Motor overload coil control

A motor overload coil control (10) is disclosed for use in a motor starter/relay contactor. The control includes an 8-bit, 8-pin microcontroller (12) that together with an I/O reduction circuit (14), is capable of functioning 13 I/O's with only 5 I/O pins on the microcontroller. Three remote si...

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Hauptverfasser:	GRIESEMER, PATRICK JAMES, VON ECKROTH, KURT, WIELOCH, CHRISTOPHER JOHN
Format:	Patent
Sprache:	eng ; fre ; ger
Schlagworte:	CONTROL OR REGULATION OF ELECTRIC MOTORS, ELECTRIC GENERATORSOR DYNAMO-ELECTRIC CONVERTERS CONTROLLING TRANSFORMERS, REACTORS OR CHOKE COILS CONVERSION OR DISTRIBUTION OF ELECTRIC POWER ELECTRICITY EMERGENCY PROTECTIVE CIRCUIT ARRANGEMENTS GENERATION
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creator	GRIESEMER, PATRICK JAMES VON ECKROTH, KURT WIELOCH, CHRISTOPHER JOHN
description	A motor overload coil control (10) is disclosed for use in a motor starter/relay contactor. The control includes an 8-bit, 8-pin microcontroller (12) that together with an I/O reduction circuit (14), is capable of functioning 13 I/O's with only 5 I/O pins on the microcontroller. Three remote signals (42, 44, 46) are prioritized and reduced on one input line (470) to the microcontroller (12). The control (10) includes three-phase current measurement from three Hall effect current sensors (404, 406, 408) positioned one on each leg. The system includes current integration (27) to provide a single current input (20) to the microcontroller (12). A full load amperage (FLA) adjustment (28) allows use on a wide range of motors. The microcontroller (12) uses the FLA adjustment (28) and the current signal (20) to find an appropriate I t value for real-time monitoring of the operating temperature of the motor. A status indicator (60) is provided having an LED output to show the status of the system and indicate the motor temperature, when appropriate. After the coil (64, 66) is initially pulled in, the microcontroller (12) generates a PWM signal (242) to keep the appropriate coil (64, 66) pulled in with reduced power. The system includes an internal 24VDC sensor (52) to ensure proper DC voltage level, and to adjust the PWM for variances in voltage levels. Pushbutton test (48) and reset switches (32, 34) are provided, as well as a solid state remote reset (34).
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The control includes an 8-bit, 8-pin microcontroller (12) that together with an I/O reduction circuit (14), is capable of functioning 13 I/O's with only 5 I/O pins on the microcontroller. Three remote signals (42, 44, 46) are prioritized and reduced on one input line (470) to the microcontroller (12). The control (10) includes three-phase current measurement from three Hall effect current sensors (404, 406, 408) positioned one on each leg. The system includes current integration (27) to provide a single current input (20) to the microcontroller (12). A full load amperage (FLA) adjustment (28) allows use on a wide range of motors. The microcontroller (12) uses the FLA adjustment (28) and the current signal (20) to find an appropriate I t value for real-time monitoring of the operating temperature of the motor. A status indicator (60) is provided having an LED output to show the status of the system and indicate the motor temperature, when appropriate. After the coil (64, 66) is initially pulled in, the microcontroller (12) generates a PWM signal (242) to keep the appropriate coil (64, 66) pulled in with reduced power. The system includes an internal 24VDC sensor (52) to ensure proper DC voltage level, and to adjust the PWM for variances in voltage levels. 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After the coil (64, 66) is initially pulled in, the microcontroller (12) generates a PWM signal (242) to keep the appropriate coil (64, 66) pulled in with reduced power. The system includes an internal 24VDC sensor (52) to ensure proper DC voltage level, and to adjust the PWM for variances in voltage levels. 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The control includes an 8-bit, 8-pin microcontroller (12) that together with an I/O reduction circuit (14), is capable of functioning 13 I/O's with only 5 I/O pins on the microcontroller. Three remote signals (42, 44, 46) are prioritized and reduced on one input line (470) to the microcontroller (12). The control (10) includes three-phase current measurement from three Hall effect current sensors (404, 406, 408) positioned one on each leg. The system includes current integration (27) to provide a single current input (20) to the microcontroller (12). A full load amperage (FLA) adjustment (28) allows use on a wide range of motors. The microcontroller (12) uses the FLA adjustment (28) and the current signal (20) to find an appropriate I t value for real-time monitoring of the operating temperature of the motor. A status indicator (60) is provided having an LED output to show the status of the system and indicate the motor temperature, when appropriate. After the coil (64, 66) is initially pulled in, the microcontroller (12) generates a PWM signal (242) to keep the appropriate coil (64, 66) pulled in with reduced power. The system includes an internal 24VDC sensor (52) to ensure proper DC voltage level, and to adjust the PWM for variances in voltage levels. Pushbutton test (48) and reset switches (32, 34) are provided, as well as a solid state remote reset (34).</abstract><edition>7</edition><oa>free_for_read</oa></addata></record>
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language	eng ; fre ; ger
recordid	cdi_epo_espacenet_EP1037353A2
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subjects	CONTROL OR REGULATION OF ELECTRIC MOTORS, ELECTRIC GENERATORSOR DYNAMO-ELECTRIC CONVERTERS CONTROLLING TRANSFORMERS, REACTORS OR CHOKE COILS CONVERSION OR DISTRIBUTION OF ELECTRIC POWER ELECTRICITY EMERGENCY PROTECTIVE CIRCUIT ARRANGEMENTS GENERATION
title	Motor overload coil control
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