rahil123 said:TCR(thyristor controlled reactor) is connected in parallel with fixed capacitor to provide reactive power compensation.According to equation of firing angle in terms of susceptance is not providing valid answer in MATLAB software. please help
The firing angle logic in FC-TCR (Flame Control - Thyrister Controlled Rectifier) is used to control the firing angle of thyrister switches, which is responsible for regulating the power output of the system. By adjusting the firing angle, the amount of electric energy supplied to the flame can be controlled, resulting in better temperature control and efficiency in industrial heating processes.
The firing angle logic works by using a feedback control system to monitor and adjust the thyrister switches. The system measures the temperature of the flame and compares it to the desired temperature, then calculates the appropriate firing angle to achieve the desired temperature. This firing angle is then sent to the thyrister switches, which control the power output accordingly.
Using firing angle logic in FC-TCR offers several benefits, including improved temperature control, energy efficiency, and reduced wear and tear on the system components. It also allows for better process control and consistency, resulting in higher quality products.
One limitation of firing angle logic in FC-TCR is that it can only control the power output and temperature within a certain range. If the desired temperature is outside of this range, the system may not be able to achieve it. Additionally, environmental factors such as changes in ambient temperature can affect the effectiveness of the firing angle logic.
Firing angle logic is a type of closed-loop control, meaning it uses feedback to constantly adjust and maintain the desired temperature. This is different from open-loop control methods, which do not use feedback and instead rely on predetermined settings. Firing angle logic is also more precise and efficient compared to other control methods, as it can quickly respond to changes in temperature and adjust the power output accordingly.