JPS63157615A - Distributed electric source system - 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 includes a plurality of distributed power supply devices and a power supply monitoring and control circuit that monitors and controls each of these power supply devices. Regarding distributed power supply systems.

(Prior Art) Conventionally, power supplied to each electronic circuit of a device has been distributed from a centralized power supply provided within the device. Therefore, the power supply monitoring and control device provided within the same housing was able to easily and centrally control power supply voltage monitoring and on/off control.

(Problem to be solved by the invention) In recent years, there has been a demand for downsizing of power supplies, and it is often the case that multiple power supplies are distributed and arranged within the housing of a device. Multiple power supplies may be arranged on a printed circuit board. The problem in such cases is that when a failure occurs in each distributed power source, it is difficult to identify the failed distributed power source, and furthermore, it is difficult to turn on or turn off a specific distributed power source. be.

This is because if control lines and monitoring lines are wired from each distributed power source in a number corresponding to the number of distributed power sources, the amount of wiring will be large and the cost of the entire power supply system will be extremely high.

The present invention has been made in view of the above problems, and provides a distributed power supply system that can avoid complicated wiring and reduce the cost of the entire system when a plurality of power supply devices are distributed and arranged. The purpose is to

(Means for Solving the Problems) In order to solve the above-mentioned problems and achieve the above objects, the distributed power supply system provided by the present invention includes a plurality of distributed power supply devices and each power supply device. A control unit that outputs a control signal specifying the address of each power supply unit and instructing it to stop or restart is connected to a power supply monitoring control circuit that monitors and controls the power supply unit using a common signal line. a decoding means provided in the control circuit for decoding the signal content of the control signal; an address determining means for outputting a match signal only when an address included in the control signal and a preset own address match; Each of the power supply devices is provided with power switching means that stops or outputs power again depending on the decoding result of the decoding means only when a matching signal is obtained.

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

FIG. 1 is a block diagram showing the system configuration of an embodiment of the present invention, and FIG. 2 is a block diagram showing the internal configuration of the power supply device 103 of the embodiment of FIG.

101 is a power supply device that inputs -48V and outputs +12V. 102 and 103 are power supply devices that input -48V and output +5V. 104 is -48V
105 and 106 are output terminals that output +5V, and 107 is an output terminal that outputs +12V. 108 and 109 are address selection terminals. 111 is a power supply monitoring control circuit; 110 is a power supply monitoring control circuit;
This is a bus that connects each power supply device 101, 102, 103 and the power supply monitoring control circuit 111.
2.103 and the power supply monitoring control circuit 111 transmit information bidirectionally via the bus 110;
When the control circuit 111 specifies the address of each power supply wave W101 to W103 and outputs the signal 201, signal 202, or signal 203, the corresponding power supply device responds or sends power supply voltage monitoring information to the power supply monitoring control circuit 111. do. 115 is a power input terminal, and 116 is an input terminal for the control signal 203.

Here, each signal 2 output from the power supply monitoring control circuit 111
01.202.203 will be explained. 1. Control signal 20
3 is a multi-bit power supply type identification code 301 and a multi-bit address code 302 as shown in FIGS. 3 and 4.
and a multi-bit control command signal 303. This power supply type identification code 301 is a code for identifying the type of power supply of 5V or 12V, and the address code 302
is a code that specifies, for example, one of two 5V power supplies.

Therefore, the power supply type identification code 301 and the address code 3 (1
2 specifies the address of a specific power supply device.

Further, the control command signal 303 is the aforementioned 5V or 12V.
It instructs to stop outputting the V power supply or to output it again and to monitor the power supply voltage. Also, all power waves r! ! 101
．． Restart signal 20 to restart 102.103
2 is set to the "L" level for a time to as shown in FIG. The stop signal 201 for stopping all the power supplies 101, 102, and 103 at once is generated at time 1. It is set to the "L" level for a longer time t1.

Next, referring to FIG. 2, a plurality of power supply devices 1101 and 102
, 103, the power supply device 103 will be explained as a representative.

First, the case where the control signal 203 is input from the power supply monitoring control circuit 111 will be described.

