SU517142A2 - Pulse generator - Google Patents

Description

one

The invention relates to a proper technique and can be used in automation devices and compute a technique for producing pulses with an adjustable tracking period from several tens of microseconds to several tens of seconds with steep fronts.

Known pulse generator auth. St. No. 428537, in which a relay circuit from a field-effect transistor and a tunnel, a full diode is used to obtain a regulated in a wide range of pulses.

However, the known pulse generator has a small range of frequency control of the pulse.

The purpose of the invention is to spread the range of the pulse frequency control.

This goal is achieved by

that the transistor, the base of which is connected to the collector of the output transistor, is inserted into the pulse generator, and the collector-emitter junction is connected in series with the resistor of the master circuit.

FIG. 1 given electrical schematic diagram of the pulse generator; in fig. 2 shows the current-voltage characteristics, according to the operation of the circuit. The pulse generator consists of a field-effect transistor 1, a transistor 2, two amplifiers - transistors 3, 4, a tunnel diode 5, a diode 6, a clock capacitor 7, resistors 8, 9, 1О, 11, 12, 13 and 14.

The generator works as follows.

When the E and EO power supplies are turned on, the tunnel diode 5 is in a high state, which is determined by the choice of the load current created by the resistance of the field-effect transistor 1 (load voltage I). When this transistor 3 is turned on, transistor 4 is turned off, and transistor 2 is turned on. When the power supply is turned on, the timing capacitor 7 begins to charge through the resistor 10 and the open transistor 2, and the voltage across the gate of the field-effect transistor 1 increases accordingly, which leads to a decrease in the slope of the load line I to the voltage axis (Fig. 2) created by the resistance of the field-effect transistor 1. When the gate voltage (voltage on the timing capacitor 7) reaches a certain value, the resistance of the field-effect transistor 1 increases so much that it creates a straight pass through at least the current-voltage characteristic of a tunnel diode 5 (straight load 11 of FIG. 2) and U tunnel diode will switch 5 to a low level. In this case, transistor 3 is closed, transistor 4 is opened, and Transistor 2 is closed.

The timing capacitor 7 starts discharging 15 through the open diode 6, the resistor 13 and the open transistor 4. The discharge rate of the timing capacitor 7 is controlled over a wide range by means of the resistor 13. A feature of this pulse generator circuit 20 is that the switching on of the transistor 2 works in key mode, fully unlocks the charge and discharge circuit and does not impose any. These are the conditions for choosing the resistance value of resistor 13, which can be selected in various sizes, regardless of the resistance value of the resistor J. Poeb. the resistance value of the resistor 13

can be from units of ohms to units of megom, t, that is, it can practically approach the value of the input resistance of the pale transistor 1. Thus, by changing the resistance value of resistor 13 within the specified limits, it is possible to obtain a very wide range of period variation following (frequency) from microseconds to several seconds or more, depending on the selected parameters of the elements.

As the clock capacitor 7 is discharged, the voltage across the gate of the field-effect transistor 1 reaches such a value that the tunnel diode 5 switches back to a high state. The process then repeats automatically.

Form Ji and invention.

Pulse generator auth. St. # 4228, characterized in that, in order to expand the range of controlling the pulse frequency, a transistor is inserted in it, the base of which is connected to the collector of the output transistor, and the collector-emitter junction is connected in series with the resistor of the driving circuit