JPH04125028A - Power supply device having circuit for monitoring load in redundant constitution - Google Patents

Abstract

PURPOSE:To detect whether it is adopting specified redundant constitution by providing it with a means, which compares the output current load factor of each power unit with the output current load factor of the power device at large, and a means, which indicates the effect in the case where the output current load factor of the power unit exceeds the output current load factor of the power device at large. CONSTITUTION:The power supply to load 6 is performed from an output power source 1-1, and the output current at that time is detected with a load current detector 1-2, and it informs a load factor judging part 1-3 of the output current value. The load factor judging part 1-3 judges the output current load factor described above, and sends the information that the results have exceeded the judgment value to a load factor excess display 5-1. The load factor excess display 5-1, by the number of mounted power units, that is, by the information from the installations 1-4-1-4, compares the output current maximum load factor of the power device in redundant constitution with the excess information from the load factor judging part 1-3, and in case that it exceeds this, the display issues the alarm that it has exceeded the load in redundant constitution.

Description

[Detailed Description of the Invention] [Summary] Regarding the output current monitoring circuit during operation of a parallel redundant configuration of a power supply device, when the load current increases due to the addition of peripheral devices, etc., and the redundant configuration cannot be adopted. The purpose of the present invention is to provide a device that can notify the operator of the output current value of each power supply unit, and the current value detected by the above means is divided by the rated output current value of the power supply unit. did,
Output current load of the entire power supply unit, which is the value obtained by dividing the output current load factor of the power supply unit and the number of power supply units for maximum load supply, which is calculated by subtracting 1 from the total number of power supply units in the power supply unit, by the total number of power supply units. The present invention is constructed by providing means for comparing the output current load factor with the output current load factor of the power supply unit as a whole, and means for displaying that fact when the output current load factor of the power supply unit exceeds the output current load factor of the entire power supply device based on the above comparison result.

[Industrial application field]

The present invention relates to a power supply device with a parallel redundant configuration for an information processing device, and more particularly to a power supply device having a circuit that automatically displays a warning when the output current exceeds a load range that can operate as a redundant configuration. .

[Conventional technology]

The DC power supply device used in electronic equipment of information processing equipment is
When constructing a non-stop system, it is necessary to increase the conversion rate, and a method for this purpose is to operate multiple power supply units in parallel and redundantly.

Furthermore, the power supply device is preliminarily equipped with a number of power supply units sufficient to satisfy the load current when the device configuration is maximized.

In other words, even if the system has the minimum device configuration, the power supply unit is equipped with the number of units that can accommodate the maximum device configuration.

The aforementioned redundant configuration is often implemented by adding one redundant power supply unit to the N power supply units required for the maximum load current. Three (N+1=3) power supply units capable of supplying 50A are mounted on the power supply device. That is, according to this configuration, even if one power supply unit fails, the other two power supply units can supply the necessary current, so the system operation can be continued.

On the other hand, if the system is upgraded at the site where information processing equipment is installed and the load current exceeds 10OA, if redundancy measures are not taken and a power supply unit is not added, only one power supply unit will be used during operation. Problems may arise in which failure of the unit becomes an unacceptable condition.

When the redundant configuration is N+1, the maximum load factor of the redundant configuration of the power supply unit to the entire power supply device can be expressed as N+1.

FIG. 3 is a diagram illustrating the redundant configuration and maximum load factor of the power supply unit. This figure illustrates the configuration of four examples of a power supply unit 100 and a redundant power supply unit 101 in the case where a redundant configuration of the power supply units is not adopted.

For example, when the maximum load current is 50A with a 50A power supply unit, N=1, N+1=2, and the maximum load factor is 5.
It becomes 0%. Also, when the maximum load current is 200A, N
=4, N+1=5, and the maximum load factor is 80%. Note that the redundant power supply unit 101 is shown divided into sections to make the explanation easier to understand, but in reality, there is no special division in the configuration of the power supply unit, and any one of them is designated as a redundant power supply unit. That is.

[Problem to be solved by the invention]

When installing an information processing system, it is common to install each device in an initial configuration on a fishing boat, and then upgrade it step by step to reach the maximum configuration. Normally, when upgrading such a system, each time,
Although consideration should be given to redundancy in power supplies, in practice it has often been neglected.

