IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0797828
(2017-10-30)
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등록번호 |
US-9999115
(2018-06-12)
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발명자
/ 주소 |
- Taipale, Mark S.
- Gredler, Timothy P.
- Bhat, Akshay
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출원인 / 주소 |
- Lutron Electronics Co., Inc.
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대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
0 인용 특허 :
32 |
초록
▼
A two-way load control system comprises a power device, such as a load control device for controlling an electrical load receiving power from an AC power source, and a controller adapted to be coupled in series between the source and the power device. The load control system may be installed without
A two-way load control system comprises a power device, such as a load control device for controlling an electrical load receiving power from an AC power source, and a controller adapted to be coupled in series between the source and the power device. The load control system may be installed without requiring any additional wires to be run, and is easily configured without the need for a computer or an advanced commissioning procedure. The power device receives both power and communication over two wires. The controller generates a phase-control voltage and transmits a forward digital message to the power device by encoding digital information in timing edges of the phase-control voltage. The power device transmits a reverse digital message to the controller via the power wiring.
대표청구항
▼
1. A load control system comprising: a power device adapted to receive power from a power source via an electrical wiring; anda controller adapted to be coupled on the electrical wiring between the power source and the power device, the controller configured to produce a periodic voltage that is ada
1. A load control system comprising: a power device adapted to receive power from a power source via an electrical wiring; anda controller adapted to be coupled on the electrical wiring between the power source and the power device, the controller configured to produce a periodic voltage that is adapted to be received by the power device, the controller configured to transmit a forward digital message to the power device by encoding digital information in timing edges of the periodic voltage;wherein the power device is configured to transmit a reverse digital message to the controller via the electrical wiring; andwherein the controller is configured to transmit a short pattern immediately prior to the power device transmitting the reverse digital message, the short pattern allowing the power device to synchronize to a frequency of the periodic voltage, andwherein the short pattern has a length shorter than a length of the forward digital message. 2. The load control system of claim 1, wherein the short pattern comprises a continuation pattern and the reverse digital message is split up into a number of packets, and wherein the controller is configured to transmit the continuation pattern between the packets. 3. The load control system of claim 2, wherein the controller is configured to transmit a start pattern to begin transmitting a new forward digital message rather than transmitting the continuation pattern after one of the packets of the reverse digital message. 4. The load control system of claim 2, wherein the power device is configured to measure a period of the periodic voltage using the continuation pattern. 5. The load control system of claim 2, wherein the controller is configured to transmit the continuation pattern before the power device has transmitted an entirety of the reverse digital message. 6. The load control system of claim 1, wherein the power source comprises an AC power source and the periodic voltage comprises a phase-control voltage, the controller comprising a controllably conductive device adapted to be coupled in series electrical connection between the AC power source and the power device for generating the phase-control voltage. 7. The load control system of claim 6, wherein the power device is configured to transmit the reverse digital message to the controller via the electrical wiring by adjusting a magnitude of a controller voltage generated across the controller during a predetermined time window each half-cycle of the phase-control voltage. 8. The load control system of claim 1, wherein the short pattern comprises a retry pattern, the controller is configured to transmit the retry pattern if the reverse digital message has an error, and the power device is configured to retransmit the reverse digital message after receiving the retry pattern. 9. A controller for controlling power delivered from a power source to an electrical load, the controller comprising: a controllably conductive device configured to receive a source voltage from the power source and generate a periodic voltage on an electrical wiring;a control circuit coupled to the controllably conductive device to generate the periodic voltage, the control circuit configured to transmit a forward digital message to a power device via the electrical wiring by encoding digital information in timing edges of the periodic voltage; anda reverse receiving circuit configured to receive a reverse digital message from the power device via the electrical wiring;wherein the control circuit is configured to transmit a short pattern immediately prior to the power device transmitting the reverse digital message, the short pattern configured to synchronize the power device to a frequency of the periodic voltage, andwherein the short pattern has a length shorter than a length of the forward digital message. 10. The controller of claim 9, wherein the short pattern comprises a continuation pattern and the reverse digital message is split up into a number of packets, and wherein the controller is configured to transmit the continuation pattern between the packets. 