SU796774A1 - Amplitude-frequency characteristic meter - Google Patents

Description

(54) AMPLIFIER-FREQUENCY METER CHARACTERISTICS

The invention relates to a measurement technique and is intended to measure the amplitude-frequency characteristics of active and passive four poles. A meter of amplitude-frequency characteristics is known, comprising a vertical deviation channel, a horizontal deviation channel, consisting of a frequency-dependent circuit, interchangeable frequency setting units, a symmetric DC amplifier connected to a deflection system, a control voltage generator, connected with the input of the oscillating frequency generator, as well as two threshold elements, a static trigger and a key 1. The disadvantage of this device is the unevenness of the two Cutting sun on the screen in a horizontal direction and large dynamic errors. Closest to the present invention is an amplitude-frequent characteristic meter consisting of a vertical deflection channel, wuxi. horizontal constant current voltage, a cathode-ray tube with a deflection system connected to the outputs of a vertical deflection channel and a horizontal deflection amplifier, a swept-frequency generator, an approximation unit, and a linear-varying voltage generator, the output voltage of which simultaneously acts through an approximation unit for the oscillating frequency generator and, through a direct current amplifier, horizontal deflection to the horizontal deflection system of the elec- ronnoluchevoy tube ty. A disadvantage of this device is the impossibility of obtaining the necessary approximation of the required law of frequency variation at different operating ranges and, as a consequence, large dynamic errors in measuring the amplitude-frequency characteristics. inside working ranges. The purpose of the invention is to improve the measurement accuracy by reducing the dynamic measurement errors within each operating frequency range. The goal is achieved by the fact that the meter has amplitude-frequency characteristics that contain a vertical deflection channel, a horizontal deflection channel, an electron-beam tube with a deflection system connected to the outputs of the vertical and horizontal path channels, and subsequently connected control voltage generator and sweep frequency generator , the output connected to the input of the horizontal deviation channel, the output of the horizontal deviation channel is connected to the input of the control voltage generator cut block amplitude discriminators. The block of amplitude discriminators consists of n parallel channels, each of which contains a series-connected threshold element and a key, the outputs of which are connected to the corresponding inputs of the time of the driving circuits of the control voltage generator. The drawing shows a functional block diagram of the meter amplitude-frequency characteristics. The amplitude-frequency characteristics meter includes a vertical deviation channel 1 and a horizontal deviation channel 2 connected to a cathode ray tube 3, a control voltage generator 4 connected to a sweep frequency generator 5 which is connected to the output of a horizontal deviation channel 2. The output of channel 2 is horizontal deviation through a block 6 of amplitude discriminators connected to the inputs of the time of the driving circuits of the generator 4 of the control voltage. Channel 2 of the horizontal deviation consists of series-connected frequency-dependent circuit 7, unit 8 for setting operating frequency ranges, and amplifier 9 for direct current. Block 6 amplitude discriminators consists of n parallel channels, each of which consists of series-connected threshold elements 10 (11-, 12) and keys 13 (14,15). The device works as follows. When the supply voltage is applied and the meter is switched to the Measurement mode, the generator 4 of the control voltage has an output voltage corresponding to the lowest frequency of the operating frequency range. This voltage affects the generator 5, from the output of which the signal with the lowest frequency of the working range through the device under test (not shown in the drawing) is fed to the input of the vertical deflection channel 1 and deflects the beam of the cathode ray tube 3 vertically. At the same time, the signal from oscillator 5 is fed to the channel.2 input. Horizontal deviation In channel 2, the horizontal deviated frequency of the input signal is converted into a horizontal voltage, proportional to the logarithm of the frequency of the input signal. At the same time, with different replaceable blocks 8 for setting the working frequency ranges, the accuracy of matching the output voltages of amplifier 9 (the frequency scale for various operating ranges) to the frequencies of the input signals is ensured. The simultaneous operation of channels 1 and 2 of vertical and horizontal deflection shifts the beam of the cathode ray tube 3 to the vertical, in a position proportional to the level of the input signal, and horizontally proportional to the logarithm of the input signal frequency. At the considered moment (start of operation) threshold elements 10-12 are turned on under the influence of the output voltage of amplifier 9, all the time the master circuits 16, 17 and 18 are connected to generator 4 with the help of keys 13, as a result of which generator 4 has the greatest time constant and change its output voltage is a linear law with a speed determined by T tQ + C + ... T. + LVI. The voltage of the generator 4 varies with the oscillating frequency generator, increasing its frequency. At the first calculated frequency and, therefore, at a certain output voltage of amplifier 9, the threshold element 12 is turned off, the key 15 turns off the time of the driver circuit 18 from the generator, and in this case the rate of change of the output voltage of generator 4 is determined by the constant time T CQ + I ; + ... + T, and this speed is greater compared to the first section. At the second design frequency, the threshold element 11 is turned off, the key 14 turns off the timing circuit 17 from the generator 4 and the rate of change of the output voltage of the generator 4 is determined by the constant time t CQ ,, and this speed is greater than in the previous section. At the fifth calculated frequency, the threshold element 10 is turned off, the key 13 disconnects the circuit 16 from the generator 4, and the rate of change of the output voltage of the generator 4 is determined only by the initial time constant. In this case, the rate of change of the output voltage of the generator 4 is greatest. In the reverse mode at the same frequencies, at which the threshold elements 12, 11 and 10 are disconnected and, as a result, the time of the master circuits is turned off, the reverse occurs - the connection of the threshold element 10, 11 and 12 and the corresponding master circuits. Thus, on all ranges of operating frequencies, we obtain the approximation

Claims (2)

Claim 1. The amplitude-frequency characteristics meter containing a vertical deflection channel, a horizontal deflection channel, a cathode ray tube with a deflection system, ed connected to the outputs of the vertical and horizontal deflection channels, and a control voltage generator and a sweep frequency generator connected in series to the horizontal channel input deviations, characterized in that, in order to improve the accuracy of measurements by reducing dynamic errors within each d operating frequency range, the output of the horizontal deviation channel is connected to the input of the control voltage generator through the block of amplitude discriminators. 2. The meter pop. 1, characterized in that the / block of amplitude discriminators consists of η parallel channels, each of which contains a threshold element and a key connected in series, the outputs of which are connected to the corresponding inputs of the time-emitting ι circuits of the control voltage generator.