SU830640A1 - Triangular shape voltage generator - Google Patents

Description

power source and directly to the collector of the third transistor, the base of which is connected to the common bus of the device, the emitter with the cathode of the second zener diode and the emitter of the fourth transistor, the collector of which is connected through the second resistor to the second bus of an additional power source and directly to the emitter of the second transistor, and the base to the common bus of the device.

The drawing is a schematic diagram of the device

The device contains an operational amplifier 1, zener diodes 2 and 3, resistors 4-6, a capacitor 7, transistors 8-11, buses 12-15 of power supplies. -. .

The device works as follows.

Assume / that at the output of the operating level, 1 a positive voltage is established. This voltage through a resistor 4 is applied to oppositely connected Zener diodes 2 and 3. A positive voltage at the output of the operational amplifier is greater than the stabilization voltage of each of the Zener diodes, and the current flowing through the resistor 4 is sufficient to maintain the Zener diode in voltage stabilization mode. Therefore, the stabilitron 2 operates in voltage stabilization mode, the zener diode 3 is shifted in the forward direction. The transistor 10 is saturated with a direct current flowing into its emitter. Transistor 11- is locked by the voltage supplied to its emitter from the emitter of transistor 10 (the blocking voltage is close to the value of the voltage cut-off at the switched emitter junction; transistor 10), transistor 8 is locked because its base.through terminal 12 is connected A negative voltage is applied to the source, and the emitter is connected to the device body through a saturated transistor 10. The transistor 9 is in active mode. The collector current of the transistor 9 is almost independent of the voltage at the collector junction. This DC current also charges the time of the master capacitor 7, the voltage on which, and consequently, on the inverting input of the operational amplifier 1, increases. The voltage at the non-inverting input of the operational amplifier 1 is constant and equal to the sum of the stabilization voltage of the Zener diode 2, and so on. The voltage drops across the Zener diode 3 and the emitter junction of the transistor 10. This voltage is much higher than the voltage of the stabilization voltage and very stable. When the voltage at the inverting input of the operative O amplifier 1 as the charging time of the capacitor 16 reaches the specified value and slightly exceeds it, the operational amplifier 1 switches over, the voltage at its output changes sign. This voltage is fed through a resistor 4 to a chain of zener diodes, as a result of which the zener diode 3 goes into voltage stabilization mode, and the zener diode 2 is accumulated in the forward direction. The transistor 11 is saturated with current flowing through its emitter junction. The transistor 10 is locked with a negative voltage coming to its emitter from the transistor 5 -to emitter 11. Transistor 9 is also locked because of its base with clelevus 13

A positive voltage is applied, and the emitter is connected to the device case through a saturated transistor 11. Under these conditions, the emitter junction of the transistor 9 is biased in the opposite direction. The current stabilizing transistor 7 operates in the active mode, the voltage on the capacitor 7 decreases according to a linear law. The voltage at the non-inverting input of op-amp 1 is constant. When the voltage on the capacitor 7 goes over a predetermined level in the process of decreasing, the operational amplifier switches again.

The voltage at its output converts Zener diode 2 into stabilization mode, and transistor 10 into

 saturation - and will provide the voltage on the non-inverting input of the op amp. The transistors 8 and 11 are closed at the same time, and the transistor 9 goes into active mode and generates a charge current for the capacitor 7.

Tension-on-capacitor increases according to a linear law.

Claims (2)

1. US patent number 3,622801, cl. 302-262, 04.30.72 .. 2. Design and use of operational amplifiers. Ed. J. Graham, J. Toby, L. Huadsman. M., Mir, 1974, p. 425, fig. 10.21. / 2 073 -0 L No: 5