JP2979528B2 - PLL frequency synthesizer - Google Patents
PLL frequency synthesizerInfo
- Publication number
- JP2979528B2 JP2979528B2 JP3049068A JP4906891A JP2979528B2 JP 2979528 B2 JP2979528 B2 JP 2979528B2 JP 3049068 A JP3049068 A JP 3049068A JP 4906891 A JP4906891 A JP 4906891A JP 2979528 B2 JP2979528 B2 JP 2979528B2
- Authority
- JP
- Japan
- Prior art keywords
- frequency
- controlled oscillator
- phase comparator
- output
- voltage controlled
- 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.)
- Expired - Fee Related
Links
Landscapes
- Stabilization Of Oscillater, Synchronisation, Frequency Synthesizers (AREA)
Description
【0001】[0001]
【産業上の利用分野】本発明は無線送受信機のチャンネ
ル切換え時にスプリアス性及び応答性を損なうことなく
ロックアップタイムを高速化したPLLシンセサイザに
関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a PLL synthesizer in which a lock-up time is shortened without deteriorating spuriousness and responsiveness when switching channels of a radio transceiver.
【0002】[0002]
【従来の技術】従来、無線送受信機のチャンネル切換え
時間を短縮するために、図3に示すようにPLLループ
内の可変分周器及び基準分周器の分周数を変え、電圧制
御発振器の出力周波数の切換え時に、切変え開始後一定
時間だけ比較基準周波数を定常時のn倍とし、同時に可
変分周器の分周数を切換え完了後の定常時の分周数をn
分の1した値の商に、ループフィルタの定数をほぼn分
の1に、夫々可変する切換え方式の提案がある。2. Description of the Related Art Conventionally, in order to shorten the channel switching time of a radio transceiver, the number of divisions of a variable frequency divider and a reference frequency divider in a PLL loop is changed as shown in FIG. At the time of switching the output frequency, the comparison reference frequency is set to n times the steady state for a certain time after the start of the switching, and at the same time, the frequency division number of the variable frequency divider after the completion of the switching is set to n.
There is a proposal of a switching system in which the constant of the loop filter is changed to approximately 1 / n of the quotient of the halved value.
【0003】しかし今図3において電圧制御発振器の出
力周波数f0 =fr ×Nの関係が成立し、チャンネルス
テップ周波数Δf=fr となる。例えばf0 =800.
025KHzに設定する場合、fr を一時的に逓昇させ
てfr =400KHz、分周数N=2,000、f0 =
800.000MHzとし、高速にロックさせた後、定
常ループに切換えf=25KHz、N=32,001、
f0 =800.025MHzとする。しかしながら図4
の如くVCOの制御電圧と出力周波数の関係からして、
例えばf0 を800MHzから800.2MHz又は8
00.4MHzから800.2MHzに変えようとする
と、200KHzもの周波数を動かさなければならず、
結局ロックアップタイムを短縮するには余りにも効果が
薄い。However in now to Figure 3 the relationship between the output frequency f 0 = f r × N of the voltage controlled oscillator satisfied, the channel step frequency Δf = f r. For example, f 0 = 800.
If set to 025KHz, temporarily to step up the f r f r = 400KHz, frequency division number N = 2,000, f 0 =
After setting to 800.000 MHz and locking at high speed, switching to a steady loop is performed, f = 25 KHz, N = 32,001,
f 0 = 800.025 MHz. However, FIG.
From the relationship between the control voltage of the VCO and the output frequency,
For example, f 0 is changed from 800 MHz to 800.2 MHz or 8
If you try to change from 00.4MHz to 800.2MHz, you have to move the frequency as much as 200KHz,
After all, it is too ineffective to reduce lock-up time.