In other words, for system equipment upgrades,
Users themselves are aware of the amount of data to be processed and the scale of system expansion, and expansions are carried out as needed. However, the power supply is subject to changes in the usage load of the main unit after the start of operation and subsequent changes in power demand due to system expansion. This is because there is no clue how to manage the system, and furthermore, there is little awareness among users.

However, installing as many power supply units as possible to achieve a redundant configuration at the time of initial installation has the problem of significantly increasing power supply costs.

In view of such conventional problems, it is an object of the present invention to provide a means capable of detecting whether or not a power supply device can adopt a predetermined redundant configuration and notifying an operator of the result. It is an object.

[Means for Solving the Problems] According to the present invention, the above objects are achieved by the means described in the claims.

That is, the present invention provides a means for detecting the output current value of each power supply unit, an output current load factor of the power supply unit obtained by dividing the current value detected by the above means by the rated output current value of the power supply unit, and a power supply unit. 1 out of the total number of power supply units in
The output current load factor of the power supply unit as a whole, which is the value obtained by subtracting the number of power supply units for maximum load supply divided by the total number of power supply units, and from the above comparison results, the output current of the power supply unit The present invention is a power supply device having a redundant configuration load monitoring circuit, characterized in that, when the current load factor exceeds the output current load factor of the entire power supply device, means is provided to display that fact.

[For production]

FIG. 1 is a block diagram illustrating the principle of the invention. In the figure, the power supply units 1 to 4 are controlled by the power supply control unit 5.
This is a device that controls the load 6 of the main unit and supplies power to the load 6 of the main unit. The description will be made assuming a circuit in which the output currents of each power supply unit of this power supply device are balanced, and assuming that N is the number of power supply units required when no redundancy tank is provided.

That is, the redundant configuration of this power supply device is N+1.

Figure 1 shows the power supply unit that supplies the maximum load of the main unit) N=
3, and four power supply units with redundant power supply unit=1. The mounting status of the power supply unit is displayed by lighting the lamp of the corresponding power supply unit on the power supply control unit mounting display section 5-2 based on the information from the installations 1-4 to 4-4 of each power supply unit. This lamp display indicates the number (N+1) of the power supply device installed. Each power supply unit 1~
4 is the output power supply section 1-1 to 4-1, and the load current detection section 1-
2 to 4-2 and load factor discrimination sections 1-3 to 4-3, and the load factor discrimination section discriminates the output current load factor, that is, from the load current value detected for each power supply unit. ,
Discrimination value of the output current load ratio of the entire power supply device (N = 1:50
%, N=2:66χ, N=3 near 5X, N=4:8
This circuit sends information to the load factor excess display section 5-1 of the power supply control unit 5 when it exceeds 0x).

Specifically, the explanation will be given by taking the power supply unit 1 as an example. Power is supplied to the load 6 of the main unit from the output power supply section 1-1, the output current at that time is detected by the load current detection section 1-2, and the output current value is notified to the load factor determination section 1-3.

The load factor discrimination unit 1-3 discriminates the output current load factor as explained above, and the result is the discrimination value (N=1:50χ, N
=2:66χ, N=3 near 5χ, N=4:80χ) is sent to the load factor excess display section 5-1.

The load factor excess display section 5-1 displays the maximum output current load factor (in this example, N
+1 = 4 near 5%) is compared with the excess information from the load factor determination section 1-3, and if it exceeds this, the load factor excess display section 5
-1 lights up the load factor excess lamp of the power supply unit 1 to issue a warning to the operator or other user that the load exceeds the redundant configuration load.

The user will make a decision based on this and install additional power supply units. Judging from the output current of the power supply unit, if the load factor is 75% or less, no warning is displayed.

As described above, it is possible to perform excessive load factor management for the redundant configuration based on the load factor of each output current of the power supply units 1 to 4. In this example, N+1 of four power supply units is used.
In this example, when N+1=2, the load factor is determined at 50%, and when N+1=5, the load factor is determined at 80%.

〔Example〕

FIG. 2 is a diagram showing one embodiment of the present invention, and is an example in which the block diagram of FIG. 1 is shown as a concrete circuit. The power supply device shown in FIG. 2 has a parallel redundant configuration of four power supply units, and is a circuit in which the output power of each power supply unit is kept in balance. The four power supply units have a redundant configuration of N+1→3+1=4.

