KR0148920B1 - Voltage conversion apparatus and its control method of signal - Google Patents

Abstract

In order to measure a signal having a plurality of voltages, the plurality of signals are divided into a high voltage signal of a predetermined voltage and a lower voltage signal, applied to the high voltage signal switching unit and the low voltage signal switching unit through a plurality of channels, and the inside thereof. By switching the relay provided in the circuit, one signal is selected and applied to the high voltage signal dropping section and the low voltage signal dropping section to apply the resistance of the high voltage signal switching section (low voltage signal switching section) and the high voltage signal dropping section (low voltage signal dropping section). After dropping the input signal to a signal suitable for the measurement by the ratio, the signal is stabilized through the high voltage signal buffer (low voltage signal buffer) and applied to the multiplexer.

The multiplexer unit selects one of two signals input from the high voltage signal buffer unit and the low pressure signal buffer unit according to a control signal of the controller and applies it to the measurement apparatus.

Description

Voltage conversion device for measuring signal and its control method

1 is a block diagram showing the configuration of the voltage conversion device of the measurement signal according to the present invention,

2 is a flowchart showing a method of controlling the voltage converter of the measurement signal according to the present invention.

* Explanation of symbols for main parts of the drawings

1: high voltage signal switching part 2: high voltage signal dropping part

3: high pressure signal buffer unit 4: low pressure signal switching

5: low voltage signal drop part 6: low pressure signal buffer part

7: multiplexer unit 8: control unit

9: input / output control unit 10: key input unit

The present invention relates to a measurement signal conversion device, and in particular, comprising a high voltage signal conversion unit for converting a plurality of high voltage signals of 50V or more and a low pressure signal conversion unit for converting a plurality of low voltage signals of 50V or less, and selecting an input signal by a key input unit The present invention relates to a measuring signal converting apparatus and a control method thereof, which are outputted to the measuring apparatus after falling at a predetermined rate.

The measuring device for measuring an electrical signal has a limited peak voltage of the input signal, but when measuring the printed circuit board of an electronic device, signals having various voltage values should be measured.

For example, signals to be measured on a television's main printed board are output with signals having various voltages such as 10-12V for the tuner and 25-190V for the image amplification and image output signals.

Conventionally, in order to measure these various signals, a voltage drop device suitable for each signal has been manufactured and used for the measurement of each signal. In this way, since a large number of voltage dropping devices must be manufactured for each signal, an increase in cost and management of each device is cumbersome, and a voltage dropping device must be manufactured for each measuring device. There was a problem that the quantity is insufficient when measuring a large number of homogeneous electronic devices.

The present invention has been made to solve the above problems, and an object of the present invention is to convert a plurality of voltage signals having a plurality of voltages into a voltage signal suitable for a predetermined measuring device and a voltage conversion device and control thereof To provide a way.

Another object of the present invention is to provide a voltage conversion device for measuring signals for converting a plurality of voltage signals into a predetermined voltage signal and a control method thereof as one device.

In order to achieve the above object, an apparatus according to the present invention includes a high voltage signal switching unit for selecting and outputting a plurality of signals of a predetermined voltage or more, and the ratio of the resistance value of the high voltage signal switching unit to an internal resistance thereof. A high voltage signal drop unit for dropping an output signal, a high voltage signal buffer unit for stabilizing a signal output from the high voltage signal drop unit, a low voltage signal switching unit for selecting and outputting a plurality of signals below the predetermined voltage, and the low voltage A low pressure signal drop unit for dropping an output signal of the low voltage signal switch unit at a ratio of a resistance value of the signal switch unit to an internal resistance value, a low pressure signal buffer unit for stabilizing a signal output from the low pressure signal drop unit, and a control signal; Select one of the signals output from the high voltage signal buffer unit and the low pressure signal buffer unit An input / output controller for outputting a selection signal for selecting one of a plurality of signals input to the high voltage signal switching unit and the low voltage signal switching unit according to a multiplexer unit and a control signal, and outputting a selection control signal to the multiplexer unit And a key input unit for inputting a command signal to the controller.

The apparatus according to the present invention configured as described above receives a measurement signal input to a plurality of channels divided into a high voltage signal switching unit and a low voltage signal switching unit based on a predetermined voltage, one of the measurement signal is applied by the selection of the key input unit Switching a relay to a channel to be used and changing a voltage distribution ratio of a high voltage signal drop (low voltage signal drop) to which a signal output from the high voltage signal switch (low voltage signal switch) is applied according to a key input signal of a key input unit; And changing the gain of the high voltage signal buffer unit (low voltage signal buffer unit) receiving the output signal of the high voltage signal drop unit (low pressure signal drop unit) according to an input signal of a key input. do.

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

1 is a block diagram showing the configuration of a voltage conversion device for measuring signals according to the present invention.

