JP2791621B2 - Signal transmission method - 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 system for transmitting signals between units to which a plurality of power supplies are supplied.

[0002]

2. Description of the Related Art FIG. 3 is an explanatory diagram showing a conventional signal transmission system. In the figure, A and B are units, and power is supplied to the units A and B from different power supplies V1 and V2 via power supply lines. In the unit A, for example, a circuit 1A to which the power supply V1 is supplied is disposed, and in the unit B, a circuit 1B to which the power supply V1 is supplied is disposed. In such a configuration,
For example, when transmitting a signal from the unit B to the unit A, as shown in FIG. 3B, a switch SW is provided in the unit B, and a signal is transmitted to the unit A via a signal line by pressing the switch SW. Like that.

[0003]

Conventionally, when transmitting a signal to another circuit system connected by a power supply line, a separate signal line is required, and this signal line increases as the number of signals increases. There have been problems such as complicated wiring and an increase in the cost of the entire apparatus.

[0004]

According to the present invention, a plurality of power supplies having a plurality of different power supply voltages are connected to the first and second positive power supply lines and the first and second positive power supply lines, respectively.
A first unit supplied via a second negative power supply line, and a second unit connected to the first unit via first and second positive power supply lines and first and second negative power supply lines When a signal is transmitted between the first and second units by including a unit, a constant voltage diode provided in the first negative power supply line in a direction opposite to the direction in which the power supply current flows, 2
A switch provided between one of the units and connected between the cathode of the constant voltage diode and the second negative power supply line; and a switch provided on the other of the first and second units. 2 and a photocoupler connected between the negative power supply line and the anode of the constant voltage diode.

[0005]

A constant voltage is constantly generated by a constant voltage diode provided on the first negative power supply line, and when the switch is closed, the current flowing through the first negative power supply line becomes the second negative power supply. The operation of the switch can be detected at the photocoupler because the current is returned to the first negative power supply line again through the line and the photocoupler. Therefore, signal transmission between the units is performed via the power supply line, and the signal line becomes unnecessary.

[0006]

Next, the present invention will be described with reference to the drawings. FIG. 1 is a block diagram showing one embodiment of a system to which a signal transmission system according to the present invention is applied. In this figure, this system is a circuit 1 which operates by supplying a power supply V1.
A and 1B, circuits 2A and 2 operated by supply of a power supply V2 having a power supply voltage different from the power supply V1.
The circuit system 2 includes a zener diode ZD, a switch SW, a photocoupler PC, and the like. This system is divided into two units A and B. The unit A is provided with circuits 1A and 2A, a zener diode ZD, a photocoupler PC, and the like, and the unit B is provided with circuits 1B and 2B. A switch SW and the like are provided.

Normally, each unit operates independently by power supply from each power supply.
In such a state, when a switch SW1 provided on the unit B side is pressed to transmit a signal from the unit B to the unit A, the current of the circuit system 1 is changed from the switch SW1 to the load resistance R1, It returns to the negative power supply side of the circuit system 1 via the negative power supply line of the system 2 and the LED of the photocoupler PC. The current of the bypass loop turns on the LED of the photocoupler PC provided on the unit A side.
_{Turn on} to generate an output voltage V _OUT .
A signal can be received by detecting the output voltage V _OUT in the unit A. As described above, since signals can be transmitted between the units via the power supply line, a dedicated signal line becomes unnecessary.

Next, FIG. 2 is a diagram for explaining an operation of transmitting a signal between the units A and B. As described above, the power supply V1 is supplied to the circuit 1A in the unit A, and the power supply V2 is supplied to the circuit 2A. The circuit 1 in the unit B
B and the circuit 2B have power supply lines V1 (+), V1
Power supply V1 and power supply V2 are supplied by (−) and power supply lines V2 (+) and V2 (−), respectively. When the switch for transmitting the signal is open, the main current flowing from the power supply line V1 (+) to the power supply line V1 (−) through the circuit 1B passes through the Zener diode ZD. Return to V1.

Here, when the switch SW in the unit B is pressed down to close the contact in order to transmit a signal to the unit A side, the main current still flows through the Zener diode ZD. An inactive bypass current occurs. That is, the power supply line V1
(-) → Switch SW → Load resistance R1 → Power supply line V2
A bypass current flows through a bypass path of (−) → photocoupler PC → power supply line V1 (−). A signal is received by detecting the bypass current flowing in this manner. The value of the bypass current flowing through the bypass path is determined by the voltage of the Zener diode ZD. In this case,
Between the power supply line V1 (-) and the power supply line V2 (-),
A potential difference corresponding to the voltage drop of the LED of the photocoupler PC is generated, and the circuit systems 1 and 2 are easily affected by mutual noise. However, this signal transmission method is effective for an analog circuit requiring a bias current. is there.

[0010]

As described above, according to the present invention, a plurality of power supplies having a plurality of different power supply voltages are respectively supplied via the first and second positive power supply lines and the first and second negative power supply lines. The first unit to be supplied and the first unit via the first and second positive power supply lines and the first and second negative power supply lines.
When a signal is transmitted between the first and second units by providing a second unit connected to the first unit, a constant voltage is constantly generated by a constant voltage diode provided on the first negative power supply line. When the switch is closed,
The current flowing in the first negative power supply line is returned to the first negative power supply line again through the second negative power supply line and the photocoupler. As a result, the operation of the switch can be detected in the photocoupler. Therefore, signal transmission between the units is performed via the power supply line, and the signal line becomes unnecessary.

[Brief description of the drawings]

FIG. 1 is a block diagram showing an embodiment of a system to which a signal transmission system according to the present invention is applied.

FIG. 2 is an explanatory diagram showing a signal transmission operation in the above system.

FIG. 3 is an explanatory diagram showing a conventional signal transmission operation.

[Explanation of symbols]

A, B unit V1, V2 Power supply 1A, 1B, 2A, 2B circuit Interphone section ZD Zener diode SW switch PC Photocoupler R1, R2 Load resistance

Claims (1)

(57) [Claims] A plurality of power supplies having a plurality of different power supply voltages are respectively connected to first and second positive power supply lines and first and second positive power supply lines.
A first unit supplied via a negative power supply line of
A second unit connected to the first unit via the first and second positive power supply lines and the first and second negative power supply lines, between the first and second units. In a signal transmission method for transmitting a signal, a constant voltage diode provided in the first negative power supply line in a direction opposite to a direction in which the power supply current flows, and one of the first and second units A switch provided between the cathode of the constant voltage diode and the second negative power supply line provided in the unit; and the second negative power supply provided in one of the first and second units. A photocoupler connected between the line and the anode of the constant voltage diode, wherein a signal is transmitted by detecting operation of the switch in the photocoupler. No. transmission method.