This power supply unit is controlled by the power supply control unit 7.
10a to 40a, and supplies power to the load 50 of the main device. Power supply unit Oa is output power supply section 1
1, a load current detection section 12, and a load factor determination section 13. The load factor determination section 13 incorporates operational amplifiers 14 to 17, and the operational amplifier uses a voltage comparator circuit for load factor determination, and detects the voltage detected by the load current detection section 12, that is, the load current detection section 12. According to the output current supplied to the main unit through the resistor RO, the voltage appearing across the resistor is input, and the maximum load factor (N=1=50χ, N=2:66χ
, N.3 near 5χ, N=4:80χ). That is, the operational amplifiers 14 to 17 make decisions on the respective decision value sides.

The operational amplifier 14 has a voltage equivalent to 50%, and the operational amplifier 15 has a voltage of 6
The voltage equivalent to 6%, the voltage equivalent to 75% to the operational amplifier 16, and the voltage equivalent to 80% to the operational amplifier 17 are input, and the load factors are compared and determined. If so, a voltage of 10 is output to the output side of the operational amplifier that exceeds the load factor, and is sent to the load factor excess receiving circuit 8a.

The maximum output current load factor of the redundant power supply configuration is determined by the number of installed power supply units. Therefore, the implementation information is
When the power supply device is mounted, the information is sent from the installation 18 of each power supply device to the mounting display unit 9, and the LED (light emitting diode) of the corresponding mounting number in the mounting display unit 9 is lit up, and furthermore, a decoder is used to decipher the number of mounted units. Sent to 8-1.

The decoder 8-1 calculates the number of implementations of the decoding results by the maximum load ratio (N=1:50χ, N=2:66χ, N
= 3 near 5χ.

N.4:80χ) is sent to the load factor excess receiving circuits 8a and 8b.

The load factor excess receiving circuit takes the logical product of the mounting information from the decoder 8-1 and the excess information from the load factor determination, and lights up the LED (light emitting diode) of the corresponding power supply unit whose load factor has exceeded. As a result, a warning is displayed that the maximum load factor of the redundant power supply unit configuration has been exceeded.

In addition to the LED display method used in this example, the warning display for exceeding the maximum load factor in a redundant configuration uses a service processor to provide a monitoring function for a period that can be set arbitrarily. There is also a method of outputting the result to a display device such as a printer when the load factor is exceeded.

〔Effect of the invention〕

As explained above, the present invention has the following advantages.

In other words, if a power supply device with a redundant load monitoring circuit is used, if the load current increases due to the addition of peripheral devices and exceeds the power supply range of the redundant configuration, an overload warning will be displayed to alert operators and other users. will be able to be easily notified. Therefore, in response to changes such as upgrading the system or increasing the amount of data processed, information on decisions such as adding a power supply unit can be grasped, making it possible to implement an economical power supply unit, contributing to lower power supply costs and economy. can.

[Brief explanation of the drawing]

FIG. 1 is a block diagram showing the principle of the invention, FIG. 2 is a diagram showing an embodiment of the invention, and FIG. 3 is a diagram explaining a redundant configuration of power supply units and a maximum load factor. 1 to 4, 10a to 40a...power supply unit, 1
-1.2-1゜3-1.4-1.11... Output power supply section, 1-2.2-2.3-2.4-2.12... Load current detection section, 1- 3.2-3.3-3.4-3.13...
- Load factor determination unit, 1-4.2-4.3-4.4-4.
18...Installation, 5゜7...Power control unit, 5-1.8...Load factor excess display section, 5-2.9.
... Mounting display section, 6.50 ... Load, 8-1 ... Decoder, 8a, 8b ... Load factor excess receiving circuit, 14 -
17...Operation amplifier agent Patent attorney Takashi Honma

Claims (1)

[Scope of Claims] A configuration in which a plurality of power supply units with the same rated output current are connected in parallel so that even if one of the plurality of power supply units fails, current can be supplied to the load. In a power supply device that is controlled so that the output current of each power supply unit is balanced, there is a means for detecting the output current value of each power supply unit, and a means for detecting the current value detected by the above means. The output current load factor of the power supply unit divided by the output current value, and the output of the entire power supply unit, which is the value obtained by dividing the number of power supply units obtained by subtracting 1 from the total number of power supply units in the power supply unit by the total number of power supply units. The present invention is characterized by providing a means for comparing the output current load factor with the current load factor, and a means for displaying when the output current load factor of the power supply unit exceeds the output current load factor of the entire power supply device based on the above comparison result. A power supply device having a redundant configuration load monitoring circuit.