale Settings > Expert > AI configuration
-
15738
FullScaleMax_AI2 Last value analog input AI2 scale Settings > Expert > AI configuration
-
15739
FullScaleMin_AI3
First value analog input AI3 scale Settings > Expert > AI configuration
-
15740
FullScaleMax_AI3 Last value analog input AI3 scale Settings > Expert > AI configuration
-
15741
FullScaleMin_AI4
First value analog input AI4 scale Settings > Expert > AI configuration
-
15742
FullScaleMax_AI4 Last value analog input AI4 scale Settings > Expert > AI configuration
-
15743
FullScaleMin_AI5
First value analog input AI5 scale Settings > Expert > AI configuration
-
15744
FullScaleMax_AI5 Last value analog input AI5 scale Settings > Expert > AI configuration
-
15745
FullScaleMin_AI6
First value analog input AI6 scale Settings > Expert > AI configuration
-
15746
FullScaleMax_AI6 Last value analog input AI6 scale Settings > Expert > AI configuration
-
15747
Calibration_AI1
Analog input AI1 offset
Settings > Expert > AI configuration
-
15748
Calibration_AI2
Analog input AI2 offset
Settings > Expert > AI configuration
-
15749
Calibration_AI3
Analog input AI3 offset
Settings > Expert > AI configuration
-
15750
Parameter Name
Description
Cfg_AI1
128
12/18
Appendix A - Variables and Parameters Location Tables
Controller/ Remote Display Page
Web Site Page
Modbus Address
Analog input AI4 offset
Settings > Expert > AI configuration
-
15751
Calibration_AI5
Analog input AI5 offset
Settings > Expert > AI configuration
-
15752
Calibration_AI6
Analog input AI6 offset
Settings > Expert > AI configuration
-
15753
Cfg_AI7
Type of analog input AI7
Settings > Expert > AI configuration
-
16100
Cfg_AI8
Type of analog input AI8
Settings > Expert > AI configuration
-
16101
Cfg_AI9
Type of analog input AI9
Settings > Expert > AI configuration
-
16102
Cfg_AI10
Type of analog input AI10
Settings > Expert > AI configuration
-
16103
Cfg_AI11
Type of analog input AI11
Settings > Expert > AI configuration
-
16104
Cfg_AI12
Type of analog input AI12
Settings > Expert > AI configuration
-
16105
FullScaleMin_AI7
First value analog input AI7 scale Settings > Expert > AI configuration
-
16106
FullScaleMax_AI7 Last value analog input AI7 scale Settings > Expert > AI configuration
-
16107
FullScaleMin_AI8
First value analog input AI8 scale Settings > Expert > AI configuration
-
16108
FullScaleMax_AI8 Last value analog input AI8 scale Settings > Expert > AI configuration
-
16109
FullScaleMin_AI9
First value analog input AI9 scale Settings > Expert > AI configuration
-
16110
FullScaleMax_AI9 Last value analog input AI9 scale Settings > Expert > AI configuration
-
16111
FullScaleMin_AI10 First value analog input AI10 scale
Settings > Expert > AI configuration
-
16112
FullScaleMax_ AI10
Last value analog input AI10 scale
Settings > Expert > AI configuration
-
16113
FullScaleMin_AI11 First value analog input AI11 scale
Settings > Expert > AI configuration
-
16114
FullScaleMax_ AI11
Last value analog input AI11 scale
Settings > Expert > AI configuration
-
16115
FullScaleMin_AI12 First value analog input AI12 scale
Settings > Expert > AI configuration
-
16116
FullScaleMax_ AI12
Last value analog input AI12 scale
Settings > Expert > AI configuration
-
16117
Calibration_AI7
Analog input AI7 offset
Settings > Expert > AI configuration
-
16118
Calibration_AI8
Analog input AI8 offset
Settings > Expert > AI configuration
-
16119
Calibration_AI9
Analog input AI9 offset
Settings > Expert > AI configuration
-
16120
Calibration_AI10
Analog input AI10 offset
Settings > Expert > AI configuration
-
16121
Calibration_AI11
Analog input AI11 offset
Settings > Expert > AI configuration
-
16122
Calibration_AI12
Analog input AI12 offset
Settings > Expert > AI configuration
-
16123
Parameter Name
Description
Calibration_AI4
NOTE: The parameters are also parameters of the controller BIOS. For information on the possible values, see Modicon M172 - Logic Controller, Hardware guide.
12/18
129
Appendixes
Expansion Module Analog Inputs Parameter Name
Description
Controller/ Remote Display Page
Web Site Page
Modbus Address
iAIE3FullScaleMin
Expansion module AIE3 low limit
Settings > Expert > AI configuration
-
16613
iAIE3FullScaleMax
Expansion module AIE3 high limit
Settings > Expert > AI configuration
-
16614
iAIE4FullScaleMin
Expansion module AIE4 low limit
Settings > Expert > AI configuration
-
16615
iAIE4FullScaleMax
Expansion module AIE4 high limit
Settings > Expert > AI configuration
-
16616
iAIE5FullScaleMin
Expansion module AIE5 low limit
Settings > Expert > AI configuration
-
16774
iAIE5FullScaleMax
Expansion module AIE5 high limit
Settings > Expert > AI configuration
-
16775
iAIE6FullScaleMin
Expansion module AIE6 low limit
Settings > Expert > AI configuration
-
16776
iAIE6FullScaleMax
Expansion module AIE6 high limit
Settings > Expert > AI configuration
-
16777
E2_Cfg_AIE1
Type of input AI1 expansion
Settings > Expert > AI configuration
-
16754
E2_Cfg_AIE2
Type of input AI2 expansion
Settings > Expert > AI configuration
-
16755
E2_Cfg_AIE3
Type of input AI3 expansion
Settings > Expert > AI configuration
-
16756
E2_Cfg_AIE4
Type of input AI4 expansion
Settings > Expert > AI configuration
-
16757
E2_Cfg_AIE5
Type of input AI5 expansion
Settings > Expert > AI configuration
-
16758
E2_Cfg_AIE6
Type of input AI6 expansion
Settings > Expert > AI configuration
-
16759
E2_Cfg_AIE7
Type of input AI7 expansion
Settings/Expert/AI configuration
-
16760
E2_Cfg_AIE8
Type of input AI8 expansion
Settings/Expert/AI configuration
-
16761
E2_Cfg_AIE9
Type of input AI9 expansion
Settings/Expert/AI configuration
-
16762
E2_Cfg_AIE10
Type of input AI10 expansion
Settings/Expert/AI configuration
-
16763
E2_Calibration_AIE1 AI1 expansion offset
Settings > Expert > AI configuration
-
16764
E2_Calibration_AIE2 AI2 expansion offset
Settings > Expert > AI configuration
-
16765
E2_Calibration_AIE3 AI3 expansion offset
Settings > Expert > AI configuration
-
16766
E2_Calibration_AIE4 AI4 expansion offset
Settings > Expert > AI configuration
-
16767
E2_Calibration_AIE5 AI5expansion offset
Settings > Expert > AI configuration
-
16768
E2_Calibration_AIE6 AI6 expansion offset
Settings > Expert > AI configuration
-
16769
E2_Calibration_AIE7 AI7expansion offset
Settings > Expert > AI configuration
-
16770
E2_Calibration_AIE8 AI8 expansion offset
Settings > Expert > AI configuration
-
16771
E2_Calibration_AIE9 AI9 expansion offset
Settings > Expert > AI configuration
-
16772
E2_Calibration_ AIE10
Settings > Expert > AI configuration
-
16773
AI10 expansion offset
NOTE: The parameters are also parameters of the expansion module. For information on the possible values, see Modicon M172 - Logic Controller, Hardware guide.
130
12/18
Appendix A - Variables and Parameters Location Tables
Controller Analog Outputs Parameter Name Description
Controller/ Remote Display Page
Web Site Page Modbus Address
Cfg_AO3
Type of analog output AO3
Settings > Expert > AO configuration
-
15758
Cfg_AO4
Type of analog output AO4
Settings > Expert > AO configuration
-
15759
NOTE: The parameters are also parameters of the controller BIOS. For information on the possible values, see Modicon M172 - Logic Controller, Hardware guide. Expansion Module Analog Outputs Parameter Name
Web Site Page
Modbus Address
Settings > Expert > AO configuration
-
16778
Settings > Expert > AO configuration
-
16779
Description
Controller/ Remote Display Page
Cfg_AOE1
Type of analog output AO1 expansion
Cfg_AOE2
Type of analog output AO2 expansion
NOTE: The parameters are also parameters of the controller BIOS. For information on the possible values, see Modicon M172 - Logic Controller, Hardware guide. Compressors Controller/ Remote Display Page
AFB/Program
Modbus Address
Parameters compressor s
FB_CircuitMgmt
16393
Settings > Par. compressor s
Parameters compressor s
FB_CircuitMgmt
16394
Priority for circuit 1
Settings > Par. compressor s
Parameters compressor s
FB_CircuitMgmt
16395
E2_usiPriorityCircuit2
Priority for circuit 2
Settings > Par. compressor s
Parameters compressor s
FB_CircuitMgmt
16396
E2_uiCircuitHysteresis
Hysteresis to start next circuit
Settings > Par. compressor s
Parameters compressor s
FB_CircuitMgmt
16397
E2_uiCircSpMaxVar
Time to increase/ decrease compressors setpoint of 10 % (0=leave rSp as is)
Settings > Par. compressor s
Parameters compressor s
FB_CircuitMgmt
16398
E2_uiCompressorsPbCool
Compressors PID proportional Settings > band in Cool mode Par. compressor s Compressors PID proportional Settings > band in Heat mode Par. compressor s
Parameters compressor s
PIDAdvanced for compressors (converted in Kp and sign)
16399
Parameters compressor s
PIDAdvanced for compressors (converted in Kp and sign)
16790
Compressors PID integral time Settings > Par. compressor s
Parameters compressor s
PIDAdvanced for compressors
16400
Parameter Name
Description
E2_usiCircMode
Circuit control sequence mode Settings > (0=FIFO, 1=Runtime, 2=LIFO) Par. compressor s
E2_usiCircRegulStrategy
Circuit regulation strategy (FALSE=saturation, TRUE=balance)
E2_usiPriorityCircuit1
E2_uiCompressorsPbHeat
E2_uiCompressorsTi
12/18
WebSite Page
131
Appendixes
Controller/ Remote Display Page
WebSite Page
Description
E2_uiCompressorsTd
Compressors PID derivative time
Settings > Par. compressor s
Parameters compressor s
PIDAdvanced for compressors
16401
E2_uiMinOnTimeComp
Minimum time the compressor is running
Settings > Par. compressor s
Parameters compressor s
CompCntrl_OnOff, CompCntrl_VS
16402
E2_uiMinOffTimeComp
Minimum time the compressor is stopped
Settings > Par. compressor s
Parameters compressor s
CompCntrl_OnOff, CompCntrl_VS
16403
E2_uiMinCycleTimeComp
Minimum time between 2 consecutive starts of the compressor
Settings > Par. compressor s
Parameters compressor s
CompCntrl_OnOff, CompCntrl_VS
16404
E2_uiStartingTimeVSComp
Duration of the starting mode for VS compressor
Settings > Par. compressor s
Parameters compressor s
CompCntrl_VS
16405
E2_uiStoppingTimeVSComp Duration of the stopping mode for VS compressor
Settings > Par. compressor s
Parameters compressor s
CompCntrl_VS
16406
E2_ uiOilRecoveryTimeVSComp
Maximum time oil recovery mode will be started for VS compressor
Settings > Par. compressor s
Parameters compressor s
CompCntrl_VS
16407
E2_ uiOilRecoveryPeriodVSCom p
Duration of the oil recovery mode for VS compressor
Settings > Par. compressor s
Parameters compressor s
CompCntrl_VS
16408
E2_iHighPressureMaxLimit
Maximum value of the high pressure
Settings > Par. compressor s
Parameters compressor s
