Our Mission
Develop green energy and environment conscious product in order to contribute to the realization of a sustainable and stop global warming and contribute to a better quality life. By focusing on the discovery and development of innovative solar solutions, we can transcend from the current reality to create a greener and better future.
INDEX
About us Application examples AC Systems DC Systems More Power More applications
Carport mounting system Covering stadium Solar Water umps Solar Billboards Our Products The Future
specialize in solar photovoltaics systems and Led lighting, our brand develops green energy for a global environment conscious to contribute to the realization of a sustainable society and stop global warming and contribute a better quality life. develop energy saving products, using the right technology and the most efficient process to reducing the cost of Solar power, Led and solar lighting products. Our brand strives to achieve total customer satisfaction by providing the best products coupled with the best services. We believe, that people, knowledge and innovation are the driving forces for achieving our common vision.
Applications Off Grid systems The presence of a functional electricity grid is not always as obvious as it would seem to be. An insufficient infrastructures is often the cause for an unreliable grid. Things become even more difficult when there is no grid at all. And yet you are in need of a reliable electricity supply. A local and properly functioning system is the only answer at this point. offers you such an answer. We are proud to offer you our modern translation for freedom and independence. Anytime, Anywhere. Hybrid systems If the sun is your only available source of energy, the choice is simple. You will choose a solar system in order to meet your demand for energy. If there are more sources available, these could support your solar system. Because the fact is, that the sun isn’t always able to entirely cover your energy demand. A solar system is often supported by a generator set or a wind generator. These energy sources can make certain that the solar deficit is covered. Designing combinations such as these, which include several energy sources, is what does best. Our products are being used in all off-grid and grid-connected systems, for example autonomous buildings, oil platforms and private houses.
This grid connected house is using solar panels to support the load. It has a three phase system installed, containing one 30kVA PbS Inverter. The battery bank is 48V 1500Ah. During the day the Grid Inverter is supplying the load for the house and charging the battery. If the battery is full, the Inverter shifts the output frequency to signal the Grid Inverter to stop charging. During this time the installation is not connected to the grid. In the evening and when there is no or little sun, the PbyS Inverter supplying the loads with energy from the batteries. When the battery bank is discharged below 60%, the PbyS connect to the grid to recharge the batteries and power the loads. There is also a generator installed to take care of grid failures.
AC Systems
5 x 5kV
Batteries
Only a small grid connection is available, with a capacity of hundred Ampères. When the required power is higher, the system will supplement the grid with energy from the batteries. On top of being too small, the grid connection is also unreliable. On a loss of grid power, the system seamlessly pick up the power demand, so the Hospital can count on a reliable power supply. They’ll also automatically start the 40kVA generator when the power outage is not restored quick enough. All six buildings of the hospital have their roof filled with solar panels, eighty pieces of 180W panels in total. These panels are connected to the outputs of the grid inverters, powering the loads. All excess solar power is used to charge the batteries.
5,4 Kw nominal Average yield is 25,5 Kwh/day In summer 33,8 Kwh/day
3 * PbyS solar Grid Inverters 30Kva AC In Grid PbyS providing 30Kva nominal
MAIN AC OUT
AUX. AC OUT
AC IN 2 Generator
Battery bank 48V 1500Ah
Through 28 solar panels, mounted on the roof of the energy house, electricity is generated. This generated electricity is stored in 48 batteries so that electricity is present at all times. At night and in the winter months there is little or no sun to generate energy, the stored energy from the batteries will be used. When the batteries are fully charged, the house can be provided with the necessary energy for one month. The batteries have a storage capacity of 300 kWh and the installation produces 4200 kWh per year.
DC Systems DC Systems In DC systems solar energy is converted into regulated DC. Consequently the regulated DC is fed to the batteries and consumers. An inverter powers any AC consumers that are connected to the DC system. Unlike in DC systems, solar power is directly converted into AC in AC systems.
AC Out Controller Solar panels
Battery
DC consumers A solar panel feeds the consumers practically directly. The only item in between the panel and the power consumer is a charge controller. This Charge Controller controls the voltages for the consumers and the batteries.
