JPH1075173A - Phase lock oscillator - Google Patents

Phase lock oscillator

Info

Publication number
JPH1075173A
JPH1075173A JP8229126A JP22912696A JPH1075173A JP H1075173 A JPH1075173 A JP H1075173A JP 8229126 A JP8229126 A JP 8229126A JP 22912696 A JP22912696 A JP 22912696A JP H1075173 A JPH1075173 A JP H1075173A
Authority
JP
Japan
Prior art keywords
signal
gain
frequency
oscillator
phase
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
JP8229126A
Other languages
Japanese (ja)
Other versions
JP2944530B2 (en
Inventor
Yoichi Koseki
陽一 小関
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
NEC Yamagata Ltd
Original Assignee
NEC Yamagata Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by NEC Yamagata Ltd filed Critical NEC Yamagata Ltd
Priority to JP8229126A priority Critical patent/JP2944530B2/en
Publication of JPH1075173A publication Critical patent/JPH1075173A/en
Application granted granted Critical
Publication of JP2944530B2 publication Critical patent/JP2944530B2/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

Links

Landscapes

  • Stabilization Of Oscillater, Synchronisation, Frequency Synthesizers (AREA)

Abstract

PROBLEM TO BE SOLVED: To compensate the characteristic fluctuation of a control circuit or the like, due to the dispersion and secular change of manufacture conditions or the like and to prevent the fluctuation of jitter characteristics or the like by judging the polarity and phase difference amount of comparison signals to reference signals from phase difference signals and setting the control gain of an oscillator to frequency control signals to a desired value. SOLUTION: This oscillator is provided with a gain setting circuit 5 for judging the polarity and the phase difference amount from the phase difference signals P and outputting gain setting signals T for setting the control gain of the oscillator 3A with respect to the frequency control signals C to the desired value, based on the data and a voltage controlled oscillator 3A for setting the gain by the gain setting signals T, controlling an oscillation frequency by the frequency control signals and outputting the output signals O. Then, at the time of a normal operation mode, the oscillator 3A receives the supply of the gain setting signals T and the frequency control signals C at than time. Also, at the time of gain setting mode, the oscillator 3A receives the supply of a reference voltage VR as gain setting signals J and the frequency control signals CS and outputs oscillation frequency signals corresponding to the reference voltage.

Description

【発明の詳細な説明】DETAILED DESCRIPTION OF THE INVENTION

【0001】[0001]

【発明の属する技術分野】本発明は位相同期発振器に関
し、特にPLL(Phase Locked Loo
p)回路を用いた位相同期発振器に関する。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a phase locked oscillator, and more particularly to a PLL (Phase Locked Loop).
p) A phase-locked oscillator using a circuit.

【0002】[0002]

【従来の技術】一般的なPLLである従来の第1の位相
同期発振器をブロックで示す図4を参照すると、この従
来の第1の位相同期発振器は、基準信号Rと分周信号D
とを比較し位相差信号Pを出力する位相比較器1と、位
相差信号Pを平滑して周波数制御信号Cを出力するロー
パスフィルタ2と、周波数制御信号Cの電圧に応答して
発振周周波数が制御され出力信号Oを出力する電圧制御
発振器(以下発振器)3と、出力信号Oの周波数を1/
n(整数)に分周し分周信号Dを出力する分周器4とを
備える。
2. Description of the Related Art Referring to FIG. 4 showing a block diagram of a conventional first phase-locked oscillator, which is a general PLL, the conventional first phase-locked oscillator includes a reference signal R and a frequency-divided signal D.
, A phase comparator 1 that outputs a phase difference signal P, a low-pass filter 2 that smoothes the phase difference signal P and outputs a frequency control signal C, and an oscillation peripheral frequency in response to the voltage of the frequency control signal C. Is controlled to output an output signal O, and a frequency of the output signal O is 1 /
a frequency divider 4 that divides the frequency by n (integer) and outputs a frequency-divided signal D.

