KR0151313B1 - Pif (picture intermediate frequency)settling system - Google Patents

Abstract

The present invention relates to an automatic image intermediate frequency (PIF) automatic adjustment system for automatically adjusting the image intermediate frequency using a computer for automatically controlling the entire system and a board for extracting data in adjusting the image intermediate frequency during the manufacturing process of the tuner. In this regard, the power supply 50 for supplying power, the PIF signal generator 10 for outputting the adjustment signal and the adjusting rod 40 for adjusting the components of the tuner 31 fixed to the lower leg 30 by hand; In a conventional tuner video intermediate frequency adjusting device provided with a measuring device 20 for detecting adjusting data, the upper jig 30-1 and the tuner (with the motor 30-2 attached to the adjusting device by a control program) PLC 70 for controlling the fixed jigs 30, a computer 60 for automatically controlling the entire system, and a motor for automatically adjusting the tuner 31 by a control command of the computer 60 ( 30-2) and check the desired band And configured to include a detector 80, 80-1 to increase the speed of adjustment can be expected and the uniformity and stability of product quality.

Description

Video intermediate frequency automatic tuning system

1 is a block diagram showing an example of an image intermediate frequency (PIF) adjuster applied to a conventional electronics tuner.

FIG. 2 is a block diagram showing a video intermediate frequency (PIF) automatic tuning system applied to an electronics tuner according to FIG.

3 is an overall operational flow diagram for solving FIG.

* Explanation of symbols for main parts of the drawings

10: PIF Signal Generator 20: Instrument

30: Hajig 30-1: Sangjig

30-2: Motor 31: Tuner

40: adjusting rod 50: power supply

60: computer 61: monitor

62: graphics board 63: A / D converter

64: motor controller 65: D I / O controller

66: centronics 67: HDD (hard disk driver) controller

67-1: HDD (hard disk driver) 68: Central Processing Unit (CPU)

70: programmable logic ontroller

80,80-1: Detector 90: Amplifier

The present invention is to adjust the picture intermaediate frequency (PIF) during the manufacturing process of the tuner (tuner) applied to electronic products, in particular to automatically control the entire system in adjusting the image intermediate frequency during the manufacturing process of the tuner A PIF automatic adjustment system for automatically adjusting the image intermediate frequency using a computer and a board for extracting data.

More specifically, the computer and the data extraction board automatically adjusts the intermediate frequency of the image in the manufacturing process of the tuner to improve the adjustment speed and to uniformize and stabilize the product quality.

Conventionally, in order to adjust the intermediate image frequency during the manufacturing process of the tuner, power is supplied from the power supply 50 to the tuner 31 fixed to the leg 30 as shown in FIG. 1 and the PIF signal generator 10 When the carrier signal is applied to the hag 30, the operator rotates the adjusting rod 40 by manual operation to adjust the TP point of the tuner 31 and sends the adjusted data back through the PIF signal generator 10 to an instrument such as an oscilloscope ( 20), the operator checks the data displayed on the measuring instrument 20 with the yuan and adjusts the TP point of the tuner 31 by using the adjusting rod 40 to match the reference value.

However, in adjusting the image intermediate frequency of the tuner by the above-mentioned manual operation of the operator, the skill of the operator is required, the adjustment work takes a lot of time, and the adjustment error occurs according to the operator, so that the quality is not uniform and the adjustment rod 40 is used vertically. If the TP point of the tuner 31 is not adjusted, a problem occurs in that the adjustment core is broken.

In the present invention to solve the above-mentioned shortcomings, by extracting the median frequency of the tuner by a computer (data detector amplifier, etc.) to extract data and drive the motor to adjust to the standard value to improve the adjustment speed and product The purpose of the uniformity and stabilization of the quality, the power supply 50 and the PIF signal generator 10 receives the power and the adjustment signal to adjust the parts of the tuner 31 fixed to the hajig 30. In this case, a computer (60) for automatically controlling the entire system to the adjusting device and a motor (30-2) for automatically adjusting the tuner (31) by a command of the computer (60) and a detector (80) for detecting a desired band. Including * 80-1) is a well-known feature of the present invention.

