SU838685A1 - Power supply source protecting device - Google Patents

Description

(54) DEVICE OF PROTECTION OF SOURCES OF GPGAIA

Claims (2)

I Inventive1-: e relates to radio electronics and can be used in the secondary sources of pitapi (TIG) electronic equipment and in the automatics systems. A device is known that is used for generating a VII current of 1 a load and an output voltage, containing a differential amplifier 1 with a current-stabilized traysistor, logic OR, current sensor 1J. The most technically efficient solution to the invention is a power supply device with power sources, containing a current sensor amplifier, a differential voltage / tel1 with a voltage source, which is linear in three transistors, the first of which is connected via a rezstor to the input terminal, the feedback amplifier of a parsistor with an isolating diode and an input resistive divider, the first output of which is connected to the common P1IPe, the middle point is connected to the base of the specified transistor, and the output of the feedback amplifier is yuchen to the input of the second transistor differential amplifier | 2. The disadvantages of this device are low reliability because time And the level of the device but the current of the load 1 and the lower level of control) the voltage cannot be separated, difficult, very low accuracy of the threshold threshold, and overload current, and overload current thresholds and low level controlled voltage. The purpose of the invention is to increase the reliability and, as a result, the expansion of the area of change and the possibility of microminiaturization. The goal is achieved by the fact that in the power source protection device, the output of the current sensor amplifier is through the input terminal to the second output of the input resistive divider clamped by the input capacitor, and the input of the third transistor of the differential amplifier is connected via the second resistor to the input output, the output of the second transistor is connected to the output transistor output, and the output of the first transistor is connected to the input of the second transistor of the differential amplifier, in addition, the emitter of the transistor amplifier back Communication is connected to a common point emitters of the first and third transistors of the differential amplifier. In addition, a reference voltage source is connected between the common power supply bus and the emitters of the first and third transistors of the differential amplifier. The drawing shows a circuit diagram of a power source protection device. The device contains a current sensor amplifier I, made on a transistor 2, a differential amplifier 3, made on transistors 4-6 with a source 7 of the reference voltage, and a feedback amplifier 8, made on a transistor 9 and diodes 10 and 11. The protection device has conclusions 12 for connecting a current sensor, input pins 13, output pins 14 and power supply 15, resistors 16-20, resistive divider 21, capacitor 22, resistor 23. The device operates as follows. In the initial state, at the rated load current, which corresponds to the nominal voltage drop on the current sensor and at the nominal value of the monitored voltage at the terminals 13, transistor 2 is open, because the voltage drop on the base resistor of this transistor is higher than the voltage voltage on the current sensor, and the difference of these voltages, sufficient to open the transistor 2, is positive. In this case, the collector-emitter junction of the transistor 2 shunts one input (the anode of the diode 10) of the feedback amplifier 8, with the result that the transistor 9 is locked. The transistor 4 of the differential amplifier 3 is open, because the monitored voltage at the terminals 13 exceeds the minimum allowable level that is higher than the reference voltage 7, and the voltage difference between the base-emitter junctions of transistor 4 is positive, and the base-emitter junctions of transistor 9 are applied the reference voltage 7 in the field closing the transistor. The differential amplifier transistor 6 is locked because the voltage at its input does not exceed the maximum allowable value determined by the reference voltage. 7. Transistor 5 is also locked because transistors 6 and 9 are locked at the output of the protection device 14 That corresponds to normal levels of 3 controlled parameters: load current, maximum and minimum levels of controlled voltage. As the load current increases, the voltage across the current sensor in the polarity that blocks the transistor 2 increases, and when the load current reaches a predetermined maximum level, the transistor 2 closes. In this case, the output of amplifier 1 of the current sensor (collector of transistor 2) receives a signal at the second input of the feedback amplifier (anode of diode 10), transistor 9 opens by opening transistor 5, and the last opens the transistor 6. At output 1--1 of the protection circuit, an alarm signal appears. In this case, the transistors 6 and 5 OCTPKJTCH included, block each other. To return the device, the needles, the initial state must be opened and then the source 15 1 I re-turned on; and; -: When the monitored voltage drops:;: at pins 13 below the acceptable level, transistor 4 is locked on its KO ,; i,; ieK (jpc voltage appears, which is the first to the first input of the reverse amplifier 8 (the anode of the diode 11). Transistor 9 opens. Next, the protection device works; nk same as in the case of current overload ;. Irn -: Putting the monitored voltage and; -: pins 13 above the allowable level of the tistor 6 opens and opens the TJI; torus 5. At the same time, the transistors 6 and 5, each other's block, remain turned on. On course 14, the devices are wired for a fault, which is. impact;: m15y;.: on the regulating transistor stabil; 1 izat (); a or voltage converter, reveals it. The positive effect of the use of the proposed device is to improve the reliability of the device, due to the fact that the levels of all three cocktails:; and the parameters (overload current or to which circuit, upper and lower; stresses) can be set separately from each other with high stgp (accuracy. At the same time, the settings of the batting levels by one parameter do not affect the earlier setting of the II of the other two parameters, i.e., excluding the mutual influence established by v her on top of each other, all three levels ;; The pyeMfjix parameters do not depend on each other on apyia. In addition, the maximal and miii -.- il. level of controlled, for example. hms: -.- ,.: can be set symmetrically to the nominal value with n - ::, high accuracy, since;: ;; IH :::; H |: relative to the same source: pickg: reference voltage. Formula mzobreu1. A yen protection device containing an amplifier, a differential reference voltage amplifier, made i ;; transistors, the nepBoio input is connected through a resistor to the input transistor ;; d. feedback amplifier on the transponder:; a developing diode and input resistance ;; t; The first divider, which is .lo.j, is connected to the common mud, the center point is connected to the base of the specified utility. and IM, the feedback amplifier course CONNECT ;:; The input of the second transistor is a differential; 1; m.: A single amplifier, characterized in that. with reliability improvement, Bbixci / i. -hp: l current sensor is connected via the input diode to the second output of the input resistive divider shunted by the input capacitor, the input of the third transistor of the differential amplifier is connected via the second resistor to the input output, the output of the second transistor is connected to the output output, and the output of the first transistor is connected to the input of the second transistor differential the amplifier, in addition, the emitter of the transistor of the feedback amplifier is connected to the common point of the emitters of the first and third differential amplifier transistors. 2. A device according to claim 1, characterized in that a reference voltage source is connected between the common power line and the emitters of the first and third transistors of the differential amplifier. Sources of information received by Bfr attention in the examination of 1 International Jourhal of Electronics 1972, no. 5, 33, p. 597-599. 2 USSR Author's Certificate No. 546871, cl. G 05 F 1/58, 1975.