SU532834A1 - Device for recording attenuation and phase factors - Google Patents

Description

attenuator and phase shifters, respectively, the outputs of the measurement channel control circuits are connected to the recorder inputs connected to the control input with one clock generator output, the second output of which is connected to the control inputs of the switch sections, one of which connects the output of the common excitation generator to the inputs emitters, and the third output is connected to the setup inputs of the initial state of the measurement channel control circuits.

The drawing shows a block diagram of the device.

The device consists of acoustic emitters 1 and 2, excitation generator 3, the first section of the switch 4, acoustic attenuators 5 and 6 of attenuators 7 and 8, phase shifters 9 and 1O, comparison circuit 11 in amplitude, second section of switch 12, compensation attenuator control circuits 13 and measurement 14, compared with attenuator compensation 13 and measurement 14, phase comparison circuit 15, the third section of switch 16, compensation phase shifter control circuit 17 and measurement 18, clock generator 19, and recorder 2O.

The device operates as follows. In the compensation cycle, the instructor 1 is connected to the excitation generator 3 through the first section of the switch 4. The mechanical oscillations excited in the test material 21 are sensed by receivers 5 and 6, the signals of which arrive simultaneously through attenuators 7 and 8 and phase shifters 9 and 10 to circuit 11 comparison in amplitude, which through the switch section 12 and the control circuit 13 sets the attenuator 7 to a position that provides amplitude balancing of the voltages at the inputs of the comparison circuit.

At the same time, signals from phase shifters 9 and 1O arrive at circuit 15 of phase comparison, which, through the third section of switch 16 and control circuit 17, sets phase shifter 9 to a position that provides phase balancing of voltages at the inputs of the comparison circuit. In this cycle, the attenuator 8 and the phase shifter 1O are in the initial state.

In the measurement cycle, using the switch, the emitter 2 is connected to the excitation generator and to the comparison circuits of the control circuit 14 and 18,

Controls 13 and 17 remember their state in the compensation cycle. Circuits yi lines 14 and 19 set the attenuator 8 and phase shifter 10 to a position that balances the voltage in amplitude and phase at the inputs of the comparison circuits.

In the registration cycle, the output signals of the control circuits 14 and 18 are recorded by the command of the generators 19 registrar 20, which determine the attenuation and phase coefficient at the appropriate scale.

In the next cycle, the control circuits 14 and 18 are reset to the initial position by a clock generator command 19 and the compensation cycle starts again.

The technical and economic efficiency of the invention consists in automating the process of measuring and recording the attenuation and phase coefficients of materials, which allows the device to be built into the production line, eliminate operator’s subjective errors, and have a graph of the attenuation and phase coefficients of materials depending on variable factors (temperature, pressure and others).

Automating the process increases operator productivity.

Claims (1)

Invention Formula A device for recording attenuation and phase coefficients, containing measurement and compensation channels, each of which includes an acoustic emitter with an excitation generator and a series-connected acoustic receiver, attenuator and phase shifter, and a comparison circuit connected to the outputs of the phase shifters, characterized in that the process of measuring and recording the results, we introduced control schemes for attenuators and phase shifters, a switch, a clock generator, a recorder, and separate Phase and amplitude comparison circuits whose outputs are connected through switch sections and control circuits to the control inputs of attenuators and phase shifters, respectively; the outputs of the measuring channel control circuits connect the inputs of the recorder connected to the control input with one clock generator output, the second output of which is connected to the control inputs of the switch section, one of which connects the output of the common excitation generator to the inputs of the emitters, and the third output is connected to the inputs of the installation in odnoe state control circuits and & meritepnogo channel. Sources of information taken into account in the examination: 1, USSR author's certificate number 197197, M. Kp. G01 V 1/40, 1967. 2, USSR Copyright Certificate № 31О211 М. Кл. GO V 1/40, 1971 (prototype).