Voltage sensing circuitry for solid state power controllers
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G06F-001/00
H02H-003/00
H02H-007/00
출원번호
US-0456183
(2012-04-25)
등록번호
US-8412966
(2013-04-02)
발명자
/ 주소
Tofigh, Farshid
Kruppa, Otmar
Khan, Imtiaz
Ghahramani, Iraj
Lawton, David
Policky, Kent
출원인 / 주소
Leach International Corporation
대리인 / 주소
Christie, Parker & Hale, LLP
인용정보
피인용 횟수 :
0인용 특허 :
44
초록▼
Solid state power controllers are described that include a switch controlled by a microcontroller and communication contacts. In one aspect of the invention, the microcontroller is galvanically isolated from the communication contacts using magnetoresistive isolation. In another aspect of the invent
Solid state power controllers are described that include a switch controlled by a microcontroller and communication contacts. In one aspect of the invention, the microcontroller is galvanically isolated from the communication contacts using magnetoresistive isolation. In another aspect of the invention a number of solid state power controllers are connected to an external microcontroller to form a power distribution array. In addition, messages exchanged between the external microcontroller and the solid state power controllers can be used to configure the solid state power controllers and provide a user interface.
대표청구항▼
1. A solid state power controller possessing a power connector, a load connector and at least one communication connector, the solid state power controller comprising: a solid state switch coupled between the power connector and the load connector, the solid state switch comprising an input and conf
1. A solid state power controller possessing a power connector, a load connector and at least one communication connector, the solid state power controller comprising: a solid state switch coupled between the power connector and the load connector, the solid state switch comprising an input and configured to control a current flowing between the power connector and the load connector;a voltage measuring circuitry configured to measure a voltage at the power connector, the voltage measuring circuitry configured to minimize a current drawn from the power connector by the voltage measuring circuitry; anda microcontroller coupled to the input of the solid state switch and an output of the voltage measuring circuitry, the microcontroller configured to monitor a voltage at the power connector and to detect an overcurrent condition in the current flowing between the power connector and the load connector,wherein the voltage measuring circuitry comprises two diodes in a back to back configuration. 2. The solid state power controller of claim 1, wherein the voltage measuring circuitry is configured to eliminate the current drawn from the power connector by the voltage measuring circuitry. 3. The solid state power controller of claim 1: wherein the voltage measuring circuitry comprises an input line coupled to the power connector; andwherein a reverse biased diode is positioned along the input line and is configured to eliminate the current drawn from the power connector by the voltage measuring circuitry. 4. The solid state power controller of claim 1, wherein an anode of each of the two diodes is coupled by a common node. 5. The solid state power controller of claim 1, further comprising isolation circuitry connected to create a galvanic barrier between the microcontroller and the at least one communication connector. 6. The solid state power controller of claim 1, wherein the solid state switch comprises a MOSFET. 7. The solid state power controller of claim 1, wherein the microcontroller is configured to determine a voltage drop across the solid state switch. 8. A solid state power controller possessing a power connector, a load connector and at least one communication connector, the solid state power controller comprising: a solid state switch coupled between the power connector and the load connector, the solid state switch comprising an input and configured to control a current flowing between the power connector and the load connector;a voltage measuring circuitry configured to measure a voltage at the power connector, the voltage measuring circuitry configured to minimize a current drawn from the power connector by the voltage measuring circuitry; anda microcontroller coupled to the input of the solid state switch and an output of the voltage measuring circuitry, the microcontroller configured to monitor a voltage at the power connector and to detect an overcurrent condition in the current flowing between the power connector and the load connector,wherein the voltage measuring circuitry comprises a diode coupled between a first resistor and a second resistor. 9. The solid state power controller of claim 8, wherein the first resistor and the second resistor comprise a same resistance value. 10. The solid state power controller of claim 9, wherein the first resistor is connected to a voltage source and the second resistor is connected to a load ground. 11. The solid state power controller of claim 10, wherein the load ground is connected to a load terminal, and wherein the load terminal is supplied power by the solid state switch. 12. A solid state power controller possessing a power connector, a load connector and at least one communication connector, the solid state power controller comprising: a solid state switch coupled between the power connector and the load connector, the solid state switch comprising an input and configured to control a current flowing between the power connector and the load connector;a voltage measuring circuitry configured to measure a voltage at the power connector, the voltage measuring circuitry configured to minimize a current drawn from the power connector by the voltage measuring circuitry; anda microcontroller coupled to the input of the solid state switch and an output of the voltage measuring circuitry, the microcontroller configured to monitor a voltage at the power connector and to detect an overcurrent condition in the current flowing between the power connector and the load connector,wherein the voltage measuring circuitry comprises an operational amplifier in a voltage follower configuration. 13. A solid state power controller possessing a power connector, a load connector and at least one communication connector, the solid state power controller comprising: a solid state switch coupled between the power connector and the load connector, the solid state switch comprising an input and configured to control a current flowing between the power connector and the load connector;a voltage measuring circuitry configured to measure a voltage at the power connector, the voltage measuring circuitry configured to minimize a current drawn from the power connector by the voltage measuring circuitry; anda microcontroller coupled to the input of the solid state switch and an output of the voltage measuring circuitry, the microcontroller configured to monitor a voltage at the power connector and to detect an overcurrent condition in the current flowing between the power connector and the load connector,wherein the voltage measuring circuitry comprises: a first diode and a second diode, wherein the first diode and the second diode are coupled in a back to back configuration; anda first resistor and a second resistor, wherein the second diode is coupled between the first resistor and the second resistor. 