SU1552373A1 - Device for stabilization of generator output signal - Google Patents

Abstract

The invention relates to radio engineering. The purpose of the invention is to increase the stability of the radiated power in both continuous and modulation modes of operation. The device contains a diode radiation source 1, a switch 2, current sources 3 and 4, a voltage source 5, transistors 6, 7 and 13, a differential amplifier 8, a synchronous detector 9, a low-pass filter 10, a generator of 11 modulating anti-phase square signals, a limiter 12 current, a voltage divider 14, consisting of resistors 15 and 16, and an el-17 with adjustable resistance, consisting of constant and variable resistors 18 and 19. When the temperature of source 1 changes, a voltage difference appears at the inputs amplifier 8 which is amplifying and it is fed to a detector 9, a controllable oscillator 11. Then, the resultant signal through the filter 10 and the limiter 12 is supplied to transistor 13, whose collector current varies and, accordingly, its temperature varies. The goal is achieved by stabilizing the temperature of source 1 connected by thermal coupling 13. 1 il.

Description

(21) 4420035 / 24-09

(22) 03.05.38

(46) 03/23/90. 5yul. G 11

(71) Institute of Radiophysics and Electronics, Academy of Sciences of the Armenian SSR

(72) R.A. Simon and A.V. Hanj

(53) 621.373.42 (088.8)

(56) Simon R.G., Abram Mr. Yu.A., Arutunoz V.A. Small-sized noise generator decimeter range. Lime Academy of Sciences of the Armenian SSR. Seoi Technical Sciences, 1977, t.XXX, № 2, p.49.

(54) DEVICE FOR STABILIZATION OF THE OUTPUT SIGNAL OF THE GENERATOR

, (57) The invention relates to radio engineering. The purpose of the invention is to increase the stability of the radiated power in both continuous and modulation modes of operation. The device contains a diode radiation source 1, a switch 2, current sources 3 and 4, a voltage source 5, transistors 6,

7 and 13, a differential amplifier 8, a synchronous detector 9, a low-pass filter 10, an oscillator 11 of modulating antiphase square signals, a current limiter 12, a voltage divider 14 consisting of resistors 15 and 16, and an El 17 with adjustable resistance consisting of constant and variable resistors 18 and 19. When the temperature of source 1 changes, a voltage difference appears at the inputs of amplifier 8, which is amplified by it and fed to detector 9, controlled by generator 11. Then the received signal is through filter 10 and limiter 12 post It goes on the transistor 13, the collector current of which varies and its temperature varies accordingly. The goal is achieved by stabilizing the temperature of source 1 connected by thermal coupling 13. 1 il.

The invention relates to radio engineering and can be used to produce highly stable radiation in the visible and infrared to produce noise-like radiation in the microwave range.

The purpose of the invention is to increase the stability of the radiated power in both continuous and in modulation modes of operation.

The drawing shows a structural electrical circuit of the device for stabilizing the output signal of the generator.

The device for stabilizing the output signal of the generator contains a diode radiation source 1, a switch 2, a first 3 and a second C sources, a voltage source 5, first and third transistors 6 and 7, a differential amplifier 8, a synchronous detector 9, a low-pass filter 10, a generator 11 modulating antiphase rectangular signals, a current limiter 12, a second transistor 13, a voltage divider 1 consisting of first 15 and second 16 resistors, and element 17 with adjustable resistance consisting of constant 18 and variable 19 resis Hur.

The device works as follows.

The first and second current sources 3 and k provide the necessary currents for the diode radiation source 1 and element 17. The current through the voltage divider I is negligible compared to the current through the diode radiation source 1. In the first position of the switch 2, when the drain of the first transistor 6 is connected to the tap of the voltage divider 1D, the voltage of the voltage divider 1 reduced by the division factor is modulated by the first transistor 6 to the second input of the differential amplifier 8. The first input of the differential amplifier 8 is supplied with a modulated voltage formed on the drain of the third transistor 7. At a steady thermal condition, the voltages at the inputs of the differential amplifier 8 are the same. When the temperature of the diode source of radiation 1 changes, the difference in input voltages at the inputs of the differential amplifier 8 appears, which is amplified by it and fed to the synchronous

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a detector 9 controlled by a generator 11, and then through a low-pass filter 10 and a current limiter 12 is supplied to the second transistor 13.

The collector current of the second transistor 13 varies and its temperature changes accordingly. In this case, the temperature change of the second transistor 13 occurs in such a way that the temperature of the diode source 1 of the radiation connected by the second transistor 13 by thermal coupling is stabilized, which leads to stabilization of the radiated power.

The low-pass filter 10 eliminates switching disturbances arising from the operation of the synchronous detector 9. The current limiter 12 prevents the second transistor 13 from transients and excessive heating. Variable resistor 19 allows adjustment of the average temperature of the second transistor 13.

At the second position of the switch 2, when the drain of the first transistor 6 is connected to the first current source 13, this source closes to the common bus when the first transistor 6 is open. There is no current through the diode radiation source 1 and there is no radiation. When the state of the first transistor 6 is locked, the current flows through the diode source 1 and the radiation is present.

Thus, the proposed device operates in a modulated ps-mode, and the frequency is determined by the generator 11, the remaining blocks operate in the same way as in continuous mode. This improves the stability of the radiated power. In this case, various diodes can be used as the diode of the diode radiation source, providing radiation in different wavelength ranges.

Claims (1)

Invention Formula An oscillator output stabilization device comprising a first transistor, a voltage divider, a voltage source, the output of which is connected to the first current source, a diode radiation source, and a switch, the source of the first transistor being connected to a common bus, which is learnable. In order to increase power stability, both in continuous and modulated modes, a second current source, a differential amplifier, a synchronous detector, a low-pass filter, a current limiter and a second transistor, the emitter of which is connected to the common bus, are introduced, the third transistor, connected to a common bus, an element with adjustable resistance and a generator of modulating antiphase rectangular signals, while the input of the second current source is connected to a voltage source, the first the stroke of the element with adjustable resistance is connected to the output of the second current source and to the drain of the third transistor, the second terminal of the element with adjustable resistance is connected to the common bus, the voltage divider is connected between the output of the first current source and the common bus, 23736 the switch is connected between the output of the first current source and the voltage divider, the control input of the switch is connected to the drain of the first transistor, the second input of the differential amplifier is connected to the voltage divider, the diode radiation source is connected between the output of the first current source and the common bus, the first output generator of modulating antiphase rectangular signals connected to the second input of the synchronous detector and gates 15 of the first and third transistors, the second output of the generator of modulating antiphase rectangular signals is connected to the third input of the synchronous detector, the collector of the second transistor of the resistor is connected to an additionally introduced power source, and the second transistor and diode of the diode radiation source are connected thermally.