AC Out Controller Inverter Solar panels
Batteries
More power The AC and DC systems which are shown in this brochure are examples of the various possibilities that offers. As illustrated they vary from very simple to very extensive solutions. Our products can be put in parallel, or in three-phase configurations, if the necessary power is too high for a single unit.
Multi Inverters/Chargers
Easy to configure
AC Out Generator
Controller
Solar Panels
Battery Controller
Controller
Solar Panels
Batteries
Configuring parallel and three phase systems is easy. Our software tool allows the installer to put components together, without any hardware changes or dip switches. Just using standard products.
More Applications These projects demonstrate versatility as one of the great advantages offered by PV. The areas telecommunications, waste water treatment, improvement of water quality and integration of a PV system on a parking shelter are some examples for the increasing importance of PV in very different areas of everyday life. For the future development of Photovoltaics it will be essential to continue the expansion of application areas for PV technologies and to implement them in areas that were so far not considered as typical PV application fields. The development of new products by the PV industry will significantly support this expansion process and will help to implement photovoltaic technologies in the public’s mind as a reliable, environmentally friendly and cost-effective source of electricity.
Space considerations used to be a critical point for solar energy. Now, advanced techniques can integrate modules into buildings. Parking structures offer good opportunities to install PV systems without blocking an area that is valuable for other purposes.
Given that the Northern regions of Africa are subjected to severe water restrictions during the warmer period in the summer, this project provides fresh water for farmers fields, as well as for other purposes. In this way, the photovoltaic systems help alleviate water scarcity during dry periods.
Carport mounting system
Elegant simplicity. With the Quickstone technology, the carport mounting system offers both an elegant yet simple installation solution which can be mounted easily on any ground with almost every kind of ground material. Once the fixing points are installed, the only installation tool you’ ll ever need is a simple key. Significant savings. The carport mounting system’s unique engineering and hight level of pre-assembly will reduce your installation time significantly, as much as 40% in some cases. Additionally, with only a few rail lenghts and the adjustable telescopic end piece, the carport mounting system reduces inventory costs and hassles as well. Extensible module compatibility. Almost every type of framed module available can be used with the carport mounting system. Excellent adaptability. The height adjustment of the base rails from the a level PV array to be established, no matter how uneven the ground.
allows
Engineered to hight standards. The carport mounting system design guidelines enable codecompliant installation in all regions all over the world. The carport mounting system design tool removes the need for detailed, manual calculations: simply choose your appropriate terrain category and other parameters and the planning aid will provide you with a complete design to comply with standard calculation.. Guaranteed durability. All components are made of extruded aluminum, carbon steel and stainless steel. The high corrosion resistance ensures a long lifespan. The provides a guarantee of over 25 years on the durability of all components
Covering stadium
ANYTIME . ANYWHERE
The Solar Pumps Features: • Fast and maintenance-free installation • Excellent serviceability • High reliability and long life expectancy
Applications: • • • •
Drinking water supply Livestock watering Pond management Irrigation
The Billboards
Solar module is the core part of the Solar PV Power systems, also is the most valuable part. The function of solar module is to convert the sun radiation to electrical energy, or transfer it to battery and store in it, then to drive the load running.
Configuration of Solar Module
Low Iron Tempered EVA Film Solar Power Chip
Aluminum Alloy Frame
EVA Film
Long Life Battery
TPT Dorsal Membrane
Our Products Choosing the Right Product
The System
Under the right circumstances a solar electric (photovoltaics or (PV) system will prove more cost effective than other power technologies. This is especially true when powering equipment that has a relatively small power requirement and is located in a remote location without access to utility power.
• Provide uninterrupted power to the load with a power reliability of 99.5% worst case based on weather and insolation data specific to the design site. • Engineered for 5 days (120hrs) of autonomy based on average low temperature for that site.
While you may be aware of PV technology and its overall capabilities, you may not have a goodfeel for whether a PV system is an appropriate choice for your specific application. The size and cost of a PV system can be the better choice when compared with alternatives, or it may prove too large or too expensive. It is helpful to have a rule-of-thumb guide that quickly shows you the size and expense you can expect from a PV system. Doing so let’s you decide to pursue a PV solution in greater depth or to pursue other power options, such as extension of the utility grid or deployment of an active generator set.
