JP2946632B2 - FM modulation circuit - Google Patents

FM modulation circuit

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Publication number
JP2946632B2
JP2946632B2 JP2124780A JP12478090A JP2946632B2 JP 2946632 B2 JP2946632 B2 JP 2946632B2 JP 2124780 A JP2124780 A JP 2124780A JP 12478090 A JP12478090 A JP 12478090A JP 2946632 B2 JP2946632 B2 JP 2946632B2
Authority
JP
Japan
Prior art keywords
signal
band
circuit
luminance signal
level
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
Application number
JP2124780A
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Japanese (ja)
Other versions
JPH0420116A (en
Inventor
繁 雁瀬
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.)
Sony Corp
Original Assignee
Sony 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 Sony Corp filed Critical Sony Corp
Priority to JP2124780A priority Critical patent/JP2946632B2/en
Publication of JPH0420116A publication Critical patent/JPH0420116A/en
Application granted granted Critical
Publication of JP2946632B2 publication Critical patent/JP2946632B2/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

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  • Television Signal Processing For Recording (AREA)

Description

【発明の詳細な説明】 〔産業上の利用分野〕 本発明は、FM変調された輝度信号、色信号、音声信号
が記録されるVTR等への装備に好適なFM変調回路に関す
る。Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an FM modulation circuit suitable for equipment in a VTR or the like in which an FM-modulated luminance signal, color signal, and audio signal are recorded.

〔発明の概要〕[Summary of the Invention]

本発明は、FM変調された輝度信号、色信号、音声信号
が記録されるVTR等への装備に好適なFM変調回路に関
し、輝度信号が入力されるFM変調器の前段に、輝度信号
のサイドバンド抑圧回路が設けられるとともに、その回
路が輝度信号のレベルに対応させて変化される構成によ
り、輝度信号の帯域(画質)が劣化されることなく、色
信号、音声信号に対して妨害信号となる輝度信号の低域
成分が確実に除去されるようにしたものである。The present invention relates to an FM modulation circuit suitable for installation in a VTR or the like in which an FM-modulated luminance signal, a chrominance signal, and an audio signal are recorded. A band suppression circuit is provided, and the circuit is changed in accordance with the level of the luminance signal, so that the band of the luminance signal (image quality) is not degraded and the color signal and the audio signal are not affected by the interference signal. The low-frequency component of the luminance signal is reliably removed.

〔従来の技術〕[Conventional technology]

例えばVTRでは、輝度信号、色信号、音声信号がFM変
調されて記録され、色信号、音声信号は輝度信号の周波
数帯域よりも下の帯域に記録される。For example, in a VTR, a luminance signal, a color signal, and an audio signal are FM-modulated and recorded, and the color signal and the audio signal are recorded in a band lower than a frequency band of the luminance signal.

従って、輝度信号が色信号、音声信号に重畳される不
都合が生じ得るため、重畳のおそれがある輝度信号は予
め除去されてFM変調される。Therefore, a problem may occur in which the luminance signal is superimposed on the chrominance signal and the audio signal. Therefore, the luminance signal which may be superimposed is removed in advance and FM-modulated.

そして、不要な輝度信号が除去される処理において
は、その処理に必要な各種信号がディジタル化されて行
なわれる技術が知られている。In a process of removing an unnecessary luminance signal, there is known a technology in which various signals necessary for the process are digitized.

この場合、第2図から理解されるように、A/D変換器
(3)でディジタル信号化されたアナログ映像信号は、
所定の処理(Yプロセス)が回路(5)で行なわれて輝
度信号(Y)が分離され、サイドバンド抑圧回路(7)
に入力される。In this case, as understood from FIG. 2, the analog video signal converted into a digital signal by the A / D converter (3) is
A predetermined process (Y process) is performed in a circuit (5) to separate a luminance signal (Y), and a sideband suppression circuit (7)
Is input to

回路(7)には、信号(Y)が入力される加算器(7
b)が設けられ、加算器(7b)には、帯域通過フィルタ
(BPF)(12)に入力された信号(Y)が、その極性を
反転させて入力される。The adder (7) to which the signal (Y) is input is input to the circuit (7).
b) is provided, and the signal (Y) input to the band-pass filter (BPF) (12) is input to the adder (7b) with its polarity inverted.