CompAlarmMgmt, 16409 FloatingHighPresCntr l
E2_iLowPressureMinLimit
Minimum value of the low pressure
Settings > Par. compressor s
Parameters compressor s
CompAlarmMgmt
16410
E2_uiDelayEnAlarm
Start delay for LP switch and alarm when compressor running
Settings > Par. compressor s
Parameters compressor s
CompAlarmMgmt
16411
E2_uiDelayMotorAlarm
Delay for the motor alarm
Settings > Par. compressor s
Parameters compressor s
CompAlarmMgmt
16412
E2_uiDelayOilPressSwitch
Delay for the oil pressure switch alarm
Settings > Par. compressor s
Parameters compressor s
CompAlarmMgmt
16413
E2_uiDelayHPSwitch
Delay for the HP switch alarm
Settings > Par. compressor s
Parameters compressor s
CompAlarmMgmt
16414
E2_uiDelayLPSwitch
Delay for the LP switch alarm
Settings > Par. compressor s
Parameters compressor s
CompAlarmMgmt
16415
132
AFB/Program
Modbus Address
Parameter Name
12/18
Appendix A - Variables and Parameters Location Tables
Controller/ Remote Display Page
AFB/Program
Modbus Address
Parameters compressor s
CompAlarmMgmt
16416
Settings > Par. compressor s
Parameters compressor s
CompAlarmMgmt
16417
Settings > Par. compressor s
Parameters compressor s
CompAlarmMgmt
16418
E2_usiPriorityComp1Cir1
Priority for compressor 1 circuit Settings > 1 Par. compressor s
Parameters compressor s
CompMgmt, CompMngtVS
16419
E2_usiPriorityComp2Cir1
Priority for compressor 2 circuit Settings > 1 Par. compressor s
Parameters compressor s
CompMgmt, CompMngtVS
16420
E2_usiPriorityComp3Cir1
Priority for compressor 3 circuit Settings > 1 Par. compressor s
Parameters compressor s
CompMgmt, CompMngtVS
16421
E2_usiPriorityComp4Cir1
Priority for compressor 4 circuit Settings > 1 Par. compressor s
Parameters compressor s
CompMgmt, CompMngtVS
16422
E2_usiPriorityComp1Cir2
Priority for compressor 1 circuit Settings > 2 Par. compressor s
Parameters compressor s
CompMgmt, CompMngtVS
16423
E2_usiPriorityComp2Cir2
Priority for compressor 2 circuit Settings > 2 Par. compressor s
Parameters compressor s
CompMgmt, CompMngtVS
16424
E2_usiPriorityComp3Cir2
Priority for compressor 3 circuit Settings > 2 Par. compressor s
Parameters compressor s
CompMgmt, CompMngtVS
16425
E2_usiPriorityComp4Cir2
Priority for compressor 4 circuit Settings > 2 Par. compressor s
Parameters compressor s
CompMgmt, CompMngtVS
16426
E2_xCompSwitchCtrlMode
Control mode (power cycle of the compressors) (FALSE=Delay/Neutral, TRUE=Hysteresis/Proportiona l)
Settings > Par. compressor s
Parameters compressor s
CompMgmt, CompMngtVS
16427
E2_usiCompMode
Compressor control sequence mode (0=FIFO, 1=Runtime, 2=LIFO)
Settings > Par. compressor s
Parameters compressor s
CompMgmt, CompMngtVS
16428
E2_usiCompNbOnOffCir1
Number of fix speed compressors circuit 1
Settings > Par. compressor s
Parameters compressor s
CompMgmt, CompMngtVS, (to enable compressors controls)
16429
E2_usiCompNbVSCir1
Number of variable speed compressors circuit 1
Settings > Par. compressor s
Parameters compressor s
CompMngtVS, (to enable compressors controls)
16430
Parameter Name
Description
E2_uiDelayGenericAlarm
Delay for the generic alarm
Settings > Par. compressor s
E2_uiDelayHPAlarm
Delay for the HP alarm
E2_uiDelayLPAlarm
Delay for the LP alarm
12/18
WebSite Page
133
Appendixes
Controller/ Remote Display Page
AFB/Program
Modbus Address
Parameters compressor s
CompMngtVS
16431
Capacity of the variable speed Settings > compressors at 50.0 Hz Par. compressor s
Parameters compressor s
CompMngtVS
16432
E2_usiCompNbOnOffCir2
Number of fix speed compressors circuit 2
Settings > Par. compressor s
Parameters compressor s
CompMgmt, CompMngtVS, (to enable compressors controls)
16433
E2_usiCompNbVSCir2
Number of variable speed compressors circuit 2
Settings > Par. compressor s
Parameters compressor s
CompMngtVS, (to enable compressors controls)
16434
E2_uiCompCapOnOffCir2
Capacity of the On Off compressors
Settings > Par. compressor s
Parameters compressor s
CompMngtVS
16435
E2_uiCompCapVSCir2
Capacity of the variable speed Settings > compressors at 50.0 Hz Par. compressor s
Parameters compressor s
CompMngtVS
16436
E2_uiCompNomFreq
Nominal speed of the compressors
Settings > Par. compressor s
Parameters compressor s
CompMngtVS
16437
E2_uiCompMinFreq
Minimum frequency of the variable speed compressors (read from VSD if configured )
Settings > Par. compressor s
Parameters compressor s
CompMngtVS, CompCntrl_VS
16438
E2_uiCompMaxFreq
Maximum frequency of the variable speed compressors (read from VSD if configured )
Settings > Par. compressor s
Parameters compressor s
CompMngtVS, CompCntrl_VS
16439
E2_uiCompMinRange
Low limit of the range for compressors control
Settings > Par. compressor s
Parameters compressor s
CompMngtVS
16440
E2_uiCompMaxRange
High limit of the range for compressors control
Settings > Par. compressor s
Parameters compressor s
CompMngtVS
16441
E2_uiCompDelayOn
Delay to increment the number Settings > of requested compressors Par. compressor s
Parameters compressor s
CompMgmt, CompMngtVS
16442
E2_uiCompDelayOff
Delay to decrement the number of requested compressors
Settings > Par. compressor s
Parameters compressor s
CompMgmt, CompMngtVS
16443
E2_uiCompHysteresis
Hysteresis to increment and decrement the number of requested compressors
Settings > Par. compressor s
Parameters compressor s
CompMngtVS
16444
E2_uiCompBand1
Band low for neutral zone
Settings > Par. compressor s
Parameters compressor s
CompMgmt
16445
Parameter Name
Description
E2_uiCompCapOnOffCir1
Capacity of the On Off compressors
Settings > Par. compressor s
E2_uiCompCapVSCir1
134
WebSite Page
12/18
Appendix A - Variables and Parameters Location Tables
Controller/ Remote Display Page
AFB/Program
Modbus Address
Parameters compressor s
CompMgmt
16446
Settings > Par. compressor s
Parameters compressor s
CompMgmt
16447
Delay to decrement the number of requested compressors for band 1 only in neutral zone regulation
Settings > Par. compressor s
Parameters compressor s
CompMgmt
16448
E2_uiCompTIncBand2
Delay to increment the number of requested compressors for band 2 only in neutral zone regulation
Settings > Par. compressor s
Parameters compressor s
CompMgmt
16449
E2_uiCompTDecBand2
Delay to decrement the number of requested compressors for band 2 only in neutral zone regulation
Settings > Par. compressor s
Parameters compressor s
CompMgmt
16450
E2_xCompEnPpDownCir1
Enable pump down on circuit 1 Settings > Par. compressor s
Parameters compressor s
(to enable pump down in) CompMngtVS
16451
E2_xCompEnPpDownCir2
Enable pump down on circuit 2 Settings > Par. compressor s
Parameters compressor s
(to enable pump down in) CompMngtVS
16452
E2_uiCompSolenDelayCir1
Delay to open solenoid after EEV for circuit 1
Settings > Par. compressor s
Parameters compressor s
(to delay solenoid with respect to EEV)
16453
E2_uiCompSolenDelayCir2
Delay to open solenoid after EEV for circuit 2
Settings > Par. compressor s
Parameters compressor s
(to delay solenoid with respect to EEV)
16454
E2_iCompPDownPressLimit
Minimum value of the low pressure during pump down
Settings > Par. compressor s
Parameters compressor s
(to stop pump down procedure)
16455
Parameter Name
Description
E2_uiCompBand2
Band high for neutral zone
Settings > Par. compressor s
E2_uiCompTIncBand1
Delay to increment the number of requested compressors for band 1 only in neutral zone regulation
E2_uiCompTDecBand1
WebSite Page
EEV Drivers EEV Driver Parameter Name
Controller/ Remote Web Site Display Page Page
Description
E2_uiPardL00EEVCir1
Type of Probe 1 EEV dL00 driver (0=diS, 1=ntc, 2=Pt1000, 3=420 mA, 4= rA 5=010 V, 6= ntcE)
Settings > Parameters (set EEV Parameters EEV 1 driver EEV 1 parameter)
16561
E2_uiPardL01EEVCir1
Type of Probe 2 EEV dL01 driver (0=diS, 1=ntc, 2=Pt1000, 3=420 mA, 4= rA 5=010 V, 6= ntcE)
Settings > Parameters (set EEV Parameters EEV 1 driver EEV 1 parameter)
16562
E2_uiPardL02EEVCir1
Type of Probe 3 EEV dL02 driver (0=diS, 1=ntc, 2=Pt1000, 3=n/a, 4= n/a 5=n/a, 6= ntcE)
Settings > Parameters (set EEV Parameters EEV 1 driver EEV 1 parameter)
16563
12/18
AFB/Program
Modbus Address
Parameter Name
135
Appendixes
EEV Driver Parameter Name
Controller/ Remote Web Site Display Page Page
Description
E2_uiPardL03EEVCir1
Type of Probe 4 EEV dL03 driver (0=diS, 1=ntc, 2=Pt1000, 3=n/a, 4= n/a 5=n/a, 6= ntcE)
Settings > Parameters (set EEV Parameters EEV 1 driver EEV 1 parameter)
16564
E2_iPardL10EEVCir1
Upper value for Pb 1 EEV
dL10
Settings > Parameters (set EEV Parameters EEV 1 driver EEV 1 parameter)
16565
E2_iPardL11EEVCir1
Lower value for Pb 1 EEV
dL11
Settings > Parameters (set EEV Parameters EEV 1 driver EEV 1 parameter)
16566
E2_iPardL12EEVCir1
Upper value for Pb 2 EEV
dL12
Settings > Parameters (set EEV Parameters EEV 1 driver EEV 1 parameter)
16567
E2_iPardL13EEVCir1
Lower value for Pb 2 EEV
dL13
Settings > Parameters (set EEV Parameters EEV 1 driver EEV 1 parameter)
16568
E2_iPardL20EEVCir1
Offset for Pb1 EEV
dL20
Settings > Parameters (set EEV Parameters EEV 1 driver EEV 1 parameter)
16569
E2_iPardL21EEVCir1
Offset for Pb2 EEV
dL21
Settings > Parameters (set EEV Parameters EEV 1 driver EEV 1 parameter)
16570
E2_iPardL22EEVCir1
Offset for Pb3 EEV
dL22
Settings > Parameters (set EEV Parameters EEV 1 driver EEV 1 parameter)
16571
E2_iPardL23EEVCir1
Offset for Pb4 EEV
dL23
Settings > Parameters (set EEV Parameters EEV 1 driver EEV 1 parameter)
16572
E2_uiPardL30EEVCir1
Configuration of Probe dL30 1 EEV driver 0=nu, 1=outev, 2=sat, 3=outev back , 4= sat back, 5=out direct
Settings > Parameters (set EEV Parameters EEV 1 driver EEV 1 parameter)
16573
E2_uiPardL31EEVCir1
Configuration of Probe dL31 1 EEV driver 0=nu, 1=outev, 2=sat, 3=outev back , 4= sat back, 5=out direct
Settings > Parameters (set EEV Parameters EEV 1 driver EEV 1 parameter)
16574
E2_uiPardL32EEVCir1
Configuration of Probe dL32 1 EEV driver 0=nu, 1=outev, 2=sat, 3=outev back , 4= sat backt
Settings > Parameters (set EEV Parameters EEV 1 driver EEV 1 parameter)
16575
E2_uiPardL33EEVCir1
Configuration of Probe dL33 1 EEV driver 0=nu, 1=outev, 2=sat, 3=outev back , 4= sat back
Settings > Parameters (set EEV Parameters EEV 1 driver EEV 1 parameter)
16576
E2_usiEEVTypeEEVCir1
Type of EEV (see Modicon M171 Electronic - Expansion Valve Drivers, User Manual)
dE00
Settings > Parameters (set EEV Parameters EEV 1 driver EEV 1 parameter)
16577
E2_usiPardE21EEVCir1
Type of system operating mode 0 (see Modicon M171 Electronic - Expansion Valve Drivers, User Manual)
dE21
Settings > Parameters (set EEV Parameters EEV 1 driver EEV 1 parameter)
