JPH0568326A - Circuit protector - Google Patents

Abstract

PURPOSE:To provide a circuit protector which enables highly reliable detection of an overcurrent without a fear of its malfunctioning to abnormality occurring on the side of load, in the power system of an electronic computer. CONSTITUTION:Voltage proportionate to the current supplied to the power line 312 on load side is converted into digital data through an A/D converter 307 and those are preserved in a resistor 308, and only in the case that an alarm judging circuit 305 judges that the supply current on load side has exceeded the alarm value higher than the stationary current, and that a limit judging circuit 306 judges that it has exceeded the limit value higher than the alarm value after passage of a certain time since then, an abnormality judgment control circuit 304 judges the stoppage of current supply. And the off signal of a power transistor 301 is given from a power source system controller 50 to a transistor control circuit 303 so as to break the current supply from the power line 311 on the power source side.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention cuts off the supply of an electric current to an electronic circuit formed on a printed board of an electronic device when the electric current is excessively large, thereby causing a fatal damage to the electronic circuit. The present invention relates to a circuit protection device that prevents

[0002]

2. Description of the Related Art For example, an electronic circuit is formed on a printed circuit board which constitutes a large number of modules inside an electronic computer. The electronic circuit is formed between a power supply section and a load side electronic circuit in this electronic computer. Monitor the fluctuation of the flowing current value,
There is provided a circuit protection device that prevents the electronic circuit from being fatally damaged or causing a fire by cutting off the supply of an excessive current.

That is, due to an abnormality in a component forming an electronic circuit on the load side with respect to the power source, an excessive current may flow into the circuit to generate heat, leading to smoking or ignition. In order to prevent this, conventionally, the following circuit protection means has been used.

The first circuit protection means is provided with an overcurrent detection circuit on the power supply side, and when the overcurrent detection circuit detects that a current exceeding a certain value is flowing, the power supply itself outputs its output. Cut off. The second circuit protection means is provided with a breaker for the output of the power supply, and cuts off the current supply to the load side by detecting an overcurrent at the breaker. The third circuit protection means is
A breaker is provided at the load side input section, and the current supply is cut off by detecting overcurrent at this breaker.

In general, in electronic equipment, especially in a typical electronic computer, even if they are of the same model, the number of modules and printed boards differ depending on the system scale, and the user initially has a small system configuration. It is often introduced and the scale is expanded in accordance with the expansion of business. For this reason,
It is desirable that the power supply of the electronic computer can withstand future system expansion, and normally the power supply capacity (rated current) is based on the load current with the maximum number of modules.
Is set.

Here, in the above-mentioned first circuit protection means, that is, the circuit for protecting the circuit by detecting the overcurrent flowing to the load side by detecting the overcurrent of the current, the current flowing when the load side becomes abnormal becomes the power source. It is necessary to exceed the overcurrent detection value, and this overcurrent detection point is usually 1
It is often set to about 10 to 120%.

However, as described above, for a power supply having a large capacity assuming the maximum system scale,
In the case of an electronic computer with a small-scale system configuration connected to the load side, even if an abnormality occurs in the load side circuit and a current that greatly exceeds the steady current of the load flows, the overcurrent detection value of the power supply is In some cases, the current may not be exceeded, and current supply may not be cut off, resulting in circuit damage.

Therefore, a power supply for the electronic computer is provided independently for each very small circuit block, and an overcurrent detection point that slightly exceeds the rated current for each block is set for each power supply. It may be possible to install an overcurrent detection circuit, but the system configuration becomes complicated and addition is complicated, and the risk of power shutdown due to malfunction increases in proportion to the number of installations, and reliability is impaired. There is.

It is possible to change and set the overcurrent detection point of the power supply side overcurrent detection circuit according to the actual load current corresponding to the actual system scale. It is necessary to change the overcurrent detection point, and even if the power supply unit of the same type cannot be used for other computer systems as it is, compatibility cannot be maintained. It is necessary to reset the current detection point, which is very troublesome to handle and is prone to human error.

On the other hand, the second and third circuit protection means, that is, the circuit protection means provided with a breaker on the power source side or the load side, is essentially the same as the above-mentioned means for protecting by the overcurrent detection of the power source. However, if you try to make the overcurrent detection point of the breaker correspond to the steady current on the load side, it is necessary to install a breaker independently for each small block in the system, which complicates the system configuration. In addition, there is a problem that reliability is deteriorated due to an increased risk of malfunction.

[0011]

That is, from the viewpoint of protecting an electronic circuit, a circuit that detects an overcurrent and cuts off the current supply is installed everywhere in the system, that is, in each small block. Although fine-grained protection is possible, increasing the number of installations increases the risk of malfunctions, that is, the risk of interrupting the supply current regardless of whether or not the circuit is operating. To achieve this, the reliability of overcurrent detection in the overcurrent detection / cutoff circuit itself must be ensured.

