SU1501014A1 - Overvoltage protection arrangement for two-phase a.c. network - Google Patents

Abstract

The invention relates to electrical engineering and can be used in power supply devices. The purpose of the invention is to increase reliability by reducing power losses at the protective element, simplifying the device, increasing the response speed of the protection and improving the weight and size characteristics. When overloaded, the signal from the voltage sensor 4 through the auxiliary rectifier 6 and the zener diode 8 opens the protection transistor 9, which closes the execution transistor 14 included in the output diagonal of the execution bridge 5, the input of which is connected in parallel to the protection element 1 on the capacitor 17. The capacitor 17 is turned on one of the main tires, limiting the output voltage. 2 hp ff, 2 ill.

Description

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The invention relates to electrical engineering and can be used in power supply devices for electronic equipment.

The purpose of the invention is to increase reliability by reducing losses on the security element, simplifying the device, increasing the response speed of the protection and improving the weight and size.

In figures 1 and 2 shows the options for the protection device.

The protection device contains a current-limiting protective element 1, a switching-protection unit 2, a load 3, a voltage sensor 4, a rectifying bridge 5, an auxiliary rectifier 6, a capacitor 7, a stabilitron 8, a pn-conduction protection transistor 9, four current-limiting resistors 10–13, an executive transistor 14, a matching transistor 15 for the pnp conductivity, a control and display unit 16. Moreover, the current-limiting protective element I is made on the protection capacitor 17 and is bridged by the input of the rectifier bridge 5, the output of which is connected to the collector and emitter of the execution transistor 14, the base of which is connected to the collector of the protection transistor 9 and the input of the switching-protection unit 2, and also through the first - the resistor 10 with the positive output of the auxiliary rectifier 6, the plus of the capacitor 7 and the cathode of the Zener diode 8 whose anode is connected via the second resistor G1 to the base of the protection transistor 9, the emitter of which is through t second resistor 12 is connected to the minus output of the auxiliary rectifier 6 having an input connected to the output of the sensor 4, voltage input connected to the capacitor 17, the current-limiting protection member 1 and the load 3. The other terminal of capacitor 17 is connected to the protection input of the device. In this case, the matching transistor 15 is emitter through the fourth resistor 13 is connected to the anode of the Zener diode 8, and the base is connected to the emitter of the protection transistor 9. The collector of the matching transistor 15 is connected to the input of the control and display unit 16, and the voltage sensor 4 is connected in parallel with the load 3. Moreover, the voltage sensor 4 is made

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on the transformer 18, or on the voltage divider 19, the middle terminal of which is connected to the input of the auxiliary rectifier 6, and the other is connected to the connection point of the protection capacitor 17 and the load 3.

The device works as follows.

When the device is turned on through the protective capacitor 17, an alternating sinusoidal voltage is supplied to the auxiliary rectifier 6 through the voltage sensor 4, which may be a transformer (Fig. 1) or a voltage divider (Fig. 2). The positive voltage of the auxiliary rectifier 6 at the same time through the resistor 10 is fed to the base of the executive transistor 14 and the latter goes into the open state. With an overvoltage in the supply network, the voltage at the output of the auxiliary rectifier 6, coming from the voltage sensor 4, increases. This leads to the unlocking of the threshold element, in which the Zener diode 8 is used, which leads to the open state of the protection transistor 9.

Transistor 9 is unlocked and applies a negative block voltage to the base of the execution transistor.

14. When this transistor 14 is locked. As the voltage on load 3 increases, the current flowing through load 3 also increases, which leads to an increase in voltage drop on protective capacitor 17, the voltage on load 3 decreases and becomes close to the reset value. Moreover, simultaneously with the locking of the actuating element 14, a signal arrives at the switching protection unit 2, which performs the function of disconnecting the supply network from the device after the required time. When unlocking the protection transistor 9, the matching transistor opens

15, giving plus to the control and display unit 16. The resistor 12 in the device limits the current through the protective transistor 9, the capacitor 7 serves to smooth the variable component at the output of the auxiliary rectifier 6.

A positive effect is the reduction of power losses in emergency mode on the current-limiting voltage.

shield element I, increasing the response speed of the protection by minimizing the inertial elements, which increases the reliability of the device.

Claims (3)

1. An overvoltage protection device in a two-phase AC network containing a current-limiting protective element included in one of the power buses, switching protection-block and voltage sensor, that is, in that, p. in order to increase reliability, by reducing the power losses on the protective element, a rectifier bridge, auxiliary rectifier, capacitor, zener diode, pn-conduction protection transistor, four current-limiting resistors, executive transistor, were introduced into it - a pnp conduction transistor, a monitoring and display unit, the current-limiting protective element being implemented on a protection capacitor, in parallel with which a rectifying bridge is connected, to the output of which is a collector and emit executive p transistor, the base of which is connected to the collector of the transistor and the input of the protection switching and protection unit, the protection transistor collector through a first tokoogra4 6 The positive resistor is connected to the positive polarity output of the auxiliary rectifier, the positive terminal of the capacitor, and the cathode of the Zener diode, the anode of which is connected to the base of the protection transistor through the second current-limiting resistor, the emitter of which is connected to the third resistor the output of the voltage sensor, the input connected to the output power terminals, the matching transistor by the emitter through the fourth resistor is connected to Zener diode anode. The base is connected to the emitter of the protection transistor, and the collector is connected to the input of the monitoring and indication unit. 2. Device according to Claim 1, characterized in that the voltage sensor is implemented on the transformer whose primary winding is connected in parallel to the output terminals, and secondary to the input of the auxiliary rectifier. 3. The device according to claim 1, characterized in that, in order to increase speed, simplify and improve the mass and size parameters, the voltage sensor is made on a voltage divider, the output connected to the input of the auxiliary rectifier. FIG. 2