Heating control unit comprising a sensor, ice protection system and method for controlling a heater
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H05B-001/02
B64D-015/12
B64D-013/08
G05D-023/19
출원번호
US-0035187
(2013-09-24)
등록번호
US-9380647
(2016-06-28)
우선권정보
EP-12187935 (2012-10-10)
발명자
/ 주소
Rochell, Thilo
출원인 / 주소
AIRBUS OPERATIONS GMBH
대리인 / 주소
Ingrassia Fisher & Lorenz, P.C.
인용정보
피인용 횟수 :
0인용 특허 :
9
초록▼
A heating control unit, including a controller housing is provided. The heating control unit includes a microcontroller arranged within the controller housing, with the microcontroller being configured to generate a control signal for a heater and to output the control signal via a control line to t
A heating control unit, including a controller housing is provided. The heating control unit includes a microcontroller arranged within the controller housing, with the microcontroller being configured to generate a control signal for a heater and to output the control signal via a control line to the heater. The heating control unit also includes a temperature sensor arranged within the controller housing and coupled to the microcontroller. An active sensor surface of the temperature sensor forms at least part of an outer surface of the controller housing.
대표청구항▼
1. A heating control unit for an airborne vehicle, comprising: a controller housing;a microcontroller arranged within the controller housing, the microcontroller being configured to control a heater;at least one connection element for mechanically connecting the controller housing to a tube or condu
1. A heating control unit for an airborne vehicle, comprising: a controller housing;a microcontroller arranged within the controller housing, the microcontroller being configured to control a heater;at least one connection element for mechanically connecting the controller housing to a tube or conduit of the airborne vehicle; anda temperature sensor arranged within the controller housing and coupled to the microcontroller, the temperature sensor being adapted to measure a temperature of the tube or conduit of the airborne vehicle and to relay the respective temperature value signal to the microcontroller;wherein an active sensor surface of the temperature sensor forms at least part of an outer surface of the controller housing. 2. The heating control unit of claim 1, further comprising: power supply terminals for providing electrical power to the microcontroller and the temperature sensor; anda voltage converter coupled between the power supply terminals and the microcontroller, the voltage converter being configured to convert a voltage applied at the power supply terminals to an operating voltage of the microcontroller. 3. The heating control unit of claim 2, wherein the voltage converter is a mains converter that receives an alternating current of a first voltage at the power supply terminals and transforms the alternating current into a direct current of a second voltage, the first voltage being larger than the second voltage. 4. The heating control unit of claim 1, further comprising: a sensor terminal coupled to the microcontroller, the sensor terminal being configured to connect a further temperature sensor external to the controller housing. 5. The heating control unit of claim 1, further comprising: an electric fault detection unit arranged in the controller housing, the electric fault detection unit being coupled to the microcontroller and being configured to detect one or more of a ground fault, an earth leakage and an arc fault. 6. The heating control unit of claim 1, further comprising: a wireless communication device coupled to the microcontroller and configured to provide wireless communication to and from the microcontroller. 7. The heating control unit of claim 6, wherein the wireless communication device is configured to communicate with an RFID label attached to a component of the airborne vehicle. 8. The heating control unit of claim 1, further comprising: a status indicator arranged in a wall of the controller housing, the status indicator being configured to display an operation status of the heating control unit. 9. The heating control unit of claim 1, further comprising: a memory device interface coupled with the microcontroller, the memory device interface being configured to receive a memory device on which at least one of configuration data for the microcontroller and failure protocol data of the heating control unit are storable. 10. The heating control unit of claim 1, further comprising: a bus interface arranged in the controller housing and coupled to the microcontroller, the bus interface being configured to provide a network connection to a network bus. 11. The heating control unit of claim 9, wherein the memory device interface is a flash memory data storage device. 