The present invention has been made in view of the above problems,
To provide a circuit protection device that enables reliable overcurrent detection without fear of malfunction due to an abnormality that occurs on the load side even when a large power supply is provided in consideration of system configuration expansion. To aim.

[0013]

That is, a circuit protection device according to the present invention is provided between a power source and an electronic circuit on the load side, and turns on / off a power signal according to a command from a power system controller.
The circuit includes a closing / closing circuit for breaking the current, and current detecting means for detecting the current value of the power supply signal supplied to the load side circuit, and the load side supply current value detected by the current detecting means are steady. A first overcurrent determining means for determining that a first overcurrent value higher than the current value is exceeded, and a second overcurrent in which the load-side supply current value detected by the current detecting means is higher than the first overcurrent value Second to judge that the value has been exceeded
A first by the overcurrent determination means and the first overcurrent determination means
When the second overcurrent determination means determines that the second overcurrent value is exceeded after the overcurrent value excess determination has been made and after a certain period of time has passed, the power supply system control unit turns on / off. The circuit includes an abnormality determination control unit that issues a power supply signal cutoff command to the circuit.

[0014]

That is, for example, the first overcurrent value of the load-side supply current is set as an alarm value that does not cause large damage immediately to the load-side circuit, and the second overcurrent value is set as the second overcurrent value. Is set as a limit value at which large damage will occur immediately, and unless these two-stage conditions are sequentially satisfied after a certain period of time, the power supply signal to the load side circuit will not be cut off, so reliable and reliable overcurrent detection /
The circuit can be protected by shutting off.

[0015]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings. FIG. 1 shows the configuration of a computer system equipped with a circuit protection device, and this computer system is driven by a power supply 10.

The power supply signal output from the power supply 10 is distributed and supplied to a plurality of circuit blocks composed of the printed boards 41 to 47 through the power supply bus bar 20. The circuit blocks 41, 42, 42, 43, 44,
For each 45 to 47, independent overcurrent detection / cutoff circuits 31 to 34 are provided for the respective power source input terminals.

The overcurrent detection / cutoff circuits 31 to 34 are
A switching function for turning on / off a power supply signal from the power supply busbar 20 to the corresponding circuit blocks (loads) 41, 42, 43, 44, 45 to 47, and an overcurrent detection function for detecting an overcurrent state of a supply current value. The power-on / off command signal for operating the switching function is provided from the power supply system control unit 50, and the overcurrent state determination signal obtained by the overcurrent detection function is the power supply. It is given to the system control unit 50.

The power supply system control unit 50 controls ON / OFF of the power supply 10 itself and detects each overcurrent.
The power on / off control is performed for the shutoff circuits 31 to 34. This power on / off control is performed in accordance with the operation of a main power switch (not shown) and from the overcurrent detection / shutdown circuits 31 to 34. It may be performed based on the overcurrent state determination signal.

FIG. 2 shows the internal structure of the overcurrent detection / cutoff circuits 31 to 34 in the computer system. DC supplied from the power supply line 311 on the power busbar 20 side.
The power signal is a power transistor 301 and a resistor 302.
Is output to the power line 312 on the load side via.

The power transistor 301 turns on / off a current to / from the load side, and ON / OFF control of the power transistor 301 is given through the signal line 320 from the power supply system control unit 50.
Transistor control circuit 30 based on N / OFF command signal
3 through 3.

The resistor 302 captures the supply current to the load side as a voltage through the voltage detection lines 313 and 314. The supply voltage captured through the voltage detection lines 313 and 314 passes through the A / D converter 307. It is converted into a digital value at regular intervals, and is updated and held in the register 308 via the data line 315. The digital voltage data corresponding to the load-side supply current held in the register 308 is given to the alarm determination circuit 305 and the limit determination circuit 306 via the data line 316.

The alarm determination circuit 305 is based on the digital voltage data given from the register 308.
The "alarm" signal output from the alarm determination circuit 305 is determined by determining that the load-side supply current has exceeded a predetermined alarm value (first overcurrent value). It is given to the abnormality determination control circuit 304 via the alarm line 317.

The limit judgment circuit 306 is based on the digital voltage data given from the register 308.
This limit determination circuit 30 determines that the load-side supply current has exceeded a limit value (second overcurrent value) higher than a predetermined alarm value and outputs a "limit" signal.
The “limit” signal output from 6 is given to the abnormality determination control circuit 304 via the limit line 318.