【0003】次に、図4を参照して、従来の第1の位相
同期発振器の動作について説明すると、位相比較器1は
入力である基準信号Rと分周信号Dとを位相比較し位相
差信号Pを出力する。ローパスフィルタ2は位相差信号
Pの高域成分を除去し直流電圧信号である周波数制御信
号Cを出力する。発振器3は周波数制御信号Cの電圧に
応答して発振周周波数foが制御される出力信号Oを出
力し、出力端子と分周器4に供給する。分周器4は信号
Oの周波数foを1/nに分周し、分周信号Dを出力し
て位相比較器1に供給する。このように出力信号Oの周
波数対応の分周信号Dと基準信号Rとを位相比較して生
成した周波数制御信号Cにより発振器3の発振周波数f
oを常時制御する位相同期ループ(PLL)により、基
準信号Rに位相同期した出力信号Oを得る。なお、ここ
では周波数制御信号Cは電圧信号としたが、電流信号で
構成することもできる。
Next, the operation of the first conventional phase locked oscillator will be described with reference to FIG. 4. The phase comparator 1 compares the phase of a reference signal R, which is an input, with a frequency-divided signal D, and determines the phase difference. The signal P is output. The low-pass filter 2 removes high-frequency components of the phase difference signal P and outputs a frequency control signal C that is a DC voltage signal. The oscillator 3 outputs an output signal O whose oscillation frequency fo is controlled in response to the voltage of the frequency control signal C, and supplies the output signal O to the output terminal and the frequency divider 4. The frequency divider 4 divides the frequency fo of the signal O by 1 / n, outputs a frequency-divided signal D, and supplies it to the phase comparator 1. As described above, the frequency control signal C generated by comparing the phase of the frequency-divided signal D of the output signal O with the reference signal R generates the oscillation frequency f of the oscillator 3.
An output signal O phase-locked to the reference signal R is obtained by a phase-locked loop (PLL) that constantly controls o. Here, the frequency control signal C is a voltage signal, but may be a current signal.

【0004】一般に、この種の位相同期発振器の位相同
期引込範囲は帰還系ループ(以下ループ)の利得で決定
され、その引込範囲内に電圧制御発振器の自走周波数が
無ければ位相同期は行われない。位相同期引込範囲を拡
げるためにはループ利得を大きくする必要があるが、こ
の利得を大きくすると、位相比較器の雑音など帰還系の
雑音を増幅してしまい電圧制御発振器の位相雑音すなわ
ちジッタを劣化させてしまう。
Generally, the phase lock pull-in range of this type of phase locked oscillator is determined by the gain of a feedback loop (hereinafter referred to as a loop). If the free-running frequency of the voltage controlled oscillator is not within the pull-in range, phase locking is performed. Absent. To extend the phase lock-in range, it is necessary to increase the loop gain.However, if this gain is increased, the feedback system noise such as the phase comparator noise is amplified and the phase noise of the voltage controlled oscillator, that is, the jitter, is degraded. Let me do it.

【0005】上記問題点の解決を図った特開昭63−8
7823号公報記載の従来の第2の位相同期発振器は、
基準信号と出力発振信号との位相が同期していない場合
には、PLLのループゲインを大きくして位相引込範囲
を拡大し、上記両信号の位相が同期している場合には、
PLLのループゲインを小さくして位相同期発振時の出
力信号のジッタを軽減する。
Japanese Patent Application Laid-Open No. 63-8 / 1988 for solving the above problem.
The conventional second phase-locked oscillator described in Japanese Patent No.
When the phases of the reference signal and the output oscillation signal are not synchronized, the PLL loop gain is increased to expand the phase pull-in range, and when the phases of the two signals are synchronized,
The jitter of the output signal at the time of phase-locked oscillation is reduced by reducing the loop gain of the PLL.

【0006】また、特開平5−63740号公報記載の
従来の第3の位相同期発振器を含む位相同期受信機は、
電圧制御発振器が周波数掃引を行い出力信号と目的周波
数信号を含む受信周波数帯域の受信信号との周波数変換
後の中間周波数信号と基準信号とを位相同期させる構成
と、上記掃引による位相同期時に上記電圧制御発振器に
位相同期フイードバックループ制御をかけるPLLの構
成とに切替え、受信信号に目的以外の周波数信号が含ま
れる場合に周波数掃引範囲をプロセッサとメモリとA/
D,D/A変換器により目的信号周波数の近傍に限定
し、目的以外の周波数信号に誤同期しないようにする。
A phase-locked receiver including a third conventional phase-locked oscillator described in Japanese Patent Application Laid-Open No. 5-63740 is
A configuration in which a voltage-controlled oscillator performs a frequency sweep to synchronize the phase of an intermediate frequency signal and a reference signal after frequency conversion between an output signal and a reception signal in a reception frequency band including a target frequency signal; and Switching to a PLL configuration in which phase-locked feedback loop control is performed on the control oscillator, and when the received signal includes a frequency signal other than the intended signal, the frequency sweep range is set to the processor, the memory, and the A / A
The frequency is limited to the vicinity of the target signal frequency by a D / D / A converter so as not to erroneously synchronize with a frequency signal other than the target signal.