【0004】本発明は、PLL系の終段出力である電圧
制御発振器の出力周波数を変えるために、可変分周器の
分周数を変えようとすると、基準周波数の間隔即ち、f
r のステップで変化するから、電圧制御発振器の出力周
波数を微細に変えるには、基準周波数fr を当初から低
くしておかなければならないが、低くした場合にはPL
Lの位相同期の安定性を保つために、ループフィルタを
構成する積分器の時定数を大きくせざるを得ず、その結
果、周波数の切換え時に電圧制御発振器の出力周波数が
安定化するまでに要する時間が長くなり、結局、応答性
が悪化するという問題があった。According to the present invention, when the frequency division number of the variable frequency divider is changed in order to change the output frequency of the voltage controlled oscillator which is the final output of the PLL system, the interval of the reference frequency, ie, f
Since changes in r step, change the output frequency of the voltage controlled oscillator fine, but must be kept to a low reference frequency f r from the beginning, when it is lowered PL
In order to maintain the stability of the phase synchronization of L, the time constant of the integrator constituting the loop filter must be increased, and as a result, it is necessary for the output frequency of the voltage controlled oscillator to stabilize when the frequency is switched. There has been a problem that the time becomes longer and the responsiveness eventually deteriorates.
【0005】[0005]
【課題を解決するための手段】しかして本発明は上記の
欠点を解消すべく、基準周波数を一時的に高めるために
基準分周器を可変型とし且つ定常時との間を切変えるス
イッチを介在させ、基準周波数以下でPLLにロックが
かかるように可変分周器、2モヂュラス・プリスケー
ラ、パルススワロー型カウンタを組合わせ、位相比較器
に付帯する周波数検出機能を利用して、同期状態に応じ
てループを切変える制御部を設けて、PLL系の安定性
とスプリアス性を確保し得るものとした。SUMMARY OF THE INVENTION In order to solve the above-mentioned drawbacks, the present invention provides a switch having a variable reference frequency divider for temporarily increasing the reference frequency and switching between a normal frequency and a normal frequency. A variable frequency divider, a two-modulus prescaler, and a pulse swallow counter are combined so that the PLL is locked below the reference frequency, and the frequency detection function attached to the phase comparator is used to respond to the synchronization status. A control unit for switching the loop is provided to ensure the stability and spuriousness of the PLL system.
【0006】[0006]
【実施例】以下に本発明を図1及び図2を用いてその実
施例について詳説する。図1は本発明のPLLシンセサ
イザを構成する回路系統図であり、11は基準周波数を
送出する固定発振器、12は基準周波数を可変分周する
第1可変分周器、13は同期検波機能を備える位相比較
器、14は積分器よりなるループフィルタ、15は電圧
制御発振器、16、17は定常時可動接点(定常動作)
aと高速ロックアップ動作の可動接点(高速ロックアッ
プ動作)bとの間を夫々連動切換えされて、電圧制御発
振器の出力周波数f0 を上記位相比較器への帰還ルート
上に設けた第1及び第2切換スイッチ、18、19は夫
々第2可変分周器、第3分周器である。20はその分周
比が2様に切変えられる分周機能を備えた2モヂュラス
・プリスケーラ、21は設定値をNsとする第1カウン
タ、22はNsよりも小さいNA に設定される第2カウ
ンタ、23はCPUの如き制御部でBUSを介して指令
が送出される。DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The embodiment of the present invention will be described below in detail with reference to FIGS. FIG. 1 is a circuit diagram of a PLL synthesizer according to the present invention. Reference numeral 11 denotes a fixed oscillator that sends out a reference frequency, 12 denotes a first variable frequency divider that variably divides a reference frequency, and 13 has a synchronous detection function. A phase comparator, 14 is a loop filter composed of an integrator, 15 is a voltage-controlled oscillator, and 16 and 17 are movable contacts in a steady state (steady operation).
a and the movable contact (high-speed lock-up operation) b of the high-speed lock-up operation are interlocked and switched, so that the output frequency f 0 of the voltage-controlled oscillator is provided on the feedback route to the phase comparator. The second changeover switches 18 and 19 are a second variable frequency divider and a third frequency divider, respectively. Reference numeral 20 denotes a two-modulus prescaler having a frequency dividing function whose frequency dividing ratio can be changed in two ways, 21 a first counter having a set value of Ns, and 22 a second counter which is set to N A smaller than Ns. The counter 23 is a control unit such as a CPU, and a command is transmitted via the BUS.
