SU362249A1 - AUTOMATIC QUICKLY EFFICIENCY POWER METER - Google Patents

Description

one

The invention relates to the field of radio metering technology and can be used for researching, testing and controlling the operation of electronic circuits.

Automatic high-speed power meters are known, comprising a measuring amplifier with a control circuit and a detector, a source of exemplary signal level, a switching generator with switches, a readout device, and a reference scale reference circuit.

However, the known power meters due to low sensitivity do not allow measuring the power of weak signals acting at the input of sensitive electronic circuits, for example receiving circuits.

In order to expand the dynamic range of measured values while maintaining high accuracy of reading, a discrete attenuator with a control circuit was additionally introduced into the proposed automatic high-speed power meter, one of its inputs connected to the output source of the reference level, the second input through the control circuit The attenuator is connected to a switch.

The drawing shows the block diagram of the proposed power meter.

The proposed device contains a source / measured value U, an input switch 2, Their values and VQ, a controlled electronic system 3, a measuring amplifier 4, a detector of a measuring amplifier 5, a control circuit 6 controlled by a measuring amplifier, a time selector 7 (output switch), auxiliary node 8 (amplifier, remover, etc.), terminal reading device 9 (recorder, converter for input to ECM), constant level generator 10, electronic controlled attenuator 11, attenuator control circuit 12 ohm, the switching generator 13, the scheme 14 reference of the scale.

In the time interval determined by the switching generator 13 operating depending on the conditions in the standby or auto-oscillatory mode, an exemplary voltage is applied to the input of the controlled electronic system 3 through the corresponding switch 2. Passing the successively monitored system 3, the measuring amplifier 4, the detector 5 and the temporary selector 7, the signal of exemplary magnitude is fed to the input of the control circuit 6 by the amplifier (such as AGC, in the form of a comparison circuit or comparator).

The signal from the output of the control circuit P1Ya 6 in the form of a variable direct voltage falls on the control input of the measuring

amplifier 4 and sets its transmission coefficient, at which, when applying the reference voltage C / o, the pointer of the final reading device is deflected by a conventional unit. The time constant (memory) of the control circuit must be sufficient so that the value of the gain of the measuring amplifier does not change significantly until the next parcel of the sample signal arrives. The control circuit may be reset after each or several parcels Ux, the measured signal of the parcels Uy. passes sequentially through the source /, switch 2, electronic system 3, amplifier 4, detector 5, control circuit 6, selector 7, auxiliary node 8 and reading device 9, with the transmission coefficient of measuring amplifier 4 remaining equal to K until the next parcel of the reference voltage arrives married t / o. In the auxiliary node 8, it is possible to amplify it, expand it, if the measured signal is short, and bring it to the shape necessary for confident operation.

the final reading device, with preservation of information about the measured value.

The proposed device has a self-locking, a significant dynamic range (up to 60-80 dB, high speed and sensitivity.

Subject invention

An automatic high-speed power meter containing a measuring amplifier with its control circuit and detector, a source of exemplary signal level, a switching generator with switches, a readout device and a scale reference circuit, characterized in that in order to expand the dynamic range of measured values while maintaining high accuracy of reference , a discrete attenuator with a control circuit is additionally introduced into it, with one of its inputs connected to the source output of the reference level, the second input Through the control circuit is connected to the reading device, and the output of the attenuator is connected to the switch.