IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0932952
(2004-09-02)
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등록번호 |
US-7446580
(2008-11-04)
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발명자
/ 주소 |
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출원인 / 주소 |
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대리인 / 주소 |
Whyte Hirschboeck Dudek SC
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인용정보 |
피인용 횟수 :
1 인용 특허 :
46 |
초록
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A phase detection system for use with a synchronous mirror delay or a delay-locked loop in order to reduce the number of delay stages required, and therefore increase the efficiency, is disclosed. The invention includes taking a clock input signal and a clock delay or feedback signal, each having ti
A phase detection system for use with a synchronous mirror delay or a delay-locked loop in order to reduce the number of delay stages required, and therefore increase the efficiency, is disclosed. The invention includes taking a clock input signal and a clock delay or feedback signal, each having timing characteristics, and differentiating between four conditions based upon the timing characteristics of the signals. The phase detector and associated circuitry then determines, based upon the timing characteristics of the signals, which of a number of phase conditions the signals are in. Selectors select the signals to be introduced into the synchronous mirror delay or delay-locked loop by the timing characteristics of the phase conditions. The system is able to utilize the falling clock edge of the clock input signal, and the lock time is decreased under specific phase conditions. The invention increases the efficiency of the circuits by reducing the effective delay stages in the SMD or DLL while maintaining the operating range.
대표청구항
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What is claimed is: 1. A synchronization system for use with an external clock signal, comprising: a pair of registers, logic, and a synchronous mirror delay (SMD) device, each register to receive a clock input signal (CIN) and a clock delay signal (CDLY) and to output an output signal to the logic
What is claimed is: 1. A synchronization system for use with an external clock signal, comprising: a pair of registers, logic, and a synchronous mirror delay (SMD) device, each register to receive a clock input signal (CIN) and a clock delay signal (CDLY) and to output an output signal to the logic, and the logic to select one of a plurality of output signal combinations based on the output signal from each of the registers, each output signal combination representative of a condition based upon one or more timing characteristics of CIN and CDLY, and to determine whether an edge of CDLY occurs between a first edge of CIN and a second edge of CIN to reduce a total delay required from the SMD for synchronization, wherein the SMD is configured to receive the clock input signal and the clock delay signal. 2. A synchronization system for use with an external clock signal, comprising: a pair of registers, logic, and a synchronous mirror delay (SMD) device, each register to receive a clock input signal (CIN) and a clock delay signal (CDLY) and to output an output signal to the logic, and the logic to select one of a plurality of output signal combinations based on the output signal from each of the registers, each output signal combination representative of a condition based upon one or more timing characteristics of CIN and CDLY, wherein the SMD is configured to receive the clock input signal and the clock delay signal. 3. A synchronization system for use with an external clock signal, comprising: a pair of registers, a synchronous mirror delay (SMD) device, and a logic circuit, each register to receive a clock input signal (CIN) and a clock delay signal (CDLY) and to output an output signal to the logic circuit, and the logic circuit to select one of a plurality of output signal combinations based on the output signal from each of the registers, each output signal combination representative of a condition based upon one or more timing characteristics of CIN and CDLY, and to distinguish whether an edge of CDLY occurs before or after an edge of CIN to reduce a total delay from the SMD for synchronization, wherein the SMD is configured to receive the clock input signal and the clock delay signal. 4. A synchronization system for use with an external clock signal, comprising: a pair of registers, a synchronous mirror delay (SMD) device, a logic circuit, and an output selection multiplexor to receive an SMD output signal from the SMD device, each register to receive a clock input signal (CIN) and a clock delay signal (CDLY) and to output an output signal to the logic circuit, and the logic circuit to select one of a plurality of output signal combinations based on the output signal from each of the registers, each output signal combination representative of a condition based upon one or more timing characteristics of CIN and CDLY and to determine whether an edge of CDLY occurs between a first edge of CIN and a second edge of CIN to reduce a total delay required from the SMD for synchronization, wherein the SMD is configured to receive the clock input signal and the clock delay signal. 5. A synchronization system for use with an external clock signal, comprising: a pair of registers, each register to receive a first clock input signal (CIN1) and a clock delay signal (CDLY) and to output an output signal to a logic circuit, the logic circuit to select one of a plurality of output signal combinations: based to the output signal from each of the registers, each output signal combination representative of a condition based upon one or more timing characteristics of the CIN1 and the CDLY, and generate an output signal responsive to the selected one of the plurality of output signal combinations; an input selection multiplexor to select which output signal of the CIN1 or a second clock input signal (CIN2) to input into a synchronous mirror delay (SMD) device; and an output selection multiplexor connected to the input selection multiplexor to receive a SMD output signal from the SMD device and to select whether to output the SMD output signal or the CIN1 as an input to a clock tree to generate an internal clock signal based at least in part upon the output signal of the registers. 6. The system of claim 5, wherein the CIN2 is an inverted signal of the CIN1. 7. The system of claim 5, wherein the CIN2 is phase delayed from the CIN1. 8. A synchronization system for use with an external clock signal, comprising: a pair of registers, a logic circuit, and a synchronous mirror delay (SMD) device, each register to receive a clock input signal (CIN) and a clock delay signal (CDLY), and to output an output signal to the logic circuit, the output signal based upon one of a plurality of output signal combinations, each output signal combination representative of a condition based upon one or more timing characteristics of the CIN and the CDLY, and the logic circuit to determine whether an edge of the CDLY occurs between a rising edge of the CIN and a falling edge of the CIN to generate an output signal to reduce a total delay required from the SMD for synchronization, wherein the SMD is configured to receive the clock input signal and the clock delay signal. 