【0007】上記第1及び第2カウンタ、第3可変分周
器、2モヂュラス・プリスケーラ等の付加機能について
説明すると、第1カウンタの設定値Ns中、第2カウン
タの設定値NA 回は、Np+1分周、Ns−N 回はN
p分周されて、その分周出力周波数が第3可変分周器に
加えられ、この周波数をNi分周して第1、第2切換ス
イッチが前記高速ロックアップ接点bに入接時に位相比
較器に加えられるので、前記基準周波数fr との位相差
に応じたパルス出力を得、このパルスをループフィルタ
によって直流電圧に平滑化し、電圧制御発振器の入力と
して帰還している。The additional functions of the first and second counters, the third variable frequency divider, the two-modulus prescaler, and the like will be described. Among the set values Ns of the first counter, the set value N A of the second counter is: Np + 1 frequency division, Ns-N times N
The frequency is divided by p and the divided output frequency is applied to a third variable frequency divider. This frequency is divided by Ni and the first and second selector switches are compared with each other when the high-speed lock-up contact b is connected. since applied to vessels, give the pulse output corresponding to the phase difference between the reference frequency f r, and smoothed DC voltage to the pulse by the loop filter, it is fed back as an input of the voltage controlled oscillator.
【0008】かような本発明のループ構成では、電圧制
御発振器の出力周波数f0 はf0 =fr ×Ni×{NA
(Np+1)+Np(Ns−NA )}Ns(Ns>
NA )で与えられ、結局f=fr ×Ni×(Np+NA
/Ns)に等しく、周波数ステップをΔfとするとΔf
=(fr /Ns)×Niとなって、Niつまり第3可変
分周器の数を変化させることによってfr /Nsステッ
プで電圧制御発振器の出力周波数を変化させることがで
き、基準周波数fr を高くできるためにPLLのロック
アップタイムを高速化することができる。ところで、前
記構成のPLL出力である電圧制御発振器の出力周波数
の近傍に屡々スプリアスが生起するから、PLLに同期
がかかった瞬間に位相比較器に付帯する同期検出機能の
作動によって、前記第1及び第2切変スイッチを定常状
態に戻し、ループ内の雑音を排除している。又、ループ
を切換えた際、上記位相比較器は固定発振器の出力周波
数の第1可変分周器12による分周周波数fr と第2可
変分周器18の分周周波数を同位相で比較する構成とな
っている。[0008] In the loop configuration of such present invention, the output frequency f 0 of the voltage controlled oscillator is f 0 = f r × Ni × {N A
(Np + 1) + Np (Ns−N A )} Ns (Ns>
Given by N A), after all f = f r × Ni × ( Np + N A
/ Ns), and if the frequency step is Δf, Δf
= (F r / Ns) becomes × Ni, it is possible to vary the output frequency of the voltage controlled oscillator at f r / Ns step by varying the number of Ni, that the third variable divider, a reference frequency f Since r can be increased, the lock-up time of the PLL can be shortened. By the way, the spurious often occurs near the output frequency of the voltage controlled oscillator which is the PLL output having the above-mentioned configuration, and the first and the second are operated by the operation of the synchronization detecting function attached to the phase comparator at the moment when the PLL is synchronized. The second switching switch is returned to a steady state to eliminate noise in the loop. Also, when switching loops, the phase comparator compares the divided frequency of the divided frequency f r of the first variable frequency divider 12 the output frequency of the fixed oscillator and the second variable frequency divider 18 in phase It has a configuration.
