KR19990031705A - Main PCB Inspection Device with Improved Hi-Fi Voice Signal Carrier Frequency Separation Circuit - Google Patents

Abstract

The present invention provides a main PCB inspection device having an improved hi-fi voice signal carrier frequency separation circuit.

The main PCB inspection apparatus having the improved hi-fi audio signal carrier frequency separation circuit includes a main PCB including various components for video and audio processing of a video cassette recorder (VCR) employing hi-fi audio processing. A device for inspecting 1), wherein a circuit for adjusting the frequency of the hi-fi voice signal carrier oscillation IC 2 comprises: filtering carrier frequencies oscillated from the carrier oscillation IC 2 into two distinct center frequencies, respectively. Two bandpass filters (32, 34); And an amplifier circuit 36 connected to the band pass filters 32 and 34 to amplify and output the voltage level of the filtered carrier frequency.

According to the configuration according to the present invention, the main PCB inspection that can easily detect and adjust the frequency change by separating and amplifying the left and right signals from the hi-fi voice signal carrier frequency oscillation IC chip mounted on the main PCB of the VCR, etc. By providing the device, the time required for the frequency adjustment is shortened and there is an effect that can ensure the reliability of the adjustment work.

Description

Main PCB Inspection Device with Improved Hi-Fi Voice Signal Carrier Frequency Separation Circuit

The present invention relates to a main PCB inspection apparatus of a video cassette recorder (VCR), and more specifically, to separate and amplify the left and right signals from a hi-fi audio signal carrier frequency oscillation IC chip mounted on a main PCB such as a VTR. The main PCB inspection device that can easily detect and adjust the change.

In general, electronic products that process video and audio signals, such as VCRs and CD players, include a circuit portion for processing input signals and a mechanical mechanism for driving a magnetic tape or disk, that is, a deck. Among them, the circuit portion includes a microprocessor and other video and audio signal processing circuits in the main PCB 1 (see Fig. 1) according to the present invention.

Typically, in the production process for manufacturing such a VCR, CD player, etc., the operation of the main PCB (1) is inspected and confirmed by the main PCB inspection device 10 as shown in FIG.

As shown, the main PCB inspection apparatus 10 includes a main body 12 mounted with various circuits for inspecting each operation of the main PCB 1. The upper part of the main body 12 connects various circuit parts in the main body 12 with specific points on the main PCB 1, so that currents or voltages flowing in each unit circuit or component of the main PCB 1, or video and audio signals. A plurality of pins 14 are formed that allow to measure.

And, when the main PCB (1) is disposed on the pin 14, the fixing cover 16 for pressing the main PCB (1) from the top is formed so that one side is connected to the main body 12 can be opened and closed. . In the fixing lid 16, a plurality of spacers 16a protruding vertically to secure a space for protecting the protruding portion of the main PCB 1 below it.

When the operator opens the fixing cover 16 and places the main PCB 1 on the pin 14 of the main PCB inspection apparatus 10, the operator places the PCB fixing pin 18 on the upper part of the main body 12. The predetermined pin 14 comes into contact with each specific point of the main PCB 1 whose position is defined. Here, the PCB fixing pins 18 and the pins 14 are configured to be capable of vertically reciprocating movement by a spring or the like, so that the main PCB 1 presses the pins at an appropriate pressure to be in contact with each other. Then, when the fixing cover 16 is covered over the main PCB 1, the spacer 16a portion of the fixing cover 16 presses each point of the main PCB 1, as shown in FIG. ) To strengthen contact with

After the main PCB 1 is disposed in the main PCB inspection apparatus 10, the operator supplies power through the power supply port 11 of the main PCB inspection apparatus 10, and outputs a video or audio signal. A display device or a measuring instrument can be connected to the signal output port 19 to test each operation state of the main PCB 1, for example, playback and recording operations.

In general, a method of recording and reproducing audio on a magnetic tape includes fixed head recording methods for recording audio signals directly onto a tape, such as bias signals, and rotating head recording for recording and reproducing audio signals by frequency-modulating audio signals in a video band. Method (so-called "high-fidelity (Hi-Fi) method").

