JPH036137Y2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a computer device, and more particularly to a computer device having an overvoltage protection device that protects the computer main body and terminals connected thereto from abnormal overvoltage.

Generally, a computer device is composed of a computer main body and a plurality of computer terminals, and these devices are often connected to each other via a transmission line made of a cable or the like and a distributor. In this case, the computer main body and the computer terminal may be installed at locations far away from each other. Therefore, abnormal overvoltage (surge voltage) such as induced lightning may be applied to this type of computer device from its transmission line. On the other hand, this type of computer equipment is generally made up of elements such as semiconductor parts that have extremely low withstand voltages, so if an abnormal overvoltage as described above is applied to the equipment, each internal part may be damaged and the equipment may become unusable. It becomes impossible. Therefore, in this type of computer equipment, an overvoltage protection device as shown in FIG. 1, for example, is installed in order to protect the equipment from the above-mentioned abnormal overvoltage.

In Figure 1, 1 is the computer main body, 2, 5
are each overvoltage protection device, 3, 6, and 7 are each transmission line,
4 is each computer terminal, 8, 9, 10 is each ground, 11 is a power supply circuit of each computer terminal 4, 1
2 is an overvoltage protection device installed in the power supply circuit 11;
13 is a distributor, 14 is a frame, and 15 is an amplifier. Transmission line 3 on the input/output side of the computer main body 1
An overvoltage protection device 2 for absorbing abnormal overvoltage is connected to the overvoltage protection device 2, and its ground side is grounded 8 together with the grounding frame of the computer main body 1. An overvoltage protection device 5 is connected to the transmission line 3 on the input/output side of the distributor 13 connected to the computer terminal 4.
Its ground side is grounded by ground 9. In addition, each signal land SG of the transmission lines 3, 6, and 7 such as a cable is connected in common, and is grounded by 8 and 9 via each overvoltage protection device 2 and 5, for example, when each overvoltage protection device 2, 5 is operated. It is made to be done. Furthermore, the frame 14 of each computer terminal 4 is individually grounded 10.
Each computer terminal 4 is configured to be supplied with power by a power supply circuit 11, for example, from a general power distribution line.

Generally, this type of computer equipment is configured as described above, and between the computer main body 1 and each computer terminal 4, the signal line _L1 of the transmission line 3 and the signal land SG, and the signal line _L2 and the signal land Information is transmitted between each SG. In this case each ground 8,
Although it is desirable that the grounding resistances 9 and 10 be as low as possible, it is extremely difficult to make them all low due to the geology of each grounding part and other grounding conditions.

In the conventional device shown in FIG. 1, when a surge enters the transmission line 3, the overvoltage protection device 5 operates to release the surge to the ground through the ground 9. However, if the ground resistance of the ground 9 is set to 100Ω, the surge current If is 100A, there is a connection between transmission line 3 and the ground.
A high voltage of 10KV is generated, and the resulting high voltage is applied to the computer main body 1 and each computer terminal 4, damaging these items. In this case, the voltage applied to the computer terminal 4, etc. is not the 10KV mentioned above, but a voltage after subtracting the voltage drop due to line loss of the transmission line 3, etc. However, it is clear that the voltage in this case is a high voltage that far exceeds the withstand voltage of the computer terminal 4 and the like.

The present invention has been proposed in view of the above circumstances, and its purpose is to provide a computer device that can reliably protect against overvoltages such as surges induced in transmission lines and the like.

A computer device according to the present invention includes a computer main body, a computer terminal connected to the computer main body via a transmission line and a distributor,
a first overvoltage protection device disposed on the transmission line between the computer main body and the distributor;
diodes disposed between each signal line constituting the transmission line between the distributor and the computer terminal and a signal land, each diode connected with an anode located on the signal line side; a second overvoltage protection device comprising a varistor and a diode connected in parallel to both ends of the diode varistor with opposite polarity to the diode varistor; and grounding of the computer terminal electrically connected to the signal land. and a third overvoltage protection device disposed in the power supply circuit of the computer terminal, the overvoltage protection device being connected to the transmission line. Even if the potential of the signal line tends to rise, the signal line can be grounded through the second overvoltage protection device, the signal land, and the grounding frame of the computer terminal, thereby solving the above-mentioned conventional drawbacks, This system is designed to reliably protect computer equipment from surges and the like.

An embodiment of the present invention will be described in detail based on the drawings.

FIG. 2 is a schematic diagram showing the configuration of an embodiment of the present invention, and FIG. 3 is a diagram showing the configuration of an example of the overvoltage protection device in FIG. 2.

In Fig. 2, 21 is the computer main body;
2, 27, 32 are each overvoltage protection device, 23, 2
3' is each transmission line, 24 is a distributor, 25 is a computer terminal, 26 is an amplifier, 28 is a shorting piece, 2
9 and 30 are respective grounds, 31 is a power supply circuit, and 33 is a frame. Each of the transmission lines 23, 23' is a signal line L ₁ , L ₂ and a signal land, respectively.
Each overvoltage protection device 27 configured with SG and arranged in each computer terminal 25 is provided between each signal line L ₁ and signal ground SG, and between each signal line L ₂ and signal ground SG. It is connected. Each signal land
Each SG is connected to the frame 33 of each computer terminal 25 by a shorting piece 28, and each frame 33
They are each grounded 30 through the ground. In addition, each computer terminal 25 is connected to a transmission line 2 such as a cable.
3, 23' and the computer main body 21 through each distributor 24 and overvoltage protection device 22.
is connected to. This overvoltage protection device 22 is disposed on a transmission line 23 between the computer main body 21 and a distributor 24, and is configured to absorb overvoltage such as a surge induced in this transmission line 23 into the ground through a grounding 29. . Further, a power supply circuit 31 is provided to supply power to each computer terminal 25, and an overvoltage protection device 32 is provided in this power supply circuit 31 to protect it from overvoltage such as surge entering from the power supply side. .