1 is a high voltage signal switching unit, and the high voltage signals inputted through a plurality of channels (CHA-1, CHA-2, .. CHA-n) are resistors (RA1, RA2, .. RAn) and variable resistors (VRA1, VRA2, Apply to relays (RYA1, RYA2, .. RYAn) through VRAn). The relays RYA1, RYA2, ... RUAn receive the switching signal from the input / output control unit 9, switch to the ON state, and output the applied signal. 2 is a high voltage signal drop unit, and the high voltage signal output from the high voltage signal switching unit 1 is combined with the resistance (for example, RA2) and the variable resistor VRA2 of the high voltage signal switching unit 1 (CHA-2). The high voltage signal applied to the step D) is dropped to a signal having a predetermined voltage. 3 is a high voltage signal buffer unit, and receives the signal dropped from the high voltage signal drop unit 2 to stabilize the signal. 4 is a low voltage signal switching unit, and the low voltage signals inputted through the channels CHB-1, CHB-2, .. CHB-n are divided into resistors RB1, RB2, .. RBn and variable resistors VRA1, VRA2, Apply to relays (RYB1, RYB2, .. RYBn) through .., VRAn). 5 is a low voltage signal drop section, and as in the relationship between the high voltage signal switch section 1 and the high voltage signal drop section 2 described above, the low voltage signal is dropped to a signal having a predetermined voltage by combining with the low voltage signal switch section 4. Let's do it.

6 is a low pressure signal buffer unit, and receives the signal dropped from the low pressure signal drop unit 5 to stabilize the signal. 7 is a multiplexer section, and selects one of the signals input from the high voltage signal buffer section 3 and the low voltage signal buffer section 6 to output it. 8 is a control unit, which receives a key input signal from the key input unit 10 and corresponds to the signal, and relays RYA1, RYA2, .. ... RYBn) and controls the multiplexer section 7 to select and output one of the output signals of the high voltage signal buffer section 3 and the low voltage signal buffer section 6.

9 is an input / output control unit, and receives a control signal from the control unit 8 and outputs a signal for controlling the relays RYA1, RYA2, .. RYAn, RYB1, RYB2, .. RYBn, RY3, RY4 and the multiplexer unit 7. . 10 is a key input unit, and outputs a command signal input by the user to the control unit 8. Unexplained resistors R9 and R10 are impedance matching resistors.

Hereinafter, the effect of the present invention will be described.

The high voltage signal switching unit 1 receives a high voltage signal (eg, 50 V or more) from a plurality of channels CHA-1, CHA-2, .. CHA-n, and the user inputs the key input unit 10. When the command signal is input to the control unit 8 through the control unit 8, the control unit 8 switches on the relay RYA2 of the channel (for example, the channel CHA-2) to be measured according to the command signal. The high voltage signal inputted to the channel CHA2 by the switching of the relay RYA2 is applied to the high voltage signal drop section 2.

The high voltage signal drop part 2 is composed of a resistor R1 having one grounded connection and a resistor R1 connected in parallel with the resistor R1, a variable resistor VRA1, and a relay RY3. In the non-switched state, the high voltage signal input to the channel CHA2 is divided by the resistor RA2 and the variable resistor VRA2 and the resistor R1 of the high voltage signal switching unit 1.

In order to divide this divided signal to a smaller value, the relay RY3 is switched so that the total of the high voltage signal drop part 2 is formed by combining the resistor R1, the resistor R2, and the variable resistor VR1. As the resistance is lowered, a signal having a lower voltage is output by the ratio with the resistance of the high voltage signal switching unit 1. The divided signal is input to the high voltage signal buffer unit 3 to be a signal stabilized by the associative amplifier A1 acting as a buffer and applied to the multiplexer unit 7.

Relatively low voltage signals (e.g., signals below 50V) are applied to the low voltage signal switching section 4 having a plurality of channels CHB1, CHB2, ... CHBn. Like the high voltage signal switching unit 1, the applied signals are one of a plurality of relays RYB1, RYB2, .. RYBn that receive a control signal from the input / output control unit 9 by a command of the control unit 8 (for example, The signal input to the channel CHB2 by RYB2 is applied to the low voltage signal drop section 5. In addition, the low voltage signal is divided by the resistance ratio of the low voltage signal switching section 4 and the low voltage signal drop section, and applied to the low voltage signal buffer section 6, and the signal stabilized in the low voltage signal buffer 6 is multiplexed. Is applied to (7). The high pressure signal and the low pressure signal applied to the multiplexer unit 7 are selected by the control signal from the input / output control unit 9 and are output to a measuring device (not shown).

2 is a flowchart showing a method of controlling the voltage conversion device of the measurement signal according to the present invention.

