JPS63167632A - Output voltage control circuit - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

[Detailed description of the invention] [Industrial application field] The present invention relates to an output voltage control circuit.

[Conventional technology]

A conventional output voltage control circuit includes an error amplifier that takes an error between a detected output voltage and a reference voltage, and a control circuit that controls the output voltage circuit based on this error voltage.

In addition, in order to insulate the output voltage point from the control circuit, an isolated signal transmission element such as a photocoupler is inserted between the error amplifier and the control circuit, and the signal is transmitted through this element while maintaining insulation between the two. A method has also been proposed in which the output voltage is controlled by transmitting only the voltage.

[Problem that the invention seeks to solve]

In the former case, the above-mentioned conventional output voltage control circuit has a problem in that the output voltage point cannot be isolated from the error amplifier or the output voltage control circuit.

Also, when using the latter photocoupler for insulation,
The output of the photocoupler fluctuates due to aging,
Level fluctuations may occur in the analog signal transmitted via this photocoupler, resulting in fluctuations in the output voltage.

Furthermore, since both of them transmit control signals using analog signals, there are problems such as malfunction of the control system due to the influence of noise and the like, and oscillation in the loop system when feedback is applied.

SUMMARY OF THE INVENTION An object of the present invention is to provide an output voltage control circuit that can realize stable output voltage control even against aging of an isolated signal transmission element and disturbance noise.

[Means for solving problems]

The output voltage control circuit of the present invention includes an output voltage detection circuit that has a reference voltage inside and compares the output voltage with the reference voltage to detect the error voltage, and an A/D conversion circuit that converts this output error voltage into a digital signal. an insulated signal transmission element that transmits this digital signal in an isolated state, and a D/A that converts the transmitted digital signal into an analog signal.
The configuration includes at least a converter and a control circuit that controls a part of the power supply circuit and controls its output voltage based on an analog signal from the D/A converter that is output through a buffer or an amplifier circuit. .

In this case, the error signal is amplified by an error amplifier and the A/D
It is preferable that the input signal be input to a converter, and that a next-side drive circuit and a threshold element are connected before and after the isolated signal transmission element, respectively.

〔Example〕

Next, the present invention will be explained with reference to the drawings.

FIG. 1 is a block circuit diagram of the present invention. The detection circuit 2, which has a reference voltage inside, compares the output voltage 1 with the reference voltage and detects the difference voltage. Then, the error voltage between the detection voltage of the detection circuit 2 and the reference voltage is amplified by the error amplifier 3, and A
/D converter 4. The primary side drive circuit 5 operates the isolated signal transmission element 6 based on the digital signal output from the A/D converter 4, and sends the digital signal from the primary side to the secondary side of the isolated signal transmission element 6. . The digital signal sent to the secondary side is received by the threshold element 7,
A D/A converter 8 converts the signal into an analog signal, and a buffer circuit or amplifier 9 shapes or amplifies the error voltage before inputting it to a control circuit 10 . The control circuit 10 operates to maintain the output voltage at a constant value depending on the state of the input error voltage.

FIG. 2 shows an example in which a transformer is used as an isolated signal element and is applied as an output voltage control circuit of a power supply circuit.

First, the applied power supply circuit has an input power supply 11°, a smoothing circuit 12, and is turned on and off by a switching transistor 13. The voltage is then transformed by a transformer 14, rectified by rectifier diodes 15, 16, and stored in an energy storage coil 17. The output voltage is smoothed by a smoothing capacitor 18 and output across a load resistor 19 .

The output voltage output from the power supply circuit is divided and detected by a 20° resistor, and the reference voltage created by the resistor 22 and the Zener diode 25 and the detected voltage are input to the amplifier 26, and the former voltage is The error voltage between the latter voltage and the latter voltage is amplified by the error amplifier 3 composed of resistors 23 to 24 and an amplifier 26. This amplified error voltage is input to the A/D converter 4, where it is converted into a digital signal and input to the inverter 27 as the primary side drive circuit 5. The output signal of the inverter 27 is supplied to the transistor 29 through the resistor 28 and the constant voltage source 3
1 performs a switching operation, and a signal is transmitted from the primary side to the secondary side of the transformer 30, which is an insulated signal transmission element connected to the collector.

The signal output across the resistor 32 connected to the secondary side of the transformer is connected to the inverter 33 as the threshold element 7.
After being converted into an analog error voltage by the D/A converter 8 via the
and enters the control circuit 10. The control circuit 10 controls the switching period and the like of the switching transistor 13 based on the input value, and controls the output voltage to a constant value.

Therefore, since this circuit uses an isolated signal transmission element and performs control by transmitting digital signals, it is possible to perform stable control even against secular changes in the insulation type signal transmission element 6 and disturbance noise. can.

FIG. 3 is an example in which the output voltage control circuit is applied to a power supply circuit in the same way as in FIG. The configuration is such that a signal output to both ends of a resistor 39 connected to a power source 40 is controlled. Also,
The final stage amplifier 9 uses a buffer 41 instead of an amplifier.

The operating principle is similar to that shown in FIG. 2, and similar effects can be obtained.

〔Effect of the invention〕

As explained above, in a circuit that controls an output voltage, the present invention converts an error voltage into a digital signal using an A/D converter, transmits it from the primary side to the secondary side using an isolated signal transmission element, and converts the error voltage into a digital signal using an insulated signal transmission element. By D/A converting the secondary output signal, the detection point and the control circuit can be isolated, and by transmitting a digital signal, the isolated signal transmission element is strong and stable against aging and disturbance noise. This has the effect of allowing for controlled control.

[Brief explanation of the drawing]

FIG. 1 is a block circuit diagram of the present invention, and FIGS. 2 and 3 are circuit diagrams of different examples applied to power supply circuits. DESCRIPTION OF SYMBOLS 1... Output voltage, 2... Detection circuit, 3... Error amplifier, 4... A/D converter, 5...-Next side drive circuit, 6... Isolated signal transmission element , 7... Threshold element, 8... D/converter, 9... Buffer circuit or amplifier, 10... Control circuit, 11... Input power supply, 1
2...Smoothing circuit, 13...Transistor, 14...
・Transformer, 15.16... Rectifier diode, 17.
...Energy storage coil, 18...Smoothing capacitor, 19...Load resistance, 20-24...Resistor, 25
...Zener diode, 26...Amplifier, 27.
...Inverter, 28...Resistor, 29...Transistor, 30...Transformer, 31...Constant voltage source, 32
...Resistor, 33...Inverter, 34-36...
Resistor, 37...Amplifier, 3rd...Photocoupler, 3
9...Resistor, 40... Constant voltage source, 41... Buffer.

Claims (1)

[Claims] (1) An output voltage detection circuit that has a reference voltage inside and compares the output voltage with the reference voltage to detect the error voltage, an A/D converter that converts this output error voltage into a digital signal, and this digital signal. an isolated signal transmission element that transmits the digital signal in an isolated state, a D/A converter that converts the transmitted digital signal into an analog signal, and an analog signal from the D/A converter that is output through a buffer or an amplifier circuit. 1. An output voltage control circuit comprising: a control circuit that controls a part of a power supply circuit based on the output voltage of the power supply circuit.