11. The controller of claim 10, wherein the control circuit is configured to transmit a start pattern to begin transmitting a new forward digital message rather than transmitting the continuation pattern after one of the packets of the reverse digital message. 12. The controller of claim 10, wherein the control circuit is configured to transmit the continuation pattern before the power device has transmitted an entirety of the reverse digital message. 13. The controller of claim 9, wherein the power source comprises an AC power source and the periodic voltage comprises a phase-control voltage, the controllably conductive device adapted to be coupled in series electrical connection between the AC power source and the power device for generating the periodic voltage. 14. The controller of claim 13, wherein a controller voltage is generated across the controller, and wherein the reverse receiving circuit is coupled in parallel electrical connection with the controllably conductive device, and is configured to receive a bit of the reverse digital message prior to when the control circuit renders the controllably conductive device conductive during a half-cycle of the AC power source. 15. The controller of claim 14, wherein the control circuit is configured to render the controllably conductive device conductive to generate a first timing edge at a predetermined reference edge time during a first half cycle of a data pattern of the reverse digital message, wherein a window time period exists during a second half-cycle of the data pattern after a zero-crossing of the second half-cycle, a beginning of the window time period being approximately one half-cycle duration after the predetermined reference edge time; and wherein the control circuit is configured to monitor a magnitude of the controller voltage during the window time period to receive the bit of the reverse digital message. 16. The controller of claim 9, wherein the short pattern comprises a retry pattern, and wherein the control circuit is configured to transmit the retry pattern if the reverse digital message has an error, and the retry pattern is configured to cause the power device to retransmit the reverse digital message. 17. A power device for controlling power delivered from a power source to an electrical load in response to a controller that is coupled between the power source and the power device, the power device comprising: a forward receiving circuit adapted to be coupled to the controller via an electrical wiring, and configured to receive a periodic voltage from the controller via the electrical wiring;a reverse transmitting circuit adapted to be coupled to the controller via the electrical wiring;a control circuit coupled to the forward receiving circuit for receiving a forward digital message from the controller in response to digital information encoded in timing edges of the periodic voltage, and coupled to the reverse transmitting circuit for transmitting a reverse digital message to the controller via the electrical wiring;wherein the control circuit is configured to receive a short pattern from the controller immediately prior to the power device transmitting the reverse digital message, the short pattern configured to synchronize the power device to a frequency of the periodic voltage, andwherein the short pattern has a length shorter than a length of the forward digital message. 18. The power device of claim 17, wherein the short pattern comprises a continuation pattern and the reverse digital message is split up into a number of packets, and wherein the control circuit is configured to receive the continuation pattern between transmissions of the packets of the reverse digital message. 19. The power device of claim 18, wherein the control circuit is configured to receive a start pattern to begin receiving a new forward digital message rather than receiving the continuation pattern after transmitting one of the packets of the reverse digital message. 20. The power device of claim 18, wherein the control circuit is configured to measure a period of the periodic voltage using the continuation pattern. 21. The power device of claim 18, wherein the control circuit is configured to receive the continuation pattern before the control circuit has transmitted an entirety of the reverse digital message. 22. The power device of claim 17, wherein the power source comprises an AC power source and the periodic voltage comprises a phase-control voltage; and wherein a controller voltage is generated across the controller, and wherein the reverse transmitting circuit is configured to transmit a bit of the reverse digital message by adjusting a magnitude of the controller voltage prior to when the controller renders a controllably conductive device conductive during a half-cycle of the AC power source. 23. The power device of claim 22, wherein the reverse digital message comprises a number of sequential data patterns, each data pattern having a first timing edge at a predetermined reference edge time during a first half cycle, the control circuit configured to adjust the magnitude of the controller voltage during a window time period during a second half-cycle of each data pattern to transmit the reverse digital message, the window time period beginning approximately a half-cycle time period after the predetermined reference edge time during the first half cycle; and wherein the control circuit is configured to determine the beginning of the window time period from a start pattern of the forward digital message. 24. The power device of claim 17, wherein the short pattern comprises a retry pattern, and wherein the control circuit is configured to receive the retry pattern if the reverse digital message has an error, and the control circuit is configured to retransmit the reverse digital message after receiving the retry pattern.
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