JP3139243B2 - Signal transmission circuit and power supply circuit - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a signal transmission circuit using a photocoupler and a power supply circuit using the same.

[0002]

2. Description of the Related Art A photocoupler is a signal transmitting device in which a light emitting element for converting an input electric signal into an optical signal and a light receiving element for receiving the optical signal, converting the signal into an electric signal, and outputting the same are integrated. A signal transmission circuit such as a feedback path of a power supply circuit in which electrical isolation between the primary side and the secondary side is required because only the signal can be transmitted by electrically insulating the input side and the output side. It has been heavily used.

However, the signal transmission ratio, which is the ratio of the output signal to the input signal of the photocoupler, is not constant because it is affected by variations in the conversion efficiency of the light emitting / receiving elements, temperature characteristics, and aging. In other words, there is a problem that the magnitude of the transmitted signal with respect to the signal to be transmitted changes from device to device and with time, and the value of the signal changes from the true value.

For example, as shown in FIG. 3, in a conventional power supply circuit using a photocoupler as a signal transmission circuit of a feedback control system, an input DC input voltage Vi is input.
Is converted into an output DC voltage Vo by the DC / DC converter 1 and supplied to the load. The error detection circuit 2 compares the output DC voltage Vo with the set voltage Vs, amplifies the difference, and outputs the amplified voltage as an error voltage ΔVo. The error voltage ΔVo is input to the primary side of the photocoupler 4. Photo coupler 4
Transmits this signal. The pulse width control circuit 8 generates a control pulse whose duty changes based on the transmitted error voltage ΔVo ′, and applies the control pulse to the DC / DC converter 1. The DC / DC converter 1 is controlled based on the control signal so that the output DC voltage Vo becomes equal to the set voltage Vs.

As described above, since the photocoupler is used in the feedback path of the error voltage, if the signal transmission rate changes as described above, the error voltage is not correctly transmitted, and the output DC voltage Vo changes. there were.

[0006]

As described above, when the transmission rate of the photocoupler changes, the magnitude of the transmitted signal changes, and the transmission is not performed correctly. In a power supply circuit using the same, the output voltage is reduced. Was changed.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and has as its object to provide a signal transmission circuit capable of always performing correct signal transmission while compensating for fluctuations in the signal transmission rate of a photocoupler.

[0008]

FIG. 1 is a block diagram of a signal transmission circuit using a photocoupler of the present invention, and FIG. 2 is a block diagram of an embodiment of a power supply circuit of the present invention.

In order to solve the above problem, a signal transmission circuit according to the present invention, as shown in FIG.
o, an adder circuit means 3 for adding an AC signal vo having a constant amplitude to o, a photocoupler 4 to which an output of the adder circuit means is input, and which outputs an output signal corresponding to the input; and an output signal of the photocoupler 4 Signal separating means 5 for separating the AC component into an AC component, amplitude detecting means 6 for determining the amplitude of the separated AC component, and a DC signal transmitted by dividing the magnitude of the DC component by the amplitude of the AC component. The power supply circuit according to the present invention, as shown in FIG. 2, comprises a DC / DC converter for converting an input DC voltage into an output DC voltage and supplying the output DC voltage to a load. 1 and
An error voltage detecting means for comparing the output DC voltage with a reference voltage and generating an error voltage corresponding to the difference voltage between the two.
And a pulse width control circuit for generating a control signal for controlling the DC / DC converter so that the error voltage is input and the output DC voltage of the DC / DC converter changes in a direction in which the error voltage decreases. In the power supply circuit having the means 8, the signal transmission circuit for transmitting the error voltage from the error voltage detection means 2 to the pulse width control circuit means 8 is configured using the signal transmission circuit using the above-described photocoupler.

[0010]

When the signal transmission rate of the photocoupler changes, the DC signal to be transmitted and the AC signal having a constant amplitude superimposed thereon have the same effect.

Now, the DC voltage to be transmitted is ΔV _o, and the initial transmissivity α of the photocoupler is α ′
Is changed to Correct value of the output of the transmission circuit (initial value) _{is, K · αΔV o / αv o} = K · ΔV o / v o ( where K is to the same level as the DC voltage to be transmitted to the output DC voltage This coefficient is a constant coefficient and is a coefficient relating to the amplitude of the superimposed AC voltage), and the value after the change is K · α ′.
ΔV _o / α ′ v _o = K · ΔV _o / v _o , indicating that the value of the DC voltage transmitted and output is the same as the initial value even if the transfer coefficient of the photocoupler changes.

[0012]

Embodiments of the present invention will be described below with reference to the accompanying drawings. FIG. 2 is a block diagram of a power supply circuit according to an embodiment of the present invention, in which a signal transmission circuit according to the present invention is used in a feedback control system.

In FIG. 2, a DC / DC converter 1 converts an input DC voltage Vi into an output DC voltage Vo and supplies it to a load (not shown). Reference numeral 2 denotes an error voltage detection unit to which an output DC voltage Vo is input and a preset set voltage Vs is set.
Is obtained and amplified, and output as a DC error voltage ΔVo. Reference numeral 3 denotes an adder circuit, which has a DC error voltage ΔVo
And an AC voltage vo having a constant amplitude is added and superimposed. The output ΔVo + vo of the adding circuit 3 is transmitted by the photocoupler 4. 5 is a signal separation unit, which is a low-pass filter 51.
And a high-pass filter 52, and separates the signal transmitted by the photocoupler into a DC component Vo ′ and an AC component vo ′. An amplitude detector 6 composed of a peak rectifier circuit detects the amplitude of the AC component vo '. The dividing circuit 7 divides the transmitted DC component ΔVo ′ by the AC component vo ′. And as a result the error voltage K · ΔVo '/ vo' = K · ΔV o
/ V _o is output.

