{"id":191,"date":"2020-01-13T15:26:06","date_gmt":"2020-01-13T20:26:06","guid":{"rendered":"https:\/\/opentextbc.ca\/basicmotorcontrol\/chapter\/voltage-drops-in-control-circuits\/"},"modified":"2020-08-20T12:23:19","modified_gmt":"2020-08-20T16:23:19","slug":"voltage-drops-in-control-circuits","status":"publish","type":"chapter","link":"https:\/\/opentextbc.ca\/basicmotorcontrol\/chapter\/voltage-drops-in-control-circuits\/","title":{"raw":"Voltage Drops in Control Circuits","rendered":"Voltage Drops in Control Circuits"},"content":{"raw":"An example of voltage drops in a [pb_glossary id=\"242\"]control circuit[\/pb_glossary] will illustrate the use of [pb_glossary id=\"254\"]voltmeters[\/pb_glossary] for troubleshooting.\n\n[caption id=\"attachment_190\" align=\"aligncenter\" width=\"1024\"]\"\" Troubleshooting control schematic[\/caption]\n\nReferring to the diagram above and assuming a line [pb_glossary id=\"219\"]voltage[\/pb_glossary] of 120V, if the circuit is operating normally we can determine what all the meters would be reading.\n\nIf someone were to press the start button, then only voltmeter A would read line voltage, as it is in [pb_glossary id=\"268\"]parallel[\/pb_glossary] with the two loads.\n\nVoltmeter B will measure zero volts across the closed contacts of the stop button.\n\nIf an [pb_glossary id=\"208\"]overload[\/pb_glossary] occurs and the [pb_glossary id=\"241\"]OLR contacts[\/pb_glossary] open, voltmeter C will read line voltage while the start button is being pressed, and nothing when it is released.\n\nAssuming the motor is not running, only voltmeter D would give a reading of line voltage. If the contactor is not engaged, then the [pb_glossary id=\"230\"]normally closed contact[\/pb_glossary] will remain closed and the red [pb_glossary id=\"270\"]pilot light[\/pb_glossary] will be on.","rendered":"

An example of voltage drops in a control circuit<\/a> will illustrate the use of voltmeters<\/a> for troubleshooting.<\/p>\n

\"\"
Troubleshooting control schematic<\/figcaption><\/figure>\n

Referring to the diagram above and assuming a line voltage<\/a> of 120V, if the circuit is operating normally we can determine what all the meters would be reading.<\/p>\n

If someone were to press the start button, then only voltmeter A would read line voltage, as it is in parallel<\/a> with the two loads.<\/p>\n

Voltmeter B will measure zero volts across the closed contacts of the stop button.<\/p>\n

If an overload<\/a> occurs and the OLR contacts<\/a> open, voltmeter C will read line voltage while the start button is being pressed, and nothing when it is released.<\/p>\n

Assuming the motor is not running, only voltmeter D would give a reading of line voltage. If the contactor is not engaged, then the normally closed contact<\/a> will remain closed and the red pilot light<\/a> will be on.<\/p>\n

definition<\/span>