SU917183A1 - Protected dc voltage stabilizer - Google Patents

Description

(54) STABILIZER OF CONSTANT VOLTAGE WITH PROTECTION

This invention relates to electrical engineering; and can be used in stabilized sources of secondary electrolyte,

SRI.

A stabilized direct voltage stabilizer with a protection is known, which contains a protection node that is made on an actuator connected in series to the power bus, a thyristor connected between the control output of the actuator and the common bus, and a measuring element connected to the monitored parameter of the stabilizer and connected its output relative to the common ground with the control electrode of the thyristor 1.

The closest in its technical essence to the present invention is a voltage regulator with protection, containing a regulating element connected in series to the power panel, a current supply circuit connected between the input terminal and the control input of the regulating element, measuring feedback amplifier, connected

their input and output relative to the common bus respectively to the output terminal and to the control input of the regulating element, and the protection unit consisting of the thyristor connected by the cathode to the common bus and the measuring node, the inputs connected in parallel to the output pins, and the output connected to the control thyristor electrode 12.

A disadvantage of the known device is 10 with the influence of instability of the output resistance of the thyristor on the stability of the output voltage of the stabilizer, the presence of losses in the thyristor due to leakage currents through, the effect of the protection circuits on the stability

15 of the output voltage with a wide range of input voltage changes, as well as the absence of circuits that provide for a repeated switching on of the stabilizer.

Claims (2)

The purpose of the invention is to increase efficiency by reducing the influence of the output resistance of the thyristor on the stability of the output voltage, reducing the losses in the thyristor, reducing the effect of protection circuits on the stability of the output voltage, and ensuring repeated forced or automatic switching on. The goal is achieved by the fact that in a constant voltage regulator with protection a field-effect transistor is inserted into the protection unit, connected between the control input of the regulating element and the thyristor anode, and the control transition of the specified transistor is parallel to the anode-cathode of the thyristor. In addition, a zener diode voltage source is connected to the protection unit, connected between the input terminal and the total volume consisting of. series-connected current-stabilizing circuits of the resistor and the zener diode, the latter being connected in parallel with the anode-cathode of the thyristor. In addition, disconnecting push-button contacts are included in the protection unit, which are included in the thyristor anode circuit. The resistor of the Zener voltage source is made variable. The drawing shows a functional diagram of a constant voltage stabilizer with protection. The stabilizer contains a regulating element 1, a current-generating circuit 2, a measuring amplifier feedback unit 3 and a protection unit 4. The protection block 4 includes inpHCTO 5, the measuring node 6, the output of which is connected to the control electrode of the heat exchanger 5. The zero transistor 7, connected between the control input of the regulating element I and the anode of the thyristor 5, also includes a zener diode source 8 of the reference a voltage consisting of a current stabilizing circuit on a field-effect transistor 9, a variable resistor 10, and a staple litron 11. The anode circuit of the thyristor 5 includes softening knc ycc contacts 12. The voltage stabilizer works as follows. In the absence of the overload factor, i.e. in the stabilization mode, the thyristor S zlpert, the voltage at its anode remains constant due to the stabilizer 11 and the current regulator on the transistor 9 and resistor 10 in the entire range of input voltage variation. The high resistance of the transition of the source flow of the field-effect transistor 7. (Several mega ohms) ensures the almost complete elimination of current leakage through the protection circuit for all destabilizing factors. In the protection operation mode, the overvoltage signal comes from the measuring node 6 to the control electrode of the thyristor 5, the latter is hidden. At the same time, the source-drain resistance of the transistor 7 (up to several ohms) decreases dramatically, thereby locking the adjustable element 1. When the overload is removed, the automatic or push-button return of the thyristor 5, and hence the entire device to the initial state, depends on the setting of the variable resistor 10 determining the current value of the thyristor 5 in the on state. If the resistor 10 is set to a position in which the current of the thyristor 5 is less than its current to turn off, then resetting is performed automatically, i.e. when the overload is removed, the thyristor control current 5 is reduced to zero, the thyristor 5 is turned off, and the protection device returns to the initial state. If the resistor 10 is set to a position where the current of the thyristor 5 is greater than the current for turning it off, then the return occurs from a button that, when pressed, causes the contacts 12 to disconnect. For convenience, the on-line transition from one mode to another parallel to the variable resistor 10 includes latching contacts ( S 1 on the real scheme). This allows setting the resistor 10 to the automatic mode, switching to forced by shorting with the button of the resistor 10. Thanks to the introduction of these elements, the effect of the circuits is stitched to stabilize the output voltage for all destabilizing factors, the technological variation of the element parameters, temperature change, change input voltage In addition, the power consumption of the protection circuits in the stabilization mode is reduced. In addition to the specified overvoltage protection, it is possible to provide overcurrent protection for which the measuring node (measuring resistor) must be included in the circuit, i.e. in the common bushes. Claim 1. Inverter DC voltage capacitor containing regulating element included in series into power bar, current supply circuit connected between input input and control input of regulating element, measuring and amplifying feedback node connected to its input and output with respect to the total width respectively to the Bbixozmoem view and to the control input of the regulating element, and the block, the protection consisting of the thyristor connected by the cathode to the common bus, and the measuring node, inputs connected in parallel to the output terminals, and the output of the thyristor connected to the control electrode, characterized in that, in order to increase efficiency by reducing the effect of the output resistance of the thyristor on the stability of the output voltage of the stabilizer, as well as reducing losses in the thyristor, a field-effect transistor is inserted into the protection unit connected between the control input of the regulating element and the anode of the thyristor, and the control transition of the specified transistor is connected in parallel with the viewpoints of the anode-cathode of the transistor. 2. A stabilizer according to claim 1, in which, in order to further improve the efficiency by reducing the protection circuits, the stability of the output voltage when the input voltage changes, the voltage is inserted into the protection unit a zener voltage reference source connected between the input voltage and the common bus and consisting of a series-connected current-coded resistor and a zener diode, the latter being connected in parallel to the high-voltage anode-cathode of the thyristor. 3.Stabilizer according to claim 1, of tl and h ayush. and with the fact that, in order to ensure the re-forced inclusion, the opening contacts included in the anode circuit of the thyristor are inserted into the protection unit. 4. The stabilizer according to paragraph.n. 1 and 2, in order to ensure that the switch-on is repeated, the Zener resistor source of the reference voltage is applied to the variables. Sources of information taken into account in the examination 1. GDR patent number 82992, cl. 21 C 68/50, l. N. 02 H 3 / 20,1971. 2. US patent number 3373341, cl. 323-9,1970. What about - about