SU1041966A1 - Device for measuring transistor current transmission efficiency - Google Patents

Abstract

A DEVICE FOR MEASURING THE TRANSISTOR CURRENT TRANSFER RATE, containing a reference source, voltage, controllable current regulator, connected by an output to a terminal for connecting the emitter of the transistor under test, and controlling the input to a control circuit, measuring operational amplifier,. in the negative feedback circuit of which the load unit is included, the integrator is connected to its output via an analog switch connected also to the control circuit, which is also due to the fact that, in order to expand the functional possibilities and improve the measurement accuracy, A switch, a voltage transformer into a current and a current follower, having three inputs and one output and consisting of an operational amplifier and a field-effect transistor, are introduced, the first input of the current repeater being a noninverting input. the amplifier, the second input - its inverting input, the third input and output - the rod of the field-effect transistor, the gate of which is connected to the output of the operational amplifier, in addition, the controlled current regulator is equipped with a second control input, which is connected to the control circuit, one of its own the inputs are connected to the output of a controlled current regulator, by another input; - to the terminal for connecting the base of the tested transistor and to the third input of the repeater S, and the output to the second current repeater, the input of which is connected to the input of the measuring operational amplifier and the output of the voltage to current converter connected to the integrator, is-i point the reference voltage is connected to the first input of the current follower and the corresponding output of the control circuit, and the terminal for connecting the collector of the test transistor is connected to the common pin.

Description

The invention relates to a measurement technique and can be used in measuring the current transfer ratio of transistors. A device is known. measuring the current transfer ratio of the transistor pa, containing an emitter current regulator, a collector voltage regulator, consisting of 1 ohmic ohm divider; reference voltage source, DC amplifier, voltage source, trigger, threshold circuit, variable gain amplifier, sawtooth generator, and integrator. The variable gain amplifier input is connected to the base of the tested transistor, and the output through the threshold circuit is connected to one trigger input, the other input of which is connected to the output of the emitter current stabilizer, and the trigger output is connected to the integrator and through the sawtooth generator a variable gain amplifier. The output of the integrator is connected to the measuring device and the ohmic divider of the stabilizer, the voltage of the collector 1. However, this device does not provide Measurement of the differential current transfer ratio of transistors in the small signal mode, and the transistors under test can only be switched on using a common base circuit. The known device is characterized by insufficient accuracy of measuring the base current, and, of course, the static current transfer ratio of the transistors due to the presence of a thermal reverse current collector is the base of the transistor under test and the input current of the measuring amplifier. In addition, this device requires the use of a complex trace. a collector voltage regulator, which leads to additional errors. A device is known for measuring the current transfer coefficient of transistors, which contains a source of collector voltage, a collector current meter and a base current, a retunable pulse generator and a measuring resistor connected via a shielded communication line to the base terminal test transistor, operational amplifier, in the negative feedback circuit of which a measuring resistor is connected, the connection point of which is shielded The communication line is connected to the inverting input of the operational amplifier, the non-inverting input of which is connected to the output of the adjustable pulse generator and to the line screen, which provides a measurement of the current transfer coefficient of the transistors connected to the common emitter circuit, The switchgear, which is switched on in a certain way, is provided with high; and the noise compensation at the remote control. 2 However, this device does not have sufficient power and does not provide a change in the differential current transfer coefficient of the transistors in the small signal mode. It is also known a device containing a dual current stabilizer connected to a terminal for connecting the collector of the test transistor and the inverting input of the first operational amplifier, to the inverting input of which the reference voltage source is connected, and its output is connected to the inverting input of the second operational amplifier and one of the output terminals loads, another pin of which is connected to the terminal for connecting the base of the tested transistor and to the non-inverting input of the second operational amplifier, output One of the outputs of the device, and also connected via a coupling capacitor to the input of the detecting operational amplifier, the output of which is another output of the device, the terminal for connecting the emitter of the test transistor connected to the common bus and differential current transfer coefficients of transistors h. However, such a device does not have sufficient accuracy, since it does not take into account the thermal reverse current and the input currents of the operational amplifiers. The closest technically proposed is a device for measuring the current transfer coefficient of transistors, a reference voltage source, a current regulator control connected to an output terminal for connecting the emitter of the test transistor, and a control input with a control circuit; an amplifier, in the negative feedback circuit of which a load block is included, and an integrator is connected to its output via an analog switch connected to the control circuit 4j. The disadvantages of this device are limited functional capabilities due to the fact that it does not provide measurement of the differential transmission coefficient in the small signal mode, and also JP high measurement accuracy, since it takes into account the reverse thermal current of the collector junction — the base of the tested transistor and input operational amplifiers .

