I'm designing a clapper circuit for switching mains electricity. I use a 230V 10A relay and 20 AWG wire for switching. Is this reliable? How many watts can it switch? If I exceed the limit, what will happen?
I soldered three wires for the clapper to form a "T" shape, and the wires are exposed. What can be used to insulate it?
I'm designing a clapper circuit for switching mains electricity. I use a 230V 10A relay and 20 AWG wire for switching. Is this reliable? How many watts can it switch? If I exceed the limit, what will happen?
I soldered three wires for the clapper to form a "T" shape, and the wires are exposed. What can be used to insulate it?
You are going to need to clarify things a little. Where you mention AWG 20 wire for example. Is the AWG 20 wire just being used to switch the relay coil on and off? What will the load on the relay contacts be? For example is the relay switching on and off a 100 watt lamp with its contacts?
You may also want to Google and look up wire ampacity charts where the current carrying capabilities of wire are liated by gauge and capacity.
As to how to insulate? A picture would be nice.
I soldered three wires for the clapper to form a "T" shape, and the wires are exposed.
You are going to need to clarify things a little. Where you mention AWG 20 wire for example. Is the AWG 20 wire just being used to switch the relay coil on and off? What will the load on the relay contacts be? For example is the relay switching on and off a 100 watt lamp with its contacts?
You may also want to Google and look up wire ampacity charts where the current carrying capabilities of wire are liated by gauge and capacity.
n
Watts is a function of the voltage times the current. Wire gauge relates to ampacity as I mentioned. AWG 20 at an average temperature give or take is rated for about 1.5 amps. (There are variables like solid conductor or stranded). So if you use a light bulb as an example at 120 VAC 50/60 Hz. AWG 20 would handle 120 * 1.5 = 180 so about a max of 180 watts. AWG 20 at 220 VAC 50/60 Hz. = 220 * 1.5 = 330 watts. That is very rough estimates and I would work below them. Furthermore AWG 20 is a lousy choice for applications like this.
As to insulating, if you want to join three or four wires at a common junction a common wire nut will work. Any home depot of hardware store should have them.
Watts is a function of the voltage times the current. Wire gauge relates to ampacity as I mentioned. AWG 20 at an average temperature give or take is rated for about 1.5 amps. (There are variables like solid conductor or stranded). So if you use a light bulb as an example at 120 VAC 50/60 Hz. AWG 20 would handle 120 * 1.5 = 180 so about a max of 180 watts. AWG 20 at 220 VAC 50/60 Hz. = 220 * 1.5 = 330 watts. That is very rough estimates and I would work below them. Furthermore AWG 20 is a lousy choice for applications like this.
Ron