KR930008231Y1 - Multi-carrier frequencies transformation circuit - Google Patents

Abstract

No content.

Description

Multi-carrier frequency conversion circuit

1 is a multi-carrier frequency conversion circuit diagram according to the present invention.

* Explanation of symbols for main parts of the drawings

1: Oscillator 2: Low Pass Filter

3: mixer 8,19: oscillator

6,13,17: switching transistor CTL: control signal

S _in : Input signal S _out : Output signal

The present invention relates to a frequency conversion circuit for converting a carrier modulated in a signal processing process, such as a television or video cassette recorder to a certain frequency band, in particular so that even if the frequency of the carrier is varied, it can always be converted to a constant frequency band To a multi-carrier frequency conversion circuit.

The frequency conversion circuit is a combination of two types of oscillation circuits that produce a specific frequency and a mixer that mixes the oscillation frequency and the carrier wave made from this oscillation circuit. In the mixer, the frequency of the oscillation frequency and the carrier wave is mixed and the sum of the frequencies of both frequencies is mixed. It is to output the signal to have.

In general, in the conventional television or video cassette recorder, the processing of a signal having a modulated carrier shows that there is only one frequency that can be converted by one frequency conversion circuit, even when an integrated circuit that performs multi conversion is used. The input of could only input one frequency.

Therefore, the present invention has been devised in view of the above circumstances, and even though carriers having different frequencies are input from the same mixer, the oscillation frequency of the oscillator circuit is differently selected and input to the mixer according to the frequency of each input carrier. It is an object of the present invention to provide a frequency conversion circuit in which a mixer always outputs a signal having a certain frequency, that is, a carrier wave can always be converted to a constant band.

1 is a circuit diagram according to the object of the present invention, the configuration is as follows.

The carrier frequency conversion which inputs the oscillation frequency produced by the oscillator 1 to the mixer 3 via the low pass filter 2 and inputs the carrier input signal Sin to output a signal having the sum frequency of these two signals. In the circuit, the resistors 7 and 18 and one terminal of the oscillator 8 and 19 and the capacitor 9 are connected to one control terminal of the oscillator 1 and the transistors 6 and 17 are connected to the other control terminal thereof. The collector terminal is connected, but the resistor 7 and the other side of the oscillator 8 are connected together with the capacitor 10 to the emitter terminal of the transistor 6 and the resistor 18 and the emitter terminal of the transistor 17 to the emitter terminal. The other side of the oscillator 19 is connected together with the capacitor 20. A control signal CTL is applied to the base terminal of the transistor 6 via the resistors 4 and 5, and to the base terminal of the transistor 17. The collector terminals of the transistors 13 are connected via resistors 15 and 16, The control terminal CTL is applied to the base terminal of the transistor 13 via the resistors 11 and 12, so that the transistors 16 and 17 are alternately turned on and turned in accordance with the H or L level of the control signal CTL. The resistor 7, oscillator 8, capacitor 9, 10 or resistor 18, oscillator 19, capacitor 9, 20 are selectively connected to the oscillator 1 so that the oscillation frequency of the oscillator It is designed to be made according to the value of the selected resistor, oscillator and capacitor.

The present invention configured as described above operates according to the control signal CTL.

The input signal S _in having a carrier modulated in a signal processing process such as a television or a video cassette recorder is input to the mixer 3 through the coupling capacitor 1. In this case, for example, the input signal S _in has a carrier of frequency f _o and three input signals having a carrier of frequency f _O ± A (eg, a voice carrier frequency at high frequency input is (6.0 MHz, 6.0 ± 0.5 MHz), a signal having a constant frequency f _O is output from the mixer 3 even if there is only one oscillation frequency of the oscillator 1.

The oscillator 19 is configured to have a frequency of ANHz, the control signal CTL is brought to the L level, the transistors 6 and 13 are turned off, and the transistor 17 is turned off by the transistor 13 being turned off. Is turned on.