In the fixed head recording method, a method called an AC bias recording method is used. That is, a method of mixing the recorded audio signal with an AC bias signal of more than twice the normal high frequency (usually 3 to 5 times) of the voice to be recorded is used. For example, when the audio signal is in the range of 20 Hz to 20 kHz (sound that can be heard by a person), an AC bias signal having a frequency of about 60 kHz to 100 kHz is used.

The rotating head recording method, that is, the hi-fi method, uses a method of recording and reproducing high frequency data on magnetic tape using a rotating head for frequency modulation (FM) and recording a video image signal. Here, the voice carrier frequency is set to a frequency of 1 to 2 MHz, but a two-carrier method using a left and right separate carrier is adopted for stereoization.

In general, in the hi-fi scheme, a voice carrier frequency of 1.3 MHz and a right carrier of 1.7 MHz are used.

In a VCR having a function of processing a voice signal in such a hi-fi manner, a device for oscillating a voice signal carrier in a modulation circuit or a demodulation circuit for the voice processing, for example, a device such as a voltage control oscillator (VOC). Is mounted on the main PCB 1.

Referring to FIG. 2, a description will be given of a separate circuit portion for adjusting a hi-fi audio signal carrier frequency in the conventional main PCB inspection apparatus 10 as follows.

Conventionally, it is mounted as shown in FIG. 1 so that a specific pin 14 of the main PCB inspection device 10 and the output terminal of the carrier oscillation IC 2 mounted on the main PCB 1 are contacted to supply power. And the frequency counter 40 is connected to the signal output port 19 to check the output carrier frequency and the operation was made to adjust the frequency.

That is, as shown in Figure 2, the carrier oscillated in the carrier oscillation IC (2) is a band pass filter (BPPF) 22 and the bandpass filter 24 of 1.7MHz band (24MHz), respectively, respectively. The left and right carrier frequencies are separated. The separated left and right carriers are output after passing through the same buffer circuit 26, respectively. 2 specifically illustrates one of the buffer circuits 26.

The buffer portion through which the carrier filtered through the bandpass filter 24 passes is an impedance conversion circuit in which a field effect transistor (FET), for example, a type of FET such as K30A forms a drain ground circuit. In the example shown, Vcc and 12V are connected to the drain terminal thereof, which is the same as that of being grounded since it is a DC voltage.

The carrier of 1.7 MHz input to the gate terminal of the FET is output to its source terminal and measured by the frequency counter 40 connected to the signal output port 19. In general, this drain ground circuit has a voltage gain of less than 1, and thus does not amplify, but merely lowers its output impedance. In the example shown in FIG. 2, the carrier voltage input to the frequency counter 40 is about 200 mV to 300 mV.

In this way, the frequency of the carrier is measured by the frequency counter 40 to determine whether it is positive or negative. In case of a defect, the frequency is adjusted by replacing the carrier oscillation IC 2 or by replacing other components on the main PCB 1. The work is done.

In the conventional main PCB inspection apparatus 10 as described above, after the main PCB 1 is assembled and mounted on the VCR, the frequency change range is normally output, whereas the frequency counter 40 is inspected when the main PCB inspection apparatus 10 is inspected. In addition to the severe change in the carrier frequency detected in the) there was a problem that the error of each individual main PCB (1) is severe.

Accordingly, there is a problem that not only takes a long time to adjust the carrier frequency, but also the reliability of the adjustment is poor even if the adjustment.

Accordingly, the present invention is invented to solve the above problems, and separates and amplifies the left and right signals from a hi-fi voice signal carrier frequency oscillation IC chip mounted on a main PCB such as a VCR to easily detect frequency changes. By providing the main PCB tester that can be adjusted, the main PCB tester has an improved Hi-Fi voice signal carrier frequency separation circuit which reduces the time required for frequency adjustment and ensures the reliability of the adjustment work. It aims to do it.

1 is a schematic diagram showing a conventional main PCB inspection device briefly.

2 is a partial circuit diagram showing a conventional hi-fi voice signal carrier frequency separation circuit;

3 is a partial circuit diagram showing a hi-fi voice signal carrier frequency separation circuit according to an embodiment of the present invention.

