Clock signal generating circuit using variable delay circuit

Miscellaneous active electrical nonlinear devices – circuits – and – Specific signal discriminating without subsequent control – By phase

Reexamination Certificate

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Details

C327S052000, C327S057000

Reexamination Certificate

active

06265903

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to clock signal generating circuits and more particularly, to a clock signal generating circuit which can be suitably made in the form of a semiconductor integrated circuit and can operate with a small-amplitude signal having a high frequency. The present invention also relates to a phase comparator and variable delay circuit which are used in the clock signal generating circuit.
2. Description of the Related Art
As a microprocessor or a semiconductor integrated circuit (LSI) including a semiconductor memory and so on is required to operate with a higher frequency, a system clock for synchronization between LSI chips or an internal clock for synchronization between circuits within the respective LSI chips has been increasingly required in recent years to have a higher frequency.
In order to synchronize an external clock as a system clock supplied from an external LSI chip with an internal clock for the internal circuits of the LSI chip, a phase locked loop (PLL) circuit is employed. The PLL circuit functions to control a frequency of an oscillator on the basis of a difference in phase between two frequencies. The operation of a prior art PLL circuit will be briefly explained referring to a block diagram of FIG.
1
.
The illustrated PLL circuit includes an input circuit
1
for receiving an external clock signal Clkin, a phase comparator
10
for comparing the external clock signal with an internal clock signal with respect to their phase, a loop filter
8
for filtering a phase difference comparison voltage signal received from the phase comparator
10
to generate a control voltage signal, and a voltage controlled oscillator (which will be referred to merely as the VCO, hereinafter)
9
for controlling a frequency on the basis of the control voltage signal received from the loop filter
8
. An internal clock signal generated by the voltage controlled oscillator
9
is applied to the phase comparator
10
as a signal PLL
1
.
In this case, the external clock signal Clkin received from an external clock signal input terminal
5
is first amplified by the input circuit
1
into a signal usable in the PLL circuit. The phase comparator
10
compares the amplified signal with the internal clock signal generated at the VCO
9
with respect to their phase and sends its comparison result to the VCO
9
via the loop filter
8
.
In the phase comparison of the signals Clkin and PLL
1
, if the signal Clkin is lagging the signal PLL
1
with respect to phase, then the value of the control voltage signal generated by the loop filter
8
is increased to increase the frequency of the output signal of the VCO
9
. If the signal PLL
1
is leading the signal Clkin, then the frequency of the output signal of the VCO
9
is controllably decreased so as not to produce a phase shift between the signals Clkin and PLL
1
.
Further, a delay locked loop (DLL) circuit is used to synchronize the signal Clkin with a rising edge of the next clock delayed by one cycle. The DLL circuit, which operates in a manner similar to that of the PLL circuit, is provided with a delay line for delaying the input signal by just one cycle. That is, the DLL circuit is to provide a delay corresponding to one cycle of the synchronizing operation, and its allowable frequency range is limited.
In this way, the LSI chip is designed to correct the phase difference between the external and internal clocks with use of the PLL or DLL circuit to transmit an accurate signal. Meanwhile, as the operational frequency of the LSI is increased in these years, the amplitude of the signal has been decreased. Accordingly, when it is desired to use an external signal in an internal circuit, it becomes necessary for the input circuit
1
to perform its amplifying operation, which causes a processing delay in the input circuit
1
. Further, even a signal passing through a wiring line connected from an input terminal to the input circuit will be delayed.
Furthermore, the operational speed of the LSI chip is influenced by the chip surrounding environment so that, for example, temperature or voltage value will cause the oscillation frequency of an oscillator to vary or the operation of the input circuit to be delayed.
SUMMARY OF THE INVENTION
It is therefore an object of the present invention to provide a clock signal generating circuit in an LSI chip operating at a high frequency, which can establish accurate synchronism between external and internal clocks to reduce a synchronization shift caused by an environmental change.
Another object of the present invention is to provide a clock signal generating circuit which set a delay in a variable delay circuit with use of a binary code to realize adjustment of a fine delay in an internal clock.
In accordance with an aspect of the present invention, the above objects are attained by a signal generation circuit which comprises an input circuit for amplifying an input signal and outputting an amplified signal as a first internal signal; a variable delay circuit, on the basis of a control signal, for delaying the first internal signal and outputting a delayed signal as a second internal signal; a phase comparator for finding a phase difference between the input signal and second internal signal and outputting a phase difference signal indicative of the phase difference; and a control circuit for generating the control signal on the basis of the phase difference signal.
Since the signal generation circuit of the present invention is arranged as mentioned above, a phase difference between, e.g., external and internal clock signals can be compared without any intervention of the input circuit and thus the influences of delay caused by the input circuit can be eliminated.
Further, even for a signal having a high frequency and a small amplitude, its phase comparison can be carried out accurately.
The phase comparator usable in the above signal generation circuit includes differential input means including first transistors having an input clock signal applied to their gates and second transistors having a reference voltage signal applied to their gates for outputting a voltage indicative of a difference between the input clock signal and reference voltage signal; first switching transistors connected in series with the first transistors for receiving at their gates an internal clock signal for comparison with the input clock signal; and second switching transistors connected in series with the second switching transistors for receiving at their gates the internal clock signal.
In accordance with another aspect of the present invention, there is provided a signal generation circuit which comprises an input circuit for amplifying an input signal; a first variable delay circuit for delaying an output signal of the input circuit; a second variable delay circuit for delaying an output signal of the first variable delay circuit by one of first and second durations; a phase comparator circuit for finding a phase difference between the input signal and an output signal of the second variable delay circuit; and control means for controlling the second variable delay circuit to cause a delay time of the second variable delay circuit to switch between the first and second durations and also for controlling the first and second variable delay circuits to cause a phase of the input signal to always coincide with a phase of the output signal of the second variable delay circuit on the basis of an output of the phase comparator circuit.
The second variable delay circuit alternately switches between a zero delay and a one-period delay corresponding to one period of the input clock signal. Alternately applied to the phase comparator circuit are a clock signal subjected to a delay of one period by the first variable delay circuit and a clock signal delayed 2-periods by the first and second variable delay circuits. When the delay of the second variable delay circuit corresponds accurately to the zero delay or one-period delay, a shift in the input p

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