KR0117226Y1 - Modulating rate control circuit - Google Patents

Abstract

Modulation degree control circuit for controlling the modulation degree of the various modulation apparatus using a microcomputer is modified, which is a signal amplifier for determining the modulation degree by amplifying the two signals, respectively, when the plus signal and the minus signal to be differentially combined and modulated are inputted; A collector stage is connected to the common emitter stage of the signal amplifier to change the current between the collector and the emitter according to a bias change to control the gain of the signal amplifier, and a carrier connected to the amplified signal connected to the signal amplifier. Each transistor is turned on / off by an amplitude modulated modulator and a logic signal output from the microcomputer according to a mode, and a plurality of transistors are connected in parallel to vary the bias of the gain control transistor according to the turn on / off of each transistor. Modulation degree control section, the modulation degree of various modulation apparatus By automatically adjusted using the data from the microprocessor, it is not necessary to adjust the modulation in line with one ilhi hand increased productivity work airborne while reduced, and also, since the user can manually adjust the modulation gives convenience to the user.

Description

Modulation control circuit

1 is a modulation control circuit diagram according to the present invention,

2 is a table showing an embodiment of the input data of the microcomputer according to the present invention,

3 (a) is a graph showing the relationship between the gain and the mode of the signal amplifier,

(b) is a graph showing the relationship between the gain and the modulation degree of the signal amplifier,

(c) is a graph showing the relationship between the mode and the modulation degree.

* Description of the symbols for the main parts of the drawings *

100: modulation degree control unit 200: modulation unit

201: Modulator Q0 to Q5: Transistor

R1 ~ R7: resistance

The present invention relates to a modulation degree control circuit, and more particularly, to a modulation degree control circuit for adjusting the modulation degree of various modulation apparatus using a microcomputer.

Conventionally, the modulation degree is manually adjusted manually in line.

Here, the modulation degree determines the amplitude of the original signal at the time of demodulation, and must produce a modulation degree that meets the specifications.

At this time, since the modulation degree is different according to the broadcasting method, and the product has different characteristics for each mass production, there is a problem that the number of work on the line increases.

The present invention is to solve the above problems, the object of the present invention is to adjust the modulation degree of the various modulation apparatus using the data of the microcomputer, so that the work rate is reduced because it is not necessary to manually adjust the modulation degree in the line It is to provide a modulation degree control circuit which increases productivity and also provides convenience for the user since the user can adjust the modulation degree directly.

A characteristic of the modulation control circuit according to the present invention for achieving the above object is a signal amplifier (Q4) for determining the modulation degree by amplifying the two signals, respectively, when a plus signal and a minus signal to be differentially coupled and modulated are input ( Q5) and a gain control transistor Q3 connected to a common emitter terminal of the signal amplifiers Q4 and Q5 to control the gain of the signal amplifier by changing the current between the collector and the emitter according to a bias change; A modulation degree control circuit comprising a modulator 201 connected to the signal amplifiers Q4 and Q5 and configured to modulate amplitude by carrying a carrier on an amplified signal, each of which is turned on / off by a logic signal output from a microcomputer according to a mode. A plurality of transistors Q0 to Q2 to be turned off are connected in parallel, and the bias of the gain control transistor Q3 is varied according to the turn on / off of the transistors Q0 to Q2. The modulation also exists in that the control part 100 is provided.

Hereinafter, a preferred embodiment of a modulation degree control circuit according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a modulation diagram control circuit diagram according to the present invention.

Referring to FIG. 1, a modulation degree control unit 100 outputting a modulation degree control signal by a combination of data BIT1 to BIT3 output from a microcomputer (not shown) and control output from the modulation degree control unit 100. It consists of a modulator 200 whose modulation degree varies depending on the signal.

In this case, the modulation degree control unit 100, the transistor (Q0, Q1, Q2) is connected in parallel to the base end to the data lines (BIT1, BIT2, BIT3) output from the microcomputer.

Here, as shown in FIG. 2, mode 1 to mode 8 are divided according to data input to data lines BIT1, BIT2, and BIT3.

For example, if BIT1 is the least significant bit and BIT3 is the most significant bit, if 000 (BIT3, BIT2, BIT1) is input, if mode 1, 001 is input, mode 2, 100 is input, mode 5, 111 is input, mode 8.

