KR0153083B1 - Tuner regulation device - Google Patents

Abstract

The present invention relates to a tuner adjusting apparatus, and an object of the present invention is to provide a tuner adjusting apparatus capable of simplifying and automatically adjusting an adjusting system for adjusting the tuner's frequency response characteristics.

Tuner adjustment apparatus according to the present invention for achieving the above object is read from the resonant frequency and A / D conversion unit of the channel to be adjusted continuously until the resonant frequency of the channel to be adjusted to the desired resonant frequency A microcomputer configured to supply signal level control data of an adjustment channel to a voltage controlled oscillator (VCO), and to supply data to a tuner to generate a frequency band and a local oscillation frequency corresponding to the adjustment channel, and an adjustment sent from the microcomputer. A voltage controlled oscillator configured to generate an adjustment frequency using the channel resonant frequency and signal level control data and to supply the tuner to a tuner, and to a signal supplied from the voltage controlled oscillator (VCO) driven by a constant voltage applied from a power supply. The inductance or capacitance of the bandpass filter circuit inside the tuner is variable A tuner unit for tuning the received signal to the resonant frequency of the desired channel and outputting its response characteristics;

The gist of the present invention includes a detector for detecting a response characteristic output from the tuner and an A / D converter for converting an analog signal level detected by the detector into a digital signal for data.

Description

Tuner adjuster

1 is a block diagram showing a conventional tuner adjusting device.

2 is a graph showing the frequency response characteristics of the tuner adjusting device shown in FIG.

3 is a block diagram showing a tuner adjusting apparatus according to an embodiment of the present invention.

Figure 4 is a block diagram showing a tuner adjusting device according to another embodiment of the present invention.

5 is a graph showing the frequency response characteristics of the tuner adjusting device according to the present invention.

* Explanation of symbols for main parts of the drawings

10: voltage controlled oscillator 20: power supply

30: tuner portion 40: microcomputer

50: detector 60: A / D conversion unit

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a system for adjusting the tuner's response characteristics, and more particularly, to a tuner adjusting apparatus capable of simplifying and automatically adjusting the tuning system for adjusting the tuner's frequency response characteristics.

The conventional tuner adjusting device includes a sweep maker generator 1 for sweeping a reception band of the tuner unit 2 and an operating power supply of the tuner unit 2 as shown in FIG. And a power supply capable of controlling a reception channel, a channel controller unit 3, a detector 4 for detecting a response characteristic of the tuner unit 2, and a signal detected by the detector 4 on the screen. The oscilloscope 5 is comprised.

The conventional tuner adjusting device thus constructed operates as follows.

In general, the sweep marker generator 1 refers to a test oscillator for generating a high frequency voltage that is repeatedly changed at a predetermined time rate between a given frequency range and a device or part for which the frequency response is to be observed on an oscilloscope. Used to give an input signal.

The sweep marker generator 1 as described above normally adjusts the response characteristics of the desired channel only when the reception band and the intermediate frequency of the tuner unit 2 and their reception band and the intermediate frequency coincide with each other.

If the bandwidth of the sweep marker generator 1 is narrower than the reception band of the tuner unit 2 or if the intermediate frequencies do not match, a wideband sweep marker generator and a sweep marker generator of an intermediate frequency such as a tuner should be used.

Assuming that the reception band and the intermediate frequency of the tuner unit 2 coincide with that of the swept marker generator 1, the adjustment process of the tuner adjusting device is as follows.

The sweep signal supplied from the sweep marker generator 1 is supplied to a tuner section 2 composed of a band pass filter (not shown).

The tuner 2 supplies a response characteristic according to the applied signal to the detector 4.

At this time, the tuner unit 2 receives the power for the tuner driving and the data of each channel necessary for channel adjustment from the power source and the channel controller unit 3.

The signal detected by the detector 4 is observed by the oscilloscope 5.

If the response characteristic shown in the oscilloscope 5 is different from the desired response characteristic, the desired response characteristic can be adjusted as shown in FIG. 2 by appropriately adjusting the resonance frequency of the bandpass filter circuit built in the tuner 2. You can get it.

However, the conventional tuner adjusting device operating as described above has a problem in that the cost is increased because the tuner part needs different sweep marker generators when the tuner part is different from the characteristics of the tuner part.

In addition, in order to automatically adjust the response characteristics of the tuner, the maximum gain point (A) or the image carrier frequency (fp), the color carrier frequency (fc) and the voice carrier frequency (fs) of the response characteristic curve as shown in FIG. The size of the signal swept at the level should be converted into A / D data. Conventionally, the swept signal is used as it is, and if it is converted into data by A / D conversion on any desired channel, complex signal processing technology is required. There was a problem that is elevated.

Accordingly, an object of the present invention is to provide a tuner adjusting device capable of simplifying and automatically adjusting an adjusting system for adjusting the frequency response characteristics of a tuner. .

Tuner adjustment apparatus according to the present invention for achieving the above object is the adjustment read from the resonant frequency and A / D conversion unit of the channel to be adjusted continuously until the resonant frequency of the channel to be adjusted to the desired resonance frequency A microcomputer configured to supply signal level control data of a channel to a voltage controlled oscillator (VCO), and to supply data to a tuner to generate a frequency band corresponding to an adjustment channel and a local oscillation frequency, and an adjustment channel sent from the microcomputer. By using a voltage controlled oscillator configured to generate an adjustment frequency using the resonant frequency and the signal level control data and supply the tuner to the tuner, and a signal driven by the constant voltage applied from the power supply and supplied by the voltage controlled oscillator VCO. Inductance or capacitance of the bandpass filter circuit inside the tuner is variable A tuner unit for tuning a received signal to a resonant frequency of a desired channel and outputting a response characteristic thereof, a detector for detecting a response characteristic outputted from the tuner unit, and an analog signal level detected by the detector; In order to convert the digital signal to the A / D conversion unit is characterized in that.