従って、それら加算器(7b)とBPF(12)とのフィー
ドフォワード制御により、信号(Y)の1次サイドバン
ド成分がトラップされる。Therefore, the primary sideband component of the signal (Y) is trapped by the feedforward control of the adder (7b) and the BPF (12).

この場合、重畳されるおそれのある低域信号の周波数
をfs、信号(Y)のキャリア周波数をfcとすると、BPF
(12)の中心周波数f1は、(fc−fs)となる。In this case, frequency f s of the low frequency signal that may be superimposed, when the carrier frequency of the signal (Y) and f c, BPF
Center frequency f 1 of the (12) becomes (f c -f s).

次に、加算器(7b)の出力は加算器(7f)に入力さ
れ、加算器(7f)には、BPF(14)、演算回路(7d)、
およびアッテネータ(7e)を介して加算器(7b)の出力
信号が入力される。Next, the output of the adder (7b) is input to the adder (7f). The adder (7f) has a BPF (14), an arithmetic circuit (7d),
And an output signal of the adder (7b) via the attenuator (7e).

なお、回路(7d)では、入力信号の値が2乗されて
(周波数が2倍になる)出力される。In the circuit (7d), the value of the input signal is squared (the frequency is doubled) and output.

従って、それら加算器(7f)、BPF(14)等によるフ
ィードフォワード制御により、信号(Y)の2次サイド
バンド成分がトラップされ、トラップされた1次サイド
バンド成分によりキャンセル(除去)される。Therefore, the secondary sideband component of the signal (Y) is trapped by feedforward control by the adder (7f), the BPF (14), and the like, and is canceled (removed) by the trapped primary sideband component.

この場合、BPF(14)の中心周波数は である。In this case, the center frequency of the BPF (14) is It is.

このようにして、抑圧された信号(Y)はFM変調器
(FM MOD)(9)でFM変調され、D/A変換器(11)でア
ナログ信号に変換される。Thus, the suppressed signal (Y) is FM-modulated by the FM modulator (FM MOD) (9) and is converted into an analog signal by the D / A converter (11).

そして、キャリア周波数fcは、信号(Y)の明るさ
(レベル)で上下に変化し、それに伴って除去する信号
成分の周波数も上下に変化するため、BPF(12),(1
4)はその変化に対応可能な帯域特性に設定される。Since the carrier frequency f c is the signal (Y) varies up and down brightness (level) of also varies up and down the frequency of the signal component to be removed along with it, BPF (12), (1
4) is set to a band characteristic that can respond to the change.

〔発明が解決しようとする課題〕[Problems to be solved by the invention]

そのため、BPF(12),(14)の帯域が広くなり(例
えば、値0MHz〜値14MHz)、信号(Y)の帯域が劣化
し、画質劣化の原因となる。For this reason, the bandwidth of the BPFs (12) and (14) is widened (for example, a value of 0 MHz to 14 MHz), and the bandwidth of the signal (Y) is deteriorated, which causes image quality deterioration.

本発明の目的は、サイドバンド抑圧回路に設けられる
帯域通過フィルタの帯域が小さく設定可能とされ、輝度
信号の帯域(画質)を劣化させることなく不都合な輝度
信号成分が確実に除去されるFM変調回路を提供すること
にある。SUMMARY OF THE INVENTION An object of the present invention is to provide an FM modulation system in which a band of a band-pass filter provided in a sideband suppression circuit can be set to be small, and an undesired luminance signal component is reliably removed without deteriorating a luminance signal band (image quality). It is to provide a circuit.

