JP2518204Y2 - Uninterruptible power supply protection circuit - Google Patents

Description

[Detailed Description of the Invention] [Industrial field of application] The present invention is one or more uninterruptible power supply devices (hereinafter abbreviated as CVCF) that operate in synchronization with a commercial bypass power supply system.
Involved in an uninterruptible power supply system composed of
This load consists of a computer system, CPU device, input device, memory device, output device, etc., but if some of these devices become overloaded or short-circuited, they will not affect other devices, The present invention relates to a device that performs synchronous non-instantaneous interruption switching with a commercial bypass power supply system among protection methods that selectively shut off.

[Prior Art] FIG. 2 is a block diagram showing an example of the configuration of a conventional CVCF, where 1 is an AC power supply, 2 is a CVCF device, 3 is a non-interruption switching device, and 4 is a load. In Fig. 2, the overcurrent withstand capability of CVCF2 is 120 against a short-circuit accident or inrush current on the load 4 side.
Since it is a relatively small value of about 150%, the AC power supply 1 as a commercial power supply is used as a means for configuring the system power supply.
Is provided as a bypass system, the CVCF2 is constantly operated in synchronization with the commercial bypass power system, and when overcurrent occurs, the non-instantaneous switching device 3 switches to the commercial bypass power system. Incidentally, 33 is a switching control device.

In such a system, since a commercial power source is used, the power source impedance is relatively small, and a large fault current can be supplied, so that the location where the short-circuit fault occurs can be cut off.

In this case, if the failure occurrence point is cut off and the normal load current is restored, the power is switched to CVCF2 again without interruption.

[Problems to be solved by the device]

However, the CVCF with such a configuration has an overload capacity of 120 to 150.
%, Which is relatively small, has the following problems.

Generally, in a CVCF system in which a large online computer system is a load, it is necessary to improve reliability, and a parallel redundant system as shown in Fig. 2 is adopted. That is, N CVCFs are operated in parallel and (N-
1) It is configured to supply electric power to a load for a vehicle.

In such a parallel redundant system, the number of CVCFs is determined when the system is determined, and the number of operating CVCFs cannot be changed except for stopping one at the time of maintenance. Redundancy is lost if one unit is stopped during maintenance. Such a parallel redundant system is further operated in synchronization with the commercial bypass power supply system.

If there is a short-circuit accident on the load side or the inrush current exceeds the CVCF overload withstanding capacity based on the number of operating CVCFs, it will switch to the commercial bypass power supply system without interruption. In some cases, the protection circuit, such as the drooping control operation of the output voltage, or the stop operation at once, may be activated to bring down the load.

The present invention has been made in view of the above-mentioned points, and an object thereof is to provide a protection circuit for an uninterruptible power supply that does not stop or system down.

[Means for solving the problem]

In other words, the means for achieving that purpose is an uninterruptible power supply system that is composed of one or more CVCFs that operate in synchronization with the commercial bypass power supply system. Among the protection methods that selectively shut off without affecting other normal CVCFs when a current is generated, in a device that performs a synchronous non-interruptible switching with a commercial bypass power supply system, change the number of CVCF parallel operation units according to the load amount. In case of operation with a load, install a dedicated overcurrent detector for short-circuit failure of load equipment and inrush current. Then, set this overcurrent detector as (CVCF operation number -1) x (overload withstanding capacity of one CVCF), and when one CVCF, set the same setting value as two CVCF units, and preset the number of CVCF operations. By doing so, it is configured to appropriately switch to the commercial bypass power supply system. In addition, when N = 1, the set value was the same as when N = 2. Furthermore, we decided to preset the number of CVCFs in operation.

[Action]

The effect is that first, by installing a dedicated overcurrent detector for short-circuit faults on the load side and inrush current, the conventional CVCF
What was detected at the overload withstand level of can be set exclusively.

For example, if the set value of the overcurrent detector is (CVCF operation number-1) x (overload withstand capacity of one CVCF), (N-2) units (when N = 1, when N = 2, The same set value is set.) If you prepare and set the number of operating CVCFs, the set value of the overcurrent detector will not be changed even if one CVCF is stopped for maintenance.

Therefore, even if the number of parallel-operated CVCFs is changed and operated according to the load amount, the condition for switching to the commercial bypass power supply system can be appropriately selected depending on the number of operated CVCFs.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the drawings.

〔Example〕

FIG. 1 is a block diagram showing an embodiment of the present invention.
Those having the same reference numerals as those in FIG. 2 have the same configuration and function.

1 is different from FIG. 2 in that an overcurrent detector 3'is provided. The overcurrent detector 3'is provided with a current detection circuit 31, a setter 32, and the like.

By setting the setting value of the setting device 32 as (the number of CVCF operating units-1) x (overload withstanding capacity of one CVCF), the overload withstanding capacity of the conventional CVCF is always set to (N-1 ) The overload capacity of the unit becomes the set value, and the CVCF has a margin.

The set value can be selected according to the number of CVCFs operating in parallel.
Even if the stand is stopped, the set value of the overcurrent detection circuit is not changed. At this time, redundancy is lost. In addition to this, CVCF is 2
When the stand is stopped, it is unconditionally switched to the commercial bypass power system.

[Effect of device]

As described above, according to the present invention,
When changing the number of CVCF parallel operation units to operate, set a dedicated overcurrent detector 3'for short-circuit failure on the load side or inrush current, and set the detector set value to (N-1) units. By setting × (overload capacity of one CVCF), it is possible to properly set the switching to the commercial bypass power system depending on the number of operating units, and improve the reliability of power supply to the load.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram showing an embodiment of the present invention, and FIG. 2 is a block diagram showing a conventional example. 1 ... AC power supply, 2 ... Uninterruptible power supply device, 3 ... No interruption switching device, 3 '... Overcurrent detector, 4 ... Load, 31
...... Current detection circuit, 32 …… Setting device, 33 …… Switching control device.

Claims (1)

(57) [Scope of utility model registration request] 1. An uninterruptible power supply system composed of one or more uninterruptible power supply units that operate in synchronism with a commercial bypass power supply system, and an overcurrent such as a short circuit failure has occurred in a part of its load equipment. In this case, among the protection methods that selectively cut off without affecting other normal uninterruptible power supplies, in the device that performs synchronous uninterruptible switching with the commercial bypass power supply system, the number of uninterruptible power supplies in parallel operation depends on the load amount. When changing the operation, a dedicated overcurrent detector is provided for short-circuit failure of load equipment and inrush current, and this overcurrent detector is used as follows: (number of operating UPS) -1 (uninterruptible power supply) Overload tolerance of one device), and when there is one uninterruptible power supply, uninterruptible power supply 2
A protection circuit for an uninterruptible power supply, which has the same setting value as that of the stand and is configured to appropriately switch to the commercial bypass power supply system by presetting the number of operating uninterruptible power supplies.