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Relay--- 240 AC single phase motor

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delifadzli

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can everyone comment regarding this circuit.. this diagram explain to make the single phase AC motor Operate using Relay....

Isn't the diagram right??

 

use the relay in the collector side.
have a base resistor ib bc107.
 

The circuit will not work properly.

Reasons:

1. To turn the relay on, the base of the transistor has to be lifted to a voltage equal to the relay coil voltage added to Vbe of the transistor. The PIC can only produce a maximum output voltage of 5V so the relay coil would have to be rated no higher than 4.4V.

2. For a relay with contacts rated to run a mains motor, the coil would have a low resistance and neither the BC107 or the PIC would could produce enough drive current.

3. If the relay did manage to operate, as it switched off, the collapsing magnetic field in its coil would produce a voltage that would destroy the BC107 and probably the PIC as well.

Solution:

1. Use a transistor rated at higher collector current. A darlighton type would be netter than a signle junction transistor.

2. the transistor switches on when a current flows between its base and emitter pins so ground the emitter and put the relay coil in the collect instead. The same relay current will flow as in your circuit but the base voltage only has to be raised a small amount for it to operate.

3. Add a resistor in series with the base pin. The Base to emitter junction of a transistor tries to hold a constant voltage which might overload the PIC output. As the base current only needs to be relatively low you can add a resistor to limit the current and protect the PIC.

4. Connect a diode across the relay coil so it is NOT normally conducting, in other words with the cathode to the supply and anode to the collector. When the relay is turned off and the field collapses it produces a voltage in the opposite polarity to that applied so the diode will conduct it safely away and protect the transistor.

Be careful ! Mains voltages can be lethal. Make sure the AC and DC sides of the circuit are isolated and that the relay is rated to switch an inductive load.

Brian.
 

Thanks for suggestion...i had made what u all suggest except still using BC107 since i don't have any darlighton type in my collection....

the result when i connect the NC...the motor works, but it doesn't respond to the PIC input....

When i connect it with NO ...the motor OFF....

I wonder maybe the transistor problem..

darlighton type == BC517 isn't ok? or any suggestion

Added after 21 seconds:

Thanks for ur suggestion
 

BC517 should be OK, it depends on the relay coil current.

If you have a data sheet for the relay it should tell you it's coil voltage and current. You should aim for the correct voltage and make sure the transistor can continuously carry the current with a 50% safety margin. For example, if the coil is 100mA the transistor should be rated no less than 150mA. If the coil current is not specified you can calculate it by measuring the resistance with a test meter and dividing it into the voltage. For example a 5V coil (which appears to be what you are using) measuring 20Ω would draw a current of 5/20 Amps or 250mA.

The value of the resistor in the base pin can be calculated by dividing the voltage it drops by the base current. The base current is the coil current divided by the transistor's gain. For example, if the coil draws 250mA and the transistors gain is 100, the base current would be 2.5mA. The resistor has to drop the PIC output voltage down to Vbe of the transistor which is probably 5V down to 0.6V at 2.5mA so the value would be 4.4/0.0025 or 1760Ω. In Practice use a lower value, I would suggest 1200Ω (1.2KΩ) to ensure the transistor was fully driven.

The diode across the coil only carries a very brief pulse of current at the moment the relay switches off, I would suggest a 1N4001 or similar type.

Brian.
 

i had just purchase BC517...the scenario still the same...

actually for the relay i'm using Sangle 6v relay

**broken link removed**

can anyone suggest any suitable relay?

or can i use Car Relay?
 

use a pnp transistor (bc557) connect the relay in its emitter side to +v.
have a base resistor of 3.3k

please test and post result.

a '0' will now turn on relay.
'1' turn off.
 

The first test would be, if the minimal pull-in voltage of about 4.5 V is actually achieved across the
relays coil. Otherwise, something is wrong with your circuit, not the relays. You don't need to
connect a load for the test.
 

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