【0007】さらに、特開平4−273618号公報記
載の従来の第3の位相同期発振器は、出力信号と基準信
号との位相差の許容範囲内で電圧制御発振器に対する周
波数制御電圧がステップ状の不連続変化特性を持つ同公
報記載の従来のPLL回路に比べて、位相差の許容範囲
内では直線的に変化する大きな利得を有して出力信号の
ジッタを小さく抑え、位相差の許容範囲外では小さな利
得を有して位相の引込みを可能にしている。
Further, in the third conventional phase-locked oscillator described in Japanese Patent Application Laid-Open No. 4-273618, the frequency control voltage for the voltage-controlled oscillator has a step-like voltage within the allowable range of the phase difference between the output signal and the reference signal. Compared to the conventional PLL circuit described in the same publication having a continuous change characteristic, it has a large gain that changes linearly within the allowable range of the phase difference and suppresses the jitter of the output signal to a small value. It has a small gain to enable phase pull-in.

【0008】従来の第1〜第4の位相同期発振器は、製
造時のプロセス等に起因する構成素子特性のばらつきで
ある製造ばらつき及び環境条件等の使用条件のばらつき
あるいは経時変化などにより、PLLを構成する構成要
素、特に電圧または電流による発振周波数の制御手段か
ら成る発振器の制御回路の利得が変動し、その影響を受
けて位相同期後の出力信号に含むジッタが変動するか、
特性変動が許容範囲外であれば位相同期が不可能にな
る。すなわち、従来の技術では、製造・使用条件のばら
つきや経時変化に起因して出力信号の質的特性が変動す
る。この理由は、従来の技術には、構成要素の上記諸要
因による特性変動を補償するような工夫がなされていな
いためである。
[0008] The first to fourth conventional phase-locked oscillators use a PLL due to manufacturing variations, which are variations in component characteristics caused by processes during manufacturing, and variations in use conditions such as environmental conditions, or changes over time. The constituent elements, especially the gain of the control circuit of the oscillator comprising the control means of the oscillation frequency by voltage or current fluctuates, and the jitter included in the output signal after phase synchronization fluctuates due to the fluctuation,
If the characteristic fluctuation is outside the allowable range, phase synchronization becomes impossible. That is, in the related art, the qualitative characteristics of the output signal fluctuate due to variations in manufacturing and use conditions and changes over time. The reason for this is that there is no device in the prior art for compensating for characteristic fluctuations due to the above factors of the components.

【0009】従来の技術においては、製造ばらつき及び
使用条件ばらつきの範囲、すなわち動作条件範囲を特定
し、回路動作特性の変動が許容できる範囲、すなわち動
作特性範囲が上記動作条件範囲において満足するように
回路の設計を行う。周知のように、これら動作条件範囲
と動作特性範囲との間には相関関係が有り、動作特性範
囲が厳しい場合には動作条件範囲に対するマージンも厳
しくなる。また、製造においては、製造ばらつきを既に
含んでいる製品に対する動作条件範囲のマージンが厳し
い場合、製造ばらつき起因の特性変動が規定値より外れ
る場合には、製造歩留まりの悪化となる。特に、発振周
波数の制御回路の利得として特定値が規定される場合、
利得が上記規定値より大きくても小さくても不良とな
る。
In the prior art, a range of manufacturing variation and use condition variation, that is, an operating condition range is specified, and a range in which a change in circuit operating characteristics is allowable, that is, an operating characteristic range is satisfied in the operating condition range. Design the circuit. As is well known, there is a correlation between the operating condition range and the operating characteristic range, and when the operating characteristic range is strict, the margin for the operating condition range becomes strict. Further, in manufacturing, when the margin of the operating condition range for a product that already includes manufacturing variations is strict, or when the characteristic variation caused by manufacturing variations deviates from a specified value, the manufacturing yield is deteriorated. In particular, when a specific value is defined as the gain of the oscillation frequency control circuit,
If the gain is larger or smaller than the above specified value, it becomes defective.

【0010】また、出荷時に動作条件範囲及び動作特性
範囲を満たしても、特性の経時変化により、動作特性が
劣化したり動作特性範囲からはずれる場合が考えられ
る。
Further, even if the operating condition range and the operating characteristic range are satisfied at the time of shipment, the operating characteristics may deteriorate or deviate from the operating characteristic range due to a change over time in the characteristics.

【0011】[0011]

【発明が解決しようとする課題】上述した従来の第1〜
第4の位相同期発振器は、製造・使用条件のばらつきや
経時変化に起因する制御回路等の構成要素の特性変動を
補償するような工夫がなされていないため、上記諸要因
に起因してジッタ特性や位相同期引込範囲特性等が変動
するという欠点があった。
SUMMARY OF THE INVENTION The above-mentioned conventional first to first embodiments are described below.
The fourth phase-locked oscillator has not been devised to compensate for characteristic fluctuations of components such as a control circuit due to variations in manufacturing and use conditions and changes over time. And that the phase lock pull-in range characteristics fluctuate.

