SU779940A1 - Defice for measuring transistor current transfer static coefficient - Google Patents

Description

The invention relates to the field of measuring parameters of semiconductor devices and can be used for remote monitoring and measurement of transistor parameters during 5 tests and under conditions of exposure to strong interference.

Devices are known for measuring the static current transfer coefficient of a transistor in a pulse mode.

One of the known devices comprises a pulse voltage source, a constant voltage source, emitter and base resistors, an amplifier and a recorder. The disadvantage of this device is the low accuracy of the measurement due to the influence of uncontrolled reverse current of the collector, which creates an additional voltage drop of 20 on the base resistor under the influence of various destabilizing factors during testing [1].

The second known device also contains a pulsed stabilizer of -25 emitter current, base resistors, a controlled collector voltage source, pulse amplifier, detector and indicator. Due to the presence of a controlled source of collector voltage in this device, higher measurement accuracy is provided by compensating for the voltage drop across the base resistor from uncontrolled reverse collector current [2] The closest technical solution to this invention is a device that contains, like this one, a voltage source, pulsed current source and basic collector resistor connected by a communication line with terminals for connecting the transistor under study, successively connected an amplifier, a capacitor and an amplitude-time converter, the input of the amplifier being connected to a base resistor, a key connected between the input of the amplitude-time converter and the device common bus [3]. A disadvantage of known devices? there is low noise immunity during remote measurements, since a significant amount of interference caused by powerful sources can be induced on the communication line connecting the terminal for connecting the base of the transistor to the base current collector resistor. The aim of the invention is to increase the noise immunity during distance measurements.

This goal is achieved by the fact that a pulse shaper, an adjustable delay circuit and an I circuit are inserted into the device, the output of which is connected to the control inputs of a pulsed current source and an amplitude-time converter, an inverter connected between the output of the And circuit and the control input of the key and trigger, the output of which is connected to the second input of the And circuit, one of the inputs is to the output of the And circuit, and the other trigger input serves to start the device, and the source is connected to the input of the pulse shaper uk 'interference signal.

In FIG. 1 shows a block diagram of the proposed device; in FIG. 2 'shows timing diagrams explaining his work ... .

The device consists of a voltage source 1, a pulsed current source 2, which includes a voltage source 3, a switch 4 and a voltage to current converter 5, an investigated transistor b, a current collector resistor 7 in the base circuit of a transistor 6, a communication line 8 connecting the investigated transistor 6 with a voltage source 1, a current source 2 and a collector resistor 7, an amplifier 9, the output of which through a capacitor 10 is connected to the input of an amplitude-time converter 11 and a key 12, a pulse shaper 13, the output of which is adjustable through erzhku 14 is connected to one input of AND gate 15, latch 16 ,. the output of which is connected to another input of the circuit And 15, and the inverter 17, through which the circuit And 15 is connected to the control input of the key 12, in addition, the output of the circuit And 15 is connected to the control input of the amplitude-time converter 12 and the control input of the key 4.

In the time diagrams of FIG. 2 is indicated: in, 13 - voltage of the interference signal at the input of the pulse shaper 13; out 13 - pulses at the input of the shaper 13; out 14 - pulses at the input of the adjustable delay circuit 14; out 15 - pulses at the output of the circuit `` And ''15;'' Start '' - they ..... start pulses, which are measured; o, 16 - pulses at the output of the trigger 16; and ₇ is the voltage across the collector resistor 7, which is equal to the sum of the dressings of the interference signal and the pulse voltage in the base circuit of the transistor 6; Vkh, 11 - pulse voltage at the measuring input of the amplitude-time Converter 11.

The device operates as follows.

The input of the pulse shaper 13 'is supplied with the voltage of the interfering signal or an alternating voltage, the frequency of which is equal to the frequency of the interfering signal ₍ input 13). The pulse shaper 13. generates pulses of the required duration at the moment the input voltage crosses the zero value, which are fed to the circuit adjustable delay 14 (input 13). Before starting measurements in the adjustable delay circuit 14, a pulse delay is selected so that a pulse appears at its output when the interference voltage is least changed over time entire pulse duration (O. 14). Delayed pulses are applied to a first input of AND gate 15, but they do not pass therethrough.

When the pulse `` start '' ¹ trigger 16 is transferred to the state "1" and the output appears. Voltage that is supplied to the second input of the circuit And 15. The voltage at the second input of the circuit And 15 is present until through it There will not be an impulse from the first and out. fifteen)"

From the output of the circuit, it drops into pulse switch 4. At the output of its input (output 16

And 15 pulse, post-current source 2, a current pulse is formed on a pulsed current source, which is supplied via communication line 8 to the emitter of transistor 6.

At the base of transistor 6, a current pulse appears, which is fed through communication line 8 to a collector resistor 7. However, in addition to the current pulse from the base of the transistor, an interference voltage is induced on this resistor, which is summed with this pulse (and ₇ ).

The total voltage from the collector resistor 7 is fed through an amplifier to a capacitor 10, which together with the key 12 extracts an impulse proportional to the base current of the transistor 6 from the total voltage. Since the voltage of the interference signal practically does not change at the time of the pulse, there is no distortion of the flat peak of the pulse ( input 11), which provides high accuracy of measuring the static current transfer coefficient of transistors during remote measurements under the influence of interference with the frequency of the supply test network equipment.

Claims (3)

1. Author's certificate of the USSR 504990, cl. G 01 R 31/26, 1976. 2. Authors certificate of the USSR 387305., cl. G 01 R 31/26, 1973. 0 3. Authors certificate of the USSR 548814, cl. G 01 R 31/26, 1977 (prototype). ur /