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JPS622720A - Frequency synthesizer - Google Patents

Frequency synthesizer

Info

Publication number
JPS622720A
JPS622720A JP60140546A JP14054685A JPS622720A JP S622720 A JPS622720 A JP S622720A JP 60140546 A JP60140546 A JP 60140546A JP 14054685 A JP14054685 A JP 14054685A JP S622720 A JPS622720 A JP S622720A
Authority
JP
Japan
Prior art keywords
vco
oscillation frequency
saw
temperature
frequency range
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.)
Pending
Application number
JP60140546A
Other languages
Japanese (ja)
Inventor
Kenji Fukube
福辺 健次
Taku Hajikano
初鹿野 卓
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.)
Toshiba Corp
Original Assignee
Toshiba Corp
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 Toshiba Corp filed Critical Toshiba Corp
Priority to JP60140546A priority Critical patent/JPS622720A/en
Publication of JPS622720A publication Critical patent/JPS622720A/en
Pending legal-status Critical Current

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

Abstract

PURPOSE:To decrease the number of surface acoustic wave voltage control oscillators SAW-VCO by driving selectively the SAW-VCO which satisfies desired oscillation frequency in consideration of the variation of an oscillation frequency range owing to the temperature in a working mode. CONSTITUTION:A temperature sensor 8 consisting of a temperature-sensitive element like a thermistor, etc. is newly provided in addition to a reference signal generator 1, a phase comparator 2, a loop filter 3, the SAW-VCO 4A-4N, a variable divider 5, a selection command circuit 6 and a changeover switch 7. The oscillation frequency range of the SAW-VCO 4A-4N is set at 5MHz respectively. Thus each SAW-VCO has the + or -1.728MHz change of the oscillation frequency range centering on +20 deg.C owing to the frequency temperature characteristics when those SAW-VCO are actuated in a -40 deg.C-+80 deg.C temperature range. Thus, the SAW-VCO 4A-4N which have oscillations 795-800MHz, 800-805MHz, 805-810MHz and 810-815MHz respectively at +20 deg.C have the oscillation frequency ranges as shown in a table 1 with each working temperature limit of -40 deg.C and +80 deg.C.

Description

【発明の詳細な説明】 〔発明の技術分野〕 本発明は、弾性表面波共振子によって構成される複数の
電圧制御発振器を用いた周波数シンセサイザに関する。
DETAILED DESCRIPTION OF THE INVENTION [Technical Field of the Invention] The present invention relates to a frequency synthesizer using a plurality of voltage controlled oscillators constituted by surface acoustic wave resonators.

〔発明の技術的背景〕[Technical background of the invention]

今日、周波数シンセサイザ等に用いられる電圧制御発振
器(Voltage Controlled 0sci
llator :以下VCOと略す)を構成する発振素
子として弾性表面波共振子(Surface Acou
stic Wave Ra5onator :以下SA
W共撮子と略す)が注目を集めている。
Today, voltage controlled oscillators are used in frequency synthesizers, etc.
A surface acoustic wave resonator (Surface Acoustic Wave Resonator) is used as an oscillation element constituting a llator (hereinafter abbreviated as VCO).
Stic Wave Ra5onator: SA
(abbreviated as W Kyōtsuko) is attracting attention.

第3図はこのSAW共振子により構成される1個のVC
O@用いた周波数シンセサイザの1例を示したものであ
シ、基準信号発生器1、位相比較器2、ルー!74 k
l 3.5AW−VCO4、可変分周器5が具備されて
いる。前記基準信号発生器1から出力される基準信号は
位相比較器2に入力され、当該位相比較器2へ前記可変
分周器5を通じ、指定された分周比で帰還入力する5A
W−VCO4の出力と位相差の比較がなされる。この位
相比較器2の比較結果すなわち位相差出力は、ルーグフ
ィルタ3を通じ制御電圧として前記5AW−VCO4に
入力される。
Figure 3 shows one VC configured by this SAW resonator.
This is an example of a frequency synthesizer using O@, reference signal generator 1, phase comparator 2, Lu! 74k
l A 3.5AW-VCO 4 and a variable frequency divider 5 are provided. The reference signal output from the reference signal generator 1 is input to a phase comparator 2, and fed back to the phase comparator 2 through the variable frequency divider 5 at a specified frequency division ratio.
The output of the W-VCO 4 and the phase difference are compared. The comparison result of the phase comparator 2, that is, the phase difference output, is inputted to the 5AW-VCO 4 as a control voltage through the Roog filter 3.

