RU98108150A - PROCESS MANAGEMENT TRANSMITTER - Google Patents

Claims (10)

1. A transmitter in a process control system, comprising: input / output circuits for connection to a process control loop; a first sensor having a first impedance that changes in response to a change in a first read parameter; a second sensor having a second impedance that changes in response to a change in the second read parameter; a first AC drive signal coupled to the first sensor; a second AC drive signal coupled to the second sensor; a summing node connected to the outputs of the first and second sensors, combining the AC output signals of the first and second sensors; an analog-to-digital converter connected to the summing unit and providing a digital output signal representing the summed AC output signals from the first and second sensors; and digital signal processing circuits connected to the output from the analog-to-digital converter, which process the digital output signal and provide an output signal related to the first and second readable parameters to the input / output circuits for transmission along the process control loop.  2. The transmitter according to claim 1, characterized in that the first sensor comprises a capacitor.  3. The transmitter according to claim 1, characterized in that the first and second exciting signals are phase shifted relative to each other.  4. The transmitter according to claim 1, characterized in that the first and second exciting signals have different frequencies.  5. The transmitter according to claim 1, including: a digital signal generator generating digital first and second exciting signals; and a digital-to-analog converter, coupled to the first and second sensors, converting the digital drive signals to the first and second drive signals.  6. The transmitter according to claim 1, characterized in that the first exciting signal contains a distorted sine wave.  7. A transmitter in a process control system, comprising: input / output circuits connected to a process control loop for sending information on this loop and receiving energy from this loop to supply power to the transmitter; a sensor having an impedance depending on the parameter being read; a digital signal generator generating a time-varying exciting signal; a digital-to-analog converter that converts the digital excitation signal into an analog excitation signal associated with the sensor, thereby causing the sensor to output a sensor output signal; analog-to-digital conversion circuits connected to the sensor output and providing a digital sensor signal in response; and digital signal processing circuits synchronized with the digital signal generator for recognizing and measuring the sensor output signal and transmitting the output signal representing the readable parameter along the process control loop using input / output circuits.  8. The transmitter according to claim 7, comprising a plurality of sensors and a plurality of exciting signals generated by a signal generator.  9. The transmitter of claim 8, characterized in that the multiple exciting signals have different phases.  10. A transmitter in a process control loop, comprising: a plurality of sensors having a plurality of variable impedances depending on a plurality of readable parameters; a plurality of exciting signals applied to each of the plurality of sensors, causing a plurality of sensor output signals, these exciting signals being generated by signal generation circuits, and each of the exciting signals having a different waveform; a summed signal representing a summation of the plurality of sensor output signals; signal processing circuits associated with the summed signal having an output signal associated with the read parameters; and output circuits connected to the process control loop, and signal processing circuits transmitting an output signal associated with readable parameters along the process control loop.