* Explanation of symbols for the main parts of the drawings

1: Main PCB 2: Carrier Oscillation IC

10: main PCB inspection device 11: power supply port

12: body 14: pin

16: fixing cover 16a: spacer

18: PCB fixing pin 19: signal output port

22,32: bandpass filter (1.3MHz) 24,34: bandpass filter (1.7MHz)

26: Buffer circuit (drain ground) 36: Amplification circuit (emitter common amplifier)

40: frequency counter

T: Transistor (2SC1815) R: Variable port

In order to achieve the above object, the present invention provides an apparatus for inspecting a main PCB 1 including various components for video and audio processing of a video cassette recorder (VCR) employing hi-fi audio processing. The circuit for adjusting the frequency of the hi-fi voice signal carrier oscillation IC 2 includes: two band pass filters 32 for filtering carrier frequencies oscillated from the carrier oscillation IC 2 into two distinct center frequencies. , 34); And an amplifying circuit 36 connected to the band pass filters 32 and 34 to amplify and output the voltage level of the filtered carrier frequency, respectively. It provides a main PCB inspection device having.

In addition, the main PCB inspection apparatus having the improved hi-fi voice signal carrier frequency separation circuit provided by the present invention, in addition to the above configuration, the amplification circuit 36 is an emitter common amplification of the npn-type bipolar transistor (T) for high frequency Circuit, and the output voltage level of the carrier frequency may be configured to be about 500 mV or more.

In addition, the main PCB inspection apparatus having the improved hi-fi voice signal carrier frequency separation circuit provided by the present invention, in addition to the above configuration, is output to the emitter terminal of the transistor (T) of the amplification circuit (36) as a collector terminal. It may be configured by connecting the variable resistor (R) to the ground to adjust the voltage level.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

3 is a partial circuit diagram illustrating a hi-fi voice signal carrier frequency separation circuit according to an embodiment of the present invention.

The main PCB inspection apparatus 10 having the improved Hi-Fi voice signal carrier frequency separation circuit according to an embodiment of the present invention is an image and audio of a video cassette recorder (VCR) employing hi-fi type voice processing. Applied to the apparatus for inspecting the main PCB 1 including various parts for processing and the like. The main PCB inspection apparatus 10 has a configuration substantially the same as that described above with reference to FIG. 1, and the frequency separation circuit for adjusting the frequency of the hi-fi audio signal carrier oscillation IC 2, which will be described below, has a main body 12. Built in).

According to an embodiment of the present invention, the frequency separation circuit for adjusting the hi-fi voice signal carrier frequency may include two band pass filters 32 and 34 and an amplifier circuit 36 connected thereto, respectively.

The band pass filters 32 and 34 are used to filter carrier frequencies oscillated from the output terminal of the carrier oscillation IC 2 mounted on the main PCB 1 to two distinct center frequencies, respectively. The pin 14 of (10) is connected to the carrier oscillation IC (2). The center frequency band of the filtering is preferably 1.3 MHz (left) and 1.7 MHz (right), and the frequency bandwidth is preferably ± 150 kHz or less from the center frequency.

The amplifying circuit 36 is connected to the band pass filters 32 and 34, respectively, to amplify and output a voltage level of the filtered carrier frequency to a predetermined level. The amplifying circuit 36 may include a capacitor for removing the ripple component, and a transistor T may be used to amplify the output level.

In a preferred embodiment of the present invention, when the input carrier frequency is a few MHz band, the amplification circuit 36 may employ a high frequency npn bottle bipolar transistor T, for example, a transistor T such as 2SC1815. As shown in Fig. 3, the transistor T is preferably configured to form an emitter common amplifier stage, so that the output voltage level of the carrier frequency is about 500 mV or more. This is to obtain an output level suitable for sensing by the frequency counter 40 connected to the signal output port 19 of the main PCB inspection apparatus 10.

