KR0115013Y1 - Circuit for controlling vertical size of multi-sink monitor - Google Patents

Abstract

The present invention relates to a vertical size control circuit of a monitor multi-sync that controls to maintain a constant vertical size at all times regardless of the high and low vertical sync frequency. The control circuit is configured as follows.

A frequency / voltage converter for converting a vertical sink frequency into a voltage by inputting a vertical sink, a vertical size control IC for controlling a vertical size by inputting a vertical sink signal, and an inverting amplifier for inverting the voltage of the frequency / voltage converter And a user vertical size control unit that allows the user to control the vertical size using the variable resistor VR1, and a vertical size to approach a vertical size request length according to an output signal of the inverting amplifier and the user vertical size control unit. It is configured to include an auxiliary size control unit for controlling the current of the control unit.

Therefore, because the voltage is obtained and controlled by the frequency-to-voltage converter IC, the circuit is simple, the material cost is low, and the vertical size can be controlled even when a fine frequency sink is input.

Description

Vertical size control circuit of multi sync monitor

1 is a block diagram of a conventional vertical size control circuit.

2 is an equivalent circuit diagram of FIG.

3 is a relationship between the vertical sink and the vertical size according to FIG.

4 is a truth table according to FIG.

5 is a configuration diagram of a vertical size control circuit of the present invention.

6 is a relationship between the vertical sink and the vertical size according to FIG.

7 is a waveform diagram according to FIG.

8 is a relationship between the vertical sink and the output voltage according to FIG.

* Explanation of symbols for main parts of the drawings

2: user vertical size control unit 3: sub-size control unit

4: inverted amplifier IC1: vertical size control IC

IC3: Frequency / voltage IC Q1 to Q3: Transistor

VR1 to VR2: Variable resistors R1 to R8: Resistance

C1 to C2: condenser

The present invention relates to a monitor multi sync, and more particularly to a vertical size control circuit for controlling the vertical size of the vertical stage.

The vertical size control circuit of the conventional monitor multi-sync is described with reference to the accompanying drawings as follows.

1 shows a conventional vertical size control circuit configuration, which includes a vertical size control IC IC1 for controlling the vertical size by a vertical sink input signal, and a frequency / mode switching IC for converting the frequency of the vertical sink into a mode signal. IC2) and a vertical size control IC (IC) formed by the outputs of the mode switching unit 1 and the mode switching unit 1, which are composed of n modes each of transistors and resistors, and operate on and off according to the frequency rise and fall of the vertical sink. It consists of a variable resistor (VR1) and a capacitor (C1) for controlling IC1).

FIG. 2 shows an equivalent circuit of each mode of the mode switching unit 1 in the first diagram. Each mode is composed of a transistor and a resistor for switching operation to control a vertical size control current together with a variable resistor VR.

The operation of the vertical size control circuit of the conventional monitor multi-sync configured as described above is as follows.

When the vertical sink is input to the frequency / mode switching IC (IC2) and the vertical size control IC (IC1) for converting the frequency to the mode signal, the frequency / mode switching IC (IC2) converts the vertical sink frequency to the mode signal and inputs the vertical signal. The mode switching unit 1 outputs the truth table of FIG. 4 according to the sink frequency.

In other words, when the vertical sink frequency is high (f1), only the mode 1 is high, and only the transistor Q1 is turned on and the remaining transistors Q1 to Qn are turned off, so that the current of the vertical size control IC IC1 is changed to the variable resistor VR1. The vertical size is controlled by a circuit inside the vertical size control IC (IC1) by controlling the parallel resistance of R1 and the resistance (R1) and the current.The mode 2 is high only when the vertical sink frequency is medium (f2). Since only the transistor Q2 is on and the remaining transistors are off, the current of the vertical size control IC IC1 is controlled by the parallel resistance value of the variable resistor VR1 and the resistor R2 and the current value is controlled. The vertical size is controlled by a circuit inside the vertical size control IC IC1.

In this way, multiple modes and transistors operate to control the vertical size as shown in FIG.

However, in the conventional vertical size control circuit, since there are many modes, the circuit is complicated and the material cost is increased, and when the fine frequency is input (when the frequency difference is small), the size control is not only possible, The sink had an inadequate problem.

The present invention has been devised to solve such a problem, and its purpose is to always have a constant vertical size regardless of the high and low vertical sink frequency.

