Relay Introduction_Basic.ppt

1. Electrical System G G 220 KV 132 KV 33 KV 11 KV GENERATORS

2. Objectives :  During the Fault conditions, the Relays will identify the faulty area and will isolate the Unhealthy section from the network.  Ex : Motor Protection, Generator Protection, Bus Protection, Line Protection…

3. Protective Relaying Primary Relaying( Main Protection): Main relay to operate in the event of faults Secondary Relaying ( Backup Prot) : If main relay fails to operate, these relays will operate and clear the fault. These relays are generally of time delay and cause more disturbance to the system

4. Primary/Secondary Protection: G G 220 KV 132 KV 33 KV 11 KV GENERATORS G

5. Protective Relaying  Relays Requires any of the following Quantities to operate: Magnitude ie. Current / Voltage / Power Frequency ie. Under Freq / Over freq Phase Angle Duration ie. Timers Rate of Change ie. df/dt, dZ/dt Direction ie. Directional O/C Harmonics ie. 3rd harmonic

6. Relay Wiring: Transformer CT Breaker PT BUS

7. Basic Relays  Current Relays Instantaneous Over Current Relays Definite Time Over Current Relay Inverse Definite Over Current Relay  Voltage Relays Under Voltage Relays Over Voltage Relays  Impedance Relays  Reactance Relays  Differential Relays

8. Instantaneous Over Current Relay  This Relay operates when ever the current exceeds the Set value  Application : Generator Inter turn, GT Restricted E/F prot.  Example : CAG Relay of EE make

9. Definite Time Over Current Relay  This Relay operates when ever the current exceeds the Set value and that current shall persist for defined time  Application : Blocked Rotor Protection, Over Load Alarm etc..  Example : CTU Relay of EE make & Operation Current Time

10. Inverse Definite Time Over Current Relay t Current  This Relay operates when ever the current exceeds the Set value. The relay operation time is inversely proportional to the magnitude of Current  Application: GT Standby E/F prot., LT Motor Prot.  Example : CDG Relay of EE make

11. Over Voltage Relay  Whenever the Voltage exceeds the set value, the relay operates.  Application : Generator Over Voltage Protection.  Example : VAG of EE make

12. Under Voltage Relay  Whenever the Voltage falls below the set value, the relay operates.  Application : Bus Under Voltage Protection.  Example : VAGM of EE make

13. Impedance Relays  These relays are uses MHO principle. If the Impedance is less than the Set Value, the Relay operates. These Relays are Under Impedance Relays  Application: Line Protection, Generator B/U Prot.  Ex : YCG Relays of EE Make

14. Impedance Relay Characteristic. NON - DIRECTIONAL DIRECTIONAL R R -R -R -X -X X X

15. Reactance Relays  If the Reactance is less than the Set Value, the Relay operates. Generally, these Relays are Under Reactance Relays  Application: Line Protection,  Ex : XCG Relays of EE Make

16. Reactance Relays R X

17. Differential Relays  If there is any difference of currents, the relay operates.  Application :  Transformer Differential  Generator Differential  Bus Bar Differential ….  Ex : ALSTOM Make DTH Relays

18. Differential Relays GEN CT CT R Ph. Side Neutral Side

19. Differential Relays CT CT R Primary Secondary

Relay Introduction_Basic.ppt

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