16578
136
AFB/Program
Modbus Address
Parameter Name
12/18
Appendix A - Variables and Parameters Location Tables
EEV Driver Parameter Name
Controller/ Remote Web Site Display Page Page
Description
E2_usiPardE22EEVCir1
Type of system operating mode 1 (see Modicon M171 Electronic - Expansion Valve Drivers, User Manual)
dE22
Settings > Parameters (set EEV Parameters EEV 1 driver EEV 1 parameter)
16579
E2_usiPardE23EEVCir1
Type of system operating mode 2 (see Modicon M171 Electronic - Expansion Valve Drivers, User Manual)
dE23
Settings > Parameters (set EEV Parameters EEV 1 driver EEV 1 parameter)
16580
E2_usiPardE24EEVCir1
Type of system operating mode 3 (see Modicon M171 Electronic - Expansion Valve Drivers, User Manual)
dE24
Settings > Parameters (set EEV Parameters EEV 1 driver EEV 1 parameter)
16581
E2_xEnSHSetCalcEEVCir1
Enable superheat setpoint auto calculation
dE30
Settings > Parameters (set EEV Parameters EEV 1 driver EEV 1 parameter)
16582
E2_uiSHSetMaxEEVCir1
Superheat max setpoint dE31 (auto calculation)
Settings > Parameters (set EEV Parameters EEV 1 driver EEV 1 parameter)
16583
E2_uiSHSetEEVCir1
Superheat setpoint
dE32
Settings > Parameters (set EEV Parameters EEV 1 driver EEV 1 parameter)
16584
E2_ xEEVManualOpenEnEEVCir1
Enable EEV manual open
dE47
Settings > Parameters (set EEV Parameters EEV 1 driver EEV 1 parameter)
16585
dE48
Settings > Parameters (set EEV Parameters EEV 1 driver EEV 1 parameter)
16586
E2_uiPardL00EEVCir2
Type of Probe 1 EEV dL00 driver 0=diS, 1=ntc, 2=Pt1000, 3=420 mA, 4= rA 5=010 V, 6= ntcE
Settings > Parameters (set EEV Parameters EEV2 driver EEV 2 parameter)
16587
E2_uiPardL01EEVCir2
Type of Probe 2 EEV dL01 driver 0=diS, 1=ntc, 2=Pt1000, 3=420 mA, 4= rA 5=010 V, 6= ntcE
Settings > Parameters (set EEV Parameters EEV2 driver EEV 2 parameter)
16588
E2_uiPardL02EEVCir2
Type of Probe 3 EEV dL02 driver 0=diS, 1=ntc, 2=Pt1000, 3=n/a, 4= n/a 5=n/a, 6= ntcE
Settings > Parameters (set EEV Parameters EEV2 driver EEV 2 parameter)
16589
E2_uiPardL03EEVCir2
Type of Probe 4 EEV dL03 driver 0=diS, 1=ntc, 2=Pt1000, 3=n/a, 4= n/a 5=n/a, 6= ntcE
Settings > Parameters (set EEV Parameters EEV2 driver EEV 2 parameter)
16590
E2_iPardL10EEVCir2
Upper value for Pb 1 EEV
dL10
Settings > Parameters (set EEV Parameters EEV2 driver EEV 2 parameter)
16591
E2_iPardL11EEVCir2
Lower value for Pb 1 EEV
dL11
Settings > Parameters (set EEV Parameters EEV2 driver EEV 2 parameter)
16592
E2_iPardL12EEVCir2
Upper value for Pb 2 EEV
dL12
Settings > Parameters (set EEV Parameters EEV2 driver EEV 2 parameter)
16593
E2_iPardL13EEVCir2
Lower value for Pb 2 EEV
dL13
Settings > Parameters (set EEV Parameters EEV2 driver EEV 2 parameter)
16594
E2_ EEV manual open uiEEVManualOpenValueEEVCir1 value
12/18
AFB/Program
Modbus Address
Parameter Name
137
Appendixes
Parameter Name
Description
EEV Driver Parameter Name
E2_iPardL20EEVCir2
Offset for Pb1 EEV
dL20
Settings > Parameters (set EEV Parameters EEV2 driver EEV 2 parameter)
16595
E2_iPardL21EEVCir2
Offset for Pb2 EEV
dL21
Settings > Parameters (set EEV Parameters EEV2 driver EEV 2 parameter)
16596
E2_iPardL22EEVCir2
Offset for Pb3 EEV
dL22
Settings > Parameters (set EEV Parameters EEV2 driver EEV 2 parameter)
16597
E2_iPardL23EEVCir2
Offset for Pb4 EEV
dL23
Settings > Parameters (set EEV Parameters EEV2 driver EEV 2 parameter)
16598
E2_uiPardL30EEVCir2
Configuration of Probe dL30 1 EEV driver 0=nu, 1=outev, 2=sat, 3=outev back , 4= sat back, 5=out direct
Settings > Parameters (set EEV Parameters EEV2 driver EEV 2 parameter)
16599
E2_uiPardL31EEVCir2
Configuration of Probe dL31 1 EEV driver 0=nu, 1=outev, 2=sat, 3=outev back , 4= sat back, 5=out direct
Settings > Parameters (set EEV Parameters EEV2 driver EEV 2 parameter)
16600
E2_uiPardL32EEVCir2
Configuration of Probe dL32 1 EEV driver 0=nu, 1=outev, 2=sat, 3=outev back , 4= sat backt
Settings > Parameters (set EEV Parameters EEV2 driver EEV 2 parameter)
16601
E2_uiPardL33EEVCir2
Configuration of Probe dL33 1 EEV driver 0=nu, 1=outev, 2=sat, 3=outev back , 4= sat back
Settings > Parameters (set EEV Parameters EEV2 driver EEV 2 parameter)
16602
E2_usiEEVTypeEEVCir2
Type of EEV (see Modicon M171 Electronic - Expansion Valve Drivers, User Manual)
dE00
Settings > Parameters (set EEV Parameters EEV2 driver EEV 2 parameter)
16603
E2_usiPardE21EEVCir2
Type of system operating mode 0 (see Modicon M171 Electronic - Expansion Valve Drivers, User Manual)
dE21
Settings > Parameters (set EEV Parameters EEV2 driver EEV 2 parameter)
16604
E2_usiPardE22EEVCir2
Type of system operating mode 1 (see Modicon M171 Electronic - Expansion Valve Drivers, User Manual)
dE22
Settings > Parameters (set EEV Parameters EEV2 driver EEV 2 parameter)
16605
E2_usiPardE23EEVCir2
Type of system operating mode 2 (see Modicon M171 Electronic - Expansion Valve Drivers, User Manual)
dE23
Settings > Parameters (set EEV Parameters EEV2 driver EEV 2 parameter)
16606
E2_usiPardE24EEVCir2
Type of system operating mode 3 (see Modicon M171 Electronic - Expansion Valve Drivers, User Manual)
dE24
Settings > Parameters (set EEV Parameters EEV2 driver EEV 2 parameter)
16607
E2_xEnSHSetCalcEEVCir2
Enable superheat setpoint auto calculation
dE30
Settings > Parameters (set EEV Parameters EEV2 driver EEV 2 parameter)
16608
138
Controller/ Remote Web Site Display Page Page
AFB/Program
Modbus Address
12/18
Appendix A - Variables and Parameters Location Tables
EEV Driver Parameter Name
Controller/ Remote Web Site Display Page Page
Description
E2_uiSHSetMaxEEVCir2
Superheat max setpoint dE31 (auto calculation)
Settings > Parameters (set EEV Parameters EEV2 driver EEV 2 parameter)
16609
E2_uiSHSetEEVCir2
Superheat setpoint
dE32
Settings > Parameters (set EEV Parameters EEV2 driver EEV 2 parameter)
16610
E2_ xEEVManualOpenEnEEVCir2
Enable EEV manual open
dE47
Settings > Parameters (set EEV Parameters EEV2 driver EEV 2 parameter)
16611
dE48
Settings > Parameters (set EEV Parameters EEV2 driver EEV 2 parameter)
16612
E2_ EEV manual open uiEEVManualOpenValueEEVCir2 value
AFB/Program
Modbus Address
Parameter Name
NOTE: The I/O parameters are also parameters of the EEV driver device. For information on the possible values, see Modicon M171 Electronic - Expansion Valve Drivers, User Manual. Condenser Fans Controller/ Remote Display Page
Web Site Page
Description
E2_iFanCondTempMin
Fan minimum condensing temperature
Settings > Parameters fans
Parameters FloatingHighPresCntrl fans
16488
E2_iFanCondTempMax
Fan maximum condensing temperature
Settings > Parameters fans
Parameters FloatingHighPresCntrl fans
16489
E2_iFanCondTempExtSetp Fan external setpoint for the condensing temperature in fixed mode
Settings > Parameters fans
Parameters FloatingHighPresCntrl fans
16490
E2_xHeatRecovery
Heat recovery activation
Settings > Parameters fans
Parameters FloatingHighPresCntrl fans
16491
E2_iFanCondTempOffset
Fan condensing temperature offset
Settings > Parameters fans
Parameters FloatingHighPresCntrl fans
16492
E2_ Fan temperature offset at iFanCondTempOffsetAtMin minimum condensing temperature
Settings > Parameters fans
Parameters FloatingHighPresCntrl fans
16493
E2_ Fan temperature offset at iFanCondTempOffsetAtMax maximum condensing temperature
Settings > Parameters fans
Parameters FanMgmt fans
16494
E2_xFanLowNoiseOper
Low noise operation (FALSE=deactivates, TRUE=activates)
Settings > Parameters fans
Parameters FanMgmt fans
16495
E2_usiFanNbStageCir1
Number of fan stages circuit 1
Settings > Parameters fans
Parameters FanMgmt fans
16496
E2_usiFanNbStageCir2
Number of fan stages circuit 2
Settings > Parameters fans
Parameters FanMgmt fans
16497
E2_usiFanNbStage1Cir1
Number of fan for stage1 circuit 1
Settings > Parameters fans
Parameters FanMgmt fans
16498
E2_usiFanNbStage2Cir1
Number of fan for stage 2 circuit 1
Settings > Parameters fans
Parameters FanMgmt fans
16499
12/18
AFB/Program
Modbus Address
Parameter Name
139
Appendixes
Controller/ Remote Display Page
Web Site Page
Description
E2_usiFanNbStage3Cir1
Number of fan for stage 3 circuit 1
Settings > Parameters fans
Parameters FanMgmt fans
16500
E2_usiFanNbStage4Cir1
Number of fan for stage 4 circuit 1
Settings > Parameters fans
Parameters FanMgmt fans
16501
E2_usiFanNbStage1Cir2
Number of fan for stage1 circuit 2
Settings > Parameters fans
Parameters FanMgmt fans
16502
E2_usiFanNbStage2Cir2
Number of fan for stage 2 circuit 2
Settings > Parameters fans
Parameters FanMgmt fans
16503
E2_usiFanNbStage3Cir2
Number of fan for stage 3 circuit 2
Settings > Parameters fans
Parameters FanMgmt fans
16504
E2_usiFanNbStage4Cir2
Number of fan for stage 4 circuit 2
Settings > Parameters fans
Parameters FanMgmt fans
16505
E2_usiFanMode
Fan power cycle sequence mode (0=FIFO, 1=Runtime, 2=LIFO)
Settings > Parameters fans
Parameters FanMgmt fans
16506
E2_usiFanPriorityStage1
Priority of stage 1 in LIFO mode
Settings > Parameters fans
Parameters FanMgmt fans
16507
E2_usiFanPriorityStage2
Priority of stage 2 in LIFO mode
Settings > Parameters fans
Parameters FanMgmt fans
16508
E2_usiFanPriorityStage3
Priority of stage 3 in LIFO mode
Settings > Parameters fans
Parameters FanMgmt fans
16509
E2_usiFanPriorityStage4
Priority of stage 4 in LIFO mode
Settings > Parameters fans
Parameters FanMgmt fans
16510
E2_uiFanFreqMin
Fan VSD minimum frequency (read from VSD if configured)
Settings > Parameters fans
Parameters FanMgmt fans
16511
E2_uiFanFreqMax
Fan VSD maximum frequency (read from VSD if configured)
Settings > Parameters fans
Parameters FanMgmt fans
16512
E2_ uiFanLowNoiseMaxFreq
Fan VSD low noise operation frequency reduction
Settings > Parameters fans
Parameters FanMgmt fans
16513
E2_uiFanDelayIncr
Delay to increment the running Settings > fan stages Parameters fans
Parameters FanMgmt fans
16514
E2_uiFanDelayDecr
Delay to decrement the running fan stages
Settings > Parameters fans
Parameters FanMgmt fans
16515
E2_uiFanMinOffTime
Fan minimum Off time of the stages
Settings > Parameters fans
Parameters FanMgmt fans
16516
E2_uiFanHysteresis
Fan hysteresis for the frequency
Settings > Parameters fans
Parameters FanMgmt fans
16517
E2_uiFanCondPb
Fan condenser PID integral time
Settings > Parameters fans
Parameters FloatingHighPresCntrl (converted in Kp) fans
16534
140
AFB/Program
Modbus Address
Parameter Name
12/18
Appendix A - Variables and Parameters Location Tables
Controller/ Remote Display Page
Web Site Page
Description
E2_uiFanCondTi
Fan condenser PID integral time
Settings > Parameters fans
Parameters FloatingHighPresCntrl fans