This will be described with reference to the accompanying drawings. The power supply 50 for supplying power, the PIF signal generator 10 for outputting the adjustment signal, and the adjusting rod 40 and the adjustment data for adjusting the components of the tuner 31 fixed to the leg rest 30 by hand. In the conventional tuner image intermediate frequency adjusting device provided with the measuring device 20 for detecting, the upper jig 30-1 and the tuner 31 having the motor 30-2 attached to the adjusting device by a control program are provided. PLC 70 for controlling the fixed hag 30, a computer 60 for automatically controlling the entire system, and a motor 30-2 for automatically adjusting the tuner 31 by a control command of the computer 60. ) And detectors 80 and 80-1 for detecting a desired band.

The computer 60 controls the central processing unit 68 for controlling the entire system and the HDD controller 67 for controlling the HDD 67-1 for inputting adjustment initial settings and the centro for controlling the printer 66-1. The analog signals input from the DI / O 65 controlling the varnish 66 and the power supply 50 and the motor controller 64 and the PIF signal generator 10 controlling the motor 30-2 are digital signals. A / D converter 63 for converting and a graphic board 62 for controlling the monitor 61 are provided.

Hereinafter, the operation and effects of the present invention will be described with reference to the accompanying drawings.

FIG. 2 is a block diagram illustrating a system for automatically adjusting a video intermediate frequency (PIF) applied to an electronic product tuner according to the present invention, and FIG. 3 is an overall operation flowchart for solving FIG.

In order to automatically adjust the image intermediate frequency of the tuner, the central processing unit 68 of the computer 60 reads the adjustment values initially set in the HDD 67-1 through the HDD controller 67 and then uses the DI / O controller 65. Power supply 50 is supplied to the power supply 50 through the power supply 50 to the power supply to the hajig 30, according to the control program of the PLC 70 and the lower jig (30-1) The 30 is controlled to operate and initialize the entire system.

In this case, signals of picture data, sound data, chroma data, and carrier are output from an output out of the PIF signal generator 10.

The signal output from the output terminal (out) of the PIF signal generator 10 is detected as a signal of a desired band (for example, image data) via the detector 80, and then the tuner 31 of the tuner 31 through the hajig 30. It is applied to TP point.

Since the tuner 31 is supplied with a constant voltage (B +, VT, BL, BH, ACC) from the power supply 50, the signal extracted at the TP point of the tuner 31 is outputted to the output terminal IF out of the leg 30. After outputting the intermediate frequency signal to the detector (80-1).

The detector 80-1 detects a signal of a specific band (for example, image data) by detecting the input intermediate frequency, and the detected signal is amplified and filtered to a predetermined level via the amplifier 90 to generate a PIF signal generator ( Input to the input terminal (in) of 10).

Therefore, the PIF signal generator 10 generates a sweep signal according to the input signal and generates a sawtooth wave which can be triggered through the H scope terminal ( The signal outputs an analog signal to the A / D converter 63 of the computer 60, and the signal of the characteristic curve in which the marker signal is loaded through the Mix out terminal. ) Outputs an analog signal to the computer 60 A / D converter 63.

The A / D converter 63 converts a sawtooth signal and a characteristic curve signal input as an analog signal into a digital signal and transmits a digital value corresponding to the position of the marker to the CPU 68.

The CPU 68 reads an initial value of the HDD 67-1 through the HDD controller 67 and then calculates a difference between the sawtooth signal and the characteristic curve signal input from the A / D converter 63. If the measured value is smaller than the standard value initially set in the HDD 76-1, the motor 30-2 is rotated clockwise (CW) through the motor controller 64 so as to signal again at the TP point of the tuner 31. By estimating, the intermediate frequency signal is input to the detector 80-1 through the output terminal IF out of the Hajig 30.