ここで5AW−VCO4は、前記ルーグフィルタ3から
入力される制御電圧に応じた前記位相差をなくするよう
な周波数の信号を出力する。係る制御動作を前記可変分
局器5の分周比を任意に可変させつつ実行することによ
って出力端子T。utに所望とする周波数の出力信号を
得るようにしている。ところで、上述したSAW共振子
は、VCOを構成する場合においてLC発振器に比較し
て高C/N比(Carrler−to−Noise P
ower ratio)化、低消費電流76に優れてい
る反面、変調感度がとりにくいという特質を合せもって
いる。具体的な例として400 PvfHz帯での変調
感度はおおよそI MHz/V程度であシ、この条件を
動作制御電圧範囲を4vとする5AW−VCOで考える
とき、上記400 MHz帯で4 MHzの発振周波数
範囲しかカバーできないことKなる。このためより広い
発振周波数範囲金力バーできる周波数シンセサイザの要
望に対し、従来では、第4図に示すように連続する各発
振周波数範囲が個別に割当てられた複数の5AW−VC
O4a〜4nを用いることにより上記要望に対処してい
た。すなわち、第4図の周波数シンセサイザでは、所望
する周波数の信号の出力要求に対し、選択指令回路6か
ら可変分周器5および切換スイッチ7へそれぞれ当該周
波数に対応する分周比の設定を指令および当該周波数を
発振範囲とする5AW−VCO4a〜4nの選択指令を
与え、当該指令にもとづき設定された分局比をもって選
択された5AW−VCO4a〜4nを駆動することによ
り、上記所望とする周波数の出力信号を出力端子T。u
tに得るようにしている。このように複数の5AW−V
Co 4 a〜4nを用いることによって広い発振周波
数範囲を得るような周波数シンセサイザでは、当該5A
W−VCO4a〜4nの個数選定にあたシ前記SAW共
振子のもつ周波数温度特性が重大な影響を与えている。
Here, the 5AW-VCO 4 outputs a signal with a frequency that eliminates the phase difference according to the control voltage input from the Roog filter 3. By performing such control operation while arbitrarily varying the frequency division ratio of the variable divider 5, the output terminal T. An output signal of a desired frequency is obtained at ut. By the way, the above-mentioned SAW resonator has a high C/N ratio (Carrler-to-Noise P
Although it is excellent in terms of higher ratio) and low current consumption 76, it also has the characteristic of being difficult to maintain modulation sensitivity. As a specific example, the modulation sensitivity in the 400 PvfHz band is approximately I MHz/V, and when considering this condition for a 5AW-VCO with an operation control voltage range of 4V, 4 MHz oscillation in the 400 MHz band This means that only the frequency range can be covered. For this reason, in response to the demand for a frequency synthesizer capable of a wider oscillation frequency range, conventionally, as shown in Fig. 4, multiple 5AW-VCs to which each consecutive oscillation frequency range is individually assigned
The above requirements were met by using O4a-4n. That is, in the frequency synthesizer shown in FIG. 4, in response to a request to output a signal of a desired frequency, the selection command circuit 6 issues a command to the variable frequency divider 5 and the changeover switch 7 to set a frequency division ratio corresponding to the frequency. By giving a selection command for 5AW-VCO 4a to 4n whose oscillation range is the frequency concerned and driving the selected 5AW-VCO 4a to 4n with a division ratio set based on the command, an output signal of the desired frequency is generated. Output terminal T. u
I try to get it in time. In this way, multiple 5AW-V
In a frequency synthesizer that obtains a wide oscillation frequency range by using Co4a to 4n, the 5A
When selecting the number of W-VCOs 4a to 4n, the frequency-temperature characteristics of the SAW resonators have a significant influence.

