SU843156A1 - Electric oscillation generator - Google Patents

Description

(54) ELECTRIC OSCILLATIONS GENERATOR

power supply and capacitor 10, a power supply 11 is connected.

The generator works in the following manner.

When the source 11 is turned on, the voltage across the resistor 8 and the low-pass filter, 1 of each of the inductance 9 and capacitor 10, is applied to the series-connected TRAPATT diode 1 and laser 2, as a result, amplitude amplitude is generated voltage pulses on TRAPATT diode 1 and the current flowing through TRARATT diode 1 and laser 2. As a semiconductor laser, for example, an injection laser with a threshold current value several times smaller than the maximum current flowing Erez TRAPATT-diode.

The voltage pulse propagates to the stepped end 5 of segment 3 of the transmission line and, according to the locus, there is a partial transformer b. load 7, and partially reflected in the opposite phase to TRAPATT diode 1.

When the current reaches the threshold value of the current of the laser 2, the laser begins to generate luminous flux. Due to the delay, determined by the length of the fiber 4, the luminous flux reaches the emitter region of the TRAPATT diode 1 at the moment of arrival of an electric pulse reflected from the stepped end 5 of the 3rd transmission line. Penetrating the TRAPATT diode 1 into the pn junction region, the luminous flux generates additional charge carriers, which facilitates the formation of plasma in the .TRAPATT dibd 1. At the same time, the generation of the next current pulse begins, and thus the generation of a new laser light pulse 2

Plasma formation in TRAPATT diode 1 is achieved by creating overvoltages on it. In this case, the maximum working voltage exceeds its breakdown voltage. Moreover, a smaller amount of overvoltage corresponds to a smaller amount of plasma charge. In the proposed device, a significant charge is created due to the optical generation of free carriers. Therefore, to form the same amount of plasma when the TRAPATT diode is illuminated

less overvoltage is required. This makes it possible to reduce the magnitude and 4pulse voltage, reflected from the stepped end 5 of the 3rd gear line. The energy supplied to the load 2 under these conditions is increased. The loss of V-frequency power due to the laser is insignificant, since its resistance in the open state is low. In addition, part of the energy expended in the form of light energy is returned back through the TRAPATT diode.

The average current TRAPATT diode is set by the source 11 of the post voltage. Therefore, reducing the average voltage on TRAPAtT diode 1 by reducing the amount of overvoltage means reducing the power consumed from

0 power source, i.e. increases the efficiency of the generator.

Reducing the magnitude of the overvoltage on the TRAPAlT diode reduces the duration of transients and increases the stability of the generator start-up. The introduction of optical feedback eliminates the need for a short-circuited segment of the transmission line,

Q which reduces the overall dimensions of the generator.

The proposed generator can be used as a generator of light pulses with ultra-high frequency.

Claims (2)

Invention Formula An oscillator containing a TRAPATT diode connected to a transmission line, the stepped end of which is connected to the load, and a power source connected to a TRAPATT diode, characterized in that, in order to increase the efficiency of the generator, in series with the TRAPATT diode The semiconductor laser is included, the light emitting part of which is connected by a light guide to the TRAPATT diode field. Sources of information taken into account during the examination 55 1. USSR inventor's certificate: No. 486451, cl. H 03 B 5/36, 1974. 2. IEEEJ Solid State Circuits, 1973, V. 8., No. 1, p. 63-66 (prototype).