SU900292A1 - Device for radio element classification - Google Patents

Description

(54) DEVICE FOR CLASSIFICATION OF RADIO ELEMENTS

I

The invention relates to instrumentation engineering and can be used in the production of radioelements when they are classified into groups.

It is especially expedient to use a device in those cases when an electrical signal, proportional to the measured parameter of the radio element, contains a random component, for example, when sorting (classifying) semiconductor devices by impulse parameters, quality factor, etc.

A device for grading semiconductor devices is known which contains emitter current sources and a collector voltage, a memory element, a measuring current generator, a key, a threshold device, a time interval generator, a source of voltage leg supports, and a reference voltage source. wives connected to one

from the generator outputs of the measuring current, one output of the memory element is connected to the output of the emitter current source, the other to the generator and measuring current directly and via a switch to the terminal for connecting the emitter of the test device and one of the terminals of the threshold device, the starting input of which is connected to one of the generator outputs is time interval, the other output of which is connected to the control input of the key and the inputs of the current source of the emitter and the collector voltage, the test point of which is connected to the output element n with the terminal for connecting the base of the device under test, and the terminal for connecting the collector is connected: to the source of the collector voltage

 The disadvantage of this device is the accuracy of sorting into groups.

Claims (3)

It is also known a device for rejecting the varicaps by Q factor, comprising an oscillating circuit, an inaccurate bias voltage, a high-frequency signal generator, an amplifier, a recording unit, a control unit, an extremum recovery unit, a peak detector, a switch, a computing unit, and a source of alternating voltage 2 , The disadvantage of such a device is the low accuracy of the classification. A device is known for grading semiconductor devices by impulse parameters containing a duration converter. mpulsa in amplitude converters decline in ca momentum amplitude pulse and the amplitude kvaliselektory, the decoder having inputs connected to the outputs of the amplitude kvaziselektorov and yield Cpd nen a base resistor and a switch indicator Z. However, the known device possessing a lower classification certainty. The purpose of the invention is to increase the reliability of the classification of radio elements. The goal is achieved by the fact that the device for classifying radio elements, comprising a recording unit, a converter, the first input of which is connected to the first output of the control unit, the second inputs to the outputs of the test radio element, the output to the first inputs null-organs, direct and inverse outputs of each of which are connected to the first inputs of the decoder, the first input - with the corresponding output of the source of reference voltages, a trigger, n left and second elements OR, pulse generator, first and second elements AND and counters, the first inputs of which are connected to the first trigger input and the second output of the control unit, the outputs through the corresponding first elements AND to the inputs of the second element IL11 and the inputs of the registration unit, the second inputs - with the outputs of the first OR elements, the first inputs of which are connected to the corresponding outputs of the decoder, the second inputs - with the output of the second element AND, connected by the first input to the output of the pulse generator, the second input with the first input trigger trigger, the second output of which is connected to the second input of the decoder, the second input to the output of the second OR element, the third input to the third output of the control unit connected to the input from the registration unit. The drawing shows a block diagram of the device. The device contains a control unit 1, a converter 2, a pulse generator 3, a trigger 4, a registration unit 5, null-bodies 6 "1-6-, a decoder 7, the first elements or, counters, the first elements and the second element OR II,. the second element is And 12, the source of 13 reference voltages, the tested radio element 14. In the initial state, the counters reset the zero state of the signal from the control unit to the control unit. The trigger 4 is in a state in which its output signal prohibits the arrival of pulses from the generator 3 through the AND 12 element at the inputs of the OR elements. From another output of trigger 4, the resolving potential is fed to the input of the decoder 7. There are no signals at the information outputs of the null organs. At the outputs of the source 13 of the reference voltages, the onopmje signals act. With the arrival of the radio element I4 under test, the measuring positions of the signal from control unit 1 convert the parameter of element 14 into an electrical signal. This signal is fed to the inputs of null organs, to the other inputs of which reference voltages are supplied for which the tested radioelements 14 are classified. When any reference voltage level is exceeded, the output of the converter 2 is triggered by the corresponding null organ. The signals from the outputs of the null organs come to the input of the decoder 7. The decoder implements the following functions. decoder; P, Pj and Pj - the decoder input signals; To - the signal coming from the input of the trigger 4. With the outputs of the decoder 7 signals are received through the elements OR to the counting inputs of the respective counters). The conversion of a radio element parameter to an electrical signal is performed several times. The number of transformations is determined by control block 1. Corresponding to the number of transformations, signals appear at the outputs of the decoder 7. To learn that the output of the converter 2 will contain a random signal (random) during the conversion of one parameter of the radio element 14, the signals will be input to the counters from different outputs of the decoder 7. Counters summed these signals Simpuls). After the end of the transformation of the parameter into an electrical signal, the control unit outputs a signal to the input of three hera 4, setting it to another state. In this case, the trigger produces a inhibitory potential, which is fed to the input of the decoder 7 and the enabling signal, arrives at the input of the element AND 12. After this, the pulses from the generator 3 through the element 12 and the elements OR and arrive at the counting inputs of the counters that sum these pulses . Until then, the counters recorded the number of pulses received from the outputs of the decoder 7. The first one that overflowed was the counter in which a greater number of pulses from the decoder 7 were recorded. If any of the counters overflowed, the output of the corresponding element turned on. This pulse arrives at the inputs of the registration unit 5 and the element OR. From the output of the element OR 11, the pulse arrives at the input of the trigger 4. The trigger 4 is set to another state by prohibiting the arrival of pulses from the generator 3 to the inputs of the counters. The signal from the output of the recording unit 5 is fed to the input of the control unit, signaling how the radio element group is defined. The registration unit 5 registers the result of the classification, after which the circuit is ready to receive the next radio element. The belonging of a radio element to one or another classification group is determined by the highest number found in the counters. The more the number of parameter transformations in the test will be done, the more precisely it will be determined which band the radio element under test belongs to. It is especially effective to use the device with large amounts of non-groups, which differ slightly in the value of the parameter from each other and when there is a random component in the useful signal. Thus, the introduction of counters, elements 8, 10, 11, and 12 increases the accuracy of classification in terms of interference and noise on the useful signal of the parameter being measured. Claims An apparatus for classifying radio elements, comprising a registration unit, a converter, the first input of which is connected to the first output of the control unit, the second inputs to the outputs of the test radio element, the output to the first inputs of the null direct and inverse outputs of each of which are connected to the first inputs of the decoder, the first input to the corresponding output of the source of reference voltages, characterized in that, in order to increase the reliability of the classification, a trigger is entered into the device, the first and second the first OR second elements, the pulse generator, the first and second AND elements and counters, the first inputs of which are connected to the first trigger input and the second output of the control unit, the outputs through the corresponding first AND elements to the inputs of the second OR element and the inputs of the registration unit, the second inputs to the outputs the first elements SHS, the first inputs of which are connected to the corresponding outputs of the decoder, the second inputs - with the output of the second element And connected by the first input to the output of the pulse generator, the second input to the first output of the trigger the second output of which is connected to the second input of the decoder, the second input to the output of the second OR element, the third input to the third output of the control unit connected to the output of the registration unit. 79002928 Information sources, 2. USSR author's certificate taken into account in examination No. 613268, cl. G 01 R 27/26, 1978. , 3. USSR author's certificate I. USSR author's certificate ABSQ-i Cl G, P1 p T1 / 7A, see 667918 cl. G 01 R 31/26,, 979. , (prototype)