すなわち、前記SAW共振子は直線的な周波数温度特性
を有し、具体的な数値として−28,8X 103Hz
/lが確認されている。
That is, the SAW resonator has a linear frequency temperature characteristic, and the specific value is -28.8X 103Hz.
/l has been confirmed.

係る周波数温度特性が1個の5AW−#COに与える影
響を発振周波数範囲5 MHz 、動作温度範囲一40
℃〜+SO℃の5AW−VCOで考えるとき、コノ5A
W−VCOは+20℃を中心として±1.728[:(
−28,8X103)Hz/℃X(手60 ) ℃) 
MHzの発振周波数範囲の増減を生じることになる。し
たがって、上記動作温度範囲(−40℃〜+80℃)内
で動作させるとき、当該温度の影響を受けることなく確
実に確保することのできる1個あたシの5AW−VCO
の発振周波数範囲は、下式よシそれぞれ 5MHz−(2X1.728 )MI(z=1.544
MHzとなるため、この5AW−#COt−用いて例え
ば800MHz帯で10 MHzの発振周波数範囲をカ
バーできる周波数シン・セサイデを構築するためには第
5図に示す如く7個(10MHz / 1.544 M
Hz # 6.5 )の5AW−VCO4a〜4gが必
要であった。
The influence of such frequency temperature characteristics on one 5AW-#CO is as follows: oscillation frequency range: 5 MHz, operating temperature range: -40 MHz
When considering 5AW-VCO from ℃ to +SO℃, Kono 5A
W-VCO is ±1.728[:(
-28,8X103)Hz/℃X(60℃℃)
This results in an increase or decrease in the oscillation frequency range of MHz. Therefore, when operating within the above operating temperature range (-40°C to +80°C), one 5AW-VCO can be used without being affected by the temperature.
The oscillation frequency range of
MHz, so in order to construct a frequency synthesizer that can cover an oscillation frequency range of 10 MHz in the 800 MHz band using this 5AW-#COt-, for example, seven (10 MHz / 1.544 M
Hz #6.5) of 5AW-VCO4a~4g was required.

〔背景技術の問題点〕[Problems with background technology]

このように複数の5AW−VCOを用いることによって
広い発振周波数を確保しようとする周波数シンセサイザ
において、従来では、周波数のみの単一条件に応じて前
記各5AW−VCOを選択的に駆動する構成であったた
め、1個の5AW−VCOにつき利用できる発振周波数
範囲が、SAW共振子のもつ周波数温度特性による上記
動作温度範囲内での変動分を差引いた極めて狭い範囲に
制限され、広い発振周波数を確保できる周波数シンセサ
イザを構築する之めには多数の5AW−VCOが必要と
なシ、形状の大型化、製造コストの高騰を招来するとい
う問題点があった。
Conventionally, in a frequency synthesizer that attempts to secure a wide oscillation frequency by using a plurality of 5AW-VCOs, each of the 5AW-VCOs is selectively driven according to a single condition of frequency. Therefore, the oscillation frequency range that can be used for one 5AW-VCO is limited to an extremely narrow range after subtracting the variation within the above operating temperature range due to the frequency temperature characteristics of the SAW resonator, making it possible to secure a wide oscillation frequency. In order to construct a frequency synthesizer, there are problems in that a large number of 5AW-VCOs are required, resulting in an increase in size and a rise in manufacturing costs.