The control signal 203 inputted through the terminal 116 is sent to the inverter 416. 'Input to control circuit 408 via serial interface 406. The control circuit 408 decodes the signal content of the aforementioned control signal 203, compares the address included in the control signal 203 and the preset address of the power wave e 103, and determines that both addresses match. Then, in response to the decoding result, that is, the control command signal, and the stop command or restart command that is the signal content of 303, a command signal to stop or re-output the power output is sent to the power switching circuit 411 of the DC-DC converter 401. Output. Further, when the control circuit 408 determines that the control command signal 303 of the control signal 203 is a command signal to monitor the power supply voltage, the control circuit 408 transmits the monitoring signal to the power supply voltage monitoring circuit 413 of the DC-DC converter 401.
Output to. When the control circuit 408 collects power supply voltage monitoring information, that is, the voltage value between the terminals 105a and 105b, from the power supply voltage monitoring circuit 413 based on this monitoring signal, the control circuit 408 transmits the monitoring information via the serial interface 407 and the inverter 415. It is transmitted to the power supply monitoring control circuit 111. The voltage conversion circuit 412 converts the -48V power supply voltage input from the terminal 115 into a +5V power supply voltage and outputs it from the terminals 105a and 105b. #S, the source switching circuit 411 switches +5 to the terminals 105a and 105b based on the stop command or restart command from the control circuit 40g.
Stop the power output of V or output it again.

Next, a case where the restart signal 202 is input will be explained. The restart signal 202 is detected by the filter 405 via the inverter 417, and the detected restart signal 40
5a is input to the control circuit 408. Control circuit 408
When the restart signal 405a is determined, the power supply switching circuit 411 is activated and the terminal 105a is activated.

Commands +5V power output from 105b.

Next, a case where the stop signal 201 is input will be explained.

The stop signal 201 is detected by the filter 404 via the inverter 418, and the detected stop signal 404a is input to the control circuit 408. When the control circuit 408 determines the stop signal 404a, the power switching circuit 4
11 and +5V from terminals 105a and 105b.
Stops the power output.

Note that the internal configuration of the power supply device 102 is similar to the power supply device 103 in FIG. 2 described above. Further, the power supply device 101 is
In place of the voltage conversion circuit 412, the power supply voltage of -48V is used.
It is equipped with a voltage conversion circuit for converting to 12V, and other circuit sections are the same as the power supply device 103 shown in FIG. 2.

In addition, the circuit section such as the serial interface is an LSI
(integrated circuit) and can be built into a power supply device.

Further, electrical logic such as control signals, combinations of logical signals, etc. are not limited to this embodiment, and appropriate ones may be applied.

(Effects of the Invention) As described above, according to the present invention, the entire distributed power supply system can be reliably monitored and controlled with a simple configuration, and costs can be further reduced.

[Brief explanation of the drawing]

FIG. 1 is an overall configuration diagram showing an embodiment of the present invention, FIG. 2 is an internal configuration diagram of the power supply device 103 shown in the embodiment of FIG. 1,
Fig. 3 is a time chart of the embodiment shown in Fig. 1, and Fig. 4 is a time chart of the embodiment shown in Fig. 3.
It is a figure which shows the code structure of the control signal shown in the figure. 101, 102.103...power supply device, 111...
Power supply monitoring control circuit, 415.416.417.418・
...Inverter, 406°407...Serial interface, 408...Control circuit, 404.405-
7 Ile 9-14o11-pc-Dc converter, 41
1... Power supply switching circuit, 412... Voltage conversion circuit, 4) 3... Power supply voltage monitoring circuit.

Claims (1)

[Scope of Claims] A plurality of distributed power supply devices and a power supply monitoring control circuit that monitors and controls each of the power supply devices are connected by a common signal line, and the address of each power supply device is connected by a common signal line. The power supply monitoring control circuit is provided with a control unit that outputs a control signal specifying a stop or restart command, and a decoding means for decoding the signal content of the control signal, and an address and an address included in the control signal. Address determining means that outputs a matching signal only when a preset own address matches, and power switching that stops or restarts power output according to the decoding result of the decoding means only when the matching signal is obtained. A distributed power supply system characterized in that each of the power supply devices is provided with means.