In this circuit, the gate has an amplitude v of an AC component.
This is realized in an equalized manner by an operational amplifier 72 using a MOSFET 71 controlled in o 'and operating in a linear region as a feedback resistor and a resistor R1 as a ground resistor. That is, MOSFET
If the resistance between the drain and the gate of R is Rf, the DC component Vo
The amplification degree of the variable amplifying means for 'is proportional to (1 + Rf / R1), and Rf is inversely proportional to the amplitude vo of the AC component. For example, an output proportional to the DC component divided by the AC component amplitude is obtained.

Reference numeral 8 denotes a pulse width control circuit which generates a control pulse having a constant frequency to control the DC / DC converter 1, and changes the duty ratio of the control pulse in accordance with the input error voltage. , The output voltage Vo of the DC / DC converter 1 is controlled to the set voltage Vs.

With this configuration, even if the transmission rate of the photocoupler decreases, the same value is always transmitted for the same error voltage, so that the output DC voltage Vo of the DC / DC converter 1 varies. Be stable. Similarly, the DC output voltage Vo is constant even if the transmissivity changes due to variations in the photocouplers and temperature fluctuations.

In the case of a transmission circuit in which the signal to be transmitted is an AC signal having a frequency fo, a constant amplitude AC signal having a frequency fs having a frequency band different from that of the AC signal to be transmitted is provided.
vo (reference component) is superimposed by an adder circuit, and a signal separation unit extracts a signal component to be transmitted by a band elimination filter of frequency fo and a reference component by a band pass filter of frequency fs. The amplitude detector detects the amplitude of the reference component, and the divider divides the AC component of the frequency fo output by the band elimination filter by the amplitude of the reference component to compensate for the change in the transmission efficiency of the photocoupler. be able to.

Of course, this transmission circuit can be used for the feedback path of the power supply circuit.

[0019]

As described above, according to the present invention, even if the photocoupler deteriorates and the output of the photocoupler becomes smaller than the true value before the deterioration, accurate signal transmission becomes possible.
Further, even if there is a difference in the transmission rate due to the variation and the temperature variation of each part, the influence can be reduced.

[Brief description of the drawings]

FIG. 1 is a configuration diagram of a signal transmission circuit using a photocoupler of the present invention.

FIG. 2 is a configuration diagram of an embodiment of a power supply circuit according to the present invention.

FIG. 3 is a configuration diagram of a conventional power supply circuit.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... DC / DC converter, 2 ... Error voltage detection part, 3 ...
Addition circuit, 4 photocoupler, 5 signal separation unit, 6 amplitude detection circuit, 7 division circuit, 8 pulse width control circuit

────────────────────────────────────────────────── ─── Continuing from the front page (72) Inventor Sachiji Yamaguchi 3-22-8 Hakata Ekimae, Hakata-ku, Fukuoka, Fukuoka Prefecture Inside Fujitsu Kyushu Digital Technology Co., Ltd. (56) References JP-A-63-42213 (JP) JP-A-5-219734 (JP, A) JP-A-61-287319 (JP, A) JP-A-1-147661 (JP, A) JP-A-63-198581 (JP, A) (58) Field surveyed (Int. Cl. ⁷ , DB name) G05F 1/10 H02M 3/00 H03K 17/78

Claims (3)

(57) [Claims] And 1. A summing circuit hand stage amplitude into a DC signal to be transmitted is superimposed a constant alternating current signal, and Hotokappu La which receives the output of the adder circuit hand stage, a direct current component output of the Hotokappu La a signal separation means to separate the AC component, the amplitude detection hand stage for determining the amplitude of said separated AC component, those obtained by dividing the magnitude of the DC component with an amplitude of the AC component, which is transmitted DC signal transmission circuit you characterized by having a <br/> a division circuit means to output a signal. 2. An AC signal to be transmitted having a constant amplitude and
A signal on which a second AC signal with a different frequency from the signal is superimposed
Superimposing means, a photocoupler having an output of the signal superimposing means as an input, and an AC signal component to which an output signal of the photocoupler is to be transmitted.
Signal separating means for separating the signal into a second AC component, and an AC component to be transmitted at an amplitude of the separated second AC component.
Output the divided value as a transmitted AC signal
Signal transmission circuit having division circuit means.
Road. 3. An input DC voltage is converted into an output DC voltage and
DC / DC converter means for supplying the load, the output DC voltage and a reference voltage are compared, and the difference between the two is compared.
Error voltage detecting means for generating an error voltage corresponding to the voltage
In the direction in which the error voltage is input and the error voltage decreases.
The output DC voltage of the DC / DC converter changes.
Control signal for controlling the DC / DC converter
Pulse width control circuit means for generating an AC signal having a constant amplitude on the error voltage.
Path means and a photo to which the output of the addition circuit means is input.
The output of the coupler and the photocoupler is exchanged with the error voltage component.
Signal separating means for separating the signal into a stream component and the separated AC
Amplitude detection means for determining the amplitude of the component, and the amplitude of the AC component
The value obtained by dividing the magnitude of the error voltage component by
Dividing circuit means for outputting the error voltage.
Error from difference voltage detection means to the pulse width control circuit means
And a signal transmission circuit for transmitting a voltage.
Power supply circuit.