【0012】また、製造ばらつき及び使用条件ばらつき
の範囲を含む動作条件範囲のマージンが厳しい場合には
回路特性の変動許容範囲を含む動作特性範囲も厳しくな
り、製造歩留まりの悪化の要因となるという欠点があっ
た。
Further, when the margin of the operating condition range including the range of the manufacturing variation and the use condition variation is severe, the operating characteristic range including the allowable range of the variation of the circuit characteristic is also severe, which causes a deterioration of the manufacturing yield. was there.

【0013】本発明の目的は、製造・使用条件のばらつ
きや経時変化に起因する発振器の電圧制御回路の利得変
動による出力信号のジッタ特性の変動を防止するととも
に、動作特性範囲を所望の特性範囲に収まるように制御
することにより、製造ばらつきや経時変化を吸収してこ
れら変動の影響を除去し、かつ製造歩留まりの向上をを
図った位相同期発振器を提供することにある。
An object of the present invention is to prevent fluctuations in jitter characteristics of an output signal due to fluctuations in gain of a voltage control circuit of an oscillator due to fluctuations in manufacturing and use conditions and aging, and to set an operating characteristic range to a desired characteristic range. Accordingly, it is an object of the present invention to provide a phase-locked oscillator that absorbs manufacturing variations and changes over time by removing the influence of these fluctuations and improves the manufacturing yield.

【0014】[0014]

【課題を解決するための手段】本発明の位相同期発振器
は、基準信号と比較信号とを比較し位相差信号を出力す
る位相比較器と、前記位相差信号の供給に応答して周波
数制御信号を生成する周波数制御信号生成回路と、前記
周波数制御信号の供給に応答して発振周周波数が制御さ
れ出力信号を出力する電圧制御発振器と、前記出力信号
の周波数に対応する前記比較信号を出力する比較信号生
成回路とを備える位相発振器において、前記位相差信号
から前記基準信号に対する前記比較信号の極性及び位相
差量を判定しこれらのデータを基に前記周波数制御信号
に対する前記電圧制御発振器の制御利得を所望値に設定
する利得設定信号を生成する利得設定回路を備えて構成
されている。
A phase-locked oscillator according to the present invention compares a reference signal with a comparison signal and outputs a phase difference signal; and a frequency control signal in response to the supply of the phase difference signal. A frequency control signal generating circuit, a voltage-controlled oscillator that controls an oscillation frequency in response to the supply of the frequency control signal and outputs an output signal, and outputs the comparison signal corresponding to the frequency of the output signal. A comparison signal generation circuit, wherein a polarity and a phase difference amount of the comparison signal with respect to the reference signal are determined from the phase difference signal, and the control gain of the voltage controlled oscillator with respect to the frequency control signal is determined based on the data. And a gain setting circuit for generating a gain setting signal for setting the gain setting signal to a desired value.

【0015】[0015]

【発明の実施の形態】次に、本発明の実施の形態を図4
と共通の構成要素には共通の文字/数字を用いてブロッ
クで示す図1を参照すると、この図に示す本実施の形態
の位相同期発振器は、従来と共通の位相比較器1と、ロ
ーパスフィルタ2と、分周器4とに加えて、利得設定信
号Tにより利得が設定され周波数制御信号CSにより発
振周周波数が制御され出力信号Oを出力する電圧制御発
振器(以下発振機)3Aと、位相差信号Pから極性及び
位相差量を判定しこれらのデータを基に周波数制御信号
Cに対する発振器3Aの制御利得を所望値に設定する利
得設定信号Tを出力する利得設定回路5とを備える。
FIG. 4 shows an embodiment of the present invention.
FIG. 1 is a block diagram using common characters / numerals as common components, and the phase-locked oscillator according to the present embodiment shown in FIG. 1 includes a phase comparator 1 common to the related art and a low-pass filter. 2 and a frequency divider 4, a voltage controlled oscillator (hereinafter referred to as an oscillator) 3 A whose gain is set by a gain setting signal T, whose oscillation frequency is controlled by a frequency control signal CS, and which outputs an output signal O. A gain setting circuit for determining a polarity and an amount of phase difference from the phase difference signal and outputting a gain setting signal for setting a control gain of the oscillator with respect to the frequency control signal to a desired value based on the data;

【0016】利得設定回路5は、位相差信号Pの供給に
応答し信号R,Dの極性及び位相差量を判定し判定信号
Hを出力する判定回路51と、制御信号K及び判定信号
Hの供給に応答した利得設定信号Jをそれぞれ出力する
制御回路52と、信号Kの制御に応答して利得設定信号
Jをそのまま出力すなわちスルー又は保持すなわちホー
ルドし利得設定信号Tを出力するスルーホールド回路5
3と、制御信号Kの制御に応答して周波数制御信号Cと
基準電圧VRとを切替え周波数制御信号CSを出力する
セレクタ回路54とを備える。
The gain setting circuit 5 determines the polarities of the signals R and D and the amount of the phase difference in response to the supply of the phase difference signal P, and outputs a judgment signal H. A control circuit 52 for outputting a gain setting signal J in response to the supply; and a through-hold circuit 5 for outputting the gain setting signal J as it is in response to the control of the signal K, ie, through or holding or holding, and outputting the gain setting signal T.
3 and a selector circuit 54 for switching between the frequency control signal C and the reference voltage VR in response to the control of the control signal K and outputting the frequency control signal CS.