16535
E2_uiFanCondDeadband
Fan deadband for condensing Settings > temperature Parameters fans
Parameters FloatingHighPresCntrl fans
16536
E2_ usiFanCondControlMode
High pressure control type (0=Floating 1= Floating with variable offset 2= Fixed)
Settings > Parameters fans
Parameters FloatingHighPresCntrl fans
16537
Settings > Parameters fans
Parameters FloatingHighPresCntrl fans
16538
E2_uiRampSetpFilter
Ramp setpoint filter for Settings > switching from normal mode to Parameters heat recovery mode fans
Parameters FloatingHighPresCntrl fans
16539
E2_iFanEvapTempMin
Fan minimum evaporating temperature
Settings > Parameters fans
Parameters EVapPressCntrl fans
16843
E2_iFanEvapTempMax
Fan maximum evaporating temperature
Settings > Parameters fans
Parameters EVapPressCntrl fans
16844
E2_iFanEvapTempExtSetp Fan external setpoint for the condensing evaporating in fixed mode
Settings > Parameters fans
Parameters EVapPressCntrl fans
16845
E2_iFanEvapTempOffset
Fan evaporating temperature offset
Settings > Parameters fans
Parameters EVapPressCntrl fans
16846
E2_ iFanEvapTempOffsetAtMin
Fan evaporating temperature offset at minimum condensing temperature
Settings > Parameters fans
Parameters EVapPressCntrl fans
16847
E2_ Fan evaporating temperature Settings > iFanEvapTempOffsetAtMax offset at maximum condensing Parameters temperature fans
Parameters EVapPressCntrl fans
16848
E2_uiFanEvapPb
Fan evaporator PID proportional band
Settings > Parameters fans
Parameters EVapPressCntrl fans
16849
E2_uiFanEvapTi
Fan evaporator PID integral time
Settings > Parameters fans
Parameters EVapPressCntrl fans
16850
E2_uiFanEvapDeadband
Fan deadband for evaporating Settings > temperature Parameters fans
Parameters EVapPressCntrl fans
16851
E2_ usiFanEvapControlMode
Low pressure control type (0=Floating 1= Floating with variable offset 2= Fixed)
Parameters EVapPressCntrl fans
16852
E2_iHeatRecoverySetpoint Heat recovery setpoint
Settings > Parameters fans
AFB/Program
Modbus Address
Parameter Name
Pumps Controller/ Web Site Remote Page Display Page
Description
E2_ uiPumpSetFixedSpeed
Fixed speed for modulated pump
Settings > Parameters pumps
Parameters pumps
PIDAdvanced for Pump (converted in real)
16541
E2_xPumpFixedSpeed
Pump management (FALSE=automatic modulation, TRUE=fixed speed)
Settings > Parameters pumps
Parameters pumps
PIDAdvanced for Pump
16542
12/18
AFB/Program
Modbus Address
Parameter Name
141
Appendixes
Parameter Name
Description
Controller/ Web Site Remote Page Display Page
E2_uiPumpDiffSetpCool
Differential setpoint for modulated pump in Cool mode
Settings > Parameters pumps
E2_uiPumpPbCool
Pump PID proportional band in Cool mode
E2_uiPumpTi
AFB/Program
Modbus Address
Parameters pumps
PIDAdvanced for Pump
16543
Settings > Parameters pumps
Parameters pumps
PIDAdvanced for Pump
16544
Pump PID integral time
Settings > Parameters pumps
Parameters pumps
PIDAdvanced for Pump
16545
E2_uiPumpTd
Pump PID derivative time
Settings > Parameters pumps
Parameters pumps
PIDAdvanced for Pump
16546
E2_uiMaxRunTimeP1
Maximum running time of pump 1
Settings > Parameters pumps
Parameters pumps
RedundantPumpCntrl
16551
E2_uiMaxRunTimeP2
Maximum running time of pump 2
Settings > Parameters pumps
Parameters pumps
RedundantPumpCntrl
16552
E2_uiPModeRunTime
Duration of the locked rotor protection (P-mode)
Settings > Parameters pumps
Parameters pumps
RedundantPumpCntrl
16553
E2_uiPModeIdleTime
Max idle time - Pump will be started for uiPModeRunTime
Settings > Parameters pumps
Parameters pumps
RedundantPumpCntrl
16554
E2_uiPumpMinFreq
Minimum frequency of the pump
Settings > Parameters pumps
Parameters pumps
(to calculate frequency setpoint for ATV212)
16555
E2_uiPumpMaxFreq
Maximum frequency of the pump
Settings > Parameters pumps
Parameters pumps
(to calculate frequency setpoint for ATV212)
16556
E2_xPumpAutoManual
Pump automatic or manual mode
Settings > Parameters pumps
Parameters pumps
RedundantPumpCntrl
16557
E2_xManualRunPump1
Start pump 1 in manual mode Settings > Parameters pumps
Parameters pumps
RedundantPumpCntrl
16558
E2_xManualRunPump2
Start pump 2 in manual mode Settings > Parameters pumps
Parameters pumps
RedundantPumpCntrl
16559
E2_uiPumpDiffSetpHeat
Differential setpoint for modulated pump in heat mode
Settings > Parameters pumps
Parameters pumps
PIDAdvanced for Pump (converted in real)
16788
E2_uiPumpPbHeat
Pump PID proportional band in Heat mode
Settings > Parameters pumps
Parameters pumps
PIDAdvanced for Pump (converted in real)
16789
Defrost Controller/ Remote Display Page
Web Site Page
Description
E2_usiDefrostType
Defrost type (0=disabled, 1=synchronous, 2=asynchronous, 3=independent)
Settings > Parameters defrost
Parameters FB_HPDefrCircuitPriority Defrost
16791
E2_ uiTimeBetweenDefrosts
Minimum time between two defrosts
Settings > Parameters defrost
Parameters FB_HPDefrCircuitPriority Defrost
16792
142
AFB/Program
Modbus Address
Parameter Name
12/18
Appendix A - Variables and Parameters Location Tables
Controller/ Remote Display Page
Web Site Page
Modbus Address
Parameter Name
Description
E2_iEnDefrostTemp
Enabling defrost temperature
Settings > Parameters defrost
Parameters FB_ Defrost HPDefrostAndRevValve
16793
E2_uiDefrostDelay1
Delay between 2 defrosts (working time) when external temperature is below iAuthDefrostTemp
Settings > Parameters defrost
Parameters FB_ Defrost HPDefrostAndRevValve
16794
E2_iMinDefrostTemp
Temperature minimum to define the second delay
Settings > Parameters defrost
Parameters FB_ Defrost HPDefrostAndRevValve
16795
E2_iEnDefrostResetTemp Defrost timer reset temperature Settings > Parameters defrost
Parameters FB_ Defrost HPDefrostAndRevValve
16796
E2_uiDefrostDelay2
Second delay when the external temperature is below iMinDefrostTemp
Settings > Parameters defrost
Parameters FB_ Defrost HPDefrostAndRevValve
16797
E2_iDefrostEndTemp
Defrost end temperature
Settings > Parameters defrost
Parameters FB_ Defrost HPDefrostAndRevValve
16798
E2_uiMaxDefrostTime
Maximum defrost time
Settings > Parameters defrost
Parameters FB_ Defrost HPDefrostAndRevValve
16799
E2_uiMinDefrostTime
Minimum defrost time
Settings > Parameters defrost
Parameters FB_ Defrost HPDefrostAndRevValve
16800
E2_ Delay between compressors uiDefrostCompValveTime stopped and valve switch during defrost
Settings > Parameters defrost
Parameters FB_ Defrost HPDefrostAndRevValve
16801
E2_ Delay between valve switch uiDefrostValveCompTime and compressors on during defrost
Settings > Parameters defrost
Parameters FB_ Defrost HPDefrostAndRevValve
16802
E2_uiDrippingTime
Dripping time
Settings > Parameters defrost
Parameters FB_ Defrost HPDefrostAndRevValve
16803
E2_uiDefrostCpCapCir1
Compressors capacity (%) during defrost for circuit 1
Settings > Parameters defrost
Parameters To force compressors Defrost during defrost in SR_ CircuitCompCntrl
16804
E2_uiDefrostCpCapCir2
Compressors capacity (%) during defrost for circuit 2
Settings > Parameters defrost
Parameters To force compressors Defrost during defrost in SR_ CircuitCompCntrl
16805
Settings > Parameters defrost
Parameters To force compressors Defrost during defrost in SR_ CircuitCompCntrl
16855
E2_ Value of the high pressure to iHighPressureDefrostLimit start fans during defrost
AFB/Program
Communication Controller/ Remote Display Page
Web Site Page
Modbus Address
Settings > Expert > RS485 config.
-
16124
Proto_RS485_OB1 Select RS485-1 On Board protocol
Settings > Expert > RS485 config.
-
16125
DataBit_RS485_ OB1
RS485_1 On Board Data bit number
Settings > Expert > RS485 config.
-
16126
StopBit_RS485_ OB1
RS485_1 On Board stop bit number
Settings > Expert > RS485 config.
-
16127
Parameter Name
Description
RS485 communication Addr_RS485_OB1 RS485_1 On Board address
12/18
143
Appendixes
Controller/ Remote Display Page
Web Site Page
Modbus Address
Parity_RS485_OB1 RS485_1 On Board parity protocol
Settings > Expert > RS485 config.
-
16128
Baud_RS485_OB1 RS485_1 On Board baud rate protocol
Settings > Expert > RS485 config.
-
16129
Settings > Expert > Ethernet conf.
-
15796
Parameter Name
Description
Ethernet communication Port_HTTP_PI HTTP Port number, 0 is equal to default port 80 Port_ETH_PI
TCP/IP Port number
Settings > Expert > Ethernet conf.
-
15797
Ip_1_ETH_PI
Ethernet IP address (1st part)
Settings > Expert > Ethernet conf.
-
15798
Ip_2_ETH_PI
Ethernet IP address (2 nd part)
Settings > Expert > Ethernet conf.
-
15799
Ip_3_ETH_PI
Ethernet IP address (3 rd part)
Settings > Expert > Ethernet conf.
-
15800
Ip_4_ETH_PI
Ethernet IP address (4 th part)
Settings > Expert > Ethernet conf.
-
15801
DefGtwy_1_ETH_ PI
Default Gateway (1 st part)
Settings > Expert > Ethernet conf.
-
15802
DefGtwy_2_ETH_ PI
Default Gateway (2 nd part)
Settings > Expert > Ethernet conf.
-
15803
DefGtwy_3_ETH_ PI
Default Gateway (3 rd part)
Settings > Expert > Ethernet conf.
-
15804
DefGtwy_4_ETH_ PI
Default Gateway (4 th part)
Settings > Expert > Ethernet conf.
-
15805
NetMsk_1_ETH_PI Net mask (1 st part)
Settings > Expert > Ethernet conf.
-
15806
NetMsk_2_ETH_PI Net mask (2 nd part)
Settings > Expert > Ethernet conf.
-
15807
NetMsk_3_ETH_PI Net mask (3 rd part)
Settings > Expert > Ethernet conf.
-
15808
NetMsk_4_ETH_PI Net mask (4 th part)
Settings > Expert > Ethernet conf.
-
15809
PriDNS_1_ETH_PI Primary DNS server (1 st part)
Settings > Expert > Ethernet conf.
-
15810
PriDNS_2_ETH_PI Primary DNS server (2 nd part)
Settings > Expert > Ethernet conf.
-
15811
PriDNS_3_ETH_PI Primary DNS server (3 rd part)
Settings > Expert > Ethernet conf.
-
15812
PriDNS_4_ETH_PI Primary DNS server (4 th part)
Settings > Expert > Ethernet conf.
-
15813
SecDNS_1_ETH_ PI
Secondary DNS server (1 st part)
Settings > Expert > Ethernet conf.
-
15814
SecDNS_2_ETH_ PI
Secondary DNS server (2 nd part)
Settings > Expert > Ethernet conf.
-
15815
SecDNS_3_ETH_ PI
Secondary DNS server (3 rd part)
Settings > Expert > Ethernet conf.
-
15816
SecDNS_4_ETH_ PI
Secondary DNS server (4 th part)
Settings > Expert > Ethernet conf.
-
15817
EnableDHCP_ ETH_PI
Enable DHCP
Settings > Expert > Ethernet conf.
-
15818
144
12/18
Appendix A - Variables and Parameters Location Tables
Energy Controller/ Remote Display Page
Web Site Page
Description
E2_rConsumDayPrev
Energy consumption of the previous day
Energy > Energy EnergyTrend Trends > Daily consumpt.
16623
E2_rConsumDay
Energy consumption of the day
Energy > Energy EnergyTrend Trends > Daily consumpt.
16625
E2_rConsumWeekPrev
Energy consumption of the previous week
Energy > Trends > Weekly consumpt.