The transistor 6 is turned off and the transistor 17 is turned on, and the terminals of the resistor 7, the oscillator 8, and the capacitor 10 connected to the emitter terminal of the transistor 6 are opened from the oscillator 1. The resistor 18, the oscillator 19, and the capacitor 20 connected to the emitter terminal of the transistor 17 are connected to the oscillator 1, so that the oscillator 1 has the resistor 18 and the oscillator 19 ), The oscillation is composed of the capacitor 20 is made. That is, in the oscillator 1, an oscillation frequency of BMHz is made.

The oscillation frequency of the BMHz thus produced is input to the converter 3 via the low pass filter 2 and mixed with the input signal S _in having a carrier of frequencies f _o and f _o ± A. In (3), an output signal _out having a constant frequency f _o is output.

The reason why the low pass filter 2 is passed here is to prevent the harmonic frequency other than the oscillation frequency of f _o from being sent to the mixer 3. In the mixer 3, a peaking circuit composed of a resistor 21, a capacitor 22, and an inductor 23 is added in order to use the desired converted output frequency with the greatest gain.

On the other hand, if the type of the input signal (S _in ) has a signal having a carrier of frequency (f _o ± B) in addition to the frequency (f _o , f _o ± A), the frequency of the oscillator (8) is configured to have a BMHz And control signal CTL to H level.

The transistors 6 and 13 are then turned on, and by turning on the transistor 13, the transistor 17 is turned off so that the resistor 7, the oscillator 8, and the capacitor (connected to the emitter terminal of the transistor 6). The terminal of 10 is connected to the oscillator 1, and the resistor 18, oscillator 19, and capacitor 20 connected to the emitter terminal of the transistor 17 are opened from the oscillator 1 and eventually the oscillator ( In 1), an oscillation composed of a resistor 7, an oscillator 8, and a capacitor 10 is performed. That is, in the oscillator 1, an oscillation frequency of BMHz is made and applied to the mixer 3, so that the input signal S _in having a carrier of frequency f _o ± B is also a constant frequency f _o in the mixer 3. Is output as a signal with

As described above, the present invention includes a plurality of oscillators for generating different frequencies in the control terminal of the oscillator, and adjusts the level of the control signal according to the carrier frequency of the input signal input to the mixer to match the frequency of the carrier. By allowing the oscillator to be selected, the frequency of the oscillator is made from the oscillator and input to the mixer, so that even a signal having a different carrier can be converted into a frequency of a certain band in one frequency conversion cycle.

Claims (1)

Carrier frequency which inputs the oscillation frequency produced by the oscillator 1 to the mixer 3 through the low pass filter 2 and inputs the carrier input signal S _in to output a signal having the sum frequency of these two signals. In the conversion circuit, resistors 7 and 18 and one terminal of the oscillator 8 and 19 and the capacitor 9 are connected to one control terminal of the oscillator 1, and the other control terminal of the transistors 6 and 17 is connected. Each collector terminal is connected, but the resistor 7 and the other side of the oscillator 8 are connected together with the capacitor 10 to the emitter terminal of the transistor 6 and the resistor 18 to the emitter terminal of the transistor 17. And the other side of the oscillator 19 together with the capacitor 20, the control signal CTL is applied to the base terminal of the transistor 6 via the resistors 4 and 5, and the base terminal of the transistor 17. The collector terminals of the transistors 13 are connected via resistors 15 and 16, The control signal CTL is applied to the base terminal of the transistor 13 via the resistors 11 and 12 so that the transistors 6 and 17 are alternately turned on and off in accordance with the H or L level of the control signal CTL. The resistor 7, oscillator 8, capacitor 9, 10 or resistor 18, oscillator 19, capacitor 9, 20 are selectively connected to the oscillator 1 so that the oscillation frequency of the oscillator is selected. A multi-carrier frequency conversion circuit, characterized in that it is made according to the values of the resistor, oscillator, and capacitor.