【0017】次に、図1を参照して本実施の形態の動作
について説明すると、本実施の形態の位相同期発振器
は、通常動作と利得設定動作の2つの動作モードを有す
る。
Next, the operation of this embodiment will be described with reference to FIG. 1. The phase locked oscillator of this embodiment has two operation modes, a normal operation and a gain setting operation.

【0018】まず、通常動作モードの時は、制御回路5
2は制御信号Kによりセレクタ回路54がローパスフィ
ルタの出力である周波数制御信号Cを選択させ、同時に
スルーホールド回路53をホールド状態に設定する。こ
れにより、発振器3Aはその時点の利得設定信号Tの供
給を受け、同時に周波数制御信号CSとして周波数制御
信号Cの供給を受けることにより、発振器3A,分周器
4,位相比較器1,ローパスフィルタ2のループが完成
し、上述の従来の第1の位相同期発振器と同一の動作を
行う。
First, in the normal operation mode, the control circuit 5
Reference numeral 2 indicates that the selector circuit 54 selects the frequency control signal C, which is the output of the low-pass filter, by the control signal K, and at the same time, sets the through hold circuit 53 to the hold state. Thus, the oscillator 3A receives the supply of the gain setting signal T at that time, and at the same time, receives the supply of the frequency control signal C as the frequency control signal CS, whereby the oscillator 3A, the frequency divider 4, the phase comparator 1, the low-pass filter The second loop is completed, and performs the same operation as the above-mentioned first conventional phase-locked oscillator.

【0019】次に、利得設定モードの時は、制御回路5
2は制御信号Kによりセレクタ54は基準電圧VRを選
択させ、同時にスルーホールド回路53をスルー状態に
設定する。これにより、PLLループが解放され発振器
3Aは利得設定信号Tとして利得設定信号Jの供給を受
け、同時に周波数制御信号CSとして基準電圧VRの供
給を受ける。この状態で発振器3Aは、基準電圧VA対
応の発振周波数frの出力信号Orを出力する。
Next, in the gain setting mode, the control circuit 5
2 selects the reference voltage VR by the control signal K and sets the through hold circuit 53 to the through state at the same time. As a result, the PLL loop is released, and the oscillator 3A receives the supply of the gain setting signal J as the gain setting signal T, and at the same time, receives the supply of the reference voltage VR as the frequency control signal CS. In this state, the oscillator 3A outputs the output signal Or of the oscillation frequency fr corresponding to the reference voltage VA.

【0020】発振器3Aの周波数制御電圧CSと発振周
波数foの変化fdとの関係の一例を示す特性図である
図2を参照すると、電圧制御発振器の制御利得は公知の
ように制御電圧に対する周波数変化の比率で定義され、
この例では一定の電圧CSに対する周波数変化fdが高
いほど、すなわち特性直線の勾配が大きいほど利得が大
きい。図2において、直線Aが所望の利得とすると、直
線Bは利得が高すぎる状態、直線Cは利得が低すぎる状
態をそれぞれ示す。例えば、経時変化により利得が低下
すると直線Cのように一定の制御電圧Cに対する発振周
波数変化が小さくなり、引込範囲の低下などの性能劣化
を生ずる。反対に温度変化等により利得が上昇すると、
雑音の影響を受け易くなりジッタの増加等の特性劣化を
生ずる。
Referring to FIG. 2, which is a characteristic diagram showing an example of the relationship between the frequency control voltage CS of the oscillator 3A and the change fd of the oscillation frequency fo, the control gain of the voltage-controlled oscillator is known as a frequency change with respect to the control voltage. Defined by the ratio
In this example, the gain increases as the frequency change fd with respect to the constant voltage CS increases, that is, as the gradient of the characteristic line increases. In FIG. 2, when a straight line A has a desired gain, a straight line B shows a state where the gain is too high, and a straight line C shows a state where the gain is too low. For example, when the gain decreases due to a change over time, the change in the oscillation frequency with respect to a constant control voltage C decreases as indicated by a straight line C, and performance degradation such as a decrease in the pull-in range occurs. Conversely, if the gain increases due to temperature changes, etc.,
It is more susceptible to noise and causes characteristic deterioration such as an increase in jitter.