Energy EnergyTrend
16627
E2_rConsumWeek
Energy consumption of the present week
Energy >Trends > Weekly consumpt.
Energy EnergyTrend
16629
E2_rConsumMonthPrev
Energy consumption of the previous month
Energy > Trends > Monthly consumpt.
Energy EnergyTrend
16631
E2_rConsumMonth
Energy consumption of the present month
Energy > Trends > Monthly consumpt.
Energy EnergyTrend
16633
E2_rConsumMonth_Jan
Energy consumption of January
Energy > Trends > Monthly consumpt.
Energy EnergyTrend
16635
E2_rConsumMonth_Feb
Energy consumption of February
Energy > Trends > Monthly consumpt.
Energy EnergyTrend
16637
E2_rConsumMonth_March
Energy consumption of March
Energy > Trends > Monthly consumpt.
Energy EnergyTrend
16639
E2_rConsumMonth_April
Energy consumption of April
Energy > Trends > Monthly consumpt.
Energy EnergyTrend
16641
E2_rConsumMonth_May
Energy consumption of May
Energy > Trends > Monthly consumpt.
Energy EnergyTrend
16643
E2_rConsumMonth_June
Energy consumption of June
Energy > Trends > Monthly consumpt.
Energy EnergyTrend
16645
E2_rConsumMonth_July
Energy consumption of July
Energy > Trends > Monthly consumpt.
Energy EnergyTrend
16647
E2_rConsumMonth_Aug
Energy consumption of Aug
Energy > Trends > Monthly consumpt.
Energy EnergyTrend
16649
E2_rConsumMonth_Sept
Energy consumption of Sept
Energy > Trends > Monthly consumpt.
Energy EnergyTrend
16651
12/18
AFB/Program
Modbus Address
Parameter Name
145
Appendixes
Controller/ Remote Display Page
Web Site Page
Energy consumption of Oct
Energy > Trends > Monthly consumpt.
Energy EnergyTrend
16653
E2_rConsumMonth_Nov
Energy consumption of Nov
Energy > Trends > Monthly consumpt.
Energy EnergyTrend
16655
E2_rConsumMonth_Dec
Energy consumption of Dec
Energy > Trends > Monthly consumpt.
Energy EnergyTrend
16657
E2_rConsumYearPrev
Energy consumption of the previous year
Energy > Trends > Yearly consumpt.
Energy EnergyTrend
16659
E2_rConsumYear
Energy consumption of the present year
Energy > Trends > Yearly consumpt.
Energy EnergyTrend
16661
E2_rConsumPrvReset
Energy consumption of the previous reset period
Energy > Trends > Period consumpt.
Energy EnergyTrend
16663
E2_rConsumReset
Energy consumption since last reset
Energy > Trends > Period consumpt.
Energy EnergyTrend
16665
E2_ usiConsumeResetMinutes
Minutes when Reset command is active
Energy > Trends > Period consumpt.
Energy EnergyTrend
16669
E2_usiConsumeResetHours Hours when Reset command is active Energy > Trends > Period consumpt.
Energy EnergyTrend
16670
E2_ Month Day when Reset command is usiConsumeResetMonthDay active
Energy > Trends > Period consumpt.
Energy EnergyTrend
16671
E2_usiConsumeResetMonth Month when Reset command is active Energy > (0 = January, 1 = February, 2 = â&#x20AC;Ś., 11 Trends > = December) Period consumpt.
Energy EnergyTrend
16672
E2_usiConsumeResetYear
Year when Reset command is active
Energy > Trends > Period consumpt.
Energy EnergyTrend
16673
E2_usiSaveWeekDay
Day of week saved
-
-
EnergyTrend
16780
E2_usiSaveDayMonth
Day of month saved
-
-
EnergyTrend
16781
E2_usiSaveMonth
Month saved
-
-
EnergyTrend
16782
E2_usiSaveYear E2_ usiCOPLastResetMinutes
Year saved Minutes when reset is active
-
-
EnergyTrend
16783 16683
E2_usiCOPLastResetHours
Hours when reset is active
Energy > COP Energy COPCalculation > COP
16684
Energy > COP Energy COPCalculation > COP
16685
Parameter Name
Description
E2_rConsumMonth_Oct
E2_ MonthDay when the Reset command usiCOPLastResetMonthDay is active
146
AFB/Program
Energy > COP Energy COPCalculation > COP
Modbus Address
12/18
Appendix A - Variables and Parameters Location Tables
Parameter Name
Description
Controller/ Remote Display Page
Web Site Page
AFB/Program
Modbus Address
E2_usiCOPLastResetMonth Month when the Reset command is active (0 = January, 1 = February, 2 = â&#x20AC;¦., 11 = December)
Energy > COP Energy COPCalculation > COP
16686
E2_usiCOPLastResetYear
Energy > COP Energy COPCalculation > COP
16687
Year when the Reset command is active
Schedulers Controller/ Remote Display Page
Web Site AFB/Program Page
Modbus Address
Settings > Yearly Scheduler
Yearly YearlyEvent scheduler
16617
Yearly scheduler start day month of event
Settings > Yearly Scheduler
Yearly YearlyEvent scheduler
16618
E2_usiStartHours
Yearly scheduler start hours of event
Settings > Yearly Scheduler
Yearly YearlyEvent scheduler
16619
E2_usiStopMonth
Yearly scheduler stop month of event
Settings > Yearly Scheduler
Yearly YearlyEvent scheduler
16620
E2_ usiStopDayMonth
Yearly scheduler stop day month of event
Settings > Yearly Scheduler
Yearly YearlyEvent scheduler
16621
E2_usiStopHours
Yearly scheduler stop hours of event
Settings > Yearly Scheduler
Yearly YearlyEvent scheduler
16622
Parameter Name
Description
Yearly scheduler E2_usiStartMonth
Yearly scheduler start month of event
E2_ usiStartDayMonth
Weekly scheduler E2_usiEventID_1
Event 1 ID (0=NO EVENT, 1=OCCUPIED, Settings > 2=ECO ON, 3=OFF, 4=COOL, 5=HEAT, Weekly 6=DEFROST CIR1, 7=DEFROST CIR2, 8=ECO Scheduler OFF)
Weekly WeeklyScheduler 16688 scheduler
E2_ Event 1 days of week usiEventWeekDays_ 1
Settings > Weekly Scheduler
Weekly WeeklyScheduler 16689 scheduler
E2_uiEventTime_1
Event 1 scheduler time
Settings > Weekly Scheduler
Weekly WeeklyScheduler 16690 scheduler
E2_usiEventID_2
Event 2 ID (0=NO EVENT, 1=OCCUPIED, Settings > 2=ECO ON, 3=OFF, 4=COOL, 5=HEAT, Weekly 6=DEFROST CIR1, 7=DEFROST CIR2, 8=ECO Scheduler OFF)
Weekly WeeklyScheduler 16691 scheduler
E2_ Event 2 days of week usiEventWeekDays_ 2
Settings > Weekly Scheduler
Weekly WeeklyScheduler 16692 scheduler
E2_uiEventTime_2
Event 2 scheduler time
Settings > Weekly Scheduler
Weekly WeeklyScheduler 16693 scheduler
E2_usiEventID_3
Event 3 ID (0=NO EVENT, 1=OCCUPIED, Settings > 2=ECO ON, 3=OFF, 4=COOL, 5=HEAT, Weekly 6=DEFROST CIR1, 7=DEFROST CIR2, 8=ECO Scheduler OFF)
Weekly WeeklyScheduler 16694 scheduler
E2_ Event 3 days of week usiEventWeekDays_ 3
12/18
Settings > Weekly Scheduler
Weekly WeeklyScheduler 16695 scheduler
147
Appendixes
Controller/ Remote Display Page
Web Site AFB/Program Page
Modbus Address
Parameter Name
Description
E2_uiEventTime_3
Event 3 scheduler time
Settings > Weekly Scheduler
Weekly WeeklyScheduler 16696 scheduler
E2_usiEventID_4
Event 4 ID (0=NO EVENT, 1=OCCUPIED, Settings > 2=ECO ON, 3=OFF, 4=COOL, 5=HEAT, Weekly 6=DEFROST CIR1, 7=DEFROST CIR2, 8=ECO Scheduler OFF)
Weekly WeeklyScheduler 16697 scheduler
E2_ Event 4 days of week usiEventWeekDays_ 4
Settings > Weekly Scheduler
Weekly WeeklyScheduler 16698 scheduler
E2_uiEventTime_4
Event 4 scheduler time
Settings > Weekly Scheduler
Weekly WeeklyScheduler 16699 scheduler
E2_usiEventID_5
Event 5 ID (0=NO EVENT, 1=OCCUPIED, Settings > 2=ECO ON, 3=OFF, 4=COOL, 5=HEAT, Weekly 6=DEFROST CIR1, 7=DEFROST CIR2, 8=ECO Scheduler OFF)
Weekly WeeklyScheduler 16700 scheduler
E2_ Event 5 days of week usiEventWeekDays_ 5
Settings > Weekly Scheduler
Weekly WeeklyScheduler 16701 scheduler
E2_uiEventTime_5
Event 5 scheduler time
Settings > Weekly Scheduler
Weekly WeeklyScheduler 16702 scheduler
E2_usiEventID_6
Event 6 ID (0=NO EVENT, 1=OCCUPIED, Settings > 2=ECO ON, 3=OFF, 4=COOL, 5=HEAT, Weekly 6=DEFROST CIR1, 7=DEFROST CIR2, 8=ECO Scheduler OFF)
Weekly WeeklyScheduler 16703 scheduler
E2_ Event 6 days of week usiEventWeekDays_ 6
Settings > Weekly Scheduler
Weekly WeeklyScheduler 16704 scheduler
E2_uiEventTime_6
Event 6 scheduler time
Settings > Weekly Scheduler
Weekly WeeklyScheduler 16705 scheduler
E2_usiEventID_7
Event 7 ID (0=NO EVENT, 1=OCCUPIED, Settings > 2=ECO ON, 3=OFF, 4=COOL, 5=HEAT, Weekly 6=DEFROST CIR1, 7=DEFROST CIR2, 8=ECO Scheduler OFF)
Weekly WeeklyScheduler 16706 scheduler
E2_ Event 7 days of week usiEventWeekDays_ 7
Settings > Weekly Scheduler
Weekly WeeklyScheduler 16707 scheduler
E2_uiEventTime_7
Event 7 scheduler time
Settings > Weekly Scheduler
Weekly WeeklyScheduler 16708 scheduler
E2_usiEventID_8
Event 8 ID (0=NO EVENT, 1=OCCUPIED, Settings > 2=ECO ON, 3=OFF, 4=COOL, 5=HEAT, Weekly 6=DEFROST CIR1, 7=DEFROST CIR2, 8=ECO Scheduler OFF)
Weekly WeeklyScheduler 16709 scheduler
E2_ Event 8 days of week usiEventWeekDays_ 8
Settings > Weekly Scheduler
Weekly WeeklyScheduler 16710 scheduler
E2_uiEventTime_8
Event 8 scheduler time
Settings > Weekly Scheduler
Weekly WeeklyScheduler 16711 scheduler
E2_usiEventID_9
Event 9 ID (0=NO EVENT, 1=OCCUPIED, Settings > 2=ECO ON, 3=OFF, 4=COOL, 5=HEAT, Weekly 6=DEFROST CIR1, 7=DEFROST CIR2, 8=ECO Scheduler OFF)
Weekly WeeklyScheduler 16712 scheduler
E2_ Event 9 days of week usiEventWeekDays_ 9
148
Settings > Weekly Scheduler
Weekly WeeklyScheduler 16713 scheduler
12/18
Appendix A - Variables and Parameters Location Tables
Controller/ Remote Display Page
Web Site AFB/Program Page
Modbus Address
Parameter Name
Description
E2_uiEventTime_9
Event 9 scheduler time
Settings > Weekly Scheduler
Weekly WeeklyScheduler 16714 scheduler
E2_usiEventID_10
Event 10 ID (0=NO EVENT, 1=OCCUPIED, Settings > 2=ECO ON, 3=OFF, 4=COOL, 5=HEAT, Weekly 6=DEFROST CIR1, 7=DEFROST CIR2, 8=ECO Scheduler OFF)
Weekly WeeklyScheduler 16715 scheduler
E2_ Event 10 days of week usiEventWeekDays_ 10
Settings > Weekly Scheduler
Weekly WeeklyScheduler 16716 scheduler
E2_uiEventTime_10 Event 10 scheduler time
Settings > Weekly Scheduler
Weekly WeeklyScheduler 16717 scheduler
Event 11 ID (0=NO EVENT, 1=OCCUPIED, Settings > 2=ECO ON, 3=OFF, 4=COOL, 5=HEAT, Weekly 6=DEFROST CIR1, 7=DEFROST CIR2, 8=ECO Scheduler OFF)
Weekly WeeklyScheduler 16718 scheduler
E2_usiEventID_11
E2_ Event 11 days of week usiEventWeekDays_ 11
Settings > Weekly Scheduler
Weekly WeeklyScheduler 16719 scheduler
E2_uiEventTime_11 Event 11 scheduler time
Settings > Weekly Scheduler
Weekly WeeklyScheduler 16720 scheduler
Event 12 ID (0=NO EVENT, 1=OCCUPIED, Settings > 2=ECO ON, 3=OFF, 4=COOL, 5=HEAT, Weekly 6=DEFROST CIR1, 7=DEFROST CIR2, 8=ECO Scheduler OFF)