Here, the alarm value (first overcurrent value) of the load-side supply current is set to an overcurrent value (for example, steady current + 3 A) to such an extent that no major damage is immediately caused to the load-side circuit, and The limit value (second overcurrent value) is set to an overcurrent value (for example, a steady current +5 A) at which large damage is immediately caused to the load side circuit, and the respective overcurrent values are set to the alarm determination circuit 305. And limit determination circuit 30
6 is arbitrarily set by the digital variable switches respectively provided.

The abnormality determination control circuit 304 issues an overcurrent warning to the load or stops the current supply to the load based on the "alarm" signal and the "limit" signal from the alarm determination circuit 305 or the limit determination circuit 306. The overcurrent state determination signal composed of the overcurrent alarm determination signal or the current supply stop determination signal from the abnormality determination control circuit 304 is supplied to the power supply system control unit via the overcurrent determination notification line 319. Given to fifty.

When the abnormality determination control circuit 304 gives an overcurrent warning determination signal, the power supply system control section 50 issues an overcurrent warning through a not-shown display, voice, or other notification means, and also indicates the current. When the supply stop determination signal is given, an OFF command signal for the power transistor 301 is output to the transistor control circuit 303. Next, the operation of the computer system including the circuit protection device having the above configuration will be described.

First, in order to operate the computer system,
When a main power switch (not shown) is operated, the power supply system control unit 50 turns on the power supply 10 and the transistor control circuit 30 of each of the overcurrent detection / cutoff circuits 31 to 34.
3 is sequentially supplied with the power-on command signal via the signal line 320, whereby the power transistor 301 is held in the ON state, and the power-source-side power line 31
The power supply signal given from 1 is the power transistor 3
01 and resistor 302, and load side power supply line 312
Through the corresponding circuit blocks 41, 42, 43, 4
4, 45-47.

The load side circuit blocks 41, 42, 4
In the power-on state for 3, 44, 45-47,
Resistor 302 in each overcurrent detection / cutoff circuit 31-34
A voltage proportional to the supply current to the load side circuit is obtained in the voltage detection lines 313 and 314 derived from both ends of the voltage detection line. This voltage signal is converted into a digital value by the A / D converter 307 at regular intervals. It is updated and held in the register 308, and at the same time, given to the alarm determination circuit 305 and the limit determination circuit 306.

Here, for example, when an abnormality occurs in the load side electronic circuit and the current value supplied through the transistor 301 and the resistor 302 exceeds the steady current +3 A, that is, the alarm value (first overcurrent value). , Alarm determination circuit 305
To the abnormality determination control circuit 304.

Then, the abnormality determination control circuit 304 gives an overcurrent warning determination signal to the power supply system control unit 50, which causes an abnormality in the supply current to the load circuit in the power supply system control unit 50. That is, the system manager and maintenance personnel are notified of the alarm through a not-shown display, sound, or other notification means.

Then, for example, the abnormality that has occurred inside the load side electronic circuit progresses, and the load side supply current value becomes the steady current +5.
A, that is, when the limit value (second overcurrent value) is exceeded,
An alarm determination circuit 3 is provided for the abnormality determination control circuit 304.
After a certain period of time has passed since the "alarm" signal was given from 05, the limit determination circuit 30 is additionally added.
When the “limit” signal is given from 6, the abnormality determination control circuit 304 gives a current supply stop determination signal to the power supply system control unit 50.

Thus, in the power supply system control unit 50, the transistor control circuit 303 of the overcurrent detection / interruption circuit to which the current supply stop determination signal is output is output in order to minimize damage to the load side circuit due to overcurrent. On the other hand, the OFF command signal of the power transistor 301 is given, and the current supply to the load side electronic circuit is cut off.

Here, in the abnormality judgment control circuit 304, after a certain period of time has elapsed since the alarm judgment circuit 305 started to supply the "alarm" signal, a limit signal is further supplied from the limit judgment circuit 306. The reason for determining the overcurrent value for the load side circuit as the true limit value and determining the current supply stop only in the case of the above is as follows.

That is, for example, when an excessive current flows due to a short circuit in an electronic circuit, the limit value is not exceeded in an instant, and the overcurrent value rises over a period of several milliseconds to several seconds. By using such a two-step judgment characteristic, for example, A /
Even if an erroneous limit value excess state occurs due to a failure of the D converter 307, the register 308, or the alarm determination circuit 305 or the limit determination circuit 306, the current is not cut off to the load side electronic circuit. Ensure reliability of circuit breaks due to detection.

On the other hand, the "alarm" signal from the alarm determination circuit 305 and the "limit" signal from the limit determination circuit 306 are substantially simultaneously at the abnormality determination control circuit 30.
4 and the limit determination circuit 30
Only the "limit" signal from 6 is the abnormality determination control circuit 30.
4 is applied to the A / D converter 3 in any case.
07, register 308, or alarm determination circuit 30
5 and the limit determination circuit 306 are considered to be malfunctions, and the abnormality determination control circuit 304 causes the power supply system control unit 50 to
Is given an "error" signal.