The detector 80-1 detects a signal of a specific band (for example, image data) by detecting the input intermediate frequency, and the detected signal is amplified and filtered to a predetermined level via the amplifier 90 to generate a PIF signal generator ( Input to the input terminal (in) of 10).

Therefore, the PIF signal generator 10 generates a sweep signal according to the input signal and generates a sawtooth wave which can be triggered through the H scope terminal ( The signal outputs an analog signal to the A / D converter 63 of the computer 60 and the signal of the characteristic curve in which the marker signal is loaded through the Mix out terminal. ) Outputs an analog signal to the computer 60 A / D converter 63.

The A / D converter 63 converts a sawtooth signal and a characteristic curve signal input as an analog signal into a digital signal and transmits a digital value corresponding to the position of the marker to the CPU 68.

The CPU 68 reads an initial value of the HDD 67-1 through the HDD controller 67 and then calculates a difference between the sawtooth signal and the characteristic curve signal input from the A / D converter 63. If the measured value is smaller than the standard value initially set in the HDD 76-1, the motor 30-2 is rotated counterclockwise (CCW) through the motor controller 64, and the above process is repeatedly performed to adjust the tuner. The signal is deduced at the point TP of (31), and an intermediate frequency signal is input to the detector 80-1 through the output terminal IF out of the Hajig 30.

The detector 80-1 detects a signal of a specific band (for example, image data) by detecting the input intermediate frequency, and the detected signal is amplified and filtered to a predetermined level via the amplifier 90 to generate a PIF signal generator ( Input to the input terminal (in) of 10).

Therefore, the PIF signal generator 10 generates a sweep signal according to the input signal and generates a sawtooth wave which can be triggered through the H scope terminal ( The signal outputs an analog signal to the A / D converter 63 of the computer 60 and the signal of the characteristic curve in which the marker signal is loaded through the Mix out terminal. ) Outputs an analog signal to the computer 60 A / D converter 63.

The A / D converter 63 converts a sawtooth signal and a characteristic curve signal input as an analog signal into a digital signal and transmits a digital value corresponding to the position of the marker to the CPU 68.

The CPU 68 reads an initial value of the HDD 67-1 through the HDD controller 67 and then calculates a difference between the sawtooth signal and the characteristic curve signal input from the A / D converter 63. If the measured value coincides with the standard value initially set on the HDD 76-1, the monitor 61 displays a numerical value indicating that the tuner 31 is good on the monitor 61 through the graphic board 62 and controls the printer 66-1. The Centronics 66 outputs data indicating that the standard value set in the printer 66-1 and the measured tuner 31 coincide with each other.

When data output to the printer 66-1 is completed, the central processing unit 68 of the computer 60 determines whether there is a next adjustment item, and if there is a next adjustment item, the above process is repeated from the beginning and the next adjustment item is performed. If not, turn off the power to complete the adjustment.

As described above, the present invention automatically adjusts the tuner's image intermediate frequency by a computer controlling the entire system and a board (detector amplifier, etc.) extracting data to drive the motor to adjust to a standard value, thereby improving adjustment speed. It can be expected to stabilize and stabilize product quality.

Claims (1)

The power supply 50 for supplying power, the PIF signal generator 10 for outputting the adjustment signal, and the adjusting rod 40 and the adjustment data for adjusting the components of the tuner 31 fixed to the leg rest 30 by hand. In the conventional tuner image intermediate frequency adjusting device provided with the measuring device 20 for detecting, the upper jig 30-1 and the tuner 31 having the motor 30-2 attached to the adjusting device by a control program are provided. PLC 70 for controlling the fixed hag 30, a computer 60 for automatically controlling the entire system, and a motor 30-2 for automatically adjusting the tuner 31 by a control command of the computer 60. And a detector (80) (80-1) for detecting a desired band.