SU389475A1 - VPTB - Google Patents

Description

one

A device for controlling the maximum voltage of a stable gain (f / a 1) is known, which contains an emitter current generator, a base resistor, an amplifier, a phase selector, an electronic relay and an electromagnetic relay that switches the collector supply voltage with its contacts.

The known device has the following disadvantages:

a) impossible; 1; automatic measurement of the true value of 6, 1, since for this it would be necessary to introduce a large number of relays connecting the collector heater with a discreteness providing acceptable accuracy;

b) it is not excluded that the transistor enters the avalanche sample and removes it from the system;

c) low noise immunity, therefore, malfunctions are possible in the case of contact with the input of the phase selector, the case) of the 1st impulse noise;

e) lack of ;; automatic control of correct functioning.

The aim of the invention is to increase the accuracy, reliability and automation of the measurement process.

The goal is achieved by connecting the terminal for connecting the collector of the transistor under test to a power amplifier connected to a storage capacitor, and the output of the master oscillator is connected to the input of a phase selector in the form of a threshold circuit through a generator of shifted impulses. The output of the selector is connected through a relaxant capacitor and charge current regulator to a tip capacitor, which is connected via a transistor switch controlled by a drive.

source of direct current, and the drive input is connected to the second input of the relaxator. In addition, the device contains a control unit, made on a tunnel diode and resistors, and connected via non-switch to the terminals for connecting the transistor under test.

The drawing shows the block diagram of the described device.

The master oscillator 1 together with the generator of the output pulses 2 form a generator of 3 pulses of the emitter current. The generator of shifted pulses 4 is started by the falling edge of the master oscillator /. The output transistor 8 is connected to the output terminals 5, 6, 7, the base resistor 9 is connected to the base circuit. The impulses from the base resistor through the amplifier 10 impulses 10 and the phase selector 11 trigger the relaxer 12, the output of which is connected to

to the storage capacitor 14. The second output of the relaxer 12 through the tip 15 and the transistor switch 16 is also connected to the storage capacitor 14, which through the power amplifier 17 is connected to the collector of the measured transistor 8. The discharge current stabilizer 18 together with the charge current regulator 13 provide a certain frequency operation of the circuit in a steady state, and the reset circuit 19 provides a quick discharge of the storage capacitor 14 before starting the measurement. The blocking capacitor 20 serves to close the pulse collector current through it. Indicator 21 reads the measured value (/ "1.

The control unit 22 consists of resistors 23, 24, 25 and tunnel diode 26 and is connected to the output terminals of the meter using a switch 27.

The device works as follows.

The master oscillator / produces pulses of the required frequency and the leading edge triggers the output pulse generator 2, which provides the required duration and amplitude of the emitter current of the measured transistor 8, and the falling edge triggers the generator of shifted pulses 4.

In the initial position, the accumulators are discharged and the voltage across the collector of the measured transistor 8 is close to zero. After connecting the measured transistor to terminals 5, 6, 7, a pulsed current passes through the base resistor 9, which is p times the emitter current and coincides with it in phase. The pulse current is amplified by the amplifier 10 and passes to the phase selector 11, which pulses during the arrival of the enabling pulses from the generator 4. A release 12 starts up from the output of the phase selector //, pulses the storage capacitor 14 through the charge current regulator 13. the capacitor through the power amplifier 17 is fed to the collector of the measured transistor.

Since at the beginning the pulses from the relaxer follow the frequency of the master oscillator, the second drive 15 is also charged and turns on a transistor switch 16 through which a fast charge of the storage capacitor 14 from the direct current source occurs.

When the voltage on the collector of the measured transistor reaches the maximum voltage of the stable gain, the current through the base resistor 5 is stopped, the phase selector // stops starting the relaxer, the charge of the storage capacitor 14 ends. The storage capacitor begins to discharge through a discharge current regulator 18 and the input circuit of the power amplifier. The process takes place until the voltage at the collector of the transistor becomes less / about 1. After that, the phase selector And the relaxer starts up again, the storage capacitor is recharged and the circuit enters the state of dynamic equilibrium.

Charge and discharge current stabilizers ensure that the constant frequency of the system operates in a steady state mode, regardless of the voltage on the storage capacitor 14. This frequency is approximately two times lower than the frequency of the master oscillator /.

When operating in steady state mode, the voltage on the second accumulator 15 is not enough to unlock transistor switch 16, and the storage capacitor is charged only with a pulse current, which ensures

small voltage ripples on the storage capacitor 14 and, consequently, on the collector of the test transistor.

The voltage on the collector of the transistor is measured by the indicator 21, which can be used as a DC voltmeter, including digital. After the transistor is turned off, the storage capacitor is quickly discharged using the reset circuit 19.

In self-control mode, the scheme works as follows.

Measured transistor 8 is disconnected from the input terminals of the meter. Switch 27 switches the control unit 22 instead of the transistor. At the same time, a resistor 24 is connected to the tunnel diode 26 from the generator 3 pulses of the emitter current and exceeds the current maximum of this diode by the value of D / i. The tunnel diode is switched by this current to a high voltage state. Switching pulses of the tunnel diode through a divider formed by resistors 23 and 9 are fed to the input of amplifier 10 and triggers the phase selector V / and relaxer 12. The latter charges the storage capacitor 14 until the voltage ja of the output of power amplifier 17 reaches the value in which direct current through the resistor 25 compensates for the magnitude of the pulse current A / I. In this case, the system will be in dynamic equilibrium mode, and a voltage will be generated at the output, the value of which can be chosen any in the measurement range by selecting resistors 24 and 25.

The divider from resistors 23 and 9 is chosen such that the switching voltage of the tunnel diode creates a voltage across the resistor 9 corresponding to the required sensitivity of the meter.

Thus, if the device is invalid, then in the position of the switch “the self-control at the output of it must be a pre-established calibration voltage.

Due to this, in self-checking mode, the correct functioning of all elements of the meter is checked.

The described device has great speed, high accuracy and

measurement reliability and can be used as a standalone instrument for measuring the maximum voltage of a stable gain and as a unit for automatic transistor parameter meters.

Subject invention

1. A device for measuring the maximum voltage of a stable transistor gain, comprising an emitter current pulse generator, consisting of a series-connected master oscillator and an output pulse generator, a base resistor, a pulse amplifier connected to a phase selector, a discharge current regulator, a reset circuit, blocking capacitor and indicator, characterized in that, in order to increase the accuracy, reliability and automation of the measurement process, the terminal for connecting the collector of the tested transit torus alternation ,; the power amplifier is connected to the accumulator capacitor, while the output of the master oscillator is connected to the input of the phase selector, made in the form of a threshold combination, the output of which is connected to the storage capacitor through the relaxator and the current regulator

through a transistor switch controlled by a drive, the input of which is connected to the second input of the relaxer, is connected to a direct current source. 2. The device according to claim 1, characterized in

that it additionally contains a control unit, made on a tunnel diode and resistors, connected through a switch to the terminals for connecting the transistor under test.

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