IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0242699
(2005-10-04)
|
등록번호 |
US-7816882
(2010-11-08)
|
우선권정보 |
TW-93135911 A(2004-11-22) |
발명자
/ 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
2 인용 특허 :
10 |
초록
▼
A method for protecting an electronic apparatus driven by a DC motor and a detection circuit for detecting positioning signals thereof. The electronic device includes an optical encoder, a code strip, and a DC motor. While moves along the code strip, the optical encoder outputs a first positioning s
A method for protecting an electronic apparatus driven by a DC motor and a detection circuit for detecting positioning signals thereof. The electronic device includes an optical encoder, a code strip, and a DC motor. While moves along the code strip, the optical encoder outputs a first positioning signal and a second positioning signal for the control of the DC motor. The method includes the steps described below. First, states of the first and second positioning signals are detected. If the states of the first and second positioning signals are normal, the DC motor is controlled according to the first and second positioning signals. If the first positioning signal or the second positioning signal is abnormal, a preventive method is performed.
대표청구항
▼
What is claimed is: 1. A detection circuit for detecting states of a first position signal and a second position signal, the detection circuit comprising: a rising edge detection device configured to receive the first and second position signals and output a first control signal, wherein when detec
What is claimed is: 1. A detection circuit for detecting states of a first position signal and a second position signal, the detection circuit comprising: a rising edge detection device configured to receive the first and second position signals and output a first control signal, wherein when detecting a rising edge of the second position signal, the rising edge detection device is configured to output the first position signal as the first control signal; and a falling edge detection device configured to receive the first and second position signals and output a second control signal, wherein when detecting a falling edge of the second position signal, the falling edge detection device is configured to output the first position signal as the second control signal, wherein the detection circuit is carried by an electronic apparatus comprising an encoder, a code strip, and a DC motor, and wherein while moving along the code strip, the encoder is configured to generate the first and second position signals for control of the DC motor, wherein the first position signal and the second position signal are in normal states when the first and second control signals are out of phase, and wherein the first position signal and the second position signal are in abnormal states when the first and second control signals are in phase. 2. The detection circuit of claim 1 wherein the electronic apparatus comprises a printer. 3. The detection circuit of claim 1 wherein the first and second control signals are out of phase when the first position signal lags behind the second position signal. 4. The detection circuit of claim 1 wherein the rising edge detection device comprises a D-type flip-flop. 5. The detection circuit of claim 1 wherein the falling edge detection device comprises a D-type flip-flop. 6. The detection circuit of claim 1 wherein the falling edge detection device is a first falling edge detection device, and wherein the detection circuit further comprises: an AND gate configured to output a third control signal according to a reversed phase signal of the first control signal and the second control signal; and a second falling edge detection device configured to receive the third control signal and the second position signal, wherein when detecting the falling edge of the second position signal, the second falling edge detection device is configured to output the third control signal as a status signal; and wherein the first position signal and the second position signal are in normal or abnormal states based, at least in part, on the status signal. 7. The detection circuit of claim 6 wherein the second falling edge detection device comprises a D-type flip-flop. 8. The detection circuit of claim 1 wherein the falling edge detection device is a first falling edge detection device, and wherein the detection circuit further comprises: an AND gate configured to output a third control signal according to a reversed phase signal of the first control signal and the second control signal; a J-K flip-flop having a first input terminal and a second input terminal, wherein the first and second input terminals are configured to receive a high level signal, and wherein the J-K flip-flop is configured to output a fourth control signal when detecting the falling edge of the second position signal; and a second falling edge detection device configured to receive the third and fourth control signals, wherein when detecting a falling edge of the fourth control signal, the second falling edge detection device is configured to output the third control signal as a status signal. 9. The detection circuit of claim 8 wherein the second falling edge detection device comprises a D-type flip-flop. 10. The detection circuit of claim 1 wherein the first control signal is configured to maintain the level of the first position signal when detecting a rising edge of the second position signal, and the second control signal is configured to maintain the level of the first position signal when detecting a falling edge of the second position signal. 11. A detection circuit, comprising: first means for receiving a first position signal and a second position signal and outputting a first control signal, wherein when detecting a rising edge of the second position signal, the first means for outputting the first control signal is configured to output the first position signal as the first control signal; and second means for receiving the first and second position signals and outputting a second control signal, wherein when detecting a falling edge of the second position signal, the second means for outputting the second control signal is configured to output the first position signal as the second control signal, wherein the detection circuit is carried by an electronic apparatus comprising an encoder, a code strip, and a DC motor, and wherein while moving along the code strip, the encoder is configured to generate the first and second position signals for control of the DC motor; wherein when the first and second control signals are out of phase, the first position signal and the second position signal are in normal states, and wherein when the first and second control signals are in phase, the first position signal and the second position signal are in abnormal states. 12. The detection circuit of claim 11 wherein the first means for outputting the first control signal comprises a D-type flip-flop. 13. The detection circuit of claim 11 wherein the second means for outputting the second control signal comprises a D-type flip-flop. 14. A printer, comprising: a DC motor; a print head electrically coupled to the DC motor; a code strip; an optical encoder carried by the print head, wherein the encoder is configured to move along the code strip and generate a first position signal and a second position signal for control of the DC motor; and a detection circuit including— a rising edge detection device configured to receive the first and second position signals and output a first control signal, wherein when detecting a rising edge of the second position signal, the rising edge detection device is configured to output the first position signal as the first control signal; a falling edge detection device configured to receive the first and second position signals and output a second control signal, wherein when detecting a falling edge of the second position signal, the falling edge detection device is configured to output the first position signal as the second control signal; a comparator configured to generate a status signal according to the first and second control signals, wherein the comparator is configured to generate (a) a first status signal indicating that the first position signal and the second position signal are in normal states when the first and second control signals are out of phase, and (b) a second status signal indicating that the first position signal and the second position signal are in abnormal states when the first and second control signals are in phase; and a control unit operably coupled to the DC motor and configured to control operation of the DC motor based, at least in part, on the first and second status signals. 15. The printer of claim 14 wherein the control unit is configured to reduce a speed of the DC motor when the control unit receives the second status signal from the detection circuit. 16. The printer of claim 14 wherein, when the first position signal lags behind the second position signal, the first and second control signals are out of phase. 17. The printer of claim 14 wherein: the first status signal generated by the comparator is a high level signal if both the first position signal and the second position signal are in normal states; and the second status signal generated by the comparator is a low level signal if one or both of the first position signal and the second position signal are in abnormal states. 18. The printer of claim 14 wherein the comparator further comprises a time delay device configured to delay detection of the first and second position signals and output of the first and second control signals.
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