SU583419A2 - Stabilized power source - Google Patents

Description

one

The invention relates to electrical engineering and can be used in the power circuits of various radio devices.

The main author's certificate No. 459772 is known to have a stabilized nutrition source containing; direct current amplifier, regulating direct current amplifier, regulating transistor, measuring element, protective transistor, emitter-collector junction of which is connected between the emitter and the base of the regulating transistor parallel to the junction of the regulator transistor of the regulating transistor is connected in series with a stator and two resistors, prnn than the anode of the Zener diode is connected to the collector of the regulating transistor, and the base of the protective transistor to the connection point of the resistors

The disadvantage of this device is that it is protected from current overloads and does not provide an indication of the mode n & reload.

The purpose of the invention is to protect against current overloads and to indicate overload conditions by supplying a stabilized power source containing a DC amplifier, a regulating transistor, a measuring element whose protective transistor is emitter-collector junction which is connected between the emitter and the base of the regulating transistor, parallel to the junction collector The regulator transistor emitter is connected to a j-series chain consisting of a Zener diode and two resistors, the Zener diode anode being connected to a collection To the regulator tor of the anzistor, and the base of the protective transistor to the connection point of the resistors, a current sensor is inserted between the collector of the regulating transistor and the corresponding input terminal. and the zener diode is connected to the input output through an overload indicator, such as an LED.

Claims (2)

The drawing shows the principal electrical circuit of a stabilized power source. The device contains rpai regulating EISTOR 1, DC amplifier with ISTO fOiKOM reference voltage 2, measuring apeite 3, load 4, protective rpait resistor 5, resistors 6 and 7, Zener diode 8, current sensor 9, additional transistor 10, overload indicator 11, The stabilized food source works as follows. During normal operation, the stabilized power supply voltage at the junction emitter-collector of the regulating transistor of resistor 1 is sufficient for the breakdown of Zener diode 8, and the voltage drop across the current sensor Y is not enough to open the transistor 10. Therefore, the protective tpai resistor is locked with zero potential at , relative to the emitter (the voltage drop across resistor 6 is almost zero). Hi the overload indicator 11, for example, the LED, is also disconnected, as there is no current flowing through the zener diode L and the trace TenbHCv. When the load resistance decreases, the load current increases and the maximum permissible value that sets with the current sensor 9, the additional transistor 10 starts to open, which entails opening the protective transistor 5 and reducing the toga through the resetting transistor 1, the stabilized power supply will go into current stabilization mode. With a further decrease in the load resistance 4, the voltage at the junction collector-emitter of control transistor 1 will increase and as soon as it becomes equal to the voltage stabilizing Zener diode 8, the Zener diode pierces, as a result, the protective transistor 5 opens even more with an additional base current that flows through circuits: plus - source of input voltage - load 4 - junction emitter-base of the own transistor 5-resistor 7-s.tabler B-scoring overload 11, and regulating; transistor 1 is closed. The process of locking the control transistor 1 occurs as an avalanche. When the protection is triggered, a small current flows through the control transistor 1, which is determined by the residual voltage at the collector-emitter junction; at the transistor 5. In the event of a short circuit in the load 4, the circuit operates similarly. The overload indicator in this I case shows an overload, as through the Zener diode 8, and, consequently, through it, the UChTR current. When an overvoltage is applied to the input voltage, the voltage on the transition emitter-collector age and the stability of the nitron 8 break through, as a result of 4eiD the protection transistor opens, and the peryjifipyKiumft transistor 1 closes. Overload indicator shows overload. The diminutive transistor 10 opens only overcurrent over current, and after the protection triggers (regulating transistor 1 activates) it closes because the current through the regulating transistor decreases and the voltage drops across current sensor 9 is not enough e) 1 unlocking it. The protection current and the stabilization voltage of the Zener diode 8 can be chosen based on the following relation: UCT Di Pmdx Uj, - / stabilization stabilization diode of the Zener diode 8; Oh, - the current is sewn up, set by the symbol with current sensor Y; The maximum permissible power dissipation of the regulating transistor is 1. When the stabilized power supply is working on the capacitive pad, it is necessary to enter the protection operation delay circuit in it or turn off the protection at the time of activation. When using the invention, it eliminates the failure to stabilize the south power supply during current overloads, short circuits in the load and overvoltage at the input. The introduction of the overload indicator will instantly determine the fault in the load imn overvoltage at the input and promptly eliminate the fault. Claim 1. Stabilized power source according to author. N9 459772, characterized in that, in order to protect against current overloads, a current sensor is inserted between the collector of the regulating transistor and the corresponding input terminal. 2. The source according to item 1, which is based on the fact that, in order to not detect the overload mode, the zener diode is connected to the input terminal through the overload indicator, for example, the LED. 0