SU650061A1 - Dc voltage stabilizer - Google Patents

Description

connected to the base-emitter junction of one regulating transistor, another from the secondary windings through the second additionally inserted diode bridge connected to the base-emitter of the other regulating transistor, and an additionally inserted resistor connected between the connection point of the two regulating transistors and the total length.

On the dash: e shows a stabilizer circuit.

The stabilizer contains series-connected regulating transistors, 2, master oscillator 3, switching transistors 4, the collectors of which are connected to the primary windings of the transformer, a divider on the resistors 5, 6. Parallel to the resistor 5, an emitter-collector transition is connected to the transistor 7, which base is connected to the output of the amplifier 8 direct current, diode bridge 9, diode bridge 10 with capacitor I, capacitor 12 of the output filter and shunting output of the stabilizer, high-frequency capacitor 13, toggle switch 14 for connection External Expansion control signal to a balancing resistor 15, the terminals 16, 14 of the toggle 17.

The stabilizer works as follows.

When a stabilizer without a control signal (toggle switch 14 at terminal 16) is operated, output from master oscillator 3 is followed by a sequence of monolithic pulses at the bases of switching transistors 4, which commute the voltage of the primary windings of the transformer. In the secondary windings, a rectangular alternating voltage (square wave) is induced, which is rectified by diode bridges 9, 10 and fed to the bases of control transistors 1, 2. The control transistors 1, 2 are controlled by this voltage. The output voltage difference signal and the reference, amplified by the DC amplifier 8, changes the collector junction current of the transistor 7 and thereby controls the voltage amplitude on the primary and secondary transformer windings through the switching transistors 4. As a result, changes to The output voltage of the bridges 9, 10, which controls the voltage drop across the emitter-collector junctions of the control transistors 1, 2, so that for all destabilizing factors acting on the input and output of the stabilizer, the output voltage remains unchanged.

The output voltage of the diode bridge 10 is smoothed by the capacitor 11 of a non-hospital capacitance, and there is no capacitor at the output of the diode bridge 9. Therefore, the output

The diode bridge 9 will have voltage drops, determined by the time of switching of the diodes and the duration of the front of a variable level angle. As it is possible to ensure a short front time and a short diode switching time, the failure time will be a fraction of a microsecond. Such a dip is largely integrated by the emitter junction capacitance of the control transistor 2. Full smoothing of the high-frequency component, caused by the voltage failure at the moment of switching diodes of bridge 9, provides a high-frequency capacitor 13, which is needed regardless of the nature of the load (pulsed or constant) and length current-carrying load wires. The constant times for regulating the control transistors 1, 2 are different, and for transistor 1 the time constant is longer due to the action of the capacitor I. Therefore, fast perturbations are worked out by the control transistor 2, and slower and steady-state are both transistors 1 and 2. As a result the dynamic qualities of the stabilizer are not degraded. The presence of a capacitor and

provides a more stable operation of the stabilizer and eliminates saturation of only one of the control transistors, which could have a place in real cases, due to the non-identical parameters of the control transistors and the regulatory effect on their bases in time and amplitude. For more stable operation and equal distribution of voltage across the control collectors

transistors 1, 2 it is necessary that the time constant for regulating effects are significantly different. For the same reason, an unequal distribution of voltage across collectors may occur.

transistors 1, 2 with full load shedding, when the non-identical characteristics of the transistors are particularly pronounced. The inclusion of a balancing resistor 15 provides the alignment of the voltages.

When the toggle switch 14 is switched to the position of the terminal 17, the stabilizer operates from an external control signal supplied relative to the common point. In that

In this case, the external control signal is a reference. Therefore, the output voltage of the stabilizer varies according to its size and shape. One regulating transistor (integral) can be used as a regulating element, its base is connected to a diode bridge without a smoothing synchronizer. The inclusion of a capacitor can lead to a deterioration of the stability and dynamic qualities of the stabilizer.