JP2946632B2 - FM modulation circuit - Google Patents

Description

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.

[Summary of the Invention]

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.

[Conventional technology]

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.

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.

In a process of removing an unnecessary luminance signal, there is known a technology in which various signals necessary for the process are digitized.

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

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.

Therefore, the primary sideband component of the signal (Y) is trapped by the feedforward control of the adder (7b) and the BPF (12).

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).

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).

In the circuit (7d), the value of the input signal is squared (the frequency is doubled) and output.

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.

In this case, the center frequency of the BPF (14) is It is.

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).

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.

[Problems to be solved by the invention]

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.

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.

[Means for solving the problem]

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.

[Action]

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.

〔Example〕

Hereinafter, preferred embodiments of an FM modulation circuit according to the present invention will be described with reference to the drawings.

In FIG. 1, the same portions as those in FIG. 2 are denoted by the same reference numerals, and description thereof will be omitted.

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).

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.

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).

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).

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.

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).

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).

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.

〔The invention's effect〕

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.

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.

[Brief description of the drawings]

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) [Claims] 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.