〔発明の目的〕[Purpose of the invention]

本発明は上記実状に鑑みてなされたものであ垢広い発振
周波数を確保するにあたり、5AW−VCo0数が極力
少なくて済み、外形形状の小型化、製造コストの低廉化
に寄与できる周波数シンセサイザを提供することを目的
とする。
The present invention has been made in view of the above-mentioned circumstances, and provides a frequency synthesizer that can ensure a wide range of oscillation frequencies, requires as few 5AW-VCo0 as possible, contributes to miniaturization of external shape, and reduction in manufacturing costs. The purpose is to

〔発明の概要〕[Summary of the invention]

そこで本発明では新たに温度センサを設け、当該温度セ
ンサにより検出した温度と上記所望とする発振周波数と
の2者の条件にもとづき、当該発振周波数に適合する5
AW−VCOを選択的に駆動するようにしたものであり
、前記検出温度における5AW−VCOの発振周波数範
囲の変動をとらえたうえで駆動する5AW−VCOを決
定することにより、当該sAw−vcoが上述した動作
温度範囲内でもてる発振周波数範囲を最大限に利用でき
るようにしたものである。
Therefore, in the present invention, a temperature sensor is newly provided, and based on the two conditions of the temperature detected by the temperature sensor and the desired oscillation frequency, five
The AW-VCO is selectively driven, and the sAw-VCO is determined by determining the 5AW-VCO to be driven after determining the oscillation frequency range of the 5AW-VCO at the detected temperature. This makes it possible to make maximum use of the oscillation frequency range within the above-mentioned operating temperature range.

〔発明の実施例〕[Embodiments of the invention]

以下、本発明の実施例を添付図面にもとづいて詳細に説
明する。第1図は、本発明に係る周波数シンセサイザの
1実施例を示すプロ、り図であシ、基準信号発生器1、
位相比較器2、ルーダフィルタ3.5AW−VCO4A
 〜4 N 、可変分局器5、選択指令回路6、切換ス
イッチ7に加えて、新たにサーミスタ等の感温素子から
成る温度センサ8が具備されている。係る構成を有する
周波数シンセサイザにおいて、従来のものと同様の条件
す々わち800 MHz帯で10 MHzの発振周波数
範囲を必要とする場合での動作を考えてみる。ここで前
記各5AW−VCO4A〜4Nの発振周波数範囲をそれ
ぞれ5 MHzとし、温度範囲一40℃〜+80℃で動
作させるとき、前記各5AW−VCO4A 〜4 Nは
、上述した周波数温度特性によって+20℃を中心に±
1.728MHzの発振周波数範囲の変化幅を持つこと
になる。
Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. FIG. 1 is a professional diagram showing one embodiment of a frequency synthesizer according to the present invention, including a reference signal generator 1,
Phase comparator 2, Ruder filter 3.5AW-VCO4A
~4N, in addition to the variable branch unit 5, selection command circuit 6, and changeover switch 7, a temperature sensor 8 consisting of a temperature sensing element such as a thermistor is newly provided. Let us consider the operation of a frequency synthesizer having such a configuration under the same conditions as the conventional one, that is, when an oscillation frequency range of 10 MHz in the 800 MHz band is required. Here, when each of the 5AW-VCOs 4A to 4N has an oscillation frequency range of 5 MHz and is operated in a temperature range of -40°C to +80°C, each of the 5AW-VCOs 4A to 4N has an oscillation frequency range of +20°C due to the frequency-temperature characteristics described above. Centered around ±
It has a variation width in the oscillation frequency range of 1.728 MHz.

したがって、例えば+20℃でそれぞれ795〜800
 MHz 、 800〜805 MHz 、 80 !
y=810MHz 、 810〜815 MHzを発振
する各5AW−VCO4八〜4Dは一40℃および+8
0℃の各動作温度限界ではそれぞれ下表に示す如くの発
振周波数範囲で発振することになる。
Therefore, for example, 795-800 respectively at +20°C.
MHz, 800-805 MHz, 80!
y=810MHz, each 5AW-VCO48~4D oscillating 810~815MHz is -40℃ and +8
At each operating temperature limit of 0° C., each device oscillates within the oscillation frequency range shown in the table below.

