SU1262669A1 - Device for controlling power transistor - Google Patents

Abstract

The invention relates to electrical engineering and can be used in secondary power supply systems. The purpose of the invention is to expand the range of switching voltages while maintaining the speed of the key. When the unlocking voltage is applied to the base of the transistor (T) 6, LT T 1 opens, the base of which emitter current T 6 flows in. At the time of unlocking, the base current of the powerful T 1 has a maximum value, since the diode (D) 8 is shifted in the opposite direction . Further, the potential of the collector T 1 decreases and D 8 shifts in the forward direction, including the base current auto-regulation circuit. The differential amplifier (RC) 4, through D 8, acts on the control input of the base current T 1, maintaining a collector-base voltage close to zero. This ensures no excess nasal accumulation. In this case, the T1 base in D1 is shifted in the opposite direction and does not affect (L on autoregulation; shading. Resistors of resistors 2 and 5 are equal, which excludes the effect of the difference in input current of the DU 4 on the circuit accuracy. When locking the forest

Description

t 1 through D 10 a negative current is introduced, providing a quick quick shut-off. The voltage on the pectoro increases, unlocked by D 3. The voltage at the non-inverting input of the remote control 26266 9 4 is limited to a safe level. The frequency properties of D 3 determine the off time T 1, D 3 in the low-voltage circuit and are therefore fast, 1 slug.

Claims (2)

The invention relates to electrical engineering and can be used in secondary power supply and electric drive systems for controlling a power key transistor. The purpose of the invention is to expand the range of switched voltages while maintaining the speed of the key. The figure shows the diagram of the proposed device. The device contains a power transistor 1, a voltage limiting circuit, consisting of the first resistor 2 and a second diode 3, a differential amplifier 4, a second resistor 5, a transistor of the pre-end stage 6, a base current circuit of the transistor consisting of resistor 7, the first diode 8 and Two additional diodes 9 and 10. The power transistor control device operates as follows. When a positive voltage with respect to the output O is applied to the input U, transistor 6 opens with the base current passing through the resistor 7. The emitter current of this transistor flows into the base of the power transistor 1 and unlocks it. At the time of unlocking the base current of the power transistor has a maximum value because the diode 8 is shifted in the opposite direction. Subsequently, the collector potential of the high-power transistor decreases, and at the moment of equality of the base and collector potentials of the high-power transistor, the diode 8 is displaced in the forward direction, including the base current auto-regulating circuit. This also leads to an equilibrium state in which the feedback channel On the voltage side, the collector-base of transistor 1 by differential amplifier 4 acts through diode 8 on the control input of the magnitude of the base current of transistor 1, maintaining the specified voltage close to zero. This ensures that there is no accumulation of excess carriers in the power transistor base at any collector current, regardless of the gain of transistor 1. Diode 3 in this mode is shifted in the opposite direction and does not affect the operation of the auto-adjusting circuit. The resistances of resistors 2 and 5 are equal to each other, which excludes the influence of the difference between the input currents of the differential amplifier and the accuracy of the circuit. The indicated state of equilibrium is maintained until a negative pulse arrives at the input. After that, the diode 8 is closed by disconnecting the base of the transistor 6 from the output of the differential amplifier, the transistor 6 is locked and a negative current is introduced into the base of the transistor 1 through the diode 10, which leads to its fast locking. The voltage across the collector of transistor 1 increases, and after its magnitude becomes greater than the voltage of the auxiliary power supply, diode 3 is opened. As a result, the voltage at the non-inverting input of amplifier 4 is limited to a safe level not exceeding + U With a fully closed transistor. 1, the voltage (Etsas + ie) is applied to the high resistance resistor 2. In the proposed device, unlike the well-known diode 3, the frequency properties of which mainly determine the turn-off time of a high-power transistor, it operates in a low-voltage circuit and therefore is fast-acting. DETAILED DESCRIPTION OF THE INVENTION A power transistor control device comprising a differential. A special amplifier whose inputs are connected to a collector-base of a high-power transistor, a transistor of a terminal stage connected to the base of a high-power transistor, and the first diode, characterized in that, in order to expand the range of switching voltages while maintaining a high speed key, Three resistors and a second diode are introduced, the cathode of which is connected to the output for connecting an auxiliary power source, and the anode is connected to the non-inverting input of the day) of the amplifier and simultaneously through the first cut A source with a power transistor collector, the base of which is connected via the second resistor to the inverting input of a differential amplifier whose output is connected to the cathode of the first diode connected to the base of the prefetch stage transistor, connected via a third resistor to the input to connect an auxiliary power source.