JPS60141118A - Output overvoltage protecting circuit of dc power source - 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 Field of Industrial Application The present invention is an apparatus for supplying multi-output direct current, and when an overvoltage exceeding the rated voltage occurs in each output circuit, this can be instantaneously detected and the power input can be switched off. This relates to a circuit that turns on a fuse to protect the load connected to each output and also protects its own device.

Configuration of conventional example and its problems This type of overvoltage protection device has been configured as shown in Fig. 1, with chopper circuits CH, CH2 supplying different DC outputs, thyristor 5CR1 which is a switching element, and a reference voltage. Zener diode R that forms the source
D1. Although it was formed mainly using RD2, etc., it required a Zener diode for each output circuit, making the circuit complicated and expensive.Objective of the InventionThe present invention solves these conventional problems. , the purpose is to protect the load and the device itself by detecting overvoltage using a Zener diode forming one reference voltage source.

Structure of the Invention The present invention provides a plurality of outputs by matching the dividing midpoint of a dividing resistor or variable resistor connected to the output ends of a plurality of DC output circuits and the voltage on one side of the output to the voltage of the minimum output circuit. This device is characterized in that when an overvoltage is applied to any of the circuits, one Zener diode detects the overvoltage to ensure the safety of the output circuit.

DESCRIPTION OF EMBODIMENTS Hereinafter, embodiments of the present invention will be explained with reference to FIGS. 2 and 3.

First, to explain the details of the circuit with reference to Figure 2, the DC input 24
A DC-DC chopper circuit CH1, CH with a fuse F provided on the + side of V and creating multiple output voltages following the fuse
2, and is configured to be able to supply two outputs, for example, 1 sV and 6. Connect a variable resistor or divided resistor indicated by VR to the high voltage 16V output circuit, so that the voltage between the midpoint of VR (A) and one side G of the DC output becomes 6■ of output 2. Set. The anode side of the diode D is connected to the middle point (a), and the cathode side is connected to the connection point between the cathode of the resistor R2 and the Zener diode RD.However, at both ends of the output 20, the resistor R2, the Zener diode RD, and the resistor R1 are connected. Connect the connection point of HD and R1 (/ is thyris, connect to the gate of SCR, connect the capacitor C between the gate and cathode of SCH, and connect the anode of SCR to fuse F and CH, + of CH2 The cathode is connected to one side (G side) terminal common to input and output.For the Zener diode HD, select a Zener diode with a voltage that can protect the output 2 from overvoltage, for example, 6 to 7 cm.

In the circuit shown in Figure 2, if an overvoltage of 6 or more is applied to output 2, it will exceed the Zener voltage of RD, so R2-HD-R
, a current flows, the voltage drop that occurs in R1 is detected, the SCR is turned on, and the fuse F is immediately turned off. Assuming that an overvoltage of xV or more is applied to output 1, R3 and 8 of the resistor VR divided at the midpoint (A)
Considering the overvoltage of xV from the relationship between 4 minutes and the 5V setting, the following equation (1) holds true since it is initially set to 5■.
The magnitude of X can be calculated from equation (2) when xV is applied.

Substituting equation (1) into equation (2), X becomes the following (3)
It can be calculated using the formula.

x>18 (3) Therefore, in a 15V circuit, if an overvoltage of 18V or more is applied, the SCR is turned on. Zener diode RD is 7v
If so, the overvoltage setting for the 16V output will be 21V or higher.

The conventional protection circuit shown in FIG. 1 requires a Zener diode RD for each output, which has the problem of making it complicated and expensive. However, in the case of the present invention, the number of outputs is n as shown in Figure 3.
Even if there are multiple resistors, the lowest voltage among them, e.g.
By using individual diodes D1 to Dn-1 or a set of diode arrays, an overvoltage protection circuit can be formed in a very simple manner.

Effects of the Invention The present invention not only provides self-protection of DC power supplies used in recent office automation equipment, electronic exchanges, etc. that use semiconductor composite parts that are relatively susceptible to overvoltage, such as microconverters and memories, but also protects these loads. Protection has become very important and these apply fully.

Note that it is not preferable to use a plurality of different Zener diodes for protection because it is complicated and tends to cause errors such as wrong constants. In the present invention, one reference Zener diode is used, and other protection measures can be taken simply by changing the ratio of dividing resistors and adjusting to the reference output voltage.

Also, even when converting to IC in the direction of miniaturization, many different RDs are required.
Rather than using a diode with the same characteristics, it is sufficient to use a diode with the same characteristics, and it is also useful for miniaturization.

[Brief explanation of drawings]

Figure 1 shows a conventional output overvoltage protection circuit;
FIG. 3 is a diagram showing an output overvoltage protection circuit in an embodiment of the present invention. F , , , , Hees, CHl, CH2, CHn
, , , , Chopper: circuit, RD... Zener diode, D, D1 to Dn-1... diode. Name of agent: Patent attorney Toshio Nakao and 1 other person No. 1
Figure 2 Figure

Claims (1)

[Claims] Configure multiple DC output circuits with different output voltages from a DC input source through a chopper circuit, and configure a series circuit of a resistor, a Zener diode, and a resistor in the smallest output circuit of each output circuit, and connect other output circuits. Connect a variable resistor or divided resistor, and connect the middle point of the variable resistor or divided resistor to the connection point between the + side resistance of the minimum output circuit and the cathode of the Zener diode through the diode, and Connect a capacitor in parallel between the anode of the diode and the resistor on one side of the output, connect both ends of the capacitor to the gate and cathode of the thyristor, and connect the anode of this thyristor to the + side of the input source via a fuse. It is a multi-output overvoltage protection circuit in which the cathode is connected to one side, and by matching the voltage at the midpoint of the output division with a dividing resistor or variable resistor and one side of the output to the voltage of the minimum output circuit. , a DC power supply device characterized in that when an overvoltage is applied to any of a plurality of output circuits, a Zener diode serving as a reference voltage source detects the overvoltage, turns on a thyristor, and turns off a fuse. Output overvoltage protection circuit.