【0021】利得設定回路5は、以下のように動作し
て、所望利得すなわち直線Aの状態を保持する。まず、
基準電圧VRは所望利得すなわち直線A対応の最大制御
電圧である。ここでは説明の便宜上、極性が正すなわち
分周信号Dの方が高いとし、所望の利得が1.0MHz
/1.0V(直線A)とする。したがって、基準電圧V
Rは1.0Vとする。このとき発振器3Aの発振周波数
変化fdが基準周波数変化frすなわち1.0MHzと
なるよう、利得設定信号Tを設定する。判定回路51
は、位相差信号Pの供給に応答し基準信号Rに対する分
周信号Dの極性及び位相差量を判定し判定信号Hを出力
する。制御回路52は判定信号Hの内容に対応して利得
設定信号Jを可変する。信号Hに含む信号Pの位相差量
が基準周波数変化frに達せず例えば0.8MHzとす
れば、制御回路52は利得設定信号Jの値を増加する。
この信号Jはスルー状態のスルーホールド回路53を経
由し利得設定信号Tとして発振器3Aに供給される。発
振器3Aは利得設定信号Tの増加に応答して利得が上昇
し、これにともなって周波数変化fdが上昇する。周波
数変化fdが所望利得対応の基準周波数変化fr(=
1.0MHz)に達するとこのときの設定信号Tすなわ
ち信号Jが新たな利得設定信号値として設定される。
The gain setting circuit 5 operates as follows to maintain the desired gain, that is, the state of the straight line A. First,
The reference voltage VR is a desired gain, that is, a maximum control voltage corresponding to the straight line A. Here, for convenience of explanation, it is assumed that the polarity is positive, that is, the frequency-divided signal D is higher, and the desired gain is 1.0 MHz.
/1.0 V (straight line A). Therefore, the reference voltage V
R is set to 1.0V. At this time, the gain setting signal T is set so that the oscillation frequency change fd of the oscillator 3A becomes the reference frequency change fr, that is, 1.0 MHz. Judgment circuit 51
Responds to the supply of the phase difference signal P, determines the polarity of the frequency-divided signal D with respect to the reference signal R and the amount of phase difference, and outputs a determination signal H. The control circuit 52 varies the gain setting signal J according to the content of the determination signal H. If the phase difference amount of the signal P included in the signal H does not reach the reference frequency change fr and is set to, for example, 0.8 MHz, the control circuit 52 increases the value of the gain setting signal J.
This signal J is supplied to the oscillator 3A as a gain setting signal T via a through hold circuit 53 in a through state. The gain of the oscillator 3A increases in response to the increase of the gain setting signal T, and the frequency change fd increases accordingly. The frequency change fd is equal to the reference frequency change fr (=
1.0 MHz), the setting signal T at this time, that is, the signal J, is set as a new gain setting signal value.

【0022】以上のようにして利得設定が終了すると、
利得設定モードを通常動作モードに切替え、通常動作に
移行する。
When the gain setting is completed as described above,
The gain setting mode is switched to the normal operation mode, and the operation shifts to the normal operation.

【0023】制御回路52は、一般的なマイクロプロセ
ッサなどで構成することができ、任意時に利得設定を行
うことにより、製造ばらつきや使用条件ばらつき及び特
性の経時変化に置いても所望の利得を保持することがで
きる。
The control circuit 52 can be constituted by a general microprocessor or the like. By setting the gain at any time, a desired gain can be maintained even in the event of manufacturing variations, use condition variations, and changes over time in characteristics. can do.

【0024】次に、本発明の第2の実施の形態をブロッ
クで示す図3を参照すると、この図に示す本実施の形態
の第1の実施の形態との相違点は、発振器3Aの代りに
従来と共通の発振器3を備え、利得設定回路5Aが、利
得設定信号Tにより利得が設定され周波数制御信号CS
を増幅して周波数制御信号CSAを出力する増幅器55
を備えることである。
Next, referring to FIG. 3, which is a block diagram showing a second embodiment of the present invention, the difference between this embodiment and the first embodiment shown in FIG. The gain setting circuit 5A has a gain set by a gain setting signal T and a frequency control signal CS
55 that amplifies the signal and outputs frequency control signal CSA
It is to have.

【0025】本実施の形態の動作は、第1の実施の形態
の発振器3Aを増幅器55+発振器3とに置換したもの
と同一であるので説明を省略する。
The operation of this embodiment is the same as that of the first embodiment except that the oscillator 3A is replaced by the amplifier 55 + oscillator 3, so that the description is omitted.