〔課題を解決するための手段〕[Means for solving the problem]

上記目的を達成するために、本発明に係るFM変調回路
は、 中心周波数が可変とされた帯域通過フィルタ(7a)
(7c)が備えられ、輝度信号(Y)が入力されるFM変調
器(9)の前段に設けられて、該輝度信号(Y)のサイ
ドバンドが抑圧されるサイドバンド抑圧回路(7)と、 上記輝度信号(Y)のレベルが検出されるレベル検出
回路(13)と、 上記レベル検出回路(13)の検出出力信号に対応させ
て、上記帯域通過フィルタ(7a)(7c)の中心周波数が
変化される中心周波数制御回路(13)(7a)(7c)と、 を有することを特徴とする。In order to achieve the above object, an FM modulation circuit according to the present invention comprises a band-pass filter (7a) having a variable center frequency.
(7c), which is provided before the FM modulator (9) to which the luminance signal (Y) is input, and which suppresses a sideband of the luminance signal (Y). A level detection circuit (13) for detecting the level of the luminance signal (Y); and a center frequency of the band-pass filters (7a) and (7c) corresponding to a detection output signal of the level detection circuit (13). And a center frequency control circuit (13), (7a), (7c) in which is changed.

〔作用〕[Action]

本発明に係るFM変調回路では、輝度信号のレベルに対
応させて、サイドバンド抑圧回路に設けられる帯域通過
フィルタの中心周波数が変化される。In the FM modulation circuit according to the present invention, the center frequency of the band-pass filter provided in the sideband suppression circuit is changed according to the level of the luminance signal.

〔実施例〕〔Example〕

以下、本発明に係るFM変調回路の好適な実施例を、図
面に基いて説明する。Hereinafter, preferred embodiments of an FM modulation circuit according to the present invention will be described with reference to the drawings.

なお、第1図において、第2図と同一部分には同一符
号を付し、その説明は省略する。In FIG. 1, the same portions as those in FIG. 2 are denoted by the same reference numerals, and description thereof will be omitted.

第1図において、本発明が適用されたFM変調回路
(1)は、FM変調器(9)の前段に設けられたサイドバ
ンド抑圧回路(7)と、信号(Y)のレベルが検出され
る検出回路(13)とを主体として構成されている。In FIG. 1, an FM modulation circuit (1) to which the present invention is applied detects a level of a signal (Y) and a sideband suppression circuit (7) provided in a preceding stage of an FM modulator (9). It mainly comprises a detection circuit (13).

そして、回路(7)に設けられたBPF(7a),(7c)
は、その中心周波数が可変とされており、回路(13)の
低域通過フィルタ(LPF)(13a)、検出部(13b)を介
して入力される信号(Y)のレベルによって、BPF(7
a),(7c)の中心周波数(すなわち、除去される周波
数)が変化される。The BPFs (7a) and (7c) provided in the circuit (7)
Has a variable center frequency, and the BPF (7) varies depending on the level of the signal (Y) input through the low-pass filter (LPF) (13a) and the detection unit (13b) of the circuit (13).
The center frequencies of a) and (7c) (that is, the frequencies to be removed) are changed.

すなわち、LPF(13a)では、信号(Y)の高域成分が
除去されて直流信号の値に相当するディジタル信号のパ
ルス列(DC)となり、そのパルス列(DC)がレベル(信
号(Y)の明るさ)として検出部(13b)で検出され
る。That is, in the LPF (13a), the high-frequency component of the signal (Y) is removed to form a pulse train (DC) of a digital signal corresponding to the value of the DC signal, and the pulse train (DC) has the level (brightness of the signal (Y)) Is detected by the detection unit (13b).

この場合、検出部(13b)での検出出力信号の値が大
小に変化することと、信号(Y)のキャリア周波数fc
上下に変化することとが対応しており、パルス列(DC)
の変化に対応させて、BPF(7a),(7c)の中心周波数
が変化される(中心周波数制御回路)。In this case, the possible values of the detection output signal of the detection unit (13b) is changed to the size, and the fact that the carrier frequency f c of the signal (Y) varies vertically correspond, the pulse train (DC)
The center frequencies of the BPFs (7a) and (7c) are changed in accordance with the change of (center frequency control circuit).

以上説明したように、本実施例では、信号(Y)の明
るさ(パルス列(DC)のレベル)に対応させて、BPF(7
a),(7c)の中心周波数が変化される。As described above, in this embodiment, the BPF (7) is set in correspondence with the brightness of the signal (Y) (the level of the pulse train (DC)).
The center frequencies of a) and (7c) are changed.

