Low voltage startup timer for a microcontroller-based circuit breaker
원문보기
IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0270997
(2008-11-14)
|
등록번호 |
US-8116056
(2012-02-14)
|
발명자
/ 주소 |
|
출원인 / 주소 |
- Schneider Electric USA, Inc.
|
인용정보 |
피인용 횟수 :
0 인용 특허 :
6 |
초록
▼
A circuit breaker capable of microcontroller-based fault detection having a backup circuit for causing the circuit breaker to trip in response to a microcontroller fault, including a timing circuit powered by a power supply and a microcontroller. The timing circuit is electrically coupled to an SCR
A circuit breaker capable of microcontroller-based fault detection having a backup circuit for causing the circuit breaker to trip in response to a microcontroller fault, including a timing circuit powered by a power supply and a microcontroller. The timing circuit is electrically coupled to an SCR that causes the circuit breaker to trip. The timing circuit includes a BJT coupled to the gate of the SCR. The microcontroller has a first output coupled to the timing circuit and a second output coupled to the SCR. The first output is coupled to a node between a resistor and a grounded capacitor in the timing circuit, and the node is coupled to a gate of the SCR and to a base of the transistor. A voltage develops at the node sufficient to cause the gate of the SCR to turn on unless the microcontroller pulls the first high-impedance output to a logic low state.
대표청구항
▼
1. A backup circuit in a circuit breaker capable of microcontroller-based fault detection, the backup circuit tripping the circuit breaker in response to the microcontroller being unresponsive, comprising: a power supply that produces a regulated direct current (DC) voltage derived from an alternati
1. A backup circuit in a circuit breaker capable of microcontroller-based fault detection, the backup circuit tripping the circuit breaker in response to the microcontroller being unresponsive, comprising: a power supply that produces a regulated direct current (DC) voltage derived from an alternating current (AC) line input to which the circuit breaker is connected;a timing circuit powered by the power supply and electrically coupled to an electronic switching device that causes the circuit breaker to trip in response to the electronic switching device being turned on; anda microcontroller having a first pin coupled to the timing circuit and a second pin coupled to the electronic switching device, wherein the first pin is configurable as a high-impedance input or as an output,wherein the first pin is coupled to a node between a resistor and a grounded capacitor in the timing circuit, the node being coupled to a gate of the electronic switching device, and wherein a voltage develops at the node sufficient to cause the gate of the electronic switching device to turn on unless the microcontroller pulls the first pin to a logic low output state. 2. The backup circuit of claim 1, wherein the timing circuit further comprises a transistor coupled to the gate of the electronic switching device, wherein a base of the transistor is coupled to the node between the resistor and the grounded capacitor. 3. The backup circuit of claim 2, wherein the timing circuit further comprises at least one diode connected between the base of the transistor and the resistor, which provides an additional voltage drop that the node must overcome to cause the transistor to turn on. 4. The backup circuit of claim 3, wherein the transistor is a bipolar junction transistor powered by the power supply. 5. The backup circuit of claim 3, wherein the at least one diode is exactly two diodes connected in series between the base of the transistor and the resistor, which together provide an additional voltage drop that the node must overcome to cause the transistor to turn on. 6. The backup circuit of claim 1, wherein the electronic switching device is line-powered. 7. The backup circuit of claim 1, wherein the electronic switching device is a silicon controlled rectifier (SCR). 8. The backup circuit of claim 1, wherein the electronic switching device is a field effect transistor (FET). 9. The backup circuit of claim 1, wherein the microcontroller is programmed to produce a voltage on the second pin to cause the electronic switching device to turn on in response to the microcontroller detecting an electrical fault on a circuit to which the circuit breaker is connected. 10. The backup circuit of claim 1, wherein the first pin is configured as the high-impedance input at power-up of the microcontroller, and wherein the first pin is configured as the output in the logic low output state. 11. A circuit breaker capable of microcontroller-based fault detection having a backup circuit for causing the circuit breaker to trip in response to the microcontroller being unresponsive, comprising: a power supply that produces a regulated direct current (DC) voltage derived from an alternating current (AC) line voltage to which the circuit breaker is connected;a timing circuit powered by the power supply and electrically coupled to a line-powered electronic switching device that causes the circuit breaker to trip in response to the electronic switching device being turned on, the timing circuit including a transistor coupled to the gate of the electronic switching device; anda microcontroller having a first pin coupled to the timing circuit and a second pin coupled to the electronic switching device, wherein the first pin is at power-up a high-impedance input,wherein the first pin is coupled to a node between a resistor and a grounded capacitor in the timing circuit, the node being coupled to a gate of the electronic switching device,wherein a voltage develops at the node sufficient to cause the gate of the electronic switching device to turn on unless the microcontroller pulls the first pin to a logic low output state, andwherein a base of the transistor is coupled to the node. 12. The circuit breaker of claim 11, wherein the timing circuit further comprises at least one diode connected between the gate of the transistor and the resistor, which provides an additional voltage drop that the node must overcome to cause the transistor to turn on. 13. The circuit breaker of claim 12, wherein the transistor is a bipolar junction transistor powered by the power supply. 14. The circuit breaker of claim 12, wherein the at least one diode is exactly two diodes connected in series between the gate of the transistor and the resistor, which together provide an additional voltage drop that the node must overcome to cause the transistor to turn on. 15. The circuit breaker of claim 11, wherein the electronic switching device is a silicon controlled rectifier (SCR) or a field effect transistor (FET). 16. The circuit breaker of claim 11, wherein the microcontroller is programmed to produce a voltage on the second pin to cause the electronic switching device to turn on in response to the microcontroller detecting an electrical fault on a circuit to which the circuit breaker is connected. 17. The circuit breaker of claim 11, wherein the first pin is configured as an output in the logic low output state.
이 특허에 인용된 특허 (6)
-
Arenz,Bernd; Schwarz,Wolfgang, Circuit breaker having a microprocessor-controlled tripping device and a bypass circuit.
-
Traynor, Kevin; Deans, Russell C.; Acierno, Vincent J., Electrostatic discharge device with variable on time.
-
Jensen Scott R. (Cedar Rapids IA), Microprocessor watch-dog monitor for electronic trip units.
-
Tosaka Hiroaki,JPX ; Nomura Koji,JPX ; Kuboyama Katsunori,JPX ; Takahashi Tatsunori,JPX ; Ikeda Fumiyuki,JPX, Overcurrent trip device.
-
Wu Shawkang, Protection system for devices in an electrical distribution network.
-
London Arnold (San Jose CA), Protective circuit for insulated gate field effect transistor integrated circuits.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.