SU828854A1 - Apparatus for measuring frequency deviation - Google Patents

Abstract

A DEVICE FOR MEASURING FREQUENCY DEVIATION, containing a sequentially-connected mixer, a low-pass filter and the first frequency meter, as well as a local oscillator, the output of which is connected to the first input of the mixer, the second input of which is connected to the input of the second frequency meter, and an indicator different from that "in order to improve the measurement accuracy 5a, a series-connected electron-counting frequency meter, a subtraction unit and a pre-deg are entered; A code-voltage generator, the output of which is connected to the input of the local oscillator, the output of the latter is connected to the input of the electron-counting frequency meter, while the indicator input is connected to the output of the subtractor.

Description

The device relates to a radio measuring technique. A device for measuring the frequency deviation, consisting of its successively connected input device, mixer, amplitude limiter, frequency detector, low frequency amplifiers and peak volts is known, the tunable heterodyne G1 is connected to the second input of the meter, the tuner has a disadvantage It does not have a high accuracy of measurements, depending on the class of peakness of the peak voltmeter and the calibration error of this device. A serially connected single oscillator, a mixer, a low-pass filter and a frequency meter, the serially connected intermediate frequency monochromatic signal extraction unit and the second frequency meter C 2 being connected to the mixer output. The disadvantage of this device is low measurement accuracy. . This goal is achieved by including a low frequency filter and a first frequency meter as well as a local oscillator, the output of which is connected to the first input of the mixer, the second input of which is connected to the input of the second frequency meter, and the indicator series-connected electron-counting frequency counter, subtraction unit and converter code - voltage, the output of which is connected to the input of the local oscillator, the output of the latter is connected to the input of the electron-counting hour otomera, the input indicator connected to the output of the subtractor. The drawing shows a block diagram of the device. The device contains a mixer 1 low-pass filter 2 (LPF), a first frequency meter 3 local oscillator, an electron ™ but a counting frequency meter 5 (ESCh), a subtraction unit 6, a code-voltage converter 7 (fIKH), an ESCH 8 and indicator 9. The device operates as follows. The input frequency-modulated (FM) signal is transferred to the intermediate frequency by the mixer 1 and the local oscillator, filtered in the low-pass filter 2 and fed to the frequency meter 3, the N values of which depend on the magnitude of the frequency deviation and intermediate frequencies s. The average purity of the input FM signal f and the LO frequency fp are measured at ESCh 8 and 5, respectively. In order for the FM not to be affected by the ESCH 8, the counting time is set much longer than the period of the modulating signal. In addition, for normal operation of the device, DSS 5 and 8 are set to memorize the measurement result C of the ESCh 5 and 8 outputs, codes corresponding to the measured frequencies are fed to the subtraction unit 6, where the difference code is formed, corresponding to the intermediate frequency equal to - f. This code is fed to the indicator 9s from which the intermediate frequency value is read, and also to fIKH 7, where it is converted to a voltage proportional to the intermediate frequency. This voltage controls the frequency of the local oscillator 4. At an unstable center frequency of the FM signal, for example, when it is increased; the voltage at the output of the VCP 7 increases, resulting in an increase in the frequency of the local oscillator t, while the intermediate frequency will remain almost unchanged, which leads to an increase in the accuracy of measurement of the intermediate frequency, and the trace and the frequency deviation, since the latter is determined from the expression: intermediate frequency; The root of the oircsin N equation is the indication of the frequency meter 3 Since the operation of the device does not depend on the frequency of the modulating signal when the condition is met: the counting time of the ESCh 8 is much longer than the period of the modulating signal, it is suitable for measuring with any values of the frequency of modulating its signal. Thus, the execution of heteroin controlled and the introduction of an additional electron-counting frequency generator, a subtraction unit, an indication block and a code-voltage converter have expanded the range of modulating signals from the measured FM signals and the increase in signals. The accuracy of measurements was achieved by increasing the stability of the intermediate frequency.

Claims (1)

(5 * 0 DEVICE FOR MEASURING FREQUENCY DEVIATION, which contains a series / series mixer, a low-pass filter and the first often tomer, as well as a local oscillator whose output is connected to the first input of the mixer, the second input of which is connected to the input of the second frequency meter, and indicator, characterized in that. in order to improve the measurement accuracy, sequentially connected electronically counted frequency meter, a subtraction unit and a code-voltage converter, the output of which is connected to the input of the local oscillator, the output of the last connected with the input of an electronically counted frequency meter, while the input of the indicator is connected to the output of the subtraction unit.