The present invention for achieving the above object is characterized in that the vertical size is kept constant by operating only the variable resistor, compared to the conventional size was changed by switching for each mode.

This invention is described in more detail with reference to the accompanying drawings as follows.

5 is a configuration diagram of the monitor multi-vertical size control circuit of the present invention, and the vertical size control IC (IC1) for controlling the vertical size by the vertical sink input signal, and the frequency / voltage switching for converting the vertical sink input frequency into voltage. IC (IC3), variable resistor (VR1), resistors (R1 to R4), capacitor (C1), transistor (Q1), etc., so that the user can control the vertical size by adjusting the variable resistor (VR1) Inverting amplifier section 4 comprising a user vertical size control section 2, resistors R6 to R8, transistors Q3, and capacitors C2 to obtain voltages inverted and amplified at the output voltage of the frequency / voltage switching IC IC3. ), Variable resistor VR2, transistor Q2, resistor R5, etc. to control the current of the vertical size control IC IC1 according to the output of the user vertical size control unit 2 and the inverting amplifier unit 4; Assistant to approach the required length of the vertical size It is comprised by the ease control part 3.

The operation of the monitor multi-sync vertical size control circuit of the present invention configured as described above is as follows.

When the frequency is applied to the frequency / voltage switching IC (IC3) of the vertical sink as shown in Figure 7 (a), the frequency / voltage switching IC (IC3) outputs the voltage as shown in Figure 7 (b).

That is, the voltage relationship between the vertical sink input frequency and the frequency / voltage switching IC IC3 is inversely proportional to the frequency shown in FIG.

As such, the output voltage of the frequency / voltage switching IC IC3 having an inverse frequency and voltage is obtained by the inverting amplifier 4 to be inverted in the collector of the transistor Q3 as shown in FIG. Noise is removed by the capacitor C2 of the unit 4 and biased to the auxiliary size control unit 3.

In the above state, the auxiliary size control unit 3 controls the vertical size by controlling the current of the vertical size control IC IC1 by the variable resistor VR2, and the user vertical size control unit 2 controls the variable resistor VR1. The bias of the transistor Q1 is determined according to the position of to control the current of the vertical size control IC IC1. When the variable resistor VR1 is at the A position, both ends of the VR1 + R2 resistance as shown in FIG. When the voltage drop increases, a large bias is applied to the base of the transistor Q1 so that a large amount of current flows in the vertical size control IC IC1 so that the vertical size increases and the variable resistor VR1 is at the position B. As the voltage drop decreases, the bias is less applied to the base of the transistor Q1, so that the current of the vertical size control IC IC1 flows less, resulting in a smaller vertical size.

Therefore, the variable resistor VR1 is used as the vertical size control of the external user, and the variable resistor VR2 is used as the auxiliary size control to approach the vertical size request length, and the frequency / voltage switching IC IC3 and the transistors Q2 and Q3 are used. Unlike the conventional method in which the vertical size is converted according to the vertical sink frequency,) maintains the vertical size constant irrespective of the vertical sink frequency and explains this principle, as shown in FIG. 3, the vertical size is inversely proportional to the vertical sink frequency.

The vertical size is directly proportional to the vertical size control current of the vertical size control IC (IC1).

Accordingly, in order to apply a high voltage to the base of the transistor Q2, a low voltage is applied to the base of the transistor Q3.

Therefore, because the vertical sink frequency is high in the transistor Q3 base, a low voltage is output from the vertical size control IC IC1 and compensated, so that the vertical size remains constant regardless of the frequency.

As described above, the present invention can always maintain a constant vertical size regardless of the vertical sink frequency, and the circuit is simple and inexpensive because the voltage / voltage switching IC is obtained and controlled, and even a fine frequency sink is input. Vertical size control is possible.

Claims (1)

A frequency / voltage converter for converting the vertical sink frequency into voltage, a vertical size control IC for controlling the vertical size by inputting a vertical sink signal, and an inverting amplifier for inverting the voltage of the frequency / voltage converter. And a vertical size control unit for allowing the user to control the vertical size using the variable resistor VR1, and a vertical size for approaching the vertical size request length according to the output signal of the inverting amplifier and the user vertical size control unit. Vertical size control circuit of the multi-sink monitor characterized in that it comprises a secondary size control unit for controlling the current of the control unit.