この動作温度による発振周波数範囲の変動の様子を具体
的に図式化したのが第2図である。上表および第2図か
ら明らかであるように、前記各5AW−”/COA A
 〜4 Nに割当てられた各々5 MHzづつの発振周
波数範囲は、最低動作温度限界−40℃のとき〔第2図
(a)〕には+20℃のとき〔同図(b)〕からそれぞ
れ1.728 MHzづつ上に移動し、当該5AW−V
CO4A〜4Nにより確保できる全発振周波数範囲が7
96.728〜816.728■hに変動するとともに
、逆に最高動作温度限界+80℃のとき〔同図(C)〕
には+20℃のときからそれぞれ1.728MHzづつ
下に移動して、上記全発振周波数範囲が793.272
〜813.272MHzに変動する。これを動作温度範
囲一40℃〜+80℃を通して考えてみると、前記EA
W−VCO4A〜4Nで確保できる全発振周波数範囲は
796.728〜813.272 MHzとなるため、
この4個の5AW−vCO4A〜4Nヲ温度条件に応じ
て選択的に駆動させることによって上述した8 00 
MHz帯で10 MHz (800〜810 MHz 
)の発振周波数範囲をカバーできることになる。例えば
801 MHzの発振周波数の出力信号を所望とする場
合、動作温度が+20℃のときには選択・■によ、95
AW−VCo 4 Bを選択すればこれに対応できるこ
とになるが〔同図(b)〕、動作温度が一40℃のとき
には選択■によりて5AW−#CO4Aを選択しなけれ
ばならない〔同図(a)〕。また動作温度+80cのと
きには選択■によって選択■と同様の5AW−VCo 
4 Bを選択していれば良い〔同図(C)〕。同様に考
えて809 MHzの発振周波数の出力信号を得ようと
するには、動作温度+20℃および一40℃のときには
選択■および■によりて5AW−VCO4Cを選択する
とともに(同図(b)および(、) ) 、動作温度+
80℃のときには選択■によりて5AW−VCO4Dを
選択することによって〔同図(C)〕、上記発振周波数
809 MHzの出力信号を得ることができる。具体的
な制御動作として、例えば、前記温度センサ8により検
出された温度と所望とする発振周波数とにもとづき前記
選択指令回路6のテーブル上で、当該温度で当該発振周
波数を得るに足る5AW−VCO4A〜4Nの選択条件
および可変分周器5の分局比の設定条件を算出するとと
もに、該算出された条件に応じて切換スイッチ7および
可変分局器5を動作させ、これにより設定された分局比
で選択されたSAW’VCOを駆動することによって上
記所望の発振周波数の出力信号を出力端子T。utに得
るようKしている。尚、上側では動作温度+20℃でそ
の発振周波数範囲がそれぞれ795〜800MHz、8
00〜805MHz、805〜810MHz、810〜
815 MHzに区切られるような5AW−VCO4A
 〜4Nを用意したために、800 MHz帯で10 
MHzの発振周波数範囲を確保するために上記4個の5
AW−VCOJ A〜4Nが必要とされたが、例えば、
最低動作温度−40℃でそれぞれ800〜805 MH
z 。
FIG. 2 is a concrete diagram of how the oscillation frequency range varies depending on the operating temperature. As is clear from the above table and FIG.
The oscillation frequency range of 5 MHz each assigned to ~4 N is 1 when the minimum operating temperature limit is -40°C [Fig. 2 (a)] and from +20°C [Fig. 2 (b)]. .728 MHz increments and the corresponding 5AW-V
The total oscillation frequency range that can be secured by CO4A~4N is 7
It fluctuates from 96.728 to 816.728 h, and conversely, when the maximum operating temperature limit is +80°C [Figure (C)]
The total oscillation frequency range is 793.272 by moving down by 1.728 MHz from +20°C.
~813.272MHz. Considering this over the operating temperature range -40°C to +80°C, the EA
The total oscillation frequency range that can be secured by W-VCO4A to 4N is 796.728 to 813.272 MHz, so
The above-mentioned 800
10 MHz in the MHz band (800-810 MHz
) can cover the oscillation frequency range. For example, if you want an output signal with an oscillation frequency of 801 MHz, if the operating temperature is +20°C, select 95
This can be handled by selecting AW-VCo 4B [see figure (b)], but when the operating temperature is 140°C, 5AW-#CO4A must be selected by selection () [see figure (b)]. a)]. Also, when the operating temperature is +80c, 5AW-VCo
4 It is sufficient if B is selected [Figure (C)]. Similarly, in order to obtain an output signal with an oscillation frequency of 809 MHz, when the operating temperature is +20°C and -40°C, select 5AW-VCO4C using selections ■ and ■ ((b) and (,) ), operating temperature +
When the temperature is 80 DEG C., by selecting the 5AW-VCO4D using selection (2) [FIG. 4(C)], the output signal with the oscillation frequency of 809 MHz can be obtained. As a specific control operation, for example, based on the temperature detected by the temperature sensor 8 and the desired oscillation frequency, select 5AW-VCO 4A sufficient to obtain the oscillation frequency at the temperature on the table of the selection command circuit 6. -4N selection conditions and the setting conditions for the division ratio of the variable frequency divider 5 are calculated, and the changeover switch 7 and the variable division divider 5 are operated according to the calculated conditions, thereby achieving the set division ratio. By driving the selected SAW'VCO, an output signal of the desired oscillation frequency is output to the output terminal T. I'm trying to get it right. In addition, on the upper side, the oscillation frequency range is 795 to 800 MHz and 8, respectively, at an operating temperature of +20°C.
00~805MHz, 805~810MHz, 810~
5AW-VCO4A as divided into 815 MHz
~10 in the 800 MHz band because we prepared ~4N.
In order to secure the oscillation frequency range of MHz, the above four
AW-VCOJ A~4N was required, for example,
800~805 MH respectively at minimum operating temperature -40℃
z.

