KR930007375Y1 - Frequency converting circuit for fm carrier - Google Patents

Abstract

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Description

FM modulation carrier frequency conversion circuit

1 is a block diagram of the present invention.

2 is an implementation circuit diagram of the present invention.

* Explanation of symbols for main parts of the drawings

10: system control unit 20: current source unit

30: frequency converter 40: preamp

50: FM modulator Q1, Q2: transistor

R1-R3: resistor VR1: variable resistor

The present invention relates to an FM modulated carrier frequency conversion circuit in which a VTR recording / reproducing circuit shifts the FM carrier frequency to 4.4 MHz during repeated editing to prevent deterioration of FM frequency characteristics.

In the conventional VTR, the FM carrier frequency was used at 3.4 MHz during recording and playback. Thus, when repeated editing, the frequency characteristics deteriorated, and thus the recording and playback screen was not clear.

In other words, the FM carrier frequency is fixed at 3.4 MHz in the existing VTR, but it is irrelevant during normal playback and recording. However, in the case of the editing mode in which a certain part is repeatedly recorded, the frequency characteristics deteriorate and the resolution of the screen is lower than the original screen.

Therefore, in the case of the editing mode of the VTR, the FM carrier frequency is shifted to 4.4 MHz to prevent the frequency characteristic from falling while recording and reproducing high frequency components, so that even if a lot of editing is performed, the recording is recorded at the same resolution as the original screen.

In other words, in the VTR recording and playback, the FM carrier frequency is fixed to 3.4 MHz in the general mode and the FM carrier frequency is shifted to 4.4 MHz by shifting the FM carrier frequency by 1 MHz in the editing mode in which a certain portion is repeatedly recorded and reproduced. This is to prevent deterioration of characteristics.

As described above, the present invention, which aims to adjust the amount of current so that the carrier frequency of the FM modulation frequency can be shifted by 1 MHz during the editing mode of the VTR, is described in detail as follows.

The present invention provides a system control unit 10 for outputting a high level edit control signal in the edit mode of the VTR, and a current source unit 20 driven by the edit control signal of the system control unit 10 and increasing the amount of current. And a frequency converter 30 for shifting the FM carrier frequency by 1 MHz by receiving current supplied from the current source unit 20, and a preamplifier 40 for amplifying the shifted FM carrier frequency of the frequency converter 30. It is composed.

In addition, the current source unit 20 controls the transistor Q1 of which the bias is set by the resistors R1 and R2 and the diode D1, and the emitter output of the transistor Q1 by the system controller 10. It is composed of a transistor (Q2) for switching and output by a signal and the frequency converter 30 is added to the amount of current supplied through the transistor (Q2) to the amount of current set by the variable resistor (R1) to the FM modulator 50 And is applied to shift the carrier frequency of the FM modulation frequency.

In this case, the edit control signal applied to the base of the transistor Q2 is applied by the system control unit 10 at the high level in the edit mode and at the low level in the other modes.

In the present invention configured as described above, in a mode other than the edit mode, since the low level edit control signal is applied to the base of the transistor Q2 by the system controller 10, the transistor Q2 is 'turned off' so that the current source unit 20 ) Is not supplied to the frequency converter 30.

Therefore, the FM carrier frequency of the FM modulator 50 is determined by the resistance value of the variable resistor VR1, and the once determined FM carrier frequency is kept constant.

That is, the amount of current applied to the FM modulator 50 is kept constant according to the resistance value of the variable resistor VR1 and the FM carrier frequency of the FM modulator 50 is determined by the amount of current determined by the variable resistor VR1. Is kept constant.

However, as described above, the editing mode for repeatedly recording and reproducing a portion of the FM carrier with a constant frequency (3.4 MHz) was operated, and the frequency characteristics could not be prevented from being deteriorated.

Therefore, in the present invention, the current source unit 20 is configured to increase the amount of current supplied to the FM modulator 50 during the edit mode, thereby preventing the deterioration of frequency characteristics by shifting the FM carrier frequency by 1 MHz during the edit mode. .

That is, during the edit mode, the system control unit 10 applies the high level edit control signal to the base of the transistor Q2 so that the transistor Q2 of the current source unit 20 is 'turned on' during the edit mode.

At this time, the transistor Q1 is always 'turned on' by the bias voltage supply by the resistors R1 and R2 and the diode D1 to allow a certain amount of current to flow to the emitter side of the transistor Q1.

That is, the transistor Q1 of the current source unit 20 is always turned 'on' and outputs a certain amount of current to the emitter side. When the transistor Q2 is 'turned on' (in edit mode), the transistor Q1 is turned on. The emitter side current of is output through the 'turned on' transistor Q2 and the current output to the emitter side of the transistor Q2 is applied to the FM modulator 50.

Accordingly, since the amount of current controlled by the variable resistor VR1 and the amount of current applied through the transistor Q2 are supplied to the FM modulator 50, the FM carrier frequency is shifted by 1 MHz to be 4.4 MHz.

In this case, the variable resistor VR1 is set such that only the amount of current determined by the variable resistor VR1 is 3.4 MHz, and when the current flowing through the transistor Q1 is applied due to the 'turn on' of the transistor Q2, the FM carrier frequency is applied. The amount of current flowing through the transistor Q1 is adjusted to be 4.4 MHz.

That is, the amount of current flowing through the transistor Q1 is applied to the FM modulator 50 when the transistor Q2 is 'turned on', so that the existing FM carrier frequency is shifted from 3.4 MHz to 1 MHz to be 4.4 MHz.

Therefore, in a state other than the edit mode, only the current controlled by the variable resistor VR1 is applied to the FM modulator 50 to set the carrier frequency of the FM modulation frequency to 3.4 MHz, and the current amount of the current source unit 20 in the edit mode. Since the carrier frequency of the FM modulation frequency is set to 4.4 MHz by setting it as the supply, the frequency characteristic deterioration is prevented during editing mode, and the same screen as the original screen can be recorded and reproduced.

As described above, the present invention is capable of recording and reproducing high frequency components by shifting the FM carrier frequency by 1 MHz by increasing the amount of current of the FM modulator in the editing mode during the recording and reproducing of the VTR, while preventing the deterioration of the frequency characteristics. It has the effect of recording and playing back on the screen equally.

Claims (2)

A system control unit 10 for recognizing the edit mode of the VTR and outputting an edit control signal, a current source unit 20 driven by the edit control signal of the system control unit 10 and supplying a predetermined amount of current, and A frequency converter 30 for shifting the FM carrier frequency by 1 MHz by supplying the current amount from the current source unit 20, and a preamplifier 40 for amplifying the shifted FM carrier frequency of the frequency converter 30. FM modulation carrier frequency conversion circuit. The current control unit of claim 1, wherein the current source unit 20 includes a transistor Q1 connected to resistors R1 and R2 and a diode D1 to supply a predetermined amount of current, and a system control unit to output an output of the transistor Q1. And the output current of the transistor Q2 is added to the current determined by the variable resistor VR1 to be applied to the FM modulator 50 by the edit control signal of (10). An FM modulated carrier frequency converting circuit comprising the frequency converting section 30.