As a result, in the power supply system control unit 50, the fact that a failure has occurred in the overcurrent detection / interruption circuit to which the above-mentioned "error" signal is given is notified by the system administrator through the notifying means such as display and voice not shown. And maintenance personnel will be notified.

Therefore, according to the circuit protection device having the above-described configuration, the voltage proportional to the current supplied to the load side circuit, which is obtained by the resistor 302 interposed in the load side power supply line 312, is supplied via the A / D converter 307. The data is converted into digital data and held in the register 308 and is also given to the alarm determination circuit 305 and the limit determination circuit 306. In the alarm determination circuit 305, it is determined that the load side supply current exceeds an alarm value higher than the steady current, and Only after the fixed time has elapsed, the limit determination circuit 306 determines that the load-side supply current exceeds the limit value higher than the alarm value, only when the abnormality determination control circuit 30.
4, the current supply stop determination is performed, and the power system control unit 5
Since the OFF command signal of the power transistor 301 is given from 0 to the transistor control circuit 303 to cut off the current supply from the power supply line 311 on the power supply side, the circuit is cut off by overcurrent detection without the risk of malfunction. Even if this overcurrent detection / interruption circuit is individually installed for each divided module, reliable reliability can be obtained and fine circuit protection can be performed.

As a result, even when a large power supply is provided in advance in consideration of the expansion of the system configuration, the circuit protection by the reliable overcurrent detection / current interruption can be performed from the small system configuration to the large system configuration. It will be possible.

In the above embodiment, the overcurrent detection / cutoff circuits 31 to 34 are installed for each arbitrarily divided module or printed board, and the current cutoff can be performed by independent overcurrent detection in each of them. When an individual module or printed board fails, only the failed module or printed board can be easily replaced while online.

[0040]

As described above, according to the present invention, there is provided a closing / closing circuit which is provided between the power supply and the load side electronic circuit and turns on / off the power supply signal in accordance with a command from the power supply system controller. A current detecting means for detecting a current value of a power supply signal supplied to the load side circuit, and a first overcurrent value whose load side supply current value detected by the current detecting means is higher than its steady current value. A first overcurrent determination means for determining that the current has exceeded the second overcurrent determination means for determining that the load side supply current value detected by the current detection means has exceeded a second overcurrent value higher than the first overcurrent value. Overcurrent determination means, and the first
The power supply system when the second overcurrent determination means determines the excess of the second overcurrent value after the first overcurrent value excess determination has been made by the overcurrent determination means after a certain period of time has elapsed. Since the control section is provided with an abnormality determination control means for issuing a power supply signal cutoff command to the turning on / off circuit, even if a large power supply is provided in consideration of the expansion of the system configuration, the load It is possible to detect overcurrent with high reliability without the risk of malfunction due to an abnormality that occurs on the side.

[Brief description of drawings]

FIG. 1 is a block diagram showing the configuration of a computer system including a circuit protection device according to an embodiment of the present invention.

FIG. 2 is a circuit diagram showing an internal configuration of an overcurrent detection / interruption circuit in a computer system including the circuit protection device.

[Explanation of symbols]

10 ... Power supply, 20 ... Power supply busbar, 31-34 ... Overcurrent detection / interruption circuit, 41-47 ... Printed board (circuit block), 50 ... Power supply system control part, 301 ... Power transistor, 302 ... Resistor, 303 ... Transistor Control circuit,
304 ... Abnormality determination control circuit, 305 ... Alarm determination circuit, 306 ... Limit determination circuit, 307 ... A / D converter, 308 ... Register, 311, 312 ... Power supply line,
313, 314 ... Voltage detection line, 315, 316 ... Data line, 317 ... Alarm line, 318 ... Limit line, 319 ... Overcurrent determination notification line, 320 ... Signal line.

Claims (1)

[Claims] 1. A circuit protection device provided between a power source and an electronic circuit on the load side, wherein the circuit on the load side is provided with an on / off circuit for turning on / off the power signal according to a command from a power system control unit. A current detecting means for detecting a current value of a power supply signal to be supplied, and a first judging means for judging that a load side supply current value detected by the current detecting means exceeds a first overcurrent value higher than its steady current value. An overcurrent determining means; a second overcurrent determining means for determining that the load-side supply current value detected by the current detecting means exceeds a second overcurrent value higher than the first overcurrent value; When the first overcurrent determining means determines that the first overcurrent value is exceeded, and when the second overcurrent determining means determines that the second overcurrent value is exceeded after the elapse of a certain period of time, From the power supply system control unit to the above Circuit protection devices, wherein the abnormality determination control means for causing the shutoff of the power supply signal, by comprising the relative input / cutoff circuit.