805〜810MHz 、 810〜815MHzの発
振周波数範囲を持つような3個の5AW−VCOを用意
すると、これら各5AW−VCOは最高動作温度+80
℃のときにそれぞれ796.544〜801.544M
Hz、801.544〜806.544MHz、806
.544〜811.544MHzを発振するため、動作
温度範囲一40℃〜+80℃での発振周波数範囲は79
6.544〜811.544MHzとなシ、最低これら
3個の5AW−VCOがあれば800MHz帯で10 
ME(z (800〜810 MHz )の発振周波数
範囲を確保することができることになる。
If you prepare three 5AW-VCOs with oscillation frequency ranges of 805-810MHz and 810-815MHz, each of these 5AW-VCOs will have a maximum operating temperature of +80
796.544 to 801.544M respectively at °C
Hz, 801.544-806.544MHz, 806
.. Since it oscillates from 544 to 811.544 MHz, the oscillation frequency range in the operating temperature range -40℃ to +80℃ is 79.
6.544~811.544MHz, at least 10 in the 800MHz band with these three 5AW-VCOs.
This means that the oscillation frequency range of ME(z (800 to 810 MHz)) can be secured.

〔発明の効果〕 以上説明したように本発明の周波数シンセサイザによれ
ば、動作時の温度による発振周波数範囲の変動を加味し
たうえで所望とする発振周波数を満足する5AW−VC
Oを選択的に駆動するようにしたため、前記発振周波数
のみの単一条件によfiSAW−vCOを選択駆動して
いた従来の周波数シンセサイザに比べ前記5AW−vc
oのもつ発振周波数範囲をよシ広く利用することができ
、広い発振周波数範囲を確保できる周波数シンセサイザ
を構築するうえに用いる5AW−VCOの数が極力少数
で済むことから、外形形状の小型化、製造コストの低廉
化には特に有用であるという優れた利点を有する。
[Effects of the Invention] As explained above, according to the frequency synthesizer of the present invention, the 5AW-VC which satisfies the desired oscillation frequency after taking into account the fluctuation of the oscillation frequency range due to the temperature during operation.
Since the 5AW-vCO is selectively driven, compared to the conventional frequency synthesizer that selectively drives the fiSAW-vCO based on a single condition of only the oscillation frequency, the 5AW-vCO is selectively driven.
The oscillation frequency range of o can be used more widely, and the number of 5AW-VCOs used to construct a frequency synthesizer that can secure a wide oscillation frequency range can be as small as possible. It has the excellent advantage of being particularly useful for reducing manufacturing costs.

