SU748288A1 - Meter of four-pole network transient characteristic - Google Patents

Description

The invention relates to a measurement technique and can be used to measure the transient characteristics of semiconductor devices, amplifiers, sensors (inductive and capacitive), and the like. A device is known for capturing the transient characteristics of four-semifixes, comprising a p-pulse generator and an oscillographic display device of characteristic 1. Disadvantages of the device - low speed and low sensitivity. A transient response meter is also known, which contains a test signal generator, a measurement and indication circuit, and a quadrupole 2 under test. The test signal generator includes a master oscillator, a linear-varying voltage generator, a valve, a trigger, and a pulse shaper increasing over time. The drawbacks of the device are significant in the measurement error of the transient response and low resolution. The purpose of the invention is to improve the measurement accuracy. The goal is achieved by the fact that a code generator, an analog time converter, a selector and are entered into the meter, the contents of the clock generator, the test signal generator and the recorder. the counter, while the code generator Bxoja is connected to the output of the clock generator and to the input of the test signal generator, the first output of which is connected to one of the input terminals, its second output is connected to one I9 of the selector inputs, the second input of which is connected via the analog-time converter another input terminal, and the output of the selector through the counter is connected to the inputs of the recorder, the installation inputs of which are connected to the installation input of the test signal generator and the output of the code generator, The test signal shaper is made in the form of a time interval shaper, a counter, a selector and a quartz oscillator, while one of the inputs of the time shaper is connected via a counter with the output of the selector, the first input of which is connected to the output of the time interval shaper, and its second input the output of the quartz genre o1c5a The drawing shows the structure of the meter. The meter contains a tact generator 1 shaper 2 codes, shaper 3 test signal test quadrupole 4, analog-to-digital converter 5 of instantaneous value, .registrator 6, quartz generator 7 counting pulses, selector 8 / counter 9, shaper 10 time intervals, analog time converter 11, selector 12, counter 13, input terminals 14 and 15. .. Izieritel works as a slaughter at 1 ° 6b at a time. At the command of the clock generator 1, the shaper 2 generates a code N, which is entered into the counter 9 and the recorder 6. At the same time, the generator signal 1 opens the temporary rotates at the output of the shaper 10, which are applied to the tested quadripole 4 and the selector 8. In this case, the selector 8 opens and when it is cut to the input of counter 9, generator 7 pulses begin to arrive at a frequency determined by quartz, which is part of generator 7. The generator 7 impulses are fed to the input of counter 9 to its moment of full ing, and Anet is equal to the difference AN NMOKC where N, is the maximum code that forms,. stored in the counter 9 and determined by the number of its ra: health. ; At the time ty of the complete filling of the counter 9, the latter generates a signal that closes the temporary gate at the exit of the driver 10. At the same time, the selector 8 is locked and the pulses of the generator 7 are stopped at the input of the counter 9. At the output of the driver 10, a test signal is generated whose amplitude is constant, and dyitya os In reverse 6 prbpo1; code N entered at the command of geyatort 1 from imager 2 into counter 9. The test signal is fed to the input of test quadripole 4, the output of which is formed (31 tklyk as a transient characteristic. The value of the response proportional to the duration of the test signal and point in time i by the frequency properties of the test circuit 6 four-field; 4). The response from the output of the quadrupole 4 is fed to the B1 output of the converter 11. At the upstream of the converter 11, a time interval is formed, the proportional zheniyu at its input at the moment

Claims (2)

748288 t4. The time interval from the output of the converter 11 is fed to the input of the selector 12, opening it for passing the pulses of the generator 7 to the input of the counter 13. At the output of the counter 13, an AND code is generated that is proportional to the voltage at the output of the quadrupole 4 at time t, which is entered into the recorder 6. According to the next generator 1 signal, a new code Nj is generated at the output of the imaging unit 2. Then, in a similar manner, at t t, a new point of the transient characteristic of the tested quadrupole is fixed, corresponding to the test signal of a different duration. Thus, the program laid | in the former 2, the measurement of the entire transient characteristic of the tested quadripole was carried out. If necessary, multiple measurement of the transient response can be made with subsequent processing of the results obtained. At the end of the measurement of the transient response, two arrays of numbers are formed in the memory of the recorder. One array corresponds to the time stamps, the second - to the points of the transient response. These arrays could be displayed either digitally, or on a television display device, or entered into a computer for further processing. The measurement errors depend on the accuracy of the formation of the test signal 6 in duration and are determined by the choice of the frequency of the quartz oscillator. Claim 1. A transient response meter and a quadrupole comprising; A clock generator, an irgtatelifier, a signal and a recorder, differing in that, in order to improve measurement accuracy, a shaper, an analog-time converter, a selector and a counter are entered into it, the input of the imaging unit is connected to the output of the clock generator and to the input of the imaging unit of the test signal, the first output of which is connected to one of the input terminals, and its second output is connected to one of the selector moves, the second input of which is connected to another input terminal through an analog-time converter, and the output of the selector is connected to the recorder's inputs through a counter, the installation inputs of which are connected to the installation input Former of the test signal and with the outputs of the driver of the codes. 2. The meter according to claim 1, characterized in that the test signal generator is made in the form of a time interval generator, a counter, a selector and a crystal oscillator, while one of the inputs of the time interval former is connected via a counter from the selector, the first exit of which is connected to shaper output time intervals, and its second input is connected to the output of a quartz oscillator. . Sources of information taken into account in the examination 1.Shkurin G.P. Handbook of electrical and radio measuring devices. Radio measuring devices. M., Military Publishing, 1960, p. 527. 2. Authors certificate of the USSR 378777, cl. G 01 R 29/02, 1970 (prototype).