【0026】[0026]

【発明の効果】以上説明したように、本発明の位相同期
発振器は、位相差信号から基準信号に対する比較信号の
極性及び位相差量を判定しこれらのデータを基に周波数
制御信号に対する発振器の制御利得を所望値に設定する
利得設定信号を生成する利得設定回路を備えているの
で、製造・使用条件のばらつきや経時変化に起因する制
御回路等の構成要素の特性変動を補償することができ、
上記諸要因に起因するジッタ特性や位相同期引込範囲特
性等の変動を防止できるという効果がある。
As described above, the phase locked oscillator of the present invention determines the polarity and the amount of phase difference of the comparison signal with respect to the reference signal from the phase difference signal, and controls the oscillator with respect to the frequency control signal based on these data. Since a gain setting circuit for generating a gain setting signal for setting the gain to a desired value is provided, it is possible to compensate for variations in characteristics of components such as a control circuit due to variations in manufacturing and use conditions and changes over time.
This has the effect of preventing fluctuations in jitter characteristics, phase lock pull-in range characteristics, and the like due to the above factors.

【0027】また、製造ばらつき及び使用条件ばらつき
の範囲を含む動作条件範囲のマージンが厳しい場合にお
ける回路特性の変動許容範囲を緩和でくることにより、
製造歩留まりを向上できるという効果がある。
Further, by reducing the allowable range of the circuit characteristics when the margin of the operating condition range including the range of the manufacturing variation and the use condition variation is strict,
There is an effect that the manufacturing yield can be improved.

【図面の簡単な説明】[Brief description of the drawings]

【図1】本発明の位相同期発振器の第1の実施の形態を
示すブロック図である。
FIG. 1 is a block diagram showing a first embodiment of a phase-locked oscillator according to the present invention.

【図2】本実施の形態の位相同期発振器の利得特性の一
例を示す特性図である。
FIG. 2 is a characteristic diagram showing an example of a gain characteristic of the phase locked oscillator according to the present embodiment.

【図3】本発明の位相同期発振器の第2の実施の形態を
示すブロック図である。
FIG. 3 is a block diagram showing a second embodiment of the phase-locked oscillator according to the present invention.

【図4】従来の第1の位相同期発振器の一例を示すブロ
ック図である。
FIG. 4 is a block diagram showing an example of a conventional first phase locked oscillator.

【符号の説明】[Explanation of symbols]

1 位相比較器 2 ローパスフィルタ 3,3A 電圧制御発振器 4 分周器 5 利得設定回路 51 判定回路 52 制御回路 53 スルーホールド回路 54 セレクタ回路 55 増幅器 Reference Signs List 1 phase comparator 2 low-pass filter 3, 3A voltage-controlled oscillator 4 frequency divider 5 gain setting circuit 51 determination circuit 52 control circuit 53 through-hold circuit 54 selector circuit 55 amplifier

Claims (3)

【特許請求の範囲】[Claims] 【請求項1】 基準信号と比較信号とを比較し位相差信
号を出力する位相比較器と、前記位相差信号の供給に応
答して周波数制御信号を生成する周波数制御信号生成回
路と、前記周波数制御信号の供給に応答して発振周周波
数が制御され出力信号を出力する電圧制御発振器と、前
記出力信号の周波数に対応する前記比較信号を出力する
比較信号生成回路とを備える位相発振器において、 前記位相差信号から前記基準信号に対する前記比較信号
の極性及び位相差量を判定しこれらのデータを基に前記
周波数制御信号に対する前記電圧制御発振器の制御利得
を所望値に設定する利得設定信号を生成する利得設定回
路を備えることを特徴とする位相同期発振器。
A phase comparator that compares a reference signal and a comparison signal to output a phase difference signal; a frequency control signal generation circuit that generates a frequency control signal in response to the supply of the phase difference signal; A voltage controlled oscillator whose oscillation frequency is controlled in response to the supply of the control signal and outputs an output signal; and a phase oscillator including a comparison signal generation circuit that outputs the comparison signal corresponding to the frequency of the output signal. A polarity setting signal for determining a polarity and a phase difference amount of the comparison signal with respect to the reference signal from the phase difference signal and setting a control gain of the voltage controlled oscillator with respect to the frequency control signal to a desired value is generated based on the data. A phase-locked oscillator comprising a gain setting circuit.
【請求項2】 前記利得設定回路が、前記位相差信号の
供給に応答し前記基準信号に対する前記比較信号の極性
及び位相差量を判定し判定信号を出力する判定回路と、 切替制御信号を出力するとともに前記判定信号の供給に
応答した前記利得設定信号を出力する制御回路と、 前記切替制御信号の制御に応答して前記利得設定信号を
そのまま出力するか又は保持するスルーホールド回路
と、前記切替制御信号の制御に応答して前記周波数制御
信号と利得設定用の基準電圧とを切替えて前記電圧制御
発振器に供給するセレクタ回路とを備えることを特徴と
する請求項1記載の位相同期発振器。
2. A determination circuit for determining a polarity and a phase difference amount of the comparison signal with respect to the reference signal in response to the supply of the phase difference signal and outputting a determination signal, and a switching control signal. A control circuit that outputs the gain setting signal in response to the supply of the determination signal, and a through-hold circuit that directly outputs or holds the gain setting signal in response to the control of the switching control signal; 2. The phase-locked oscillator according to claim 1, further comprising: a selector circuit that switches between the frequency control signal and a reference voltage for gain setting in response to control of a control signal and supplies the selected signal to the voltage-controlled oscillator.
【請求項3】 前記利得設定回路が、前記利得設定信号
の制御に応答して利得が制御され前記周波数制御信号を
増幅して前記電圧制御発振器に供給する増幅器をさらに
備えることを特徴とする請求項2記載の位相同期発振
器。
3. The gain setting circuit according to claim 2, further comprising an amplifier having a gain controlled in response to the control of the gain setting signal, amplifying the frequency control signal, and supplying the amplified frequency control signal to the voltage controlled oscillator. Item 3. The phase-locked oscillator according to Item 2.
JP8229126A 1996-08-29 1996-08-29 Phase locked oscillator Expired - Fee Related JP2944530B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP8229126A JP2944530B2 (en) 1996-08-29 1996-08-29 Phase locked oscillator