The Modules
A quick analysis of a PV system for a particular load will produce the physical size of the PV array and the cost of a complete PV power supply (PV array, battery storage, control subsystem, enclosures, mounting structures, interconnect wiring, etc.). To perform this analysis you must start with the equipment to be powered
• Include conduit ready junction boxes. • Comply with industry standard wind exposure of 110MPH sustained, 133MPH gust. • Impact resistant for 25mm hail at terminal velocity The Batteries • Designed for solar applications in deep-cycle operation. • Battery life is rated for greater than 500 cycles to 80% DoD. Total battery life varies with application temperature and load characteristics. • Maintenance free and require no watering or equalizing charge. The Controls • Low voltage load disconnect, factory set for the battery type and system voltage used. • Low voltage disconnect is set standard at 80% battery depth-of-discharge. • Standard controls up to 20A are sealed, Class I, Div II rated. Protection and Safety • NEC compliant circuit protection. • Finger safe terminal blocks and covers on all switches and breakers. • All wiring is routed in liquid tight conduit for protection from damage and the elements
For continuous loads of 1 to 3000 watts
1 Structure Industrial grade, heavy-gauge steel coated with a durable hot-dip galvanized finish. Available in standard platforms from 900-4320 Wp (peak watts) on a single structure. 2 Adjustable Solar Array Solar array tilt is easily adjustable from 15-55 degrees. 3 Solar Modules Solar array, consisting of high-efficiency, crystalline silicon modules, provides reliable charging in all climates. Includes bypass diode protection. 4 DC Combiner Box Provides solar array circuit disconnects and surge protection. Simplifies assembly and testing. 5 System Control Enclosure The control enclosure, powder-coated steel box housing the power distribution components, charge control and inverter/charger electronics, disconnects, system monitoring and control components. Enclosure features rainproof vents and key lockable doors. 6 AC and DC Distribution Panels Customer AC and DC breaker panels, providing overload and surge protection. Offers flexibility for multiple loads. 7 Inverter/Battery Charger Microprocessor-controlled high-efficiency, sine wave inverter with three stage temperature compensated battery charger. Peak conversion efficiency of 96%, protection circuitry, LCD display with user and setup menus. Configured from 3-12kW. 8 DC Charge Controller Solid state, low frequency, pulse-width modulated solar charge control with battery temperature compensation and automatic night time disconnect. Configurations available from 60A to 320A. Utilizes standard and maximum power point tracking. 9 Battery Enclosure Standard battery enclosure features white powder coated steel construction, lockable front-openin doors, louvered vented design. For smaller battery configurations feature white powder-coated aluminum construction and a pad-lockable, vented lid. Enclosure sizes vary to accommodate batteries sized from 210AH to 3000AH. Battery Bank Standard system includes maintenance-free, 12V sealed, Gel batteries. For larger capacities, 2V industrial cells are available.
The future
Thin Film
solar cell
With unique “see-through� capability and aesthetic design, PbyS thin film modules can shamelessly integrate into a building and the city landscape. They can be used as rooftops, curtain walls, canopies, facades, acoustic barrier, or ground-mounted solar farms.
PbyS solarfilms TF series micromorph tandem product represent the latest advancements in Micromorph Silicon Thin Film Photovoltaic Modules Technology. Hight quality and stable manufacturing process for the large modules using advanced PECVD, LPCVD, Laser Scribing and Assembly technology. PbyS solarfilms aims to provide the world low-cost and hight-tech renewable, sustainable and clean alternative energy through continous innovation.
Our commitment to solar innovations is sustained through our ongoing research and development initiatives. Continuously striving for technological innovation and excellence, By providing a full spectrum of services, we are giving you total peace of mind and helping safeguard your long term investment while maximizing your return on investment.
Our Concept Our brand strives to achieve total customer satisfaction by providing the best products coupled with the best services. We believe that people, knowledge and innovation are the driving forces for achieving our common vision.
Our Vision Reduce world’s dependence on fossil fuels with solar energy.
Green energy
www.powerbysun.co
info@powerbysun.co
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