【0009】[0009]
【発明の効果】本発明は、固定発振器自体の基準周波数
を切換え変更することなく、可変分周器によって一時的
に基準周波数を上昇せしめているため、PLL出力とな
る電圧制御発振器の出力周波数の切換え時に、その切変
開始直後の一定期間、上記基準周波数を一定倍とし、ル
ープゲインを上げてロックアップタイムを速める構成で
あるため、従来のようにPLL系の外部からプリセット
電圧を加えるようにした構成が、そのプリセット電圧を
つくるための電源から雑音が侵入したり、多チャンネル
の切換え時には上記プリセット電圧の設定値が多くなり
しかも回路が複雑となって消費電力が増えるといったの
とは違って、本発明の回路構成は低消費電力型となし得
るとともに、スプリアス性及び応答性を損なわないシン
セサイザを構成することが可能になった。なお、PLL
系のループを高速から定常状態に戻す際、基準周波数と
可変分周器の分周周波数とを最初、同位相で比較するよ
うにしたので、同期状態に応じて比較器入力に対して確
実に作動する。又、比較出力を得てループを切換え制御
することができるとともに、基準周波数以下でPLLに
ロックがかかるように、可変分周器に2モヂュラス・プ
リスケーラとパルススワロー型カウンタとの組合せせに
よる構成としているため、PLL系全体の回路構成の煩
雑さをも阻止している。According to the present invention, since the reference frequency is temporarily increased by the variable frequency divider without switching and changing the reference frequency of the fixed oscillator itself, the output frequency of the voltage controlled oscillator serving as the PLL output is increased. At the time of switching, for a certain period immediately after the start of the switching, the above-mentioned reference frequency is made to be a fixed multiple, and the loop gain is increased so that the lock-up time is shortened. This is different from the configuration in which noise enters from the power supply for generating the preset voltage, and the setting value of the preset voltage increases when switching between multiple channels, and the circuit becomes complicated and power consumption increases. The circuit configuration of the present invention can be of a low power consumption type, and constitutes a synthesizer that does not impair spurious characteristics and responsiveness. It has become possible. In addition, PLL
When returning the loop of the system from high speed to the steady state, the reference frequency and the divided frequency of the variable frequency divider are compared in the same phase at first. Operate. In addition, it is possible to control the switching of the loop by obtaining a comparison output, and to combine a two-modulus prescaler and a pulse swallow type counter with a variable frequency divider so that the PLL is locked below the reference frequency. Therefore, the complexity of the circuit configuration of the entire PLL system is prevented.
【図1】本発明のPLL周波数シンセサイザを構成する
回路ブロック図。FIG. 1 is a circuit block diagram of a PLL frequency synthesizer according to the present invention.
【図2】図1における電圧制御発振器の制御電圧と出力
周波数との関係グラフ。FIG. 2 is a graph showing a relationship between a control voltage and an output frequency of the voltage controlled oscillator in FIG.
【図3】従来のPLL周波数シンセサイザを構成する回
路ブロック図。FIG. 3 is a circuit block diagram of a conventional PLL frequency synthesizer.
【図4】図3の電圧制御発振器の制御電圧と出力周波数
との関係グラフ。FIG. 4 is a graph showing a relationship between a control voltage and an output frequency of the voltage controlled oscillator of FIG. 3;
11 固定発振器 12 第1可変分周器 13 位相比較器 14 ループフィルタ 15 電圧制御発振器 16、17 第1、第2切換スイッチ 18 第2可変分周器 19 第3可変分周器 20 2モヂュラス・プリスケーラ 21 第1カウンタ 22 第2カウンタ 23 制御部 fr 基準周波数の分周出力周波数 f0 電圧制御発振器の出力周波数DESCRIPTION OF SYMBOLS 11 Fixed oscillator 12 1st variable frequency divider 13 Phase comparator 14 Loop filter 15 Voltage controlled oscillator 16 and 17 1st, 2nd changeover switch 18 2nd variable frequency divider 19 3rd variable frequency divider 20 2 Modulus prescaler 21 the first counter 22 second counter 23 outputs the frequency of the divided output frequency f 0 voltage controlled oscillator of the control unit f r the reference frequency
Claims (1)
制御発振器の出力周波数の分周周波数と固定発振器の基
準周波数との位相比較器による比較出力周波数をループ
フィルタを介して、上記電圧制御発振器に帰還ループを
形成するPLL周波数シンセサイザにおいて、上記固定
発振器の基準周波数を分周する第1可変分周器と、上記
第1可変分周器の分周周波数を受入れる同期検出機能を
備える位相比較器と、上記電圧制御発振器の出力周波数
の上記位相比較器への帰還回路に設けられた第2可変分
周器の入、出力側を夫々入、切する固定接点及び可動接
点を備え且つパルススワロー型の第1カウンタ及び第2
カウンタに応動する2モヂュラス・プリスケーラを結ぶ
入力側並びに出力側に夫々可動接点を備えて連動する第
1切換スイッチ及び第2切換スイッチと、上記各分周器
及び上記各カウンタの設定値を指令し、位相比較器がロ
ックレンジに入ったことを検出後に、上記第1可変分周
器及びループフィルタ並びに上記各切換スイッチに切換
指令を発する制御部とから成り、PLL系の定常ルー
プ、高速ロックアップタイムループを可変切換えするよ
