SU464867A1 - Digital resistance meter - Google Patents

Description

The invention relates to a measuring technique and can be applied in code-pulse systems for collecting and transmitting data from resistance sensors.

Code-impulse systems for collecting and transmitting data from resistance sensors are known, which contain a sensor power supply unit, according to its device (sensor signal amplifier) and a voltage-to-code converter (PNC), for example, an integrator.

However, the zero offset of the dc amplifiers in the power supply unit of the sensor and the matching device, working with low level signals, creates a measurement error. In addition, the error introduces the presence of contact emf. in the line of communication of the sensor with the meter.

The purpose of the invention is to compensate for the displacement of the low level tract zero.

For this, the proposed device is equipped with a two-position key and an amplifier-inverter, while the inputs of the two-position key are connected to the source of the reference and zero voltage, the input is connected to the input of the power supply unit of the resistance sensor and simultaneously With one of the inputs of the converter key, and one directly, and the other through the amplifierinverter.

The drawing shows a block diagram of the proposed digital resistance meter. An on-off switch 1 connects the inputs of the reference 2 and zero 3 voltages to the input of the power supply 4 of the resistance sensor 5. The block 4 is built according to the scale amplifier based on the DC amplifier 6 and the reference resistance 7. The sensor 5 is turned on as the feedback resistance of the scale amplifier . The output of the amplifier 6 is connected to the input of the matching device 8, the output of which through the amplifier-inverter 9 is connected to one of the inputs of the input switch 10

an integrating converter 11 for directing the code, an integrator 12 and a control device 13. The output of the matching device 8 and the input of the power supply unit 4 are connected to the inputs of the keys 10 of the integrating PNK P.

Block 13 controls the operation of key 1.

The device works in three cycles. In the first cycle, unit 13, via switch 1, connects input 3 of zero voltage to input of power supply unit 4 and output of amplifier-inverter 9 via input switch 10 to input of integrator 12. During the first clock cycle, the voltage at the input of integrator 12 represents the assembled amplified and inverted su zero bias voltage

and matching device 8 and contact emf. lines of communication of the sensor 5 with the device.

The zero offset of the amplifier-inverter 9 is significantly less than this voltage, since the amplifier-inverter is included in the high-level signal path and can be neglected.

The second work cycle is equal to the first one. In the second cycle, the control unit 13 via the key 1 connects to the input of the power supply 4, input 2 of the reference voltage and the output of the matching device 8 via the input key 10 to the input of the integrator 12. Since the duration of the first and second cycles is the same, the error from the total bias voltage is compensated and at the end of the second clock cycle, the output voltage of the integrator 12 will be proportional to the voltage of the sensor signal. ka 5.

In the third cycle, the control unit 13 via the input key 10 connects to the input of the integrator 12 an input of the power supply unit 4. The integrating PNK operation in this tag corresponds to the second voltage conversion cycle into the code according to the compensation integration method.

Since in the third cycle the voltage to the integrator 12 comes from the input of the power supply unit 4, the measurement accuracy does not depend on the accuracy of the key 1.

Subject invention

A digital saturation meter containing the cpp-Erasing sensor power supply unit, made according to. a scale amplifier, a matching device, a voltage transformer into a code, for example an integrator, consisting of a control unit, an integrator and an input key with three inputs, and sources of reference and zero voltages, characterized in that, in order to compensate for the offset of the zero path low level, it is equipped with an on-off key and an amplifier-inverter, while the inputs of the on-off key are connected to the source of the reference and zero voltage, the output is connected to the input of the power supply unit of the resistance sensor and simultaneously with one of key moves the transducer, the other two inputs of which are connected to a consent device, wherein

one is directly, and the other is through an inverter amplifier.