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP8229126A JP2944530B2 (en) 1996-08-29 1996-08-29 Phase locked oscillator

Publications (2)

Publication Number Publication Date
JPH1075173A true JPH1075173A (en) 1998-03-17
JP2944530B2 JP2944530B2 (en) 1999-09-06

Family

ID=16887167

Family Applications (1)

Application Number Title Priority Date Filing Date
JP8229126A Expired - Fee Related JP2944530B2 (en) 1996-08-29 1996-08-29 Phase locked oscillator

Country Status (1)

Country Link
JP (1) JP2944530B2 (en)

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2006255506A (en) * 2005-03-15 2006-09-28 Fujitsu Ltd Oscillator
JP2008124687A (en) * 2006-11-10 2008-05-29 Matsushita Electric Ind Co Ltd Pll circuit and signal transmitting/receiving system
JP2008219513A (en) * 2007-03-05 2008-09-18 Toshiba Corp Pll circuit
JP2010093761A (en) * 2008-10-10 2010-04-22 Canon Inc Pll circuit

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2006255506A (en) * 2005-03-15 2006-09-28 Fujitsu Ltd Oscillator
JP2008124687A (en) * 2006-11-10 2008-05-29 Matsushita Electric Ind Co Ltd Pll circuit and signal transmitting/receiving system
JP2008219513A (en) * 2007-03-05 2008-09-18 Toshiba Corp Pll circuit
JP2010093761A (en) * 2008-10-10 2010-04-22 Canon Inc Pll circuit

Also Published As

Publication number Publication date
JP2944530B2 (en) 1999-09-06

Similar Documents

Publication Publication Date Title
JP4651298B2 (en) Automatic frequency correction PLL circuit
JP4633706B2 (en) Electronic circuit and method for operating the electronic circuit
JP2581398B2 (en) PLL frequency synthesizer
US7180377B1 (en) Method and apparatus for a hybrid phase lock loop frequency synthesizer
EP1039640B1 (en) PLL circuit
JP4355350B2 (en) Oscillation frequency control circuit
US20080191760A1 (en) PLLS covering wide operating frequency ranges
US6667640B2 (en) Phase locked loop circuit having a wide oscillation frequency range for reducing jitter
US6275116B1 (en) Method, circuit and/or architecture to improve the frequency range of a voltage controlled oscillator
US6434206B1 (en) Phase locked loop circuit for reducing lock-in time
JP2944530B2 (en) Phase locked oscillator
US7236025B2 (en) PLL circuit and program for same
KR100918860B1 (en) Frequency synthesizer having loop filter compensation circuit
JPH0993125A (en) Pll synthesizer circuit
US20080042758A1 (en) Phase-locked loop
JP2001230670A (en) Pll oscillation circuit
US20060034409A1 (en) Digital vco and pll circuit using the digital vco
JPH1079666A (en) Phase locked loop oscillation circuit
KR20060103605A (en) Phase locked loop with voltage controlled oscillator having low frequency gain and control method thereof
JP2655043B2 (en) PLL circuit
JPH09261042A (en) Lock system for phase locked loop
US20020079974A1 (en) Method for tuning a PLL circuit
JP2001156627A (en) Phase detector and phase detection method
US20050266816A1 (en) PLL synthesizer
JP2000010652A (en) Frequency synthesizer

Legal Events

Date Code Title Description
A01 Written decision to grant a patent or to grant a registration (utility model)

Free format text: JAPANESE INTERMEDIATE CODE: A01

Effective date: 19990525

LAPS Cancellation because of no payment of annual fees