RU2252480C2 - Sine-wave voltage generator - Google Patents

Abstract

FIELD: radio-electronic engineering.

SUBSTANCE: proposed generator has transistor 1, inductance coil 2, capacitors 3 - 7, operational amplifier 8, voltage regulator diode 9, diode assembly 10 of diodes 21 and 22, resistors 11 - 19, and device output 20. Sine-wave signal picked off output 20 is rectified by diode 22 and dc voltage equal in amplitude to output signal is set across capacitor 4. Turn-on voltage picked off voltage regulator diode 9 is applied through resistor 6 to diode 21. The latter starts passing current and voltage is supplied to capacitor 4 of operational amplifier 8 through resistor 17. Other input of operational amplifier 8 is supplied with dc voltage. Correcting voltage picked off output of operational amplifier 8 is passed to base of transistor 1 thereby changing working point of transistor 1 to bring output signal to initial level.

EFFECT: provision for saving stability in case of variations in parameters of components.

1 cl, 1 dwg

Description

The invention relates to the field of electronic equipment and can be used as a generator of undamped sinusoidal oscillations.

A known sinusoidal voltage generator [1], containing a series-connected input circuit, a band-pass filter, an operational amplifier, a rectifier, a low-pass filter, a threshold element, a diode connected to the midpoint of series-connected resistors connected between the input device and the band-pass filter.

The disadvantage of this device is the low frequency of the output signal due to the limited frequency properties of operational amplifiers.

A generator [2] is also known, which contains a transistor, an inductor, capacitors connected in a certain way. Such a generator is known as a capacitive three-point circuit, also called a Kolpitz circuit.

The disadvantage of this device is the significant dependence of the steady-state oscillations on the parameters of the oscillatory circuit and the transistor.

The task to which this invention is directed is to maintain the stability of the generator when changing the parameters of its elements.

The problem is achieved due to the fact that a sinusoidal voltage generator containing a transistor, the collector of which is the output of the device and connected to one output of the inductor, the other output of which is connected through the first capacitor to the base, the emitter and the base of the transistor are connected to each other through the first and second series-connected resistors, according to the claimed solution, a zener diode, seven resistors, four capacitors, a diode assembly containing the first and second diodes, op an iterative amplifier, the non-inverting input of which is connected to the midpoint of the third and fourth resistors connected in series, connected in parallel with a zener diode, the anode of which is connected to a common wire, which is the midpoint of the power source, the cathode is connected through the fifth resistor to the positive pole of the power source and through the sixth and the seventh resistors with an inverting input of the operational amplifier, and the middle point of the resistors with the anode of the first diode of the diode assembly, the cathode of which connected to the cathode of a second diode of the same assembly, connected by an anode to the collector of the transistor, and the connection point of the diodes is connected through an eighth resistor and a second capacitor connected in parallel with a common wire, the output of the operational amplifier is connected through a third capacitor to its inverting input, through the ninth resistor to the base of the transistor , the emitter of which is connected through the fourth capacitor with its collector and through the fifth capacitor with a common wire, the connection point of the first capacitor and inductor is connected on with a common wire, and the connection point of the first and second resistors with the negative pole of the power source.

The stability of the output signal of the generator depends on the stability of the operating point of the base, which is associated with the stability of the parameters of the transistor. To ensure the stability of the output signal, it is proposed to select the operating point of the transistor automatically due to feedback, which is carried out by introducing additional elements included in a certain way into the known circuit.

The drawing shows a diagram of the device. The proposed generator contains a transistor 1, an inductor 2, a first 3, a second 4, a third 5, a fourth 6, a fifth 7 capacitors, an operational amplifier (op amp) 8, a zener diode 9, a diode assembly 10 containing the first 21 and second 22 diodes, the first 11 , second 12, third 13, fourth 14, fifth 15, sixth 16, seventh 17, eighth 18, ninth 19 resistors, output 20 of the device.

To the collector of transistor 1 is connected to one terminal of the inductor 2, the other terminal is connected to a common wire. The emitter of transistor 1 is connected through a capacitor 6 to the collector of transistor 1, through a capacitor 7 to a common wire, through a resistor 11 to the negative pole of the power source. The base of the transistor 1 is connected through a resistor 12 to the negative pole of the power source, through a capacitor 3 with a common wire, through a resistor 19 with the output of the op-amp 8, the non-inverting input of which is connected to the midpoint of the series-connected resistors 13 and 14, connected in parallel to the zener diode 9, the anode of which is connected with a common wire, the cathode is connected through a resistor 15 to the positive pole of the power source and through series-connected resistors 16 and 17 with an inverting input of the OS 8, the middle point of the resistors 16 and 17 is connected to the house of the first diode 21 of the diode assembly 10, the cathode of which is connected to the cathode of the second diode 22, connected by the anode to the collector of the transistor 1, and the connection point of the diodes 21 and 22 is connected through a parallel-connected resistor 18 and a capacitor 4 with a common wire, the output of the op-amp 8 is connected through a capacitor 5 with its inverting input.

The generator operates as follows.

When power is applied to the collector of transistor 1, an output sinusoidal signal appears, which is rectified by diode 22, and a constant voltage equal to the amplitude of the output signal is established on capacitor 4. The unlocking voltage from the zener diode 9 is supplied to the anode of the diode 21 through a resistor 16, the diode is unlocked and the voltage from the capacitor 4 is supplied to the inverting input of the op-amp 8 through the resistor 17. A constant voltage from the voltage divider made on the resistors 13 and 14 is applied to the non-inverting input of the op-amp 8. OS 8 compares these voltages and generates an error signal to the base of transistor 1, thereby choosing the operating point of the base. Under the influence of various destabilizing factors, the amplitude of the output signal will change, this change will be compared with the reference voltage and the op-amp 8 will change the operating point of the transistor 1 so that the output signal changes to the previous level. Thus, the output signal of the generator is stabilized.

Using the proposed generator allowed us to create a highly stable device for processing the signal of the angle sensor.

Sources of information

1. Certificate of the Russian Federation for utility model N18466, 2001, cl. H 03 B 5/00.

2. I.L. Kaganov Industrial Electronics, M., Higher School, 1968, p. 214 Fig. 3.6 (prototype).

Claims (1)

A sinusoidal voltage generator containing a transistor, the collector of which is the output of the device and connected to one output of the inductor, the other output of which is connected through the first capacitor to the base, the emitter and the base of the transistor are connected to each other through the first and second series-connected resistors, characterized in that It is additionally introduced a zener diode, seven resistors, four capacitors, a diode assembly containing the first and second diodes, an operational amplifier, the non-inverting input of which connected to the midpoint of the third and fourth resistors connected in series parallel to the zener diode, the anode of which is connected to a common wire, which is the midpoint of the power source, the cathode is connected through the fifth resistor to the positive pole of the power source and through the sixth and seventh resistors connected in series with the inverting input of the operating amplifier, and the midpoint of the resistors with the anode of the first diode of the diode assembly, the cathode of which is connected to the cathode of the second diode of the same assembly, connected to the anode with the collector of the transistor, and the connection point of the diodes is connected through the eighth resistor and the second capacitor connected in parallel with the common wire, the output of the operational amplifier is connected through the third capacitor to its inverting input, through the ninth resistor to the base of the transistor, the emitter of which is connected through the fourth capacitor to by a collector and through a fifth capacitor with a common wire, the connection point of the first capacitor and inductor is connected to the common wire, and the connection point of the first and second oh resistors with a negative pole of the power source.