Weekly WeeklyScheduler 16721 scheduler
E2_usiEventID_12
E2_ Event 12 days of week usiEventWeekDays_ 12
Settings > Weekly Scheduler
Weekly WeeklyScheduler 16722 scheduler
E2_uiEventTime_12 Event 12 scheduler time
Settings > Weekly Scheduler
Weekly WeeklyScheduler 16723 scheduler
Event 13 ID (0=NO EVENT, 1=OCCUPIED, Settings > 2=ECO ON, 3=OFF, 4=COOL, 5=HEAT, Weekly 6=DEFROST CIR1, 7=DEFROST CIR2, 8=ECO Scheduler OFF)
Weekly WeeklyScheduler 16724 scheduler
E2_usiEventID_13
E2_ Event 13 days of week usiEventWeekDays_ 13
Settings > Weekly Scheduler
Weekly WeeklyScheduler 16725 scheduler
E2_uiEventTime_13 Event 13 scheduler time
Settings > Weekly Scheduler
Weekly WeeklyScheduler 16726 scheduler
Event 14 ID (0=NO EVENT, 1=OCCUPIED, Settings > 2=ECO ON, 3=OFF, 4=COOL, 5=HEAT, Weekly 6=DEFROST CIR1, 7=DEFROST CIR2, 8=ECO Scheduler OFF)
Weekly WeeklyScheduler 16727 scheduler
E2_usiEventID_14
E2_ Event 14 days of week usiEventWeekDays_ 14
Settings > Weekly Scheduler
Weekly WeeklyScheduler 16728 scheduler
E2_uiEventTime_14 Event 14 scheduler time
Settings > Weekly Scheduler
Weekly WeeklyScheduler 16729 scheduler
Event 15 ID (0=NO EVENT, 1=OCCUPIED, Settings > 2=ECO ON, 3=OFF, 4=COOL, 5=HEAT, Weekly 6=DEFROST CIR1, 7=DEFROST CIR2, 8=ECO Scheduler OFF)
Weekly WeeklyScheduler 16730 scheduler
E2_usiEventID_15
E2_ Event 15 days of week usiEventWeekDays_ 15
12/18
Settings > Weekly Scheduler
Weekly WeeklyScheduler 16731 scheduler
149
Appendixes
Parameter Name
Description
E2_uiEventTime_15 Event 15 scheduler time
E2_usiEventID_16
Controller/ Remote Display Page
Web Site AFB/Program Page
Modbus Address
Settings > Weekly Scheduler
Weekly WeeklyScheduler 16732 scheduler
Event 16 ID (0=NO EVENT, 1=OCCUPIED, Settings > 2=ECO ON, 3=OFF, 4=COOL, 5=HEAT, Weekly 6=DEFROST CIR1, 7=DEFROST CIR2, 8=ECO Scheduler OFF)
Weekly WeeklyScheduler 16733 scheduler
E2_ Event 16 days of week usiEventWeekDays_ 16
Settings > Weekly Scheduler
Weekly WeeklyScheduler 16734 scheduler
E2_uiEventTime_16 Event 16 scheduler time
Settings > Weekly Scheduler
Weekly WeeklyScheduler 16735 scheduler
Event 17 ID (0=NO EVENT, 1=OCCUPIED, Settings > 2=ECO ON, 3=OFF, 4=COOL, 5=HEAT, Weekly 6=DEFROST CIR1, 7=DEFROST CIR2, 8=ECO Scheduler OFF)
Weekly WeeklyScheduler 16736 scheduler
E2_usiEventID_17
E2_ Event 17 days of week usiEventWeekDays_ 17
Settings > Weekly Scheduler
Weekly WeeklyScheduler 16737 scheduler
E2_uiEventTime_17 Event 17 scheduler time
Settings > Weekly Scheduler
Weekly WeeklyScheduler 16738 scheduler
Event 18 ID (0=NO EVENT, 1=OCCUPIED, Settings > 2=ECO ON, 3=OFF, 4=COOL, 5=HEAT, Weekly 6=DEFROST CIR1, 7=DEFROST CIR2, 8=ECO Scheduler OFF)
Weekly WeeklyScheduler 16739 scheduler
E2_usiEventID_18
E2_ Event 18 days of week usiEventWeekDays_ 18
Settings > Weekly Scheduler
Weekly WeeklyScheduler 16740 scheduler
E2_uiEventTime_18 Event 18 scheduler time
Settings > Weekly Scheduler
Weekly WeeklyScheduler 16741 scheduler
Event 19 ID (0=NO EVENT, 1=OCCUPIED, Settings > 2=ECO ON, 3=OFF, 4=COOL, 5=HEAT, Weekly 6=DEFROST CIR1, 7=DEFROST CIR2, 8=ECO Scheduler OFF)
Weekly WeeklyScheduler 16742 scheduler
E2_usiEventID_19
E2_ Event 19 days of week usiEventWeekDays_ 19
Settings > Weekly Scheduler
Weekly WeeklyScheduler 16743 scheduler
E2_uiEventTime_19 Event 19 scheduler time
Settings > Weekly Scheduler
Weekly WeeklyScheduler 16744 scheduler
Event 20 ID (0=NO EVENT, 1=OCCUPIED, Settings > 2=ECO ON, 3=OFF, 4=COOL, 5=HEAT, Weekly 6=DEFROST CIR1, 7=DEFROST CIR2, 8=ECO Scheduler OFF)
Weekly WeeklyScheduler 16745 scheduler
E2_usiEventID_20
E2_ Event 20 days of week usiEventWeekDays_ 20
Settings > Weekly Scheduler
Weekly WeeklyScheduler 16746 scheduler
E2_uiEventTime_20 Event 20 scheduler time
Settings > Weekly Scheduler
Weekly WeeklyScheduler 16747 scheduler
150
12/18
Appendix A - Variables and Parameters Location Tables
Clock Parameter Name
Description
Controller/ Remote Display Page
Web Site Page
Modbus Address
sysClock_seconds
Second value
Settings > Expert > Clock config.
-
8736
sysClock_minutes
Minute value
Settings > Expert > Clock config.
-
8737
sysClock_hours
Hour value
Settings > Expert > Clock config.
-
8738
sysClock_dayweek
Day of week value
Settings > Expert > Clock config.
-
8739
sysClock_daymonth
Day of the month value
Settings > Expert > Clock config.
-
8740
sysClock_month
Month value
Settings > Expert > Clock config.
-
8741
sysClock_year
Year value
Settings > Expert > Clock config.
-
8742
sysClockSet_seconds
Second value (write)
Settings > Expert > Clock config.
-
8744
sysClockSet_minutes
Minute value (write)
Settings > Expert > Clock config.
-
8745
sysClockSet_hours
Hour value (write)
Settings > Expert > Clock config.
-
8746
sysClockSet_dayweek Day of week value (write)
Settings > Expert > Clock config.
-
8747
sysClockSet_ daymonth
Day of the month value (write)
Settings > Expert > Clock config.
-
8748
sysClockSet_month
Month value (write)
Settings > Expert > Clock config.
-
8749
sysClockSet_year
Year value (write)
Settings > Expert > Clock config.
-
8750
sysClockSet_Upload
RTC upload
Settings > Expert > Clock config.
-
8751
Password Parameter Name
Description
Controller/ Remote Display Page
Web Site Page
Modbus Address
E2_uiPwdPermLev1
Password level 1
Password > Edit password
-
16748
E2_uiPwdPermLev2
Password level 2
Password > Edit password
-
16749
E2_uiPwdPermLev3
Password level 3
Password > Edit password
-
16750
Service Variables and Parameters Introduction The tables below present lists of service variables of the PLC project which are neither displayed on the controller display nor in the web site. Unassigned Variables Unassigned Variables are intended to be used if extra variables are needed by you in the project for whatever reason. By using these variables you do not change the other variables memory locations. Variable Name App Type Modbus Address iFREE1 iFREE2 iFREE3 iFREE4 iFREE5 iFREE6 iFREE7 iFREE8 iFREE9 iFREE10 iFREE11 iFREE12 iFREE13
12/18
INT INT INT INT INT INT INT INT INT INT INT INT INT
9262 9263 9264 9265 8990 8991 8992 8993 8994 8995 8996 8997 10000
151
Appendixes
Variable Name App Type Modbus Address iFREE14 iFREE15 iFREE16 udiFREE1 udiFREE2
10002 10005 10006 8971 10003
INT INT INT UDINT UDINT
NOTE: These are the names of the variables displayed by default and they can be modified. Variables Exchanged Between Controller and VSD For each VSD (address from 1 to 8 or from 21 to 23), the following variables exist, where "X" is the Modbus address of the device: Variable Name
Description
uiRMbATVDrvStatusNodeX uiRMbATVDrvAlarmNodeX uiRMbATVFreqMinNodeX uiRMbATVFreqMaxNodeX uiRMbATVFreqSetpOutNodeX uiWMbATVCmdNodeX uiWMbATVFreqSetpNodeX uiWMbATVTimeOutNodeX
Drive State Drive Alarm Drive Minimum Frequency Drive Maximum Frequency Drive Frequency Drive Command Drive Frequency Setpoint Drive Timeout
These variables are used in the ATV212ModbusCom AFB. The variable Modbus addresses follow this sequence: Device Modbus Address Variable Modbus Address Range 1 2 3 4 5 6 7 8 21 22 23
9000–9007 9008–9015 9016–9023 9024–9031 9032–9039 9040–9047 9048–9055 9056–9063 9080–9087 9064–9071 9072–9079
Variables Exchanged Between Controller and Soft Starter For each soft starter (address from 11 to 18) the following variables exist, where "X" is the Modbus address of the device: Variable Name
Description
uiRMbATVDrvStatusNodeX uiRMbATVDrvAlarmNodeX uiWMbATVCmdNodeX uiWMbATVTimeOutNodeX
State of drive Alarm of drive Command for drive Timeout for drive
152
12/18
Appendix A - Variables and Parameters Location Tables
These variables are used in the FB_AltistartModbusCom function block. The variable Modbus addresses follow this sequence: Device Modbus Address Variable Modbus Address Range 11 12 13 14 15 16 17 18
9088–9091 9092–9095 9096–9099 9100–9103 9104–9107 9108–9111 9112–9115 9116–9119
Variables Exchanged Between the Controller and the EEV Drivers Variable Name
Description
uiWMbTM171VEVCmdCir1 Command for EEV drive iRMbTM171VEVPb1Cir1 iRMbTM171VEVPb2Cir1
iRMbTM171VEVPb3Cir1
iRMbTM171VEVPb4Cir1
Format
-
%04x
App AFB/Program Type
Modbus Address
UINT FB_ 9197 TM171VEVModbusCom
Pressure probe bar/PSI XXX.Y INT from EEV drive Temperature °C/°F XXX.Y INT probe from EEV drive
SR_Phy2Log
9198
SR_Phy2Log
9627
Temperature probe from EEV drive Temperature probe from EEV drive
iRMbTM171VEVTEvapCir1 Evaporation temperature from EEV drive iRMbTM171VEVSHCir1 Superheat from EEV drive uiWMbTM171VEVCmdCir2 Command for EEV drive iRMbTM171VEVPb1Cir2 Pressure probe from EEV drive iRMbTM171VEVPb2Cir2 Temperature probe from EEV drive iRMbTM171VEVPb3Cir2 Temperature probe from EEV drive iRMbTM171VEVPb4Cir2 Temperature probe from EEV drive
12/18
Unit
°C/°F
XXX.Y INT
SR_Phy2Log
9199
°C/°F
XXX.Y INT
SR_Phy2Log
9629
°C/°F
XXX.Y INT
FB_ 9200 TM171VEVModbusCom
K/R
XXX.Y INT
SR_Phy2Log
9201
%04x
UINT FB_ 9205 TM171VEVModbusCom bar/PSI XXX.Y INT SR_Phy2Log 9206 °C/°F
XXX.Y INT
SR_Phy2Log
9628
°C/°F
XXX.Y INT
SR_Phy2Log
9207
°C/°F
XXX.Y INT
SR_Phy2Log
9630
153
Appendixes
Variable Name
Description
Unit
iRMbTM171VEVTEvapCir2 Evaporation °C/°F temperature from EEV drive iRMbTM171VEVSHCir2 Superheat from K/R EEV drive
Format
App AFB/Program Type
Modbus Address
XXX.Y INT
FB_ 9208 TM171VEVModbusCom
XXX.Y INT
SR_Phy2Log
9209
The EEV driver parameters are copied in the variables that are sent to the EEV driver via Modbus, if they are modified on the controller (e.g.: uiWMbTm171VEVPardL08). They are used in the SR_ Param program and their Modbus addresses are from 9213 to 9260. Other Variables App Type
Variable Name
Description
LED1_EVE1
