SU744387A1 - Apparatus for measuring characteristical resistance of tunnel diodes - Google Patents

Description

frequency II by the pulse pulse counter, and the output of the pulse counter through the code comiarator is connected to the strobe pulse former, which is connected to the electronic key and controlled current source, P;)

In this case, the differential discriminator is connected to the anode of the diode under test, the output is connected to the control circuit of the meter and to the controlled current source. The output of the frequency divider is connected to a current controlled by a current source and a metering circuit. The output of the control circuit of the meter is connected to a pulse counter, and the output of the controlled current source is connected to the anode of the test diode, the cathode of which is grounded and an indicator is turned on at the output of the coupling device.

The drawing is a structural diagram of the proposed device.

The device contains a master oscillator 1, a tunnel diode to be tested 2, a frequency divider 3, a pulse counter 4, a counter control circuit 5, a differential discriminator 6, a controlled current source 7, a code 8 comparator, a strobule pulse former 9, an electronic switch 10, a memory device 11 and indicator 12.

The device works in two cycles. The first cycle starts with a start, after which the pulses from the master oscillator 1 are fed to the frequency divider 3 and to the pulse counter 4, but the pulses in it do not accumulate and the counter 4 remains in the zero state. After the time determined by the division factor, the pulse from the output of frequency divider 3 is fed to the counter control circuit 5, which converts the pulse counter 4 to the direct pulse counting mode of the master oscillator 1. Simultaneously, the pulse from the output of frequency divider 3 starts a controlled current source 7 From this point on, the current in the circuit of test diode 2 begins to increase until the current reaches its maximum value, after which a jump-like shift of the working point of the diode to the diffusion branch occurs and positive voltage drop on the test diode 2 drops discriminator 6 supplies in that time signal to the control circuit 5, the pulse counter which stops a counter 4, and switches the controllable current source 7 pej-kim to reduce current and a left: on the values. Thus, through the test diode 2, a triangular range current is applied to the pulse.

The next cycle starts with the appearance of a second imiuls on frequency divider 3 of the VXC. This pulse triggers a controlled current source 7, which forms an incremental time :; the current through the inverter diode 2 and after 5 control the counter 4 is transferred to the reverse counting mode. The number accumulated in the counter 4 decreases as the pulses arrive from the master oscillator 1. The code 8 comparator is connected to the imiums 4 counter and is designed to determine the moment when the counter state is close to zero but still not equal to it. When the number on the counter 4 n is set on the comparator code 8 Kc; iO; 3; ; i, the combination is the same; at the output of the com.m 8, a signal appears, which is fed to the shaper 9 strobe pulses.

A pulse from the output of the driver 9, a pulse pulse, closes the electronic switch 10, and also stops the change in the current of the controlled source 7 to the action of the strobe pulse.

Since the state of the counter 4. in the reverse counting mode does not reach zero, and the increase in current through the test bottom 2 is lost, the voltage on the diode reaches a value close to the maximum voltage (nnka) on the volt-ampere characteristic. When the strobe pulse expires, it stops at memory 11 and is detected as a maximum voltage by indicator 12, and then the current of the controlled source 7 continues to rise, the current in the tunnel diode circuit reaches its maximum value, and the differential discriminator 6 switches the controlled source 7 to decreasing the current to zero.

The measurement of the minimum voltage (depression) is similar to that with the only difference that the meter control circuit 5 stops the counter 4 at the time of the negative voltage drop across the tunnel floor 2 when the current through it from the controlled source 7 decreases.

When measuring the voltage of the solution (voltage on the diffusion branch of the current-voltage characteristic at a current value through the diode equal to the maximum current), the input of the pulse generator 9 is disconnected from the code 8 comparator and connected to the output of the differential discriminator 6.

The accuracy of measurement of the characteristic voltages of the tunnel diode in this device is determined by the value of the code combination set on the code 8 comparator and the stability of the characteristics of the controlled current source 7.

Strogo | STVO provides pulsed measurement mode, therefore, it significantly decreases: oI salinity, dissipated ia: with ptoem dnode.

F o rmu lann 3 obstitn

A device for measuring the characteristic voltage of tunnel diodes, with ;; A skimming controlled current source, differential discriminator, memory

Device and indicator, characterized in that, in order to reduce the power dissipated by the test diode, a master oscillator, a frequency divider, a pulse counter, a meter control circuit, a code distributor, a pulse generator and an electronic switch connected between the anode of the test diode and the storage device are additionally introduced , the master oscillator is connected to a frequency divider and a pulse counter, and the output of the pulse counter is connected via a code comparator to a driver of strobe pulses, which is connected With an electronic key and a controlled current source, the differential discriminator is connected to the anode of the test diode, the output of which is connected to the control circuit of the meter and the controlled current source, the output of the frequency divider is connected to the controlled current source and the circuit controlled by the counter, the output of the circuit meter control is connected to a pulse counter, and the output of a controlled current source is connected to the anode of the test diode, the cathode of which is grounded

And at the exit memorizing

The device is on.

Information sources,

Taken into 10 attention of the Council of Experts:

1. V.Aronov, Ya. A. Fedotov. Testing and investigation of semiconductor devices, M., “Higher School, 1975, p. 81-82.

2. USSR author's certificate L 151724, class G 01 R 31/6, 1962.

3. Static parameters meter for tunnel diodes L2-26, Technical Description and Operating Instructions, 1975, p. 8 (prototype).

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Claims (1)

A device for measuring the characteristic voltages of tunneling diodes containing a controlled current source, a differential discriminator, a memory device and an indicator, characterized in that, in order to reduce the power dissipated by the test diode, a master oscillator, a frequency divider, a pulse counter, and a counter control circuit are additionally introduced , a comparator code, a driver of strobe pulses and an electronic key connected between the anode of the test diode and the storage device, and the master oscillator is connected to a frequency divider and a pulse counter, and the output of the pulse counter through a code comparator is connected to a pulse generator, which is connected to an electronic key and a controlled current source, while the differential discriminator is connected to the anode of the diode under test, the output of which is connected to a counter control circuit and a controlled current source , the output of the frequency divider is connected to a controlled current source and a counter control circuit, the output of the counter control circuit is connected to a pulse counter, and the output is controlled about the current source - with the anode of the test diode 5, the cathode of which is grounded and an indicator is turned on at the output of the storage device.