FIG. 3 is a diagram showing details of the overvoltage protection device 27 according to an embodiment of the present invention shown in FIG. 2, in which 41 is a diode and 42 is a diode varistor. These diodes 41 and diode varistors 42
The diode 41 and the diode varistor 42 are connected in parallel with opposite polarities, and the forward voltages of the diode 41 and the diode varistor 42 are set such that the forward voltage of the diode varistor 42 is higher between both terminals 43 and 44. There is. In order to set the voltage between the terminals of the diode varistor 42 high in this way, it can be easily obtained by, for example, connecting a plurality of varistors in series.

Each end 43 of the overvoltage protection device shown in FIG.
As shown in the second figure, it is connected to signal lines L ₁ and L ₂ , and each other end 44 is connected to signal ground SG.

The operation of the embodiment of the present invention described above will be explained.

In FIGS. 2 and 3, for example, a surge that enters from the transmission line 23 is transmitted to the overvoltage protection device 22.
The surge is grounded to the ground 29 and absorbed by the operation of the surge, thereby protecting the computer main body 21 and the computer terminal 25 from the surge. However, in this case, if the surge is discharged to the ground by the ground 29, and if the ground resistance is 100Ω and the surge current is 100A as described above, the voltage between the transmission line 23 and the ground will become a high voltage of 10KV, and this high A voltage is applied to computer terminal 25. However, according to the present invention, since each computer terminal 25 is provided with an overvoltage protection device 27, these overvoltage protection devices 27 operate at the above-mentioned high voltage, and each signal line L ₁ , L ₂ is It is grounded 30 via the signal land SG, the shorting piece 28 and the frame 33, thereby suppressing the voltage applied to each computer terminal 25 to a voltage below the terminal voltage of the overvoltage protection device 27. Each computer terminal 25 will therefore be protected from said surges.

The _operation of the overvoltage protection device 27 in this case will be described with reference to _FIG . It flows to ground 30 and is released into the earth. Moreover, when a negative polarity surge enters the signal lines L ₁ and L ₂ side, this surge flows to the diode 41, is grounded 30, and is discharged to the earth.

Note that the normal transmission voltage of the computer device according to the present invention is maintained at its forward voltage in the diode varistor 42 and at its reverse voltage in the diode 41 to prevent short circuits. Further, the computer terminal 25 is protected against surges from the power supply circuit 31 by an overvoltage protection device 32 as in the conventional device.

As described above, according to the present invention, even if a situation such as an increase in ground potential occurs due to the operation of an overvoltage protection device connected to a transmission line, the signal line of the transmission line can be connected via the signal ground and the grounding frame of the computer terminal. By grounding, excellent effects such as being able to reliably protect the computer device from surges and the like can be achieved.

Further, as shown in the embodiment of the present invention described above, an overvoltage protection device 27 installed in a computer terminal, for example, may be an overvoltage protection device having the configuration shown in FIG. An overvoltage protection device consisting of a circuit is used, and the parallel connection side of the diode cathode and the diode varistor anode is connected to the signal line of the transmission line, and the parallel connection side of the diode anode and the diode varistor cathode is connected to the signal line of the transmission line. For example, if a positive surge enters the signal line side, select a diode varistor side with a large forward withstand capacity as the surge release circuit, and if a negative surge enters the signal line side. By selecting the diode side with a higher withstand capacity in the reverse direction as the discharge circuit, the surge flows to the circuit with a higher withstand capacity depending on the polarity of the surge, which reduces the withstand capacity of the overvoltage protection device installed at the computer terminal. It is possible to achieve effects such as increasing the amount of water.

[Brief explanation of drawings]

FIG. 1 is a schematic diagram showing the configuration of a conventional example, FIG. 2 is a schematic diagram showing the configuration of an embodiment of the present invention, and FIG. 3 is a diagram showing the configuration of an example of the overvoltage protection device in FIG. 2. . 21... Computer main body, 22, 27, 32
...Overvoltage protection device, 23, 23'...Transmission line,
24...Distributor, 25...Computer terminal, 2
8... Short circuit piece, 29, 30... Grounding, 31... Power supply circuit, 33... Frame, _L1 , _L2 ... Signal line, SG... Signal land.

Claims (1)

[Scope of utility model registration request] a computer main body, a computer terminal connected to the computer main body via a transmission line and a distributor, a first overvoltage protection device disposed on the transmission line between the computer main body and the distributor; diodes disposed between each signal line constituting the transmission line between the distributor and the computer terminal and a signal land, each diode connected with an anode located on the signal line side; a second overvoltage protection device comprising a varistor and a diode connected in parallel to both ends of the diode varistor with opposite polarity to the diode varistor; and grounding of the computer terminal electrically connected to the signal land. A computer device comprising: a frame; and a third overvoltage protection device disposed in a power supply circuit of the computer terminal.