System for interfacing a single sensor unit with multiple data processing modules
First Claim
1. A fault-tolerant system for interfacing a single sensor unit requiring an excitation signal with multiple data centralizing units, comprising:
- (a) a fixed resistor;
(b) a sensor in a sensor unit which is connected in series with said fixed resistor for determining a parameter; and
(c) a plurality of data centralizing units each of which includes;
(1) a voltage source connected across said fixed resistor and said sensor unit,(2) a first voltage detection circuit adapted for detecting the voltage drop across said fixed resistor and generating a signal output indicative of said drop,(3) a second voltage detection circuit adapted for detecting the voltage drop across said sensor units and generating a signal output indicative of said drop, and(4) processor means for responding to said signal outputs to produce a signal indicative of conditions affecting said sensor unit.
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Accused Products
Abstract
A fault-tolerant system for interfacing a single sensor unit to multiple display/control modules. The system includes a fixed resistor connected in series with the sensor unit and multiple data centralization units each including a source for providing a separate excitation signal to the sensor unit. The data centralization units also include detection circuits for measuring the voltage drop across the fixed resistor. The output from the sensor unit is adjusted according to the level of excitation provided to the sensor unit so that accurate measurements can be taken despite one or more data centralization units being non-operational.
70 Citations
10 Claims
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1. A fault-tolerant system for interfacing a single sensor unit requiring an excitation signal with multiple data centralizing units, comprising:
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(a) a fixed resistor; (b) a sensor in a sensor unit which is connected in series with said fixed resistor for determining a parameter; and (c) a plurality of data centralizing units each of which includes; (1) a voltage source connected across said fixed resistor and said sensor unit, (2) a first voltage detection circuit adapted for detecting the voltage drop across said fixed resistor and generating a signal output indicative of said drop, (3) a second voltage detection circuit adapted for detecting the voltage drop across said sensor units and generating a signal output indicative of said drop, and (4) processor means for responding to said signal outputs to produce a signal indicative of conditions affecting said sensor unit. - View Dependent Claims (2, 3, 4)
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5. A fault-tolerant method of interfacing a single sensor unit requiring an excitation signal to multiple data centralizing units, comprising the steps of:
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(a) exciting said sensor unit with an excitation signal representing source outputs from a plurality of separate data centralizing units; (b) passing said excitation signal through a fixed resistor; (c) detecting the voltage drop across said fixed resistor and generating a first signal indicative of said drop; (d) detecting the voltage drop across said sensor unit and generating a second signal indicative of said drop; and (e) processing said first and second signals to determine a resistive value for said sensor unit. - View Dependent Claims (6, 7, 8)
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9. A fault-tolerant system for interfacing multiple data centralizing units to a single sensor unit requiring an excitation signal, comprising:
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(a) a resistive device characterized by resistance variable in accordance with conditions; (b) a resistor characterized by resistance which is fixed with respect to process conditions and which is connected in series with said resistive device; (c) a plurality of data centralizing units each including; (1) means for providing and applying an excitation signal to said resistive device and said resistor, (2) means for producing a first signal indicative of the voltage drop across said resistive device, (3) means for producing a second signal indicative of the voltage drop across said resistor, (4) means for digitizing said first and second signals in order to generate first and second digitized signals, respectively, and (5) microprocessor means for processing said first and second digitized signals and generating an output signal indicative of environmental conditions as indicated by said first signal and said second signal. - View Dependent Claims (10)
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Specification