Direct current circuit testing device and method for using same
IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0159376
(2011-06-13)
|
등록번호 |
US-8560264
(2013-10-15)
|
우선권정보 |
CN-2011 1 0083787 (2011-04-02) |
발명자
/ 주소 |
|
출원인 / 주소 |
- Hong Fu Jin Precision Industry (ShenZhen) Co., Ltd.
|
대리인 / 주소 |
Altis & Wispro Law Group, Inc.
|
인용정보 |
피인용 횟수 :
0 인용 특허 :
4 |
초록
▼
A method for testing electronic devices that are correspondingly connected to test units includes generating control signals for the electronic devices that are connected to one or more test units selected from the test units. A control unit adds ID codes corresponding to the selected test units to
A method for testing electronic devices that are correspondingly connected to test units includes generating control signals for the electronic devices that are connected to one or more test units selected from the test units. A control unit adds ID codes corresponding to the selected test units to the control signals, and wirelessly transmits the control signals with the ID codes to all of the test units. Each of the test units compares the ID codes added to the control signals with its own stored ID code. When the ID code added to a control signal is in accordance with the ID code stored in one of the test units, the test unit controls the electronic device connected thereto to be turned on and off according to the control signal.
대표청구항
▼
1. A testing device in electronic communication with a plurality of test units electrically connected to electronic devices, each of the test units storing a corresponding identification (ID) code; the testing device comprising: a control unit that stores the ID codes corresponding to all of the tes
1. A testing device in electronic communication with a plurality of test units electrically connected to electronic devices, each of the test units storing a corresponding identification (ID) code; the testing device comprising: a control unit that stores the ID codes corresponding to all of the test units and wirelessly communicating with all of the test units; anda processor unit electrically connected to the control unit; wherein the processor unit executes instructions comprising: generating control signals for the electronic devices electrically connected to one or more test units selected from the test units;wirelessly transmitting the control signals with the ID codes added by the control unit that correspond to the selected test units to all of the test units; andcontrolling the test units to turn on and off the electronic devices according to a comparison of the ID codes added to the control signals with the ID code stored in each of the test units. 2. The testing device as claimed in claim 1, wherein when the selected test units obtain relevant DC circuit working parameters of the electronic devices connected to the selected test units, each of the selected test units adds the ID code stored in the selected test unit to the data of the DC circuit working parameters of the electronic device connected to the selected test unit; the data of the DC circuit working parameters of the electronic devices with the ID codes is wirelessly transmitted to the control unit and the processor unit, and the processor unit identifies the data of the DC circuit working parameters of the electronic devices according to the ID codes added to the data and determines whether the electronic devices can normally work and be normally shut off. 3. The testing device as claimed in claim 2, further comprising a main code transmission unit electrically connected to the control unit; wherein the control unit transforms the control signals into pulse signals, and the main code transmission unit adds the ID codes to the pulse signals, transforms the pulse signals with the ID code into corresponding code signals including the ID codes, and wirelessly transmits the code signals including the ID codes. 4. The testing device as claimed in claim 3, further comprising a plurality of subsidiary code receiver units corresponding to the test units; each of the subsidiary code receiver units electrically connected to its corresponding test unit for wirelessly receiving the code signals including the ID codes from the main code transmission unit, transforming the code signals including the ID codes into their corresponding pulse signals with the ID codes, and providing the pulse signals with the ID codes to all of the test units as the control signals with the ID codes. 5. The testing device as claimed in claim 2, further comprising a plurality of subsidiary code transmission units corresponding to the test units, each of the subsidiary code transmission units electrically connected to its corresponding test unit; when the test unit tests DC circuit quality of the electronic device connected to the test unit, the test unit adding the ID code stored in the test unit to data of the DC circuit working parameters; the subsidiary code transmission unit transforming the data of the DC circuit working parameters of the tested electronic device with the ID code into a code signal including the ID code, and wirelessly transmitting the code signal including the ID code. 6. The testing device as claimed in claim 5, further comprising a main code receiver unit electrically connected to the control unit; the main code receiver unit wirelessly receiving the code signals including the ID codes from the subsidiary code transmission units, and transforming the code signals including the ID code into the data of the DC circuit working parameters of the electronic devices with the ID codes, such that the data of the DC circuit working parameters of each electronic device is identified according to the ID code added to the data. 7. A method for test direct current (DC) circuit quality of electronic devices, comprising: correspondingly connecting the electronic devices to a plurality of test units, each of the test units storing a corresponding identification (ID) code;generating control signals for the electronic devices connected to one or more test units selected from the test units;adding the ID codes corresponding to the selected test units to the control signals, and wirelessly transmitting the control signals with the ID codes to all of the test units;each of the test units comparing the ID codes added to the control signals with its own stored ID code; andwhen the ID code added to a control signal is in accordance with the ID code stored in one of the test units, the test unit controlling the electronic device electrically connected to the test unit to be turned on and off according to the control signal and thereby testing the DC circuit working quality of the electronic device. 8. The method as claimed in claim 7, further comprising: when the selected test units obtain relevant DC circuit working parameters of the electronic devices connected to the selected test units the test, each of the selected test units adding the ID code stored in the selected test unit to the data of the DC circuit working parameters of the electronic device connected to the selected test unit;wireless transmitting the data of the DC circuit working parameters of the electronic devices with the ID codes to the control unit; andusing a processor unit connected to the control unit to identify the data of the DC circuit working parameters of the electronic devices according to the ID codes added to the data, and determine whether the electronic devices can normally work and be normally shut off. 9. The method as claimed in claim 8, further comprising: transforming the control signals into pulse signals with the ID codes corresponding to the selected test units, and further transforming the pulse signals with the ID codes into code signals including the ID codes;wirelessly transmitting the code signals including the ID codes;wirelessly receiving the code signals including the ID codes; andtransforming the code signals including the ID codes into their corresponding pulse signals with the ID codes, and providing the pulse signals to all of the test units as the control signals including the ID codes. 10. The method as claimed in claim 8, further comprising: when a test unit tests DC circuit quality of the electronic device connected to the test unit, the test unit adding the ID code stored in the test unit to data of the DC circuit working parameters;transforming the data of the DC circuit working parameters of the electronic device with the ID code into a code signal including the ID code;wirelessly transmitting the code signal including the ID code.wirelessly receiving the code signals including the ID codes;transforming the code signals including the ID code into the data of the DC circuit working parameters of the electronic device with the ID codes; andidentifying the data of the DC circuit working parameters of the electronic device according to the ID code added to the data.
이 특허에 인용된 특허 (4)
-
Barrere Wm. Gerrit ; Kaplan Dmitry ; Green Evan R., Adaptive waveform matching for use in transmitter identification.
-
Heisler,Dion N.; Gamage,Nimal K. K., Interface for detection and control of multiple test probes.
-
Kogan, Eugene; Hayter, Alan G.; Nagarajan, Dhanasekaran; Marriam, Michael G.; Markham, Steve, Method and apparatus for installing a wireless security system.
-
McGregor Donald S. (Danville CA) McGregor Gregory M. (Danville CA), Mobile phone with internal call accounting controls.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.