Expansion module LED 1 (Green) status. It flashes when there is communication between the controller and the expansion module (only for TM171EP27R). Expansion module LED 2 (Orange) status (only for TM171EP27R). Expansion module LED 3 (Red) status (only for TM171EP27R). Active power received from energy meter low word Active power received from energy meter high word Active energy received from energy meter low word 1 Active energy received from energy meter high word 1 Active energy received from energy meter low word 2 Active energy received from energy meter high word 2 Number of events in the weekly scheduler
LED2_EVE1
LED3_EVE1 uiEMActivePowerLow uiEMActivePowerHigh uiEMActiveEnergyLowWL uiEMActiveEnergyHighWL uiEMActiveEnergyLowWH uiEMActiveEnergyHighWH usiWeeklySchedNrEvents
AFB/Program
Modbuss Address
USINT SR_Display
8960
USINT -
8961
USINT -
8962
UINT
Word2IEEE754 8963
UINT
Word2IEEE754 8964
UINT
8965
F_ Word4InToReal UINT F_ Word4InToReal UINT F_ Word4InToReal UINT F_ Word4InToReal USINT WeekSchedule
8966 8967 8968 8973
Parameters of the Table for Outdoor Air Temperature Records Parameter Name
Description
E2_OptStartHotBand1 Optimum Start Hot Band data E2_OptStartHotBand2 Optimum Start Hot Band data E2_OptStartHotBand3 Optimum Start Hot Band data
154
App Type UDINT UDINT UDINT
AFB/Program FB_ OptimumStart FB_ OptimumStart FB_ OptimumStart
Modbuss Address 16810 16812 16814
12/18
Appendix A - Variables and Parameters Location Tables
Parameter Name
Description
E2_OptStartHotBand4 Optimum Start Hot Band data E2_OptStartHotBand5 Optimum Start Hot Band data E2_OptStartHotBand6 Optimum Start Hot Band data E2_OptStartHotBand7 Optimum Start Hot Band data E2_OptStartHotBand8 Optimum Start Hot Band data E2_ Optimum Start Cool Band OptStartCoolBand1 data E2_ Optimum Start Cool Band OptStartCoolBand2 data E2_ Optimum Start Cool Band OptStartCoolBand3 data E2_ Optimum Start Cool Band OptStartCoolBand4 data E2_ Optimum Start Cool Band OptStartCoolBand5 data E2_ Optimum Start Cool Band OptStartCoolBand6 data E2_ Optimum Start Cool Band OptStartCoolBand7 data E2_ Optimum Start Cool Band OptStartCoolBand8 data
App Type UDINT UDINT UDINT UDINT UDINT UDINT UDINT UDINT UDINT UDINT UDINT UDINT UDINT
AFB/Program FB_ OptimumStart FB_ OptimumStart FB_ OptimumStart FB_ OptimumStart FB_ OptimumStart FB_ OptimumStart FB_ OptimumStart FB_ OptimumStart FB_ OptimumStart FB_ OptimumStart FB_ OptimumStart FB_ OptimumStart FB_ OptimumStart
Modbuss Address 16816 16818 16820 16822 16824 16826 16828 16830 16832 16834 16836 16838 16840
Other Parameters Parameter Name
Description
App Type
E2_rElecEnergySaved E2_ rThermalEnergySaved E2_ rTotalActiveEnergPrev E2_ ThermalEnergySavedCir1 E2_ ThermalEnergySavedCir2 E2_xEnergyRead
Electric energy saved Thermal energy saved
REAL COPCalculation REAL COPCalculation
16679 16681
Total active energy of the previous reset Thermal energy saved circuit 1 Thermal energy saved circuit 2 First time energy read
REAL EnergyTrend
16667
REAL ThermalPower_ Enthalpy REAL ThermalPower_ Enthalpy BOOL COPCalculation
16674
12/18
AFB/Program
Modbuss Address
16676 16678
155
Appendix B - Alarm Location Tables Introduction The following tables present lists of alarms relevant to the TVDA project and the specific equipment used in its development. For further information about the alarm (such as causes, effects, rearm type, and related alarms), see "Alarms" on page 96.
General Alarms Alarm List ID
Alarm Name
Description
Modbus Address
1
xAlarmWaterInLowTemperature
Water low temperature in entry line
9120
2
xAlarmWaterOutLowTemperature
Water low temperature in exit line
9121
3 4
xAlarmEmergencyStop xSchedulerError
Emergency Stop Alarm Scheduler input variable out of range
9122 9123
5
xRTCError
Real time Clock error
9124
10
xAlarmPump
Pump alarm
9157
11
xAlarmFlowSwitch
Flow switch alarm
9158
12
xAlarmPumpConfig
Error in pump configuration
9159
13
xAlarmPIDCompressorsConfig
Error in compressors PID configuration
9162
14
xAlarmCircuit
Error in circuits management
9165
100 xAlarmHighPressSwitchCir1
High pressure switch alarm in circuit 1
9125
101 xAlarmLowPressSwitchCir1
Low pressure switch alarm in circuit 1
9127
102 xAlarmHighPressCir1
High pressure alarm in circuit 1
9129
103 xAlarmLowPressCir1
Low pressure alarm in circuit 1
9131
104 xAlarmCompressorsConfigCir1
Error in compressors configuration in circuit 1
9160
105 xAlarmCompressorsCir1
Error in compressor management in circuit 1
9163
106 xAlarmEEVDriverCir1
Alarm from EEV driver in circuit 1
9166
111 xAlarmMotorComp1Cir1
Motor alarm in compressor 1 of circuit 1
9133
112 xAlarmMotorComp2Cir1
Motor alarm in compressor 2 of circuit 1
9134
113 xAlarmMotorComp3Cir1
Motor alarm in compressor 3 of circuit 1
9135
114 xAlarmMotorComp4Cir1
Motor alarm in compressor 4 of circuit 1
9136
121 xAlarmOilPressureSwitchComp1Cir1
Oil pressure switch alarm in compressor 1 of circuit 1
9141
122 xAlarmOilPressureSwitchComp2Cir1
Oil pressure switch alarm in compressor 2 of circuit 1
9142
123 xAlarmOilPressureSwitchComp3Cir1
Oil pressure switch alarm in compressor 3 of circuit 1
9143
124 xAlarmOilPressureSwitchComp4Cir1
Oil pressure switch alarm in compressor 4 of circuit 1
9144
150 xAlarmFanCir1
Fans management alarm in circuit 1
9149
151 xAlertFanCir1 152 xAlarmHeatResistorCir1
Fans management alert in circuit 1 Alarm heat resistor circuit 1
9151 9168
160 xAlarmGenericAlarmCir1 170 xAlertCOPCalcCir1
Generic Alarm circuit 1 COP calculation circuit 1 alert
9153 9155
200 xAlarmHighPressSwitchCir2
High pressure switch alarm in circuit 2
9126
201 xAlarmLowPressSwitchCir2
Low pressure switch alarm in circuit 2
9128
202 xAlarmHighPressCir2
High pressure alarm in circuit 2
9130
203 xAlarmLowPressCir2
Low pressure alarm in circuit 2
9132
204 xAlarmCompressorsConfigCir2
Error in compressors configuration in circuit 2
9161
205 xAlarmCompressorsCir2
Error in compressor management in circuit 2
9164
206 xAlarmEEVDriverCir2
Alarm from EEV driver in circuit 2
9167
211 xAlarmMotorComp1Cir2
Motor alarm in compressor 1 of circuit 2
9137
156
12/18
Appendix B - Alarm Location Tables
ID
Alarm Name
Description
Modbus Address
212 xAlarmMotorComp2Cir2
Motor alarm in compressor 2 of circuit 2
9138
213 xAlarmMotorComp3Cir2
Motor alarm in compressor 3 of circuit 2
9139
214 xAlarmMotorComp4Cir2
Motor alarm in compressor 4 of circuit 2
9140
221 xAlarmOilPressureSwitchComp1Cir2
Oil pressure switch alarm in compressor 1 of circuit 2
9145
222 xAlarmOilPressureSwitchComp2Cir2
Oil pressure switch alarm in compressor 2 of circuit 2
9146
223 xAlarmOilPressureSwitchComp3Cir2
Oil pressure switch alarm in compressor 3 of circuit 2
9147
224 xAlarmOilPressureSwitchComp4Cir2
Oil pressure switch alarm in compressor 4 of circuit 2
9148
250 xAlarmFanCir2
Fans management alarm in circuit 2
9150
251 xAlertFanCir2 252 xAlarmHeatResistorCir2
Fans management alert in circuit 2 Alarm heat resistor circuit 2
9152 9169
260 xAlarmGenericAlarmCir2 270 xAlertCOPCalcCir2
Generic Alarm circuit 2 COP calculation circuit 2 alert
9154 9156
Controller/Remote Display Page In the controller/remote display the alarms are listed in the Alarms page. Web Site Page In the web site the alarms are listed in the Alarms page. AFB/Program The alarms are used in the SR_Display program. The xAlarmWaterInLowTemperature alarm is used in the following AFB: RedundantPumpCntrl, ATV212ModbusCom, EnergyTrend, CompAlarmMgmt, FB_Altistart22ModbusCom, FloatingHighPresCntrl (re-init), FanMgmt (re-init), PIDAdvanced, CompMgmt, FB_TM171VEVModbusCom.
Wiring Errors Alarm List ID
Alarm Name
Description
Modbus Address
6
xAlarmEnergyMeter
Energy Meter
9170
15
xAlarmWaterInTempSensor
Water temperature in entry line sensor error
9171
16
xAlarmWaterOutTempSensor
Water temperature in exit line sensor error
9172
17
xAlarmOutdoorAirTempSensor
Outdoor air temperature sensor error
9173
18
xAlarmRoomTemp
Room temperature sensor fault
9192
107 xAlarmLowPressureSensorCir1
Low pressure sensor error in circuit 1
9174
108 xAlarmHighPressureSensorCir1
High pressure sensor error in circuit 1
9175
109 xAlarmCondenserOutTempSensorCir1
Condenser out temperature sensor error in circuit 1
9178
110 xAlarmEvaporatorOutTempSensorCir1
Evaporator out temperature sensor error in circuit 1
9180
131 xAlarmDischargeTempSensorComp1Cir1 Discharge temperature sensor error in compressor 1 of circuit 1
9182
132 xAlarmDischargeTempSensorComp2Cir1 Discharge temperature sensor error in compressor 2 of circuit 1
9183
133 xAlarmDischargeTempSensorComp3Cir1 Discharge temperature sensor error in compressor 3 of circuit 1
9184
134 xAlarmDischargeTempSensorComp4Cir1 Discharge temperature sensor error in compressor 4 of circuit 1
9185
135 xAlarmEvapCoilTempCir1
Evaporator coil temperature sensor fault circuit 1
9190
207 xAlarmLowPressureSensorCir2
Low pressure sensor error in circuit 2
9176
208 xAlarmHighPressureSensorCir2
High pressure sensor error in circuit 2
9177
209 xAlarmCondenserOutTempSensorCir2
Condenser out temperature sensor error in circuit 2
9179
210 xAlarmEvaporatorOutTempSensorCir2
Evaporator out temperature sensor error in circuit 2
9181
12/18
157
ID
Alarm Name
Description
Modbus Address
231 xAlarmDischargeTempSensorComp1Cir2 Discharge temperature sensor error in compressor 1 of circuit 2
9186
232 xAlarmDischargeTempSensorComp2Cir2 Discharge temperature sensor error in compressor 2 of circuit 2
9187
233 xAlarmDischargeTempSensorComp3Cir2 Discharge temperature sensor error in compressor 3 of circuit 2
9188
234 xAlarmDischargeTempSensorComp4Cir2 Discharge temperature sensor error in compressor 4 of circuit 2
9189
235 xAlarmEvapCoilTempCir2
9191
Evaporator coil temperature sensor fault circuit2
Controller/Remote Display Page In the controller/remote display the wiring errros are listed in the Alarms page. Web Site Page In the web site the alarms are listed in the Wiring faults page. AFB/Program The alarms are used in the SR_Display program.
