Method and apparatus for fault detection in a resistive bridge sensor
First Claim
1. A bridge sensor having a bridge supply voltage connection, a ground connection and at least one output voltage connection and conditioning electronics having an input and an output connected to the sensor connections, first and second switches connected to the input of the conditioning electronics, the first and second switches having a common terminal connected to the output voltage connection of the bridge sensor, the first switch having a normally open terminal connected to a pull-up load which in turn is connected to the bridge supply voltage connection and the second switch having a normally open terminal connected to a pull-down load which in turn is connected to the ground connection.
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0 Petitions
Accused Products
Abstract
A full Wheatstone bridge sensor has conditioning electronics of an ASIC connected thereto. Two independently controlled diagnostic switches (S1, S2) in the ASIC are commonly connected to one of the bridge output nodes. The first diagnostic switch connects first resistor between the bridge output node and bridge supply voltage and the second diagnostic switch connects a second resistor between the bridge output and bridge ground. The first diagnostic switch closes during a first diagnostic waveform phase and opens during all other phases of operation. The second diagnostic switch closes during a second and third waveform phase and opens during all other phases of operation. The diagnostic waveforms are used to test major signal conditioning and fault reporting paths of the ASIC.
3 Citations
10 Claims
- 1. A bridge sensor having a bridge supply voltage connection, a ground connection and at least one output voltage connection and conditioning electronics having an input and an output connected to the sensor connections, first and second switches connected to the input of the conditioning electronics, the first and second switches having a common terminal connected to the output voltage connection of the bridge sensor, the first switch having a normally open terminal connected to a pull-up load which in turn is connected to the bridge supply voltage connection and the second switch having a normally open terminal connected to a pull-down load which in turn is connected to the ground connection.
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5. A method for detecting faults in a resistive bridge sensor having first and second bridge halves, each half having bridge resistors and conditioning electronics connected thereto comprising the following steps:
switching a pull-up resistor in parallel with a bridge resