Wednesday, July 3, 2013
Auto Changeover from Generator to Mains Supply
Because of energy crisis Load shedding may be a common problem in several countries.. Sudden power fluctuations, surge and high voltage may spoil sophisticated household appliances like TV, VCR, VCP and music system. This circuit provides protection against these problems and automatically changes the power supply from Generator output to mains supply and also switches off the generator.
Circuit descriptions
This circuit is self explanatory. When lines supply voltage crosses the preset level, Zener diode ZD4 break down and thus transistor T2 conducts, T3 does not conduct, causing the relay to de-energise. Voltage surge at the time of power resumption is protected by the delay circuit around transistor T1.
All the portable petrol and kerosene generators have a connection from CDI. To stop the engine of the generator-set, this connection is to be grounded momentarily (through the switch). This lead is to be connected with the ground through the N/C point of the relay.
Auto Changeover from Generator to Mains Supply Circuit Diagram
Instead of the one transformer, two transformers are used in series to ensure better life of the unit. Value of capacitor C2 can be increased or decreased for the variation of delay time. A negative feedback resistance, R6 (15 K-ohm to 100 k-ohm) can be incorporated between transistor T3 and T4 to overcome the damage that could be caused by voltage fluctuations.
Parts List:
Resistors (all ¼-watt, ± 5% Carbon)
R1 = 10 Ω
R2 = 1 KΩ
R3 = 820 Ω
R4 = 57 KΩ
R5 = 47 Ω
R6 = (15 KΩ to 100 KΩ)
Capacitors
C1 = 100 µF/25V
C2 = 1000 µF/12V
C3 = 100 µF/18V
Semiconductors
T1 = BC147
T2, T3 = SL100
D1, D2 = 1N4001
D3 = 1N4007
ZD1 = 5.6V/400mW
ZD2 = 7.8V/400mW
Miscellaneous
X1, X2 = 230V AC primary to 12 V, 500mA secondary transformers
RL1 = 12V/450 Ω relay
Circuit descriptions
This circuit is self explanatory. When lines supply voltage crosses the preset level, Zener diode ZD4 break down and thus transistor T2 conducts, T3 does not conduct, causing the relay to de-energise. Voltage surge at the time of power resumption is protected by the delay circuit around transistor T1.
All the portable petrol and kerosene generators have a connection from CDI. To stop the engine of the generator-set, this connection is to be grounded momentarily (through the switch). This lead is to be connected with the ground through the N/C point of the relay.
Auto Changeover from Generator to Mains Supply Circuit Diagram
Instead of the one transformer, two transformers are used in series to ensure better life of the unit. Value of capacitor C2 can be increased or decreased for the variation of delay time. A negative feedback resistance, R6 (15 K-ohm to 100 k-ohm) can be incorporated between transistor T3 and T4 to overcome the damage that could be caused by voltage fluctuations.
Parts List:
Resistors (all ¼-watt, ± 5% Carbon)
R1 = 10 Ω
R2 = 1 KΩ
R3 = 820 Ω
R4 = 57 KΩ
R5 = 47 Ω
R6 = (15 KΩ to 100 KΩ)
Capacitors
C1 = 100 µF/25V
C2 = 1000 µF/12V
C3 = 100 µF/18V
Semiconductors
T1 = BC147
T2, T3 = SL100
D1, D2 = 1N4001
D3 = 1N4007
ZD1 = 5.6V/400mW
ZD2 = 7.8V/400mW
Miscellaneous
X1, X2 = 230V AC primary to 12 V, 500mA secondary transformers
RL1 = 12V/450 Ω relay
Related Posts : auto,
changeover,
from,
generator,
mains,
supply,
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