In step 201, if it is determined that the high voltage signal is a high voltage signal, the process proceeds to step 202 to determine whether to measure the signal of the channel A1 (CHA1). In the case of measuring the signal of the channel A1 (CHA1), the flow proceeds to step 204 to turn the relay RYA1 on. If the signal of the channel A1 (CHA1) is not measured, it is determined in step 202-1 whether the signal of the channel A2 (CHA2) is measured. When the signal of the channel A2 (CHA2) is measured, the flow advances to step 204-1 to turn on the relay RYA2. This process is repeated to determine whether to measure the signal of channel A (n-1) (CHA (n-1)) in step 202- (n-1).

When measuring the signal of the channel A (n-1) (CHA (n-1)), the flow advances to step 204- (n-1) to turn on the relay RYA (n-1).

If the signal of the channel A (n-1) (CHA (n-1)) is not measured, proceed to steps 204-n to turn on the relay RYAn.

As described above, when each relay (RYA1, RYA2, .... RYAn) is turned on and the flow proceeds to step 206 to determine whether to change the voltage distribution ratio, and if a command to change the voltage distribution ratio is input from the key input unit 10, the step At 207, the relay RY3 is turned on to change the resistance value of the high voltage signal drop section 2 by the combined resistance of the resistor R1, the resistor R2, and the variable resistor VR1 to change the voltage distribution ratio. Proceed to step 208. In step 206, if the voltage distribution ratio is not changed, the process proceeds to step 208. In step 208, if it is determined whether a gain change command has been input from the key input unit 10, and a gain change command is input, the flow advances to step 209 to turn on the relay RY5 to the high voltage signal buffer unit 3; Change these and exit the program. If it is determined in step 208 that no gain change command is input, the present program ends.

On the other hand, in step 201, if the high-voltage signal is not measured, the process proceeds to 203-1, and a process of 203-1 or less, which is similar to the above step 202-1, is executed. Since the process of step 203-1 or less is similar to the process of step 202-1 or less, description thereof is omitted.

As described above, according to the present invention, the signal to be measured can be easily expanded, and the range (voltage range) of the measured signal can be widened by changing the voltage distribution ratio and the amplification gain.

Claims (7)

An apparatus for converting a voltage of a measurement signal, comprising: a high voltage signal switching unit for selecting and outputting a plurality of signals of a predetermined voltage or more, and outputting the output signal of the high voltage signal switching unit at a ratio of a resistance value of the high voltage signal switching unit to an internal resistance value A high voltage signal drop unit for dropping, a high voltage signal buffer unit for stabilizing a signal output from the high voltage signal drop unit, a low voltage signal switching unit for selecting and outputting a plurality of signals below the predetermined voltage, and the low voltage signal switching unit A low pressure signal drop section for dropping an output signal of the low voltage signal switching section at a ratio of a resistance value to an internal resistance value; a low pressure signal buffer section for stabilizing a signal output from the low pressure signal drop section; A multiplexer for selecting and outputting one of a signal output from a buffer unit and the low voltage signal buffer unit An input / output controller for outputting a selection signal for selecting one of a plurality of signals input to the high voltage signal switching unit and the low voltage signal switching unit according to a western unit and a control signal, and outputting a selection control signal to the multiplexer unit; And a control unit for controlling the input / output control unit and a key input unit for inputting a command signal to the control unit. The apparatus of claim 1, wherein the voltage of the signal input to the high voltage switching unit is 50V or more. According to claim 1, The high voltage signal dropping portion (low voltage signal dropping portion) is connected to the first resistor connected in series with each other, the first resistor is connected to the high voltage signal switching unit (low voltage switching unit), the other side is grounded And a second resistor, a variable resistor, and a relay connected in parallel with the first resistor. The high voltage signal buffer unit of claim 1, wherein the high voltage signal buffer unit (low voltage signal buffer unit) receives the output signal of the high voltage signal drop unit (low voltage signal drop unit) to a non-inverting terminal, and the inverting terminal thereof through a predetermined resistor. And a predetermined resistance is connected to the relay through another resistor, and the other side of the relay is grounded. The apparatus of claim 3, wherein the relay is controlled by the input / output controller. The apparatus of claim 4, wherein the relay is controlled by the input / output controller. In the method of controlling the voltage conversion device of the measurement signal, a measurement signal input to a plurality of channels are divided into a high voltage signal switching unit and a low voltage signal switching unit based on a predetermined voltage, and one of the measurement by the selection of the key input unit Switching a relay to a channel to which a signal is applied, and a voltage distribution ratio of a high voltage signal drop (low voltage signal drop) to which a signal output from the high voltage signal switch (low voltage signal switch) is applied; And converting a gain of the high voltage signal buffer unit (low pressure signal buffer unit) receiving the output signal of the high voltage signal drop unit (low pressure signal drop unit) according to an input signal of a key input. A control method of a voltage converter of a measurement signal, characterized in that.