The aim of the invention is to expand the functionality of the device and increase the accuracy of measurements.

The goal is achieved by the fact that the device for measuring the current transfer coefficient of the transistors, containing a voltage source, controlled by a current regulator connected to the output terminal of the test transistor, and the control input to the control circuit, the measuring operational amplifier, to the circuit the negative feedback of which is connected to the load block, and the integrator is connected to its output via an analog switch connected also to the control circuit, a switch is inserted, current to voltage diverter and current follower, have three inputs and one output and consist of an operational amplifier and a field-effect transistor, the first input of the current repeater is a non-inverting input of the operational amplifier, the second input is its inverting input, the third input and the output the transistor, the gate of which is connected to the output of the operational amplifier, in addition, the controlled current stabilizer is equipped with a second control input, which is connected to the control circuit, the switch is one of its moves to an outlet of the controllable current regulator, another input - to the terminal in IU of the test transistor for connecting the base and to the third input of the repeater; and the output to the second input of the current follower, the output of which is connected to the input of the measuring operational amplifier and to the output of the voltage to current converter connected to the integrator, the reference voltage source is connected to the first input of the current follower and the corresponding output of the control circuit, and the terminal to connect the collector of the test transistor connected to the common bus.

The drawing shows a block diagram of the proposed device.

The device contains a controlled current stabilizer 1, a voltage source 2, a measuring operational amplifier 3, the negative feedback circuit of which includes a load unit 4, an analog switch 5, an integrator 6, a voltage-to-voltage converter 7, a current follower 8 consisting of a field effect transistor 9 and an operational amplifier,

control circuit 11. The transistor 12 under test is connected to the corresponding terminals and is connected to the device via a three-wire Shielded Communication Line 13. This provides the ability to measure parameters during remote monitoring and increases the noise immunity of the device. The switch 14 transitions from one switching circuit of the test transistor 12 to-another.

The device works as follows.

The initial state is defined by the control circuit -li, in this case the analog switch 5 is open, the current regulator 1 5 and the voltage source 2 are turned off, and the test 1 "transistor 12 is de-energized.

When measuring the static current transfer ratio of the transistor 12 under test, the control circuit 11 forms the next sequence of control signals.

The signal from the first output of the control circuit 11 turns on the source 2 of the reference voltage, as a result of which, through the operational amplifier 10 and the field-effect transistor 9 of the current repeater 8, a stable voltage collector — the base of Itza — is established on the test transistor 12 (when the switch 14 is in position 15-16 - common base mode) or collector - emitter (when switch 14 is in position 15-17 mode with common emitter). At the same time, the reverse thermal current of the collector - base transition together with the input TOKeiMH operational amplifiers 10 and 3 is fed to the inverting input of the operational amplifier 3, covered by negative feedback through the measuring resistor of the load unit 4. So, as analog, switch 5 is open, then operational amplifier 3 is covered by additional negative feedback through serially connected analog switch 5, integrator 6 and voltage-to-current converter 7, as a result of which the input of operational amplifier 3 acting on inverting is taken off by converter 7 I-Voltage With this, the output of the device (measuring operational amplifier 3 sets a voltage equal to zero.

The signal from the second output of the Control circuit 11 closes the analog switch 5, as a result of which the additional negative feedback of the measuring operational amplifier 3 is broken and the voltage-to-current converter 7 stores a current value equal to the sum of the inverse thermal current and input currents of the operational amplifiers 10 and 3 Thus, the analog switch 5, the integrator 6 and the voltage-to-current converter 7 perform the current storage function.