12. The heating control unit of claim 10, wherein the network bus is a CAN bus or a LIN bus. 13. An ice protection system for an airborne vehicle, comprising: a plurality of heating control units, each of the plurality of heating control units including a controller housing, a microcontroller arranged within the controller housing for controlling a respective one of a plurality of heaters, at least one connection element for mechanically connecting the controller housing to a tube or conduit of the airborne vehicle, a temperature sensor arranged within the controller housing and coupled to the microcontroller, the temperature sensor being adapted to measure a temperature of the tube or conduit of the airborne vehicle and to relay the respective temperature value signal to the microcontroller and having an active sensor surface that forms at least part of an outer surface of the controller housing; andthe plurality of heaters, each of the plurality of heaters being electrically connected and supplied with electrical power by a respective one of the plurality of heating control units, the plurality of heaters being configured to heat a respective component of an airborne vehicle. 14. The ice protection system of claim 13, wherein the components of the airborne vehicle are selected from the group comprising: water lines, waste water tubes, potable water tubes, servicing panels and heated floor panels. 15. An airborne vehicle, comprising: at least one of a water line, a waste water tube, a potable water tube, a servicing panel and a floor panel;an ice protection system for heating the at least one water line, waste water tube, potable water tube, servicing panel or floor panel, the ice protection system including:at least one heating control unit, the at least one heating control unit including a controller housing, a microcontroller arranged within the controller housing for controlling at least one heater, at least one connection element for mechanically connecting the controller housing to the at least one water line, waste water tube, potable water tube, servicing panel or floor panel, and a temperature sensor arranged within the controller housing and coupled to the microcontroller, the temperature sensor being adapted to measure a temperature of the at least one water line, waste water tube, potable water tube, servicing panel or floor panel and to relay the respective temperature value signal to the microcontroller and having an active sensor surface that forms at least part of an outer surface of the controller housing; andthe at least one heater electrically connected and supplied with electrical power by the at least one heating control unit, the at least one heater for heating the at least one water line, waste water tube, potable water tube, servicing panel or floor panel. 16. The airborne vehicle of claim 15, further comprising: power supply terminals for providing electrical power to the microcontroller and the temperature sensor; anda voltage converter coupled between the power supply terminals and the microcontroller, the voltage converter being configured to convert a voltage applied at the power supply terminals to an operating voltage of the microcontroller. 17. The airborne vehicle of claim 15, further comprising: a status indicator arranged in a wall of the controller housing, the status indicator being configured to display an operation status of the heating control unit. 18. The airborne vehicle of claim 15, further comprising: a wireless communication device coupled to the microcontroller and configured to provide wireless communication to and from the microcontroller. 19. A method of controlling a heater for a tube or conduit of an airborne vehicle, comprising: arranging a microcontroller within a controller housing;arranging a temperature sensor within the controller housing such that an active sensor surface of the temperature sensor forms at least part of an outer surface of the controller housing;mechanically connecting the controller housing to a tube or conduit of an airborne vehicle;measuring, by the temperature sensor, a temperature of the tube or conduit;relaying the measured temperature in a temperature value signal to the microcontroller;generating, by the microcontroller, a control signal dependent on the relayed temperature value signal; andoutputting, by the microcontroller, the control signal via a control line to a heater for heating the tube or conduit of the airborne vehicle.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (9)
Mashino Keiichi (Katsuta JPX) Tezuka Shigeki (Yokohama JPX) Futami Tohru (Fujisawa JPX) Nakajima Yuji (Yokohama JPX), Electric power supply system for automobile.
Shaeffer, Ian P.; Bronner, Gary B.; Haukness, Brent S.; Donnelly, Kevin S.; Ware, Frederick A.; Horowitz, Mark A., Integrated circuit heating to effect in-situ annealing.
Schellhase Ernst Calvin ; Eisenhauer Mark P. ; Miller Richard Dean ; Pappas John Peter ; Froman Gary Scott ; Aubert Roger Jacques Michel, Redundant ice management system for aircraft.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.