Thyristor Power Controllers As a European manufacturer of thyristor (SCR) power controllers, CD Automation is well placed to provide a total solution at a competitive price and to suit every need. Whether the load is constant or variable resistance, inductive or transformer coupled, single or three phase, we have the right thyristor power controller to meet your exact requirements. Thyristors & Solid State Relays start at 3A, with numerous sizes up to 2600A and 690Vac.
What is a thyristor? This is a semiconductor device which acts as a switch. The semiconductor rectifier material either works as a conductor when current flows in one direction or as an insulator when it attempts to flow in the other. If the voltage being applied is the standard sinusoidal AC form only half of the waveform will be conducted, therefore current flows during half cycles only. To deliver maximum power to the load both halves of the AC waveform must be conducted and two silicon controlled rectifiers (SCRs) used, connected in an anti-parallel (back to back) configuration.
What is the difference between a thyristor and an SCR? The term silicon controlled rectifier (SCR) is sometimes used interchangeably with thyristors however, the former is a brand name introduced by General Electric to describe a particular kind of thyristor that it manufactured. There are various other types including diacs and triacs which are designed to work with alternating current so the terms are not completely synonymous. Whether it’s called thyristor or SCR we're referring to the same semiconductor device.
How do thyristors work? In the case of back to back SCRs, these allow the full wave current to be conducted. The forward SCR conducts during the positive half of the cycle, the reverse SCR during the negative half. Each SCR is turned on at the appropriate time by a trigger pulse applied to the gate (a third leg) and the device will remain ON until the instantaneous load current through it drops to zero. The trigger pulses are generated by a drive circuit which times the pulse to ensure the thyristor unit output is a function of the input control signal and firing mode.
Where would I use a thyristor? Thyristors are commonly used in AC circuits and for power control. The application or the load being driven or switched dictates which type of SCR and firing mode can be used. The main types of load power: resistive and inductive will each need a different type of firing of the SCR. Resistive elements are either variable or fixed and the choice of element is primarily chosen by the maximum temperature required and environment conditions. The most common inductive load is the transformer, normally used to provide galvanic isolation between the primary and secondary winding or to change the main supply voltage to the nominal load supply. Thyristors are used in motor speed controls, light dimmers, pressure-control systems and liquid-level regulators.
How do I size a thyristor power controller? Using our automatic calculation tool is the easiest way but if you prefer the long way it is first necessary to recognise whether the application is single or three-phase. For single phase (1PH) you can use the calculation: total load (in watts) over the load voltage (L to N or L1 to L2) to give the current value (I = P/V). For example, load is 12kW and the voltage (L to N) is 240V giving a current of 50A. We normally add a safety margin of 15-20% to this nominal current in selecting a thyristor power controller to ensure we