14. The solid state power controller of claim 13, wherein the voltage measuring circuitry further comprises an operational amplifier in a voltage follower configuration. 15. The solid state power controller of claim 14: wherein an anode of each of the first diode and the second diode is coupled by a common node;wherein the first diode is coupled between the power connector and the common node; andwherein the second diode is coupled between the common node and an input to the operational amplifier. 16. A solid state power controller possessing a power connector, a load connector and at least one communication connector, the solid state power controller comprising: a solid state switch coupled between the power connector and the load connector, the solid state switch comprising an input and configured to control a current flowing between the power connector and the load connector;a voltage measuring circuitry configured to measure a voltage at the power connector, the voltage measuring circuitry configured to minimize a current drawn from the power connector by the voltage measuring circuitry; anda microcontroller coupled to the input of the solid state switch and an output of the voltage measuring circuitry, the microcontroller configured to monitor a voltage at the power connector and to detect an overcurrent condition in the current flowing between the power connector and the load connector,wherein the microcontroller is configured to detect the overcurrent condition by comparing a trip constant to a time variable calculated value which is a function of a measured load current, a rated current and a threshold current. 17. A solid state power controller possessing a power connector, a load connector and at least one communication connector, the solid state power controller comprising: a solid state switch coupled between the power connector and the load connector, the solid state switch comprising an input and configured to control a current flowing between the power connector and the load connector;a voltage measuring circuitry configured to measure a voltage at the power connector, the voltage measuring circuitry configured to minimize a current drawn from the power connector by the voltage measuring circuitry;a microcontroller coupled to the input of the solid state switch and an output of the voltage measuring circuitry, the microcontroller configured to monitor a voltage at the power connector and to detect an overcurrent condition in the current flowing between the power connector and the load connector; anda time delay circuit coupled between the input of the solid state switch and the power connector, wherein the time delay circuit is configured to change switching characteristics of the solid state switch. 18. The solid state power controller of claim 17, wherein the time delay circuit comprises a resistor coupled in series with a capacitor. 19. A solid state power controller possessing a power connector, a load connector and at least one communication connector, the solid state power controller comprising: a solid state switch coupled between the power connector and the load connector, the solid state switch comprising an input and configured to control a current flowing between the power connector and the load connector;a voltage measuring circuitry configured to measure a voltage at the power connector, the voltage measuring circuitry configured to minimize a current drawn from the power connector by the voltage measuring circuitry; anda microcontroller coupled to the input of the solid state switch and an output of the voltage measuring circuitry, the microcontroller configured to monitor a voltage at the power connector and to detect an overcurrent condition in the current flowing between the power connector and the load connector,wherein the voltage measuring circuitry comprises: a first diode and a second diode, wherein the first diode and the second diode are coupled in a back to back configuration and coupled together by a common node; andan operational amplifier,wherein the first diode is coupled between the power connector and the common node, andwherein second diode is coupled between the common node and an input to the operational amplifier. 20. The solid state power controller of claim 19, wherein the operational amplifier is coupled in a voltage follower configuration. 21. The solid state power controller of claim 19, wherein the microcontroller is configured to detect the overcurrent condition by comparing a trip constant to a time variable calculated value which is a function of a measured load current, a rated current and a threshold current. 22. The solid state power controller of claim 19, wherein the solid state switch comprises a MOSFET. 23. The solid state power controller of claim 19, wherein the voltage measuring circuitry is configured to eliminate the current drawn from the power connector by the voltage measuring circuitry. 24. The solid state power controller of claim 19, wherein the microcontroller is configured to determine a voltage drop across the solid state switch. 25. The solid state power controller of claim 19, further comprising: a time delay circuit coupled between the input of the solid state switch and the power connector, wherein the time delay circuit is configured to change switching characteristics of the solid state switch. 26. The solid state power controller of claim 25, wherein the time delay circuit includes a resistor coupled in series with a capacitor.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (44)
Ionescu Adrian F. (15 Swan River St. Patchogue NY 11772), A.C. power controller with short circuit and overload protection.
Baker Donal E. (American Township ; Lima County OH) Shuey Kenneth C. (Cridersville OH), Alternating current power controller with DC transistor switching and an internal DC power supply.
McFall William A. (Fullerton CA) White Stanley A. (Santa Ana CA) Lane Howard K. (Laguna Niguel CA) Butcher Daryl T. (La Habra CA) Anderson ; Jr. Donald V. (Riverside CA) McCollum Patrick E. (Santa An, Monolithic solid state power controller.
Tofigh, Farshid; Kruppa, Otmar; Khan, Imtiaz; Ghahramani, Iraj; Lawton, David; Policky, Kent, Power distribution system using solid state power controllers.
Damiano Michael A. (Germantown WI) Gass Dale L. (Brown Deer WI) Kramer Dennis M. (Brookfield WI) Schmerda Richard F. (Oak Creek WI), Solid state power controller with overload protection.
LeComte Norman E. (West Greenwich RI) Nott Sepideh H. (Fall River MA) Kawate Keith W. (Attleboro Falls MA) Maher Thomas R. (Plainville MA), Solid state power controller with power switch protection apparatus.
LeComte Norman E. (West Greenwich RI) Nott Sepideh H. (Fall River MA) Kawate Keith W. (Attleboro Falls MA) Maher Thomas R. (Plainville MA), Solid state power controller with power switch protection apparatus.
Hale, Christopher L.; Hornsby, Rodney M.; Maxwell, Jr., John M.; Schwarz, Charles R., System and method for remotely detecting electric arc events in a power system.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.