Impedance converter circuit
First Claim
1. An impedance converter module comprising:
- a phase reversal circuit to receive a 2-wire excitation signal at first and second terminals, and to provide a polarized excitation signal with a predetermined polarity based on the 2-wire excitation signal;
a series current path comprising a sense resistor connected in series with a variable impedance source, the polarized excitation signal being applied across the series current path;
an output-voltage-sense circuit to provide an output-voltage-sense signal based on a voltage across the series current path;
a current mirror to provide a drive signal to a ratiometric device based on current flowing through the series current path;
differential amplifiers to receive a ratiometric response signal from the ratiometric device, and to output measurement signals based on the ratiometric signal; and
a summing node to combine the measurement signals to provide a single-ended ratiometric signal;
wherein the variable impedance source is controlled to provide a two-wire response signal at the 2-wire terminals based on the single-ended ratiometric signal and the output-voltage-sense signal.
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Accused Products
Abstract
An impedance converter module has a phase reversal circuit to receive a 2-wire excitation signal at first and second terminals, and to provide a polarized excitation signal with a predetermined polarity based on the 2-wire excitation signal. A series current path has a sense resistor connected in series with a variable impedance source. The polarized excitation signal is applied across the series current path. An output-voltage-sense circuit provides an output-voltage-sense signal based on a voltage across the series current path. A current mirror provides a drive signal to a ratiometric device based on current flowing through the series current path. Differential amplifiers receive a ratiometric response signal from the ratiometric device, and output measurement signals based on the ratiometric signal. A summing node combines the measurement signals to provide a single-ended ratiometric signal. The variable impedance source is controlled to provide a two-wire response signal at the 2-wire terminals based on the single-ended ratiometric signal and the output-voltage-sense signal.
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Citations
20 Claims
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1. An impedance converter module comprising:
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a phase reversal circuit to receive a 2-wire excitation signal at first and second terminals, and to provide a polarized excitation signal with a predetermined polarity based on the 2-wire excitation signal;
a series current path comprising a sense resistor connected in series with a variable impedance source, the polarized excitation signal being applied across the series current path;
an output-voltage-sense circuit to provide an output-voltage-sense signal based on a voltage across the series current path;
a current mirror to provide a drive signal to a ratiometric device based on current flowing through the series current path;
differential amplifiers to receive a ratiometric response signal from the ratiometric device, and to output measurement signals based on the ratiometric signal; and
a summing node to combine the measurement signals to provide a single-ended ratiometric signal;
wherein the variable impedance source is controlled to provide a two-wire response signal at the 2-wire terminals based on the single-ended ratiometric signal and the output-voltage-sense signal. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
a current-sense differential amplifier coupled in parallel to the sense resistor to provide a current-sense signal representing current flowing through the series current path, wherein the current mirror generates the drive current based on the current-sense signal.
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9. The impedance converter module of claim 1 further comprising:
an offset-adjustment circuit coupled to the summing node to adjust the single-ended ratiometric signal for offset in the differential amplifiers.
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10. The impedance converter module of claim 1 further comprising:
a span-adjustment circuit coupled to the current driver to adjust the amplitude range of the drive current.
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11. The impedance converter module of claim 1 wherein the differential amplifiers, the phase reversal circuit, the current mirror, the differential amplifiers, and variable impedance source are implemented on an integrated circuit.
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12. A impedance converter module comprising:
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a thermistor to sense a temperature;
a pad resistor coupled to the thermistor, wherein the output of the pad resistor and the thermistor provide a ratiometric response signal; and
an impedance converter circuit comprising;
a phase reversal circuit to receive a 2-wire excitation signal at first and second terminals, and to provide a polarized excitation signal with a predetermined polarity based on the 2-wire excitation signal;
a series current path comprising a sense resistor connected in series with a variable impedance source, the polarized excitation signal being applied across the series current path;
an output-voltage-sense circuit to provide an output-voltage-sense signal based on a voltage across the series current path;
a current mirror to provide a drive signal to the pad resistor and thermistor based on current flowing through the series current path;
differential amplifiers to receive the ratiometric response signal, and to output measurement signals based on the ratiometric signal; and
a summing node to combine the measurement signals to provide a single-ended ratiometric signal;
wherein the variable impedance source is controlled to provide a two-wire response signal at the 2-wire terminals based on the single-ended ractiometric signal and the output-voltage-sense signal. - View Dependent Claims (13, 14, 15, 16, 17, 18, 19, 20)
a current-sense differential amplifier coupled in parallel to the sense resistor to provide a current-sense signal representing current flowing through the series current path, wherein the current mirror generates the drive current based on the current-sense signal.
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18. The impedance converter module of claim 12 further comprising:
an offset-adjustment circuit coupled to the summing node to adjust the single-ended ratiometric signal for offset in the differential amplifiers.
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19. The impedance converter module of claim 12 further comprising:
a span-adjustment circuit coupled to the current driver to adjust the amplitude range of the drive current.
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20. The impedance converter module of claim 12 wherein the differential amplifiers, the phase reversal circuit, the current mirror, the differential amplifiers, and variable impedance source are implemented on an integrated circuit.
Specification