KR100399983B1 - Analog de-multiplexer - Google Patents

Abstract

The present invention relates to an analog demultiplexer, and generates a reference voltage for outputting a high voltage output path control signal and a low voltage output path control signal according to whether the input voltage is greater than or less than the reference voltage set internally. Wealth; A low voltage switch controller for outputting a switching control signal for outputting from the low voltage output path control signal output from the reference voltage generator to the low voltage output terminal; A high voltage switch controller configured to output a switching control signal for outputting the high voltage output path control signal output from the reference voltage generator to a high voltage output terminal; It is configured to include an analog switch unit which is switched according to the switching control signal from the low voltage switch control unit or the high voltage switch control unit and outputs a low voltage signal or a high voltage signal, respectively, so that the input voltage is higher or lower than the reference voltage compared to the reference voltage. In order to cope with a wide range of input voltage by outputting voltage through different switch paths.

Description

Analog demultiplexer {Analog de-multiplexer}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an analog demultiplexer. The present invention relates to a demultiplexer which processes one input signal and selects and outputs one of a plurality of output signals.

A technique related to a conventional de-multiplexer was a circuit having a bidirectional switch for supplying a load from an AC voltage supply described in US Pat. No. 6,208,126 as shown in FIG.

This circuit consists of two MOSFETs and one unidirectional current path composed of one diode in parallel to each other. In order to control the two MOSFET switches, a DC input voltage source is applied to the control unit, and the two control voltages generated from the control unit are controlled. Are applied to the gates of the MOSFET switches to be switched.

However, the above prior art has the disadvantage of requiring an additional DC power supply for controlling the MOSFET switch, and does not include the function of determining the direction of the current according to the input voltage range.

The present invention has been invented to solve the above problems, and by outputting a voltage through a different switch path depending on whether the input voltage is higher or lower than the reference voltage compared to the reference voltage in a wide range of input voltage It is an object of the present invention to provide a corresponding analog demultiplexer.

1 is a block diagram of a conventional demultiplexer.

2 is a block diagram of an analog demultiplexer according to the present invention;

3 is a circuit diagram of one embodiment of an analog demultiplexer according to the present invention;

4 is a circuit diagram of an embodiment in which the analog demultiplexer according to the present invention is applied to an AC / DC combined power supply having a single input.

<Description of the symbols for the main parts of the drawings>

10: reference voltage generation unit 20: low voltage switch control unit

30: high voltage switch control unit 40: analog switch unit

According to an aspect of an analog demultiplexer according to the present invention for solving the above object, in the demultiplexer for processing one input signal to select and output one of a plurality of output signals, the input voltage A reference voltage generator for outputting a high voltage output path control signal and a low voltage output path control signal, respectively, according to whether the input voltage is greater than or less than the reference voltage compared with the internally set reference voltage; A low voltage switch controller for outputting a switching control signal for outputting from the low voltage output path control signal output from the reference voltage generator to the low voltage output terminal; A high voltage switch controller configured to output a switching control signal for outputting the high voltage output path control signal output from the reference voltage generator to a high voltage output terminal; And an analog switch unit which is switched according to a switching control signal from the low voltage switch controller or the high voltage switch controller to output a low voltage signal or a high voltage signal, respectively.

According to an additional aspect of the analog demultiplexer according to the present invention, the reference voltage generator of the analog demultiplexer according to the present invention is connected to a gate side and a drain side of a power input terminal, and a source side of a MOSFET (M3) connected to an input side of the low voltage switch controller. )and; A cathode side (ZD1, ZD2) connected to a power input terminal and an anode side connected to an input side of the low voltage switch control unit and a switching control terminal of the analog switch unit, respectively; One side thereof is connected to an anode side and a ground point of each of the zener diode pairs ZD1 and ZD2, and the other side thereof includes distribution resistors R1 and R2 connected to each other and to an input side of the low voltage switch controller. do.

According to an additional aspect of the analog demultiplexer according to the present invention, the low voltage switch controller of the analog demultiplexer according to the present invention uses the signal from the source side of the MOSFET M3 as one side input, and the zener diode pairs ZD1 and ZD2. The signal passing through) is the other input, and the output side includes an operational amplifier AMP connected to the switching control terminal of the analog switch unit.

According to an additional aspect of the analog demultiplexer according to the present invention, the high voltage switch controller of the analog demultiplexer according to the present invention is characterized by outputting the output of the reference voltage generator to the input terminal of the analog switch unit as it is.