従って、BPF(7a),(7c)の帯域が小さく設定され
ている場合(例えば、値0MHz〜値5MHz)においても、キ
ャリア周波数fcの変化に対応することが可能となる。Therefore, BPF (7a), it is possible also corresponds to a change of the carrier frequency f c in the case where the band of (7c) is set small (for example, a value 0MHz~ value 5 MHz).

その結果、信号(Y)の帯域(画質)が劣化されるこ
となく、色信号、音声信号に対して妨害成分となる不都
合な信号(Y)の成分が確実に除去される。As a result, an undesired signal (Y) component, which is a disturbing component to the color signal and the audio signal, is reliably removed without deteriorating the band (image quality) of the signal (Y).

なお、必要に応じて加算器(7f)の後段に、3次サイ
ドバンド、4次サイドバンド・・・の妨害成分を除去す
るためのサイドバンド抑圧回路を順次設けることも好適
である。It is also preferable to sequentially provide a side band suppression circuit for removing interference components of the tertiary side band, the fourth side band,... After the adder (7f) as necessary.

〔発明の効果〕〔The invention's effect〕

以上の説明で理解されるように、本発明に係るFM変調
回路では、輝度信号のレベルに対応させて、サイドバン
ド抑圧回路に設けられる帯域通過フィルタの中心周波数
が変化される。As understood from the above description, in the FM modulation circuit according to the present invention, the center frequency of the band-pass filter provided in the sideband suppression circuit is changed according to the level of the luminance signal.

従って、帯域通過フィルタの帯域が小さくとれるた
め、輝度信号の帯域(画質)を劣化させることなく、不
要な輝度信号が確実に除去される。Therefore, since the band of the band-pass filter can be reduced, unnecessary luminance signals are reliably removed without deteriorating the band (image quality) of the luminance signals.

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

第1図は、本発明に係るFM変調回路の好適な実施例の構
成図、第2図は、従来例の構成図である。 (1)はFM変調回路、(7)はサイドバンド抑圧回路、
(9)はFM変調器、(7a),(7c)はBPF、(13)は検
出回路である。FIG. 1 is a block diagram of a preferred embodiment of an FM modulation circuit according to the present invention, and FIG. 2 is a block diagram of a conventional example. (1) FM modulation circuit, (7) sideband suppression circuit,
(9) is an FM modulator, (7a) and (7c) are BPFs, and (13) is a detection circuit.

Claims (1)

(57)【特許請求の範囲】(57) [Claims] 【請求項1】中心周波数が可変とされた帯域通過フィル
タが備えられ、輝度信号が入力されるFM変調器の前段に
設けられて、該輝度信号のサイドバンドが抑圧されるサ
イドバンド抑圧回路と、 上記輝度信号のレベルが検出されるレベル検出回路と、 上記レベル検出回路の検出出力信号に対応させて、上記
帯域通過フィルタの中心周波数が変化される中心周波数
制御回路と、 を有することを特徴とするFM変調回路。A band-pass filter having a variable center frequency, provided at a stage preceding an FM modulator to which a luminance signal is input, for suppressing a side band of the luminance signal; A level detection circuit that detects a level of the luminance signal; and a center frequency control circuit that changes a center frequency of the band-pass filter in accordance with a detection output signal of the level detection circuit. FM modulation circuit.
JP2124780A 1990-05-15 1990-05-15 FM modulation circuit Expired - Fee Related JP2946632B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP2124780A JP2946632B2 (en) 1990-05-15 1990-05-15 FM modulation circuit

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP2124780A JP2946632B2 (en) 1990-05-15 1990-05-15 FM modulation circuit

Publications (2)

Publication Number Publication Date
JPH0420116A JPH0420116A (en) 1992-01-23
JP2946632B2 true JP2946632B2 (en) 1999-09-06

Family

ID=14893934

Family Applications (1)

Application Number Title Priority Date Filing Date
JP2124780A Expired - Fee Related JP2946632B2 (en) 1990-05-15 1990-05-15 FM modulation circuit

Country Status (1)

Country Link
JP (1) JP2946632B2 (en)

Also Published As

Publication number Publication date
JPH0420116A (en) 1992-01-23

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