Depends on what you have connected to the circuit. It is less than 10 amps or the breaker would trip. A rule of thumb is you design for about 80% load related to the breaker. For 20 amps that would equal 16 amps.
First, determine the current draw of the coffee roaster, then check the breaker size. Using the formula, Watts = Amps * Volts, determine if the current draw of the coffee roaster is anywhere near the maximum current draw of the breaker. For example, if the roaster is using 14 Amps, and the circuit breaker is rated at 15 amps, that doesn't give much room for anything else on the circuit. Add up all of the current of all devices on the circuit (the one that trips the breaker) and either move things around so that you don't have too much load on a single circuit, or you may need to bring in an electrician to run a new circuit. If you are ABSOLUTELY certain that your appliances are nowhere near the rating of the circuit breaker, you could have a faulty breaker, in which case, bring in an electrician to replace the breaker.
A circuit breaker will trip if it is faulty or if the connected circuit has a short circuit or a connected device is trying to draw more current than the breaker rating. If you disconnect the output wire from the breaker and it still trips, it is a faulty breaker. If the breaker is tripping immediately when it is turned on then start disconnecting elements of the circuit to see what might be causing the problem. If everything was working and now isn't, it is likely that the wire from the breaker is nicked where it exits the box and is shorting to the feedthru connector.
A breaker is a current activated device. New to these forums so, not sure on the etiquette of improving the answer above. I didn't see a button to provide a second answer. That being said; While the breaker reacts to current and not Voltage, Voltage drop to a motor load will cause that motor to draw more current, which can trip the breaker. The higher current draw will also create more Voltage drop, etc. Your best bet is just to stay within the industry standard of 3% drop for feeders, 5% for branch circuits. If this question doesn't involve motors, then Voltage drop outside tolerance will eventually cause the device to malfunction, depending on the severity of the drop, but won't effect the circuit breaker.
circuit breaker and fuses used in series to break the circuit in overcurrent situation to block current to flow through circuit.
The fuse or breaker should be no bigger than specified for the wiring and devices on the circuit. Your nominal current draw may be 20 amps, but a short circuit would cause maximum current to flow which in this case would be 100 amps until the fuse blew.
A breaker trips because the circuit load has tried to draw more current that the circuit is designed to operate at. You have to establish what the total current draw of the device is. This can be found on the manufactures label. There it will state what the normal amperage draw is for the specific piece of equipment. If the breaker has tripped, look for the cause and rectify the problem before resetting the breaker. If you found the problem and corrected the cause, the breaker will reset and stay in the on position.
First, determine the current draw of the coffee roaster, then check the breaker size. Using the formula, Watts = Amps * Volts, determine if the current draw of the coffee roaster is anywhere near the maximum current draw of the breaker. For example, if the roaster is using 14 Amps, and the circuit breaker is rated at 15 amps, that doesn't give much room for anything else on the circuit. Add up all of the current of all devices on the circuit (the one that trips the breaker) and either move things around so that you don't have too much load on a single circuit, or you may need to bring in an electrician to run a new circuit. If you are ABSOLUTELY certain that your appliances are nowhere near the rating of the circuit breaker, you could have a faulty breaker, in which case, bring in an electrician to replace the breaker.
ELCB means Earth Leakage Circuit Breaker -- it is used to trip the Circuit breaker if any leakage fault occured means
A circuit breaker will trip if it is faulty or if the connected circuit has a short circuit or a connected device is trying to draw more current than the breaker rating. If you disconnect the output wire from the breaker and it still trips, it is a faulty breaker. If the breaker is tripping immediately when it is turned on then start disconnecting elements of the circuit to see what might be causing the problem. If everything was working and now isn't, it is likely that the wire from the breaker is nicked where it exits the box and is shorting to the feedthru connector.
A breaker is a current activated device. New to these forums so, not sure on the etiquette of improving the answer above. I didn't see a button to provide a second answer. That being said; While the breaker reacts to current and not Voltage, Voltage drop to a motor load will cause that motor to draw more current, which can trip the breaker. The higher current draw will also create more Voltage drop, etc. Your best bet is just to stay within the industry standard of 3% drop for feeders, 5% for branch circuits. If this question doesn't involve motors, then Voltage drop outside tolerance will eventually cause the device to malfunction, depending on the severity of the drop, but won't effect the circuit breaker.
Quite simply, so you don't put too much current on the wires than they can handle. They also provide protection from 'ground faults', which is when the 'hot' and neutral wires touch. This causes a spike of current (because the resistance drops to near zero) and the breaker senses that too, or it should when it functions properly.
A circuit breaker limits the amps that a circuit can carry. If the amperage draw on a circuit exceeds that limit, the circuit breaker turns off the circuit. If the current through a wire exceeds the rated amperage, the wire will overheat and eventually cause a fire, or at a minimum, destroy the wire behind inside the wall. Obviously, people don't want a house fire caused by an electrical overload, so circuit breakers are used to prevent damage and potential loss of life.
Assuming a circuit breaker is also installed, then you will have a phase-to-ground fault, or a dead short. This will cause the current draw to spike and extreme heat to be created, which will hopefully trip the breaker, which will stop the current flow. If no breaker or fuse is used, then the wires will eventually catch fire from the extreme heat.
would discharge in 18 hours
circuit breaker and fuses used in series to break the circuit in overcurrent situation to block current to flow through circuit.
The fuse or breaker should be no bigger than specified for the wiring and devices on the circuit. Your nominal current draw may be 20 amps, but a short circuit would cause maximum current to flow which in this case would be 100 amps until the fuse blew.
Either a short to ground, or too much current draw in that circuit.Either a short to ground, or too much current draw in that circuit.