According to an additional aspect of the analog demultiplexer according to the present invention, the analog switch portion of the analog demultiplexer according to the present invention has a drain side connected to a power input terminal, a source side connected to a low voltage output terminal, and a gate side of the analog demultiplexer according to the present invention. A MOSFET M1 connected to the output side; The drain side is connected to a power supply input terminal, the source side is connected to a high voltage output terminal, and the gate side includes a MOSFET M2 connected to the anode side of the zener diode pairs ZD1 and ZD2.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily understand and reproduce the present invention.

2 is a block diagram of an analog demultiplexer according to the present invention.

As illustrated, the analog demultiplexer according to the present invention includes a reference voltage generator 10, a low voltage switch controller 20, a high voltage switch controller 30, and an analog switch unit 40.

The reference voltage generator 10 outputs a high voltage output path control signal and a low voltage output path control signal according to whether the input voltage is larger or smaller than the reference voltage by comparing the input voltage with the internally set reference voltage.

The low voltage switch controller 20 outputs a switching control signal for outputting from the low voltage output path control signal output from the reference voltage generator 10 to the low voltage output terminal.

The high voltage switch controller 30 outputs a switching control signal for output from the high voltage output path control signal output from the reference voltage generator 10 to the high voltage output terminal.

The analog switch unit 40 is switched according to a switching control signal from the low voltage switch control unit 20 or the high voltage switch control unit 30 to output a low voltage signal or a high voltage signal, respectively.

Accordingly, input power is applied to the reference voltage generator 10 and the analog switch unit 40, and the reference voltage generator 10 compares the voltage size of the input power with a reference voltage set internally. The low voltage switch control unit 20 and the high voltage switch control unit 30 are controlled by different voltages to select and output the switch of the analog switch unit 40. When the input voltage is higher than the reference voltage, the high voltage output terminal outputs the output voltage. On the contrary, when it is low, it is output through the low voltage output stage.

Therefore, by comparing the input voltage with the reference voltage, that is, by selecting the output path only by comparing with the reference voltage regardless of the magnitude of the input voltage, it is possible to output corresponding to the wide input power range.

3 is a circuit diagram of one embodiment of an analog demultiplexer according to the present invention.

According to this embodiment, the reference voltage generator 10 includes: a MOSFET (M3) connected to a gate side and a drain side of a power input terminal, and a source side of the reference voltage generator; A cathode side (ZD1, ZD2) connected to a power input terminal and an anode side connected to an input side of the low voltage switch control unit and a switching control terminal of the analog switch unit, respectively; One side thereof is connected to an anode side and a ground point of the zener diode pairs ZD1 and ZD2, respectively, and the other side thereof includes distribution resistors R1 and R2 connected to each other and to an input side of the low voltage switch controller.

The low voltage switch control unit 20 uses the signal from the source side of the MOSFET M3 as one input, the signal passing through the zener diode pairs ZD1 and ZD2 as the other input, and the output side the analog switch. The operational amplifier AMP connected to the switching control stage of the unit 40 is included.

The high voltage switch controller 30 outputs the output of the reference voltage generator 10 to the input terminal of the analog switch unit 40 as it is.

The analog switch unit 40 includes: a MOSFET (M1) having a drain side connected to a power input terminal, a source side connected to a low voltage output terminal, and a gate side connected to an output side of the amplification operator (AMP); The drain side is connected to the power supply input terminal, the source side is connected to the high voltage output terminal, and the gate side includes a MOSFET M2 connected to the anode side of the zener diode pairs ZD1 and ZD2.

Accordingly, the MOSFET M3 is turned on or off according to the 'high' and 'low' signals according to the input voltage applied to the gate of the MOSFET M3, and the current flows to the source along the drain at turn-on. In this case, a 'high' signal is applied to one input of the operational amplifier AMP of the low voltage switch controller 20, and when the turn-off is turned off, the current flow is interrupted to apply a 'low' signal.

The zener diode pairs ZD1 and ZD2 are not conducting when the input voltage is smaller than the zener breakdown voltage, so that a low signal is applied to the gate of the MOSFET M2 and the other input of the operational amplifier AMP, and the zener breakdown is performed. When the input voltage is greater than the voltage, the signal is turned on to apply a 'high' signal to the other input of the operational amplifier AMP of the low voltage switch controller 20 and at the gate of the MOSFET M2 of the analog switch 40. A high 'signal is applied so that current flows through the drain of the MOSFET M2 to the source and output through the high voltage output terminal.

On the other hand, the operational amplifier AMP transmits a 'low' signal when the 'high' signal is applied to the input side connected to the zener diode pairs ZD1 and ZD2 of the reference voltage generator 10. The MOSFET M1 is turned off by applying a gate, and when a low signal is applied, a high signal is applied to the gate of the MOSFET M1 to turn on the MOSFET M1 along the drain. Current flows through the source to be output through the low voltage output stage.