The third signal from the output of the control circuit 11 includes, on the first control input, an emitter current stabilizer 1, the current pulse from which supplies a test transistor 12 connected to the emitter circuit when the switch 14 is in position 1516 according to a common base circuit . When the switch 14 is in position 15-17, the emitter current pulse triggers a voltage pulse on the base of the tested transistor 12, corresponding to the emitter current, i.e., through the operational amplifier 15 10 and the field-effect transistor 9 current repeater 8. The transistor 12 under test is switched on in a circuit with a common emitter. In both cases, the base current of the transistor proportional to 1 / (1 + + i2.ie) flows through the current repeater 8 and the measuring resistor of a block of 4 loads, the voltage pulse from which is removed at the output of the device.

When measuring the differential (11213 current transfer ratio of the test transistor 12 in the small signal mode, the control circuit 11 forms the following sequence of control signals.

The first signal from the output of the control circuit 11 35 includes the source 3 of the reference voltage, causing an action similar to that described.

The second signal (possibly together with the first one) from the output of the control circuit 11 produces switching on the first input of the controlled stabilizer 1; as a result, the voltage to current converter 7 takes a current equal to the sum of the static base current and the thermal current of the tested transistor and ; current operational amplifiers 10 and 3.

After the voltage device has reached the output voltage equal to zero, a third signal is generated at the output of the control circuit 11, as a result, the analog switch 5 closes and the voltage-to-current converter 7 stores the current value equal to the sum of these currents.

The fourth signal from the output of control circuit 1 includes, via a second input, a controlled current stabilizer 1, the increment of the current pulse from which is fed to the emitter circuit of the tested transistor 12. As a result, the increment of the base current of the transistor is proportional to the ionic value 1 / (1 +) The measuring resistor of the block 4 loads which is removed from the output of the device. .

The proposed device has in comparison with the known broader functionality, since it allows to measure both static and differential transmission coefficient.

In addition, the current memory circuit eliminates the effect on the result: measurements of thermal currents of transistors and input currents of a measuring operational amplifier, which is especially noticeable at large values of transistor current transfer coefficients and low emitter currents, i.e. at low base currents, and can introduce a measurement error of up to 10% or more. This makes it possible to significantly increase the accuracy of measurements without the high demands on the measuring operational amplifier.

The low input resistances of the device on the side of the base and emitter terminals of the test transistor allow a remote measurement of the parameters through a three-wire shielded communication line. 2i9 distance to 60 m, while the measurement time does not exceed 500 ISS. The limits of measurement of these parameters are from 0 to 1000 with a measurement accuracy of 0.2%.

Claims (1)

DEVICE FOR MEASURING TRANSISTOR CURRENT COEFFICIENT, containing a reference voltage source, controlled by a stabilizer.current connected by an output to a terminal for connecting the emitter of the tested transistor, and a control input - with a control circuit, a measuring operational amplifier, in the negative feedback circuit of which the load block is connected , and the integrator 'is connected to its output via an analog key, also connected to the control circuit, which is because, in order to expand the functional capabilities In order to improve the measurement accuracy, a switch, a voltage to current converter, and a current repeater having three inputs and one output and consisting of an operational amplifier and a field effect transistor are introduced into it, the non-inverting input being the first input of the current repeater. operational amplifier ,, the second input is its inverting input, the third input and output is the field transistor rod, the gate of which is connected to the output of the operational amplifier, in addition, the controlled current regulator is equipped with a second control input, which is connected q to the control circuit, the switch is one of its the inputs are connected to the output of the controlled current stabilizer, another input. - to the terminal for connecting the base of the transformer under test and to the third input of the current repeater, and the output - to the second input of the current repeater, exit which is connected to the input of the measuring operational amplifier and to the output of the voltage-to-current converter connected to the integrator by input, the reference point with the first input of the corresponding line, and the lecture terminal of the tested transistor is connected to the common bus. . 1.04.1 Qfifi ύ ι о о ι ι ен til voltage is connected by a current follower and the output of a control circuit for connecting to.