SU560322A1 - Thermal coupled pulse generator - Google Patents

Description

one

The invention relates to a pulse technique and can be used to generate pulses with a period ranging from a few milliseconds to several minutes.

A thermal pulse generator with a tunnel diode connected by a cathode to a negative one, and a RNOM house through a thermodependent resistor to a positive power supply bus, a resistor heater connected between the anode of the tunnel diode and the positive power supply is known.

However, this generator has an insufficient thermal stability of the relaxation time.

The purpose of the invention is to ensure that the relaxation time of the generator is independent of the ambient temperature.

For this purpose, a thermally stable resistor is connected to the proposed thermal pulse generator connected between the positive power supply line and the additional ones connected in parallel by the thermal resistor and the heating resistor, the second outputs of which are connected to the negative power supply line, and the additional heating resistor is connected with a BASIC thermodependent resistor and resistor heater.

FIG. 1 shows the basic electrical circuit of the proposed generator; in fig. 2 shows a cross section of a film chip made according to the invention.

The thermally coupled pulse generator contains thermodependent resistors 1 and 2, heater resistors 3 and 4, a thermostable 2 resistor 5, and a tunnel diode 6, the cathode of which is connected to the negative power supply bus and the anode through resistors 1 and 4, respectively, with a positive and negative power supply busbars, a positive power supply bus through a series circuit of resistors 5 and resistors 2 and 3 connected in parallel is connected to the negative power supply bus, with resistors 1, 3, 4 connected by thermal CLI Scream

The generator works as follows.

In the initial state, the operating point on the current-voltage characteristic of the tunnel diode 6 is selected on the second upstream branch. In this case, the resistor-heater 4 heats up the thermodependent resistor 1. Resistor 1 increases its resistance during heating, as a result of which the load voltage decreases its inclination and begins to cross the first rising branch of the diode-volt characteristic b. Direction on

the anode of the diode 6, which is the generator output, falls, and the operation of the resistor-heater 4 is terminated.

At the same time, resistors 1 and 4 begin to cool, and the resistance of resistor 1 decreases, reaching its initial value, at which the load voltage passes again through the second upstream branch of the current-voltage characteristic of diode 6.

The process then repeats automatically.

Resistors 3 and 5 and a resistor, 2 with a negative temperature coefficient of resistance provide automatic control of the temperature of resistors 1, 3, 4. Thin films of resistors 1 and 4 are structurally located between the films of the thermostable heating resistor 3. When the ambient temperature changes, the resistance of the temperature-dependent resistor 2 changes is. This, due to the change in voltage drop across resistor 5, leads to a change in the dissipated power of preheater 3. The resistance of resistor a-heater 3 when heated or cooled resistors 1 and 4 remains almost unchanged during the formation of pulses.

Claims (2)

1. A thermally coupled pulse generator containing a tunnel diode connected the cathode to the negative bus of the power source, and the anode through a thermodependent resistor to the positive bus of the pitapi source, the resistor-heater connected by the anode of the tunnel diode and the negative bus of the power source, in order to ensure the generator relaxation time from the ambient temperature, A thermostable resistor is inserted in it, connected between the field bus of the power supply source and the resistor additionally introduced in parallel by the connected thermal-dependent resistor with the heater, the second terminals of which are connected to the negative bus power source. 2. A generator according to claim 1, characterized in that the additional resistor-heater is connected thermally to the main thermo-dependent resistor and the heater-resistor. E, about .M - Pus .l / OdJ / Offr / fcf