That is, in the drawing, the reference voltage compared with the voltage of the input power source is 2Vz (Vz: zener breakdown voltage) by the zener diode pairs ZD1 and ZD2.

When the input voltage Vin is larger than 2Vz, the b nord voltage Vb becomes Vin-2Vz so that the MOSFET M2 is turned on, and the high voltage output Vouth becomes Vin-2Vz-Vt (Vt: threshold voltage).

At this time, the e norwood voltage Ve is 2Vz, the d norwood voltage Vd is 2Vz-Vgs3 (Vgs3: gate-source voltage), and the c norwood voltage Vc is (Vin -2Vz) * R2 / (R1 + R2). A, the nod voltage Va becomes 'low' and the MOSFET M1 is turned off.

On the other hand, when Vin is less than 2Vz, the b norwood voltage is 0V, MOSFET M2 is turned off, the e norwood voltage Ve is Vin, and the d norwood voltage Vd is Vin-Vgs3, c Norwood voltage Vc becomes 0V, a Norwood voltage Va becomes Vin, so MOSFET (M1) is turned on and the low voltage output Voutl becomes Vin-Vt (Vt: threshold voltage).

Accordingly, the analog demultiplexer according to the present invention selects and outputs an output path according to a comparison with a reference voltage in response to a wide range of input power sources.

The analog demultiplexer according to the present invention is applicable to a variety of devices in various fields when it is necessary to select and output one of two outputs from one input.

FIG. 4 shows a circuit diagram of an embodiment in which the analog demultiplexer according to the present invention is applied to an AC / DC combined power supply having a single input.

As shown, the AC / DC input is rectified and rectified through the line filter and the rectifier to be DC input to the analog demultiplexer according to the present invention.

The demultiplexer compares the input DC voltage with a reference voltage set therein and selects and outputs an output path according to a comparison value. When the input voltage is higher than the reference voltage, the demultiplexer applies the output voltage to the oscillator and the driving power output. The output signals from these are rectified and output to DC. When the output signals are low, output voltages are applied to the transformer and PWM control unit to rectify and output the output signals from them.

By doing so, it is possible to achieve the object of the analog demultiplexer according to the present invention presented above.

As described above, the analog demultiplexer according to the present invention is useful to cope with a wide range of input voltages by outputting voltages through different switch paths depending on whether the input voltage is higher or lower than the reference voltage compared to the reference voltage. Has an effect.

Although the present invention has been described with reference to the accompanying drawings, it will be apparent to those skilled in the art that various modifications may be made therein without departing from the scope of the invention, which is covered by the following claims.

Claims (5)

delete A reference voltage generator for outputting a high voltage output path control signal and a low voltage output path control signal according to whether the input voltage is greater than or less than the reference voltage by comparing the input voltage with an internally set reference voltage; A low voltage switch controller for outputting a switching control signal for outputting from the low voltage output path control signal output from the reference voltage generator to the low voltage output terminal; A high voltage switch controller configured to output a switching control signal for outputting the high voltage output path control signal output from the reference voltage generator to a high voltage output terminal; An analog switch unit configured to switch according to a switching control signal from the low voltage switch controller or the high voltage switch controller to output a low voltage signal or a high voltage signal, respectively, to process one input signal and to select and output one of a plurality of output signals In the demultiplexer, The reference voltage generator: A MOSFET (M3) connected to a gate side and a drain side of the power source input terminal, and a source side of the low voltage switch controller; A cathode side (ZD1, ZD2) connected to a power input terminal and an anode side connected to an input side of the low voltage switch control unit and a switching control terminal of the analog switch unit, respectively; One side of each of which is connected to an anode side and a ground point of the pair of zener diodes ZD1 and ZD2, the other side of which is connected to an input side of the low voltage switch control unit; An analog demultiplexer, characterized in that it comprises a. The method of claim 2, The low voltage switch control unit: The signal from the source side of the MOSFET M3 is one input, the signal passing through the zener diode pairs ZD1 and ZD2 is the other input, and the output side is an operational amplifier connected to the switching control terminal of the analog switch unit. AMP), comprising an analog demultiplexer. The method of claim 3, wherein The high voltage switch controller is: And outputting the output of the reference voltage generator as it is to the input terminal of the analog switch unit. The method of claim 4, wherein The analog switch unit: A MOSFET M1 connected to the drain side of the power supply input terminal, the source side to the low voltage output terminal, and the gate side connected to the output side of the amplifier AMP; A MOSFET (M2) connected to a drain side of the power supply input terminal, a source side of the high voltage output terminal, and a gate side of the Zener diode pair (ZD1, ZD2) connected to the anode side; An analog demultiplexer, characterized in that it comprises a.