In this case, 0 represents 0V as a low signal, 1 represents 0.7 to 0.8 as a high signal, and a transistor in which 1 is input to the base is turned on.

In the mode 1 in which 0 V is input to the base, since all of the first to third transistors Q0 to Q2 are turned off and a closed circuit is not formed, the total current by the current source I (2I) 4I is 0. In mode 2, since only the first transistor Q0 is turned on, the total current is I by the current source I.

In addition, in mode 4, since the first and second transistors Q1 and Q2 are turned on, the total current is 3I. In mode 8, since the first to third transistors Q0 to Q2 are all turned on, the total current is 7I. Becomes

Therefore, the voltage V1 of the common contact of the first to third transistors Q0 to Q2 varies depending on the mode.

In addition, a resistor R1 is connected between the common contact V1 and the reference voltage terminal Vref of the first to third transistors Q0 to Q2, and a resistor R0 to between the contact V1 and the ground. R1 is connected in series, and between the resistors R0 to R1 (Vcon), the base of the transistor Q3 of the modulator 200 controlling the gain of the signal amplifiers Q4 and Q5 of the modulator 200. The stages are connected.

In this case, the signal amplifiers Q4 and Q5 are differentially coupled variable amplifiers, and amplify the plus and minus signals IN + and IN- provided to the respective base terminals and output the amplified signals to the modulator 201.

Here, the modulator 201 may use a balanced modulator.

In this case, the modulator 201 loads a carrier on an amplified signal and outputs the amplitude.

Meanwhile, a collector terminal is connected to the emitter terminals of the signal amplifiers Q4 and Q5 through resistors R4 and R5 in common, and a base terminal of the transistor Q3 of the transistor Q3 connected to the modulation control unit 100. Depending on the amount of current flowing between them, the degree of modulation of the signal amplifiers Q4 and Q5 is changed.

At this time, in order to control the modulation degree in more detail, the transistors of the modulation degree controller 100 may be connected in parallel to a desired number.

In the present invention configured as described above, BIT1, BIT2, and BIT3 are input terminals of a microcomputer (not shown).

At this time, in the case of mode 1 in which 000 is input, the voltage V1 of the common contact of the transistors Q0 to Q2 connected in parallel is

Become,

This

It is applied to the base of the transistor Q3 of the modulator 200.

At this time, the current flowing in the resistor (R1) in the mode 1 is

, I ₀ ,

In mode 5 it is I ₀ + 4I and in mode 8 it is I ₀ + 7I.

That is, in the mode 5, the potential of V1 is lowered to the voltage corresponding to 4I than the potential in the mode 1, and in the mode 8, the voltage corresponding to 7I is lowered.

Therefore, the larger the mode, the lower the potential of V1, and the lower the potential of V1, the lower the potential of Vcon.

At this time, when the potential of Vcon is lowered, the base current of transistor Q3 is also reduced, so that the gain of signal amplifiers Q4 and Q5, which determines the modulation degree, is also lowered as shown in FIG.

In addition, as the gain increases, as shown in FIG. 3 (b), the modulation degree of the modulator 201 also increases. Consequently, as the mode increases, as shown in FIG. 3 (c), the modulation degree decreases in inverse proportion.

As described above, according to the modulation degree control circuit according to the present invention, by automatically adjusting the modulation degree of the various modulation devices using the data of the microcomputer, there is no need to manually adjust the modulation degree in the line, reducing the work maneuver Productivity increases, and since a user can adjust modulation degree directly, there exists an effect to give a user convenience.

Claims (1)

When the plus signal and the minus signal to be differentially coupled and modulated are input, the collector stages are connected to the common amplifier stages of the signal amplifiers Q4 and Q5, which amplify the two signals to determine the modulation degree, and the signal amplifiers Q4 and Q5. The current is connected to the collector-emitter according to the bias change so that the gain control transistor Q3 for controlling the gain of the signal amplifier and the signal amplifiers Q4 and Q5 are connected to the amplified signal to carry a carrier In a modulation control circuit comprising a modulator 201 for modulating, in each mode, transistors Q0 to Q2 each turned on / off by a logic signal output from a microcomputer are connected in parallel, and each transistor ( And a modulation degree control unit (100) for varying the bias of the gain control transistor (Q3) in accordance with the turn-on / turn-off of Q0 to Q2.