Hereinafter, the present invention will be described in more detail with reference to the illustrated drawings.

3 is a block diagram showing a tuner adjusting device according to an embodiment of the present invention, Figure 4 is a block diagram showing a tuner adjusting device according to another embodiment of the present invention, Figure 5 is a tuner adjusting device according to the present invention Shows the frequency response of

In FIG. 3, the microcomputer 40 supplies the resonance frequency of the channel to be adjusted and the signal level control data of the adjustment channel read from the A / D converter 60 to the voltage controlled oscillator (VCO) 10. The tuner unit 30 is configured to supply data for generating a frequency band and a local oscillation frequency corresponding to the adjustment channel.

The VCO 10 is configured to generate an adjustment frequency using the resonance frequency for the adjustment channel and the signal level control data sent from the microcomputer 40 and then supply the tuner 30 to the tuner unit 30.

The tuner unit 30 receives power for tuner driving from the power supply unit 20 and the inductance or capacitance constituting the band pass filter circuit inside the tuner is varied by a signal supplied from the VCO 10, thereby receiving a received signal. After tuning to the resonant frequency of the channel is configured to supply the response characteristic to the detector 50.

At this time, the resonant frequency setting of the tuning channel of the tuner unit 30 is determined in consideration of various conditions when the tuner is developed, and the frequency of the desired channel is changed by the inductance or capacitance constituting the band pass filter circuit inside the tuner. Since the resonance point must be formed at the resonance frequency, the resonance frequency before tuning the tuner should be designed to be lower than the desired resonance frequency after the adjustment.

The A / D converter 60 is configured to convert the analog signal level detected by the detector 50 into a digital signal for data conversion. The A / D converter 60 should use at least 10 bits for accurate counting of the digital signal.

On the other hand, another embodiment of the present invention shown in FIG. 4 is roughly identical to the tuner adjusting device shown in FIG. 3 but has a DC amplification unit between the detector 40 and the A / D converter 60. Insert 70) to increase the output level of the tuner 20 so as to reduce saturation and error of the A / D converter 60.

Referring to the overall operation of the embodiment according to the present invention configured as shown in FIG. 3 as follows.

In general, setting the resonant frequency is very important in adjusting the tuner response characteristics, and the maximum gain is obtained at the resonant frequency.

First, the VCO 10, which has received the resonance frequency and signal level control data of the channel to be adjusted from the microcomputer 40, generates a frequency using the same.

The frequency signal generated by the VCO 10 adjusts the inductance or capacitance constituting the band pass filter circuit through the band pass filter circuit of the tuner unit 30.

At this time, the tuner unit 30 receives power for tuning the tuner from the power supply unit 20, and receives data for generating a frequency band and a local oscillation frequency corresponding to the adjustment channel from the microcomputer 40.

The response characteristic output from the tuner 30 is supplied to the A / D converter 60 through the detector 50, and the A / D converter 60 is an analog signal applied from the detector 50. To convert the data into digital signals.

The signal level control data of the A / D converter 60 is read by the microcomputer 40.

The microcomputer 40 reading the data continuously sends a signal to the VCO 10 until the resonance frequency of the channel to be adjusted is tuned to the desired frequency.

The adjustment of one channel is completed by ending the adjustment at the point where a predetermined maximum gain is obtained while the adjustment and data reading process is repeated by the microcomputer 40 as described above.

At this time, if only one channel can complete the adjustment of one band, the adjustment of one band is completed.

As shown in FIG. 5, in the case of (b) (c) rather than the resonance point f ₀ of the adjustment channel, the gain viscosity is shown as low as ② e. Tuner adjustment is complete.

Tuner adjustment apparatus according to the present invention as described above can be adjusted in a simple circuit system configuration without the need to change the adjustment equipment according to the characteristics of the tuner and manual adjustment by the sweep signal and oscilloscope, the data of the microcomputer By using the bus, the inductance and capacitance of the bandpass filter circuit can be adjusted, which has the advantage of simplifying and automatically adjusting the adjusting system.

Claims (2)

Until the resonant frequency of the channel to be adjusted reaches the desired resonant frequency, it supplies the voltage control oscillator (VCO) with the signal level control data of the adjustment channel read from the resonant frequency of the channel to be adjusted and the A / D converter. And a microcomputer configured to supply data for generating a frequency band and a local oscillation frequency corresponding to the adjustment channel to the tuner, and generating an adjustment frequency by using the resonance frequency and signal level control data for the adjustment channel sent from the microcomputer. The inductance or capacitance of the band pass filter circuit inside the tuner is varied by a voltage controlled oscillator configured to be supplied to the tuner and a signal supplied from the voltage controlled oscillator VCO. After tuning to the resonant frequency of the desired channel A tuner adjustment unit comprising: a tuner unit configured to output an output unit, a detector unit detecting a response characteristic output from the tuner unit, and an A / D converter unit converting the analog signal level detected by the detector unit into a digital signal to convert the analog signal level detected by the detector unit into data; Device. The tuner of claim 1, further comprising a DC amplifier inserted between the detector and the A / D converter to increase an output level of the tuner to reduce saturation and error of the A / D converter. Adjuster.