9. A synchronization system for use with an external clock signal, comprising: a pair of registers, a logic circuit, and a synchronous mirror delay (SMD) device, each register receiving a clock input signal (CIN) and a clock delay signal (CDLY) and to output an output signal to the logic circuit based upon one of a plurality of output signal combinations, each output signal combination representative of a condition based upon one or more timing characteristics of the CIN and the CDLY, and the logic circuit to distinguish whether a rising edge of the CDLY occurs between a rising edge of the CIN to generate an output signal to reduce a total delay from the SMD device for synchronization, wherein the SMD is configured to receive the clock input signal and the clock delay signal. 10. A synchronization system for use with an external clock signal, comprising: a pair of registers, a logic circuit, a synchronous mirror delay (SMD) device, and an output selection multiplexor to receive an SMD output signal, each register to receive a clock input signal (CIN) and a clock delay signal (CDLY) and output an output signal to the logic circuit based upon one of a plurality of output signal combinations, each output signal combination representative of a condition based upon one or more timing characteristics of the CIN and the CDLY, wherein the SMD is configured to receive the clock input signal and the clock delay signal. 11. The system of claim 10, wherein at least one register comprises a D-type flip flop. 12. A synchronization system for use with an external clock signal, comprising: a phase detector including a pair of registers to receive a clock input signal (CIN) and a clock delay signal (CDLY) and output an output signal based upon one of a plurality of output signal combinations, each output signal combination representative of a condition based upon one or more timing characteristics of the CIN and the CDLY; and an input selection multiplexor to select, based on the output signal from each of the registers, which of the CIN and or an inverted CIN (CIN') to input into a synchronous mirror delay (SMD) device. 13. A synchronization system for use with an external clock signal, comprising: a phase detector including a pair of registers, a logic circuit, and a synchronous mirror delay (SMD) device, each register to receive a first clock input signal (CIN1) and a clock delay signal (CDLY) and to output an output signal based upon one of a plurality of output signal combinations, each output signal combination representative of a condition based upon one or more timing characteristics of the CIN1 and the CDLY, and the logic circuit configured to determine whether an edge of CDLY occurs between a first edge of CIN and a second edge of CIN; and an input selection multiplexor to select, based on the output signal from each of the registers, which of the CIN1 or a second clock input signal (CIN2) to input into the SMD device to reduce a total delay required from the SMD for synchronization. 14. The system of claim 13, wherein the CIN2 is an inverted signal of the CIN1. 15. The system of claim 13, wherein the CIN2 is phase delayed from the CIN1. 16. A synchronous dynamic random access memory (SDRAM), comprising: a synchronous mirror delay (SMD) device; and a phase detection system comprising: a phase detector connected to the SMD device to receive a clock input signal (CIN) and a clock delay signal (CDLY), the CIN and CDLY each having timing characteristics, the phase detector including a pair of registers, each register comprising a pair of inputs and an output, each of the outputs having a logical level to define a plurality of output signal combinations, each of the output signal combinations representative of a phase based upon the timing characteristics of the CIN and the CDLY; an input selection multiplexor connected to a first control to select whether to input the CIN or an inverted CIN (CIN') into the SMD device to reeduce a number of effective delay stages in the SMD device or to bypass the SMD device based on the logical levels of the outputs of the phase detector; and an output selection multiplexor connected to the input selection multiplexor and the SMD device to receive a SMD output signal from the SMD device, the output selection multiplexor connected to a second control to select whether to output an output signal of the input selection multiplexor as an input to a clock tree to generate an internal clock signal or to output the SMD output signal; and the timing characteristics including a period of CIN defined as tck and a period from a rising edge in CIN to a rising edge in CDLY defined as tmdl; and a first phase is when tmdl>tck/2; a second phase is when is when tmdltck/2. 18. The SDRAM of claim 16, wherein the number of effective delay stages is reduced while maintaining a set operating range. 19. The SDRAM of claim 16, wherein a lock period is substantially one clock period when tmdl1) and a clock delay signal (CDLY), the CIN1 and CDLY each having timing characteristics, the phase detector including a pair of registers, each register comprising a pair of inputs and an output, each of the outputs having a logical level to define a plurality of output signal combinations, each of the output signal combinations representative of a phase based upon the timing characteristics of the CIN1 and the CDLY an input selection multiplexor connected to a first control to select whether to input the CIN1 or a second clock input signal (CIN2) into the SMD device to reduce a number of effective delay stages in the SMD, or to bypass the SMD device, based on the logical levels of the outputs of the phase detector; and an output selection multiplexor connected to the input selection multiplexor and the SMD device to receive a SMD output signal from the SMD device, the output selection multiplexor connected to a second control to select whether to output the SMD output signal or an output signal of the input selection multiplexor as an input to a clock tree to generate an internal clock signal; the timing characteristics including a period of CIN1 defined as tck and a period from a rising edge in CIN1 to a rising edge in CDLY defined as tmdl; and a first phase is when tmdl>tck/2; a second phase is when is when tmdl2 is an inverted signal of the CIN1. 25. The system of claim 23, wherein the CIN2 is phase delayed from the CIN1. 26. The system of claim 23, wherein when tmdltck/2. 27. The system of claim 23, wherein the number of effective delay stages is reduced while maintaining a set operating range. 28. The system of claim 23, wherein a lock period is substantially one clock period when tmdl
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