【図面の簡単な説明】[Brief explanation of the drawing]

第1図は、本発明に係る周波数シンセサイザの一実施例
を示すブロック図、第2図は、この周波数シンセサイザ
における動作温度に対する発振周波数範囲の変動の様子
を示す模式図、第3図および第4図は、それぞれ従来の
周波数シンセサイザの構成例を示すブロック図、第5図
は、第4図に示した周波数シンセサイザにおける各5A
W−vCOが分担する発振周波数範囲を示す概念図であ
る。 1・・・基準信号発生器、2・・・位相比較器、3・・
・ループフィルタ、4,48〜4n、4A〜4N・・・
5AW−VCo 、  5・・・可変分局器、6・・・
選択指令回路、7・・・切換スイッチ、8・・・温度セ
ンサ。
FIG. 1 is a block diagram showing an embodiment of a frequency synthesizer according to the present invention, FIG. 2 is a schematic diagram showing how the oscillation frequency range varies with operating temperature in this frequency synthesizer, and FIGS. Each figure is a block diagram showing an example of the configuration of a conventional frequency synthesizer, and FIG. 5 shows each 5A in the frequency synthesizer shown in FIG.
It is a conceptual diagram showing the oscillation frequency range shared by W-vCO. 1... Reference signal generator, 2... Phase comparator, 3...
・Loop filter, 4, 48~4n, 4A~4N...
5AW-VCo, 5... variable branching unit, 6...
Selection command circuit, 7... changeover switch, 8... temperature sensor.

Claims (1)

【特許請求の範囲】[Claims] 弾性表面波素子より構成され、連続した異なる発振周波
数が個別に割当てられる複数の電圧制御発振器と、該電
圧制御発振器の動作時の環境温度を検出する温度センサ
と、当該温度センサにより検出された温度にもとづき当
該温度による前記電圧制御発振器の発振周波数範囲の変
動を算出するとともに、当該算出された変動条件のもと
で所望とする発振周波数に対応する発振周波数範囲を有
する前記電圧制御発振器を選択して駆動する制御手段と
を具備することを特徴とする周波数シンセサイザ。
A plurality of voltage-controlled oscillators that are composed of surface acoustic wave elements and to which successive different oscillation frequencies are individually assigned, a temperature sensor that detects the environmental temperature during operation of the voltage-controlled oscillator, and a temperature detected by the temperature sensor. Based on the temperature, the variation in the oscillation frequency range of the voltage controlled oscillator is calculated, and the voltage controlled oscillator having the oscillation frequency range corresponding to the desired oscillation frequency is selected under the calculated variation conditions. A frequency synthesizer comprising: a control means for driving the frequency synthesizer.
JP60140546A 1985-06-28 1985-06-28 Frequency synthesizer Pending JPS622720A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP60140546A JPS622720A (en) 1985-06-28 1985-06-28 Frequency synthesizer

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP60140546A JPS622720A (en) 1985-06-28 1985-06-28 Frequency synthesizer

Publications (1)

Publication Number Publication Date
JPS622720A true JPS622720A (en) 1987-01-08

Family

ID=15271188

Family Applications (1)

Application Number Title Priority Date Filing Date
JP60140546A Pending JPS622720A (en) 1985-06-28 1985-06-28 Frequency synthesizer

Country Status (1)

Country Link
JP (1) JPS622720A (en)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH0677950A (en) * 1992-06-26 1994-03-18 Internatl Business Mach Corp <Ibm> Synchronous clock distribution system
US6335815B1 (en) 1997-05-16 2002-01-01 Nec Corporation Optical receiver

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH0677950A (en) * 1992-06-26 1994-03-18 Internatl Business Mach Corp <Ibm> Synchronous clock distribution system
US6335815B1 (en) 1997-05-16 2002-01-01 Nec Corporation Optical receiver

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