SU998979A1 - Four-terminal network amplitude frequency characteristic meter - Google Patents

Description

This invention relates to a measurement technique and may be used. It is designed to measure ginplate frequency characteristics / frequency response of electroacoustic transducers, telephony devices, tape recorders, low-frequency path of broadcasting and television equipment.

The known frequency response meter for controlling quadrupoles contains a vertical deflection channel, a constant horizontal deflection amplifier T1eck, a sweeping frequency generator, an electron-beam tube (CRT) with a horizontal and vertical deflection system, an approximation device, and a control voltage generator, whose output voltage is simultaneously acting through the apertured device to the oscillating frequency generator and through the DC amplifier to the horizontal deflection system E LT 1.

The disadvantages of this meter are the inability to work in several bands of working frequencies with full use of the width of the CRT screen and while maintaining logarithmic. which law is the hour-g scale

It is horizontal and the accuracy of the frequency response measurement is low due to the temperature and time instability of the dependence of the frequency of the high frequency generator on the control of the voltage.

The closest technical solution to the invention is an frequency response meter comprising a vertical deflection channel, a horizontal deflection channel consisting of a frequency-dependent circuit, a unit for setting operating frequency ranges, and a DC amplifier, a CRT with

15 by a deflection system connected to the vertical and horizontal deflection cannulas, an audio frequency generator, a control code, a forward and reverse reverse block

20 strokes, the unit for setting the analysis time, the unit of automatic generation of the law of frequency variation, the block of reversible counters 2.

The disadvantage of the famous meter

25 is a low measurement accuracy due to temperature and time imbalances of the frequency conversion of the ER voltage in the horizontal lumen channel, and also insufficient

Claims (2)