うにしたことを特徴とするPLL周波数シンセサイザ。1. A feedback loop to a voltage controlled oscillator via a loop filter, wherein a comparison output frequency by a phase comparator between a divided frequency of an output frequency of a voltage controlled oscillator for generating a frequency of a frequency synthesizer and a reference frequency of a fixed oscillator is provided. A first frequency divider for dividing the reference frequency of the fixed oscillator, a phase comparator having a synchronization detection function for receiving the divided frequency of the first variable frequency divider, A pulse swallow type first switch having a fixed contact and a movable contact for turning on and off a second variable frequency divider provided in a feedback circuit for the output frequency of the voltage controlled oscillator to the phase comparator; Counter and second
A first switch and a second switch that are provided with movable contacts on the input side and the output side, respectively, which connect the two-modulus prescaler responsive to the counter, and command the set values of the frequency dividers and the counters. And a control unit that issues a switching command to the first variable frequency divider, the loop filter, and each of the changeover switches after detecting that the phase comparator has entered the lock range. A PLL frequency synthesizer wherein a time loop is variably switched.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP3049068A JP2979528B2 (en) | 1991-02-20 | 1991-02-20 | PLL frequency synthesizer |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP3049068A JP2979528B2 (en) | 1991-02-20 | 1991-02-20 | PLL frequency synthesizer |
Publications (2)
Publication Number | Publication Date |
---|---|
JPH04266220A JPH04266220A (en) | 1992-09-22 |
JP2979528B2 true JP2979528B2 (en) | 1999-11-15 |
Family
ID=12820765
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP3049068A Expired - Fee Related JP2979528B2 (en) | 1991-02-20 | 1991-02-20 | PLL frequency synthesizer |
Country Status (1)
Country | Link |
---|---|
JP (1) | JP2979528B2 (en) |
Families Citing this family (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH06326605A (en) * | 1993-05-14 | 1994-11-25 | Kiyoshi Kase | Phase locked loop circuit |
-
1991
- 1991-02-20 JP JP3049068A patent/JP2979528B2/en not_active Expired - Fee Related
Also Published As
Publication number | Publication date |
---|---|
JPH04266220A (en) | 1992-09-22 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
JP2841693B2 (en) | PLL frequency synthesizer | |
US5521948A (en) | Frequency synthesizer | |
JP2003510942A (en) | Phase control circuit | |
JP4015254B2 (en) | Lock detection circuit and PLL frequency synthesizer | |
JP2979528B2 (en) | PLL frequency synthesizer | |
CA2093040C (en) | Frequency synthesizer using phase-locked loop | |
JP3281820B2 (en) | PLL frequency synthesizer | |
GB2288931A (en) | Frequency synthesizer employing frequency-dividing ratios of 1/N and 1/(N+1) | |
JP2704000B2 (en) | Phase locked loop circuit | |
JPS5846586Y2 (en) | Circuit with phase locked loop | |
JP2785996B2 (en) | PLL frequency synthesizer | |
JPH10126263A (en) | Frequency synthesizer | |
JP3883812B2 (en) | PLL circuit | |
JPH03226012A (en) | Pll synthesizer | |
JP2002009618A (en) | Pll circuit and method for generating nominal frequency by using the pll circuit | |
JPS63305619A (en) | Pll synthesizer device | |
JPH0590993A (en) | Pll system frequency synthesizer circuit | |
JPH0638116A (en) | Phase locked loop circuit | |
JPH05110428A (en) | Phase locked loop circuit | |
JP2569508B2 (en) | PLL circuit | |
JP2892886B2 (en) | Frequency synthesizer | |
JP2002158581A (en) | Frequency-variable pll circuit | |
JP2976630B2 (en) | Frequency synthesizer | |
JPH10261956A (en) | Clock generating circuit | |
JPH04271520A (en) | Multi-pll synthesizer |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
LAPS | Cancellation because of no payment of annual fees |