158
12/18
Appendix C - BOM and Wiring Diagram Introduction
The following table represents the Bill of Material, followed by the wiring diagram of the electric panel tested and validated during development. NOTE: In this electric panel two transformers, two 24 V LED pilot lights and separate start and stop push buttons have been used.
Bill of Material (BOM) Part Number
Part Description
Quantity (PCE)
SNR21106 SNR21117
1.6-2.5A P25M motor protection auxiliary contact -1 NO +1 NC - for P25M - 415V- 2.2A
4 4
12/18
159
Part Number SNR28911
Part Description
switch-disconnector Compact INS125 -4 poles - black handle SNR28958 2 terminal shields INS100/160 SNRA9A15303 DIN mounted electrical socket - 2 poles + earth (2P+E) 16A 250 Vac Italian standard SNRA9F79210 IC60N 2P C 10A 6000A SNRA9MEM3250 IEM3250 3P+N INS.TA, RES. - CT - Modbus SNRA9N15651 STI 2P 10.3X38 500V SNRA9N15658 STI 3P+N 10.3X38 500V SNRABL6TS06B voltage transformer SNRABL6TS16B voltage transformer SNRATS22D32Q ALTISTART ATS22 32A 230-415V SNRATV212HD11N4 ATV212 11KW 15HP 480V TRI CEM IP20 SNRATV212HU15N4 ATV212 1.5KW 2HP 480V TRI CEM IP20 SNRATV212HU22N4 ATV212 2.2KW 3HP 480V TRI CEM IP20 SNRATV212HU75N4 ATV212 7.5KW 10HP 480V TRI CEM IP20 SNRGV2L07 Circuit breaker - magnetic - 2.5 A - screw clamp terminals SNRGV2L10 Circuit breaker - magnetic - 6.3 A - screw clamp terminals SNRGV2L22 Circuit breaker - magnetic - 25 A - screw clamp terminals SNRGV3L32 Circuit breaker - magnetic - 32 A - screw clamp terminals SNRGVAN11 auxiliary contact block features left side mounting SNRLADN20 auxiliary contact block features front side mounting SNRLC1D95B7 contactor 95A 24 Vac 50/6 SNRLC1K0610B7 CONT K 3P with normally open (NO) contacts - 24V 50 60HZ SNRLC1K0610B7 CONT K 3P with normally open (NO) contacts - 24V 50 60HZ SNRLV428941 front rotary handle INS40/160 - black handle SNRMETSECT5CC010 current transformer tropicalised DIN mount 100 5 for cables d. 21 SNRNSY2SP206 spacial SF external fixing side panels - 2000X600 mm SNRNSYCAG125LPF outlet grille plastic cut out 125X125 7035 SNRNSYCCOTHOF simple thermostat SNRNSYCVF85M230PF forced vent. 85M3/H 230V 7035 SNRNSYEC1062 Spacial SF 2 entries cable gland plate - fixed by clips 1000x600 mm SNRNSYSF2010602DP Spacial SF enclosure with mounting plate - assembled 2000X1000X600 2P SNRRSB2A080B7 interface relay 8A 24 Vac SNRRSZE1S48M socket RSZ - separate contact - < 250 Vac - screw connector SNRRXM2AB2B7 Miniature plug-in relay with led 24 Vac SNRRXM4AB1B7 Miniature plug-in relay24 Vac
160
Quantity (PCE) 1 1 1 3 1 5 1 1 1 2 1 1 2 1 2 2 2 2 1 5 1 1 5 1 3 1 1 1 1 1 1 2 2 25 5
12/18
Appendix C - BOM and Wiring Diagram
Part Number
Part Description
SNRRXZE2S108M SNRRXZE2S114M SNRZB4BA2 SNRZB4BG2
8-pin Relay Socket with separate silver alloy contact 2C 8-pin Relay Socket with separate silver alloy contact 4C Pushbutton Switches - Black 2-position Selector Switch head with black standard handle profile Emergency Stop Shape of head White Shape of head Green Shape of head Red Body/fixing collar Electrical Block (Contact or Light) Contacts for standard applications NO Contacts for standard applications NC Light blocks with screw clamp terminal connections White 24 Light blocks with screw clamp terminal connections Green 24 Light blocks with screw clamp terminal connections Red 24 EMERGENCY STOP LABEL 3D IC60N 3P C 16A 6000A contactor 3P 12A 24VAC 50/60 Hz
SNRZB4BS844 SNRZB4BV013 SNRZB4BV033 SNRZB4BV043 SNRZB4BZ009 SNRZBE101 SNRZBE102 SNRZBVB1 SNRZBVB3 SNRZBVB4 SNRZBY9320 SNRA9F79316 SNRLC1D12B7
Quantity (PCE) 25 9 2 1 1 2 1 1 8 2 2 2 1 1 1 2 6
Wiring Diagram You can find the complete wiring diagram in the installation directory ..\Schneider Electric\EcoStruxureMachineExpertHVAC\TVDA\Air-water Heat Pump\Schematics. NOTE: The encircled numbers in the wiring diagrams refer to the part identifications, see "TVDAÂ Layout" on page 15
WARNING UNINTENDED EQUIPMENT OPERATION l
l
Do not use directly the wiring diagrams in your machine or process and put into service without thoroughly testing your entire application. Be sure to document throughly any deviations or customizations you have made to your machine or process apart from the wiring diagrams presented.
Failure to follow these instructions can cause death, serious injury or equipment damage.
12/18
161
12/18
1 IG
0L2
0N
j 9INTKOJKX +RKIZXOI 'RR 8OMNZY 8KYKX\KJ
0L3
0L1
162
2
FU01
L1/F1 L2/F1 L3/F1 N/F1
S1/L1 S2/L1 S1/L2 S2/L2 S1/L3 S2/L3
3 KMG
1L1 1L2 1L3 N/1
4
N: 16 A
2N C16
2L1
N
L1
L2
L3
from KMG (page 06)
N
10
KM01
10
I03
10 K12
I04
L1/4 L1/K12
L3/3 L3/KM1
L2/3 L2/KM1
L1/3 L1/KM1
I02
L2/4
1L1
L3/4 L3/K12
L2/K12
1L2
K13
10
I05
L1/5 L1/K13
1L3
L2/5
L2/2
L3/2
L1/2
j 9INTKOJKX +RKIZXOI 'RR 8OMNZY 8KYKX\KJ
L3/5 L3/K13
L2/K13
12/18
163
10
I06
L3/6
L2/6
L1/6
N
1L1
1L2
1L3
12/18 N
1L1
1L2
1L3
10 K14
I07
L2/7
L1/7
L1/K14
K15
10 L1/8
L1/K15
I08
L2/8
j 9INTKOJKX +RKIZXOI 'RR 8OMNZY 8KYKX\KJ
L3/7
L3/K14
L2/K14
L3/8
L3/K15
L2/K15
164
10
I09
L1/9 L2/9 L3/9
K10
10 L2/10
L1/10
L1/K10
K11
10 L1/11
L1/K11
I11
L2/11
I10
L3/10
L3/K10
L2/K10
L3/11
L3/K11
L2/K11
N
1L1
1L2
1L3
from I01 (page 06)
2N
2L1
2N
2L1
N/F2 P01
FU02 N/F2
L/F2
FU03
09/01
FU04
5
FU05
TR01
N/FU04
j 9INTKOJKX +RKIZXOI 'RR 8OMNZY 8KYKX\KJ
2N
2L1
4 L1
I16
G
RESPECT POLARITY 24V G - 24V G0
G0
12/18
165
L1/FU05 N/FU05
L1/FU04
L/F2
from I01 (page 06)
2N
2L1
2N
2L1
j 9INTKOJKX +RKIZXOI 'RR 8OMNZY 8KYKX\KJ
FU06
5
TR02
4 L2
I17
A24
RESPECT POLARITY 24V A24 - 24V A0
A0
166
12/18
12/18
167
6
7
8
G G0
G
G0
j 9INTKOJKX +RKIZXOI 'RR 8OMNZY 8KYKX\KJ
168
12/18
2
T
+
Y 2
G 1
-
G0 3
1
2
1
2
T
T
A0
A0
1
A24
A24
16
G G0
G
G0
j 9INTKOJKX +RKIZXOI 'RR 8OMNZY 8KYKX\KJ
12/18
169
2
T
+
Y 2
G 1
-
G0 3
1
2
T
A0
A0
1
A24
A24
16
G G0
G
G0
j 9INTKOJKX +RKIZXOI 'RR 8OMNZY 8KYKX\KJ
170
12/18
2
j 9INTKOJKX +RKIZXOI 'RR 8OMNZY 8KYKX\KJ
12/18
171
6
KAC11
j 9INTKOJKX +RKIZXOI 'RR 8OMNZY 8KYKX\KJ
KAC21 KACF11
KACF21
172
12/18
6
I10
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KAP1
KAEM
12/18
173
6
j 9INTKOJKX +RKIZXOI 'RR 8OMNZY 8KYKX\KJ
1
T
2
1
T
2
Optional
2
1
+
Y
G
-
3
G0
1
T
2
1
T
2
174
12/18
6
1
T
2
j 9INTKOJKX +RKIZXOI 'RR 8OMNZY 8KYKX\KJ
1
T
2
1
T
2
KAST
12/18
175
6
j 9INTKOJKX +RKIZXOI 'RR 8OMNZY 8KYKX\KJ
176
12/18
6
j 9INTKOJKX +RKIZXOI 'RR 8OMNZY 8KYKX\KJ
12/18
177
6
j 9INTKOJKX +RKIZXOI 'RR 8OMNZY 8KYKX\KJ
178
12/18
7
KAC12
j 9INTKOJKX +RKIZXOI 'RR 8OMNZY 8KYKX\KJ
KAC22
12/18
179
7
1
T
2
j 9INTKOJKX +RKIZXOI 'RR 8OMNZY 8KYKX\KJ
1
T
2
1
T
2
1
T
2
180
12/18
7
Optional
j 9INTKOJKX +RKIZXOI 'RR 8OMNZY 8KYKX\KJ
2
1
+
Y
G
-
3
G0
KACF12
KACF22
I11 I03
12/18
181
7
j 9INTKOJKX +RKIZXOI 'RR 8OMNZY 8KYKX\KJ
182
12/18
7
j 9INTKOJKX +RKIZXOI 'RR 8OMNZY 8KYKX\KJ
12/18
183
j 9INTKOJKX +RKIZXOI 'RR 8OMNZY 8KYKX\KJ
12
INVERTER PUMP 1
INVERTER ALTIVAR 212
184
12/18
j 9INTKOJKX +RKIZXOI 'RR 8OMNZY 8KYKX\KJ
12
INVERTER COMPRESSOR 1 CIRCUIT 1
INVERTER ALTIVAR 212
12/18
185
RJ45 MALE
RJ45 FEMALE
j 9INTKOJKX +RKIZXOI 'RR 8OMNZY 8KYKX\KJ
8
7
6
5
4
3
2
1
N° RS 485
13 SOFT STARTER ALTISTART 22
186
12/18
j 9INTKOJKX +RKIZXOI 'RR 8OMNZY 8KYKX\KJ
12
INVERTER COMPRESSOR 1 CIRCUIT 2
INVERTER ALTIVAR 212
12/18
187
RJ45 MALE
RJ45 FEMALE
j 9INTKOJKX +RKIZXOI 'RR 8OMNZY 8KYKX\KJ
8
7
6
5
4
3
2
1
N° RS 485
13
SOFT STARTER COMPRESSOR 2 CIRCUIT 2
SOFT STARTER ALTISTART 22
188
12/18
j 9INTKOJKX +RKIZXOI 'RR 8OMNZY 8KYKX\KJ
12
INVERTER SECONDARY HEAT EXCHANGER FAN CIRCUIT 1
INVERTER ALTIVAR 212
10
KM03
11
KM02
11
I13
10
I12
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INVERTER SECONDARY HEAT EXCHANGER FAN CIRCUIT 2
INVERTER ALTIVAR 212
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KM05
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KM04
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I15
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I14
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Glossary of Terms and Acronyms A
S
AFB
Secondary heat exchanger Application Function Block
The heat exchanger that exchanges thermal energy with outdoor air.
C T
COP Coefficient Of Performance
TVDA Tested Validated Documented Architecture: system composed of components specifically developed for a single application or group of applications. It has been tested, validated and offered with a set of deliverables (PLC project, HMI project, TVDA, Bill Of Material and wiring diagram)
E EEV Electronic Expansion Valve
F Fan stage Group of fans.
V VSD
FB Function Block
Variable Speed Drive
H HMI project Project realized with EcoStruxure Machine Expert™ - HVAC Display.Provided with the TVDA.
P PLC project Project realized with EcoStruxure Machine Expert™ - HVAC Programming. Provided with the TVDA. Primary heat exchanger The heat exchanger that exchanges thermal energy with water.
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