30 manufacturability and complexity of the implementation of the horizontal deflection channel. The purpose of the invention is to reduce the error in measuring the frequency response by increasing the temperature and time stability, as well as the accuracy of the frequency conversion in the horizontal deviation channel. The goal is achieved by the fact that from the frequency response meter, which contains a vertical deflection channel, an input connected to an emergency terminal V, a horizontal deflection channel, two outputs of which are connected to the corresponding inputs of a forward and reverse stroke and a CRT with a deviation The two second inputs of which are connected to the corresponding outputs of the vertical deviation channel, and the series of analysis time units connected in series, the law of frequency variation shaping unit and the block of reversible counters that control inputs They are connected to the corresponding inputs of the task block for analysis time and to the outputs of the reverse and reverse strokes block, the outputs of the codes of the reversible counter block are connected to the corresponding1 4 and inputs of the controlled generator frequency, the output connected to the output terminal X, the outputs of the reversible counter block codes connected to the input of a horizontal deviation channel, the third output of which is connected to the control input of the frequency law formation unit. At the same time, the horizontal deviation channel is made in the form of serially connected logarithmic D / A converter, a zero setting unit at the center frequency of the working frequency range, a gain scaling unit and a dc amplifier. A code-controlled generator, j, provides the conversion of the current value of the code of the reversible counters to the frequency of the test signal with an error not exceeding when the time and temperature stability of the conversion is high. A logarithmic D / A converter converts the current value of the code of reversible counters and, therefore, the frequency into an analog voltage proportional to the logarithm of the frequency with an error not exceeding 0.1-0.2% with high temperature and time stability. The zero setting block at the average frequency of the working frequency range and the gain gain scaling block provides for measuring the frequency response at the appropriate working frequency ranges (for example, 200-5000 Hz; 70-3000 Hz; 20-20000 Hz, etc.) using the entire CRT screen width . The drawing shows a block diagram of the meter. The meter contains a vertical deviation channel 1, a logarithmic digital-to-analog converter 2, a CRT with a deflecting system 3, a zero setting block 4 on the center frequency of the operating frequency range, a gain scaling block 5, a horizontal deflection current amplifier, block 7 reverse forward and reverse run, | block 8, set analysis analysis, block} 9 to form the law of frequency measurement, block reverse meters 10, and generator 11, control code. The device works in the same way. In the meter operation mode, at a fixed frequency, in block 8 of the analysis time, pulses are generated, passing through block 9 forming the law of frequency change to the input of reversible counter block 10. In the reversible counter block, 10 pulses arriving at its input are converted at the output of the block reversible counters 10 in binary-decimal code. The binary-decimal parallel code on the bus of codes is fed to the input of the generator 11 and to the input of the logarithmic digital-to-analog converter 2. In generator 11, the binary-decimal A code with high accuracy (for example, a GZ-110 generator with an error not exceeding is converted into the frequency of the output signal, which is assigned to input X. In a logarithmic digital-to-analog converter, sequentially or simultaneously a binary-decimal code corresponding to the frequency at the output of the generator 11 is converted Thus, the output of the logarithmic digital-to-analog converter 2 has a voltage proportional to the logarithm of the frequency of the signal at the output of the generator 11. Bl The 4 setting zero at the mid frequency of the operating frequency range and the gain scaling block 5 are interchangeable blocks for the Xc frequency range. The zero-setting unit 4 at the mid-frequency of the operating frequency range converts the unipolar output voltage of the logarithmic D / A converter 2 into a symmetrical two-pole voltage. The change in the polarity of the output voltage of the frequency setting unit occurs at the log-average frequency of the range, defined by the ratio, where Рр, is the average log frequency of the operating range; the frequency of the working range is minimal; the maximum frequency of the working range. The use of the entire CRT screen width in all frequency ranges is provided by a gain-scaling unit 5, which changes the transmission coefficient, respectively, for each frequency range. The signal from the output of block 5, the scaling of the gain factor through the amplifier 6 of the direct current, arrives at the deflection system of the CRT 3 and shifts the beam horizontally by a magnitude proportional to the log frequency of the generator output signal .11. From the output of the generator 11, the signal through the quadrupole used (shown in the drawing Vie shown) is fed to the input V of the vertical deviation channel 1 and turns off the CRT beam 3 vertically. The synchronous operation of the channel of vertical deflection 1, the reversible counter 10 unit, the logarithmic D / A converter 2, the zero setting unit 4, the scaling unit 5, and the direct current 6 forces ensures that the CRT beam 3 vertically proportional to the level Signal at the entrance | , and horizontally - proportional to the logarithm of the frequency of the test signal. When the oscillator 11 frequency changes from F to Fa, the CRT 3 displays the frequency response. Claim 1. A quadrupole amplitude-frequency characteristic meter comprising a vertical deflection channel, an input connected to an input terminal f, a horizontal deflection channel, two outputs which are connected to the corresponding inputs of the forward and reverse strokes and an electron-beam tube with a deflecting system, two second inputs of which are connected to the corresponding outputs of the vertical deviation channel, and the series-connected block for specifying the analysis time, the law shaping unit frequency and reversible counter block, the control inputs of which are connected to the corresponding inputs of the analysis time block and to the outputs of the reverse and reverse moves block, and the outputs of the reversible counter block codes are connected to the corresponding inputs of the controlled frequency generator, output connected to the output clamp X, characterized in that, in order to reduce measurement errors by increasing temperature and time stability, as well as the accuracy of the frequency conversion in the channel, deflection unit outputs codes reversible counters are connected to the horizontal deflection input channel whose third output is connected to a control input of the frequency measuring unit forming law. 2. The meter according to claim 1, excluding the fact that the horizontal deviation channel is performed as a serially connected logarithmic D / A converter, a zero setting unit at the center frequency of the operating frequency range, a gain scaling unit and dc amplifier. Sources of information taken into account in the examination 1. Measurements of amplitude-frequency characteristics of X 1-36. Technical description. Kaunas. 1975. 2. USSR author's certificate for application number 2941153 / 18-21, 19.06.80 (prototype).