SU373659A1 - the USSR - Google Patents

Description

This invention relates to the field of radio metering technology.

Known modulometer containing sequentially connected linear and peak detectors, an integrating circuit and the indicator device.

However, the known modlometer has a low measurement accuracy, due to the use of an electromechanical indicator instrument and subjective operator errors, and the duration of the measurement process.

In order to increase the accuracy and reduce the measurement time in the proposed modlometer, the outputs of the integrating circuit and the peak detector are connected via keys, the control inputs of which are connected to the reference pulse generator, to the inputs of the integrator, the output of which is connected to a digital time meter.

The drawing is a block diagram of the proposed device.

The modlometer contains serially connected linear and peak detectors 1 and 2, respectively, an integrating circuit 5, a write key 4, a read key 5, a reference pulse generator 6, an integrator 7 and a digital meter of 8 time intervals. Integrated circuit 3 is connected to the second output of the linear detector, the output of the latest one via the read key 5 is connected to one input of the integrator 7. The output of the peak detector 2 via the write key 4 is connected to another input of the integrator 7. The control inputs of the write key 4 and the read key 5 are connected to the reference pulse generator 6, and the output of the integrator 7 is connected to a digital meter of 8 time intervals.

Modulometer works as follows.

A high-frequency modulated signal, whose modulation coefficient is to be measured, is fed to the input of a linear detector (which converts it into a pulsating voltage). The constant component of this voltage is proportional to the carrier, and variable to the amplitude of the envelope of the high-frequency signal. The pulsating voltage is applied to the integrating circuit 3 and the peak detector 2. The integrating circuit allocates a constant component (/, - ", and a constant voltage is generated at the output of the peak detector 2, proportional to the amplitude of the envelope. Both of these voltages flow through the keys 4 and 5 to the write and read windings, respectively, of the integrator 7, made on a magnetic element with a rectangular hysteresis loop, the duration of the output impulse of which is determined by the expression where m3 is the duration of the rectangular video impulse f / 3 is the square of the video recording impulse f / c is the amplitude of the video of the square reading impulse Wa and We is the number of turns of the writing and reading winding, respectively, the reference pulse generator 6 generates a recording pulse with a duration of 3 K, which opens the recording key 4 As a result, a video impulse with an amplitude of f / m and a duration of T3 is fed to the winding of the recording of the integrator 7, under the action of which the core of the magnetic element is re-magnetized into some intermediate state. As soon as the recording process is completed, the reference pulse generator 6 generates a read pulse of the duration ts t Vmax, under the action of which the read key 5 is opened, and a video pulse of amplitude and "" is fed to the read winding of the integrator 7. As a result of this pulse, the core of the magnetic element returns to its original state, producing a rectangular video impulse with the duration of Yours at the integrator output. Since and f / e f / ,, the extrusion (1) transforms into the following:

WoT .. ,,. Twa. (t.) „(1) where t is the measured modulation depth coefficient. Thus, the two constant voltages from the outputs of the detectors are transformed into a time interval proportional to the ratio of these voltages, i.e. the modulation depth factor, the latter then measured by a digital meter of 8 time intervals. Since the coefficient K. (ts) depends on the recording pulse duration tgz, the reference pulse generator 6 can provide for the possibility of changing the pulse width of the pre-calibration recording modulometer, with which you can get a count on the digital meter 8 time intervals directly in percent. The subject of the invention is a modlometer comprising linear and peak detectors connected in series, as well as an integrating circuit connected to the second output of the linear detector, characterized in that, in order to improve accuracy and shorten the measurement time, the outputs of the integrating circuit and peak detector are connected via switches controlling the inputs of which are connected to the reference pulse generator, to the inputs of the integrator, the output of which is connected to a digital meter of time intervals.