In addition, according to another preferred embodiment of the present invention, the emitter terminal of the transistor (T) of the amplification circuit 36, as shown in Figure 3, so as to adjust the voltage level output from the collector terminal, a variable resistor (R) can be connected. This has the advantage that the operator can appropriately adjust the voltage level output to the signal output port 19 by changing the variable resistor R value.

According to the main PCB inspection apparatus having the improved high-fidelity voice signal carrier frequency separation circuit according to the embodiments of the present invention configured as described above, a mixed carrier, for example, oscillated from the carrier oscillation IC 2 on the main PCB 1 is used. The carrier, which is a mixture of two frequencies of 1.3 MHz and 1.7 MHz, is input to a frequency separation circuit connected to the pin 14 which is in contact with the output terminal.

The carrier signal in which the two frequencies output from the carrier oscillation IC 2 are mixed has two band pass filters, for example, a band pass filter 32 having a center frequency of 1.3 MHz and a pass band of ± 150 kHz and a 1.7 MHz The bandpass filter 34 has a center frequency and a passband of ± 150 kHz. The carriers having the band pass filters 32 and 34 are divided into left and right carrier signals having frequencies of about 1.3 MHz and 1.7 MHz, respectively, and are input to the amplifying circuit 36.

In the amplifying circuit 36, the capacitor C removes the ripple component included in the carrier signal, and then the voltage level is amplified and output through the transistor T constituting the emitter common amplifier stage. Preferably, the voltage level of the carrier frequency input to the frequency counter 40 is, for example, 500 mV or more. If the output is made at a voltage level that is too low or too high instead of a single desired voltage level, the operator can adjust the output level by changing the variable resistor R connected to the emitter terminal of the transistor T.

As such, the carrier signals separated and amplified by the above-described frequency separation circuit built into the main body 12 of the main PCB inspection apparatus 10 according to an embodiment of the present invention are output to the signal output port 19. Then, the frequency counter 40 is connected to measure the carrier frequency. Since the voltage level of the carrier frequency is, for example, 500 mV or more so that the frequency counter 40 is suitable for sensing, the frequency change can be easily detected.

In other words, even if the output frequency is severely changed or the error that may occur in each main PCB 1 is easily detected, the time required for the adjustment can be reduced. In addition, since the adjustment work can be made more precisely, the reliability of the adjustment can be secured.

According to the main PCB inspection apparatus having the improved Hi-Fi voice signal carrier frequency separation circuit according to the embodiment of the present invention described above, the left and right from the Hi-Fi voice signal carrier frequency oscillation IC chip mounted on the main PCB such as VCR By providing a main PCB inspection device that can easily detect and adjust the frequency change by separating and amplifying the signal, the time required for frequency adjustment can be shortened and reliability of the adjustment can be secured.

Although the main PCB inspection apparatus having the improved hi-fi voice signal carrier frequency separation circuit according to an embodiment of the present invention has been described in detail above with reference to the accompanying drawings, the present invention is not limited thereto, and the general knowledge of those skilled in the art. Modifications and improvements are possible within the scope of.

Claims (3)

A device for inspecting a main PCB 1 including various components for video and audio processing of a video cassette recorder (VCR) employing hi-fi audio processing, the hi-fi audio signal carrier oscillation IC (2). The circuit for frequency adjustment includes: two band pass filters (32, 34) for filtering the carrier frequency oscillated from the carrier oscillation IC (2) into two distinct center frequencies, respectively; And an amplifier circuit 36 connected to the band pass filters 32 and 34, respectively, for amplifying and outputting a voltage level of the filtered carrier frequency to a predetermined level. Main PCB inspection device with separation circuit. The improvement circuit according to claim 1, wherein the amplifying circuit (36) forms an emitter common amplification stage of the high frequency npn type bipolar transistor (T), and the output voltage level of the carrier frequency is about 500 mV or more. Main PCB inspection apparatus having a high-fidelity voice signal carrier frequency separation circuit. 3. The improved terminal according to claim 2, wherein the emitter terminal of the transistor T of the amplifying circuit 36 is connected to ground by connecting a variable resistor R to adjust the voltage level output from the collector terminal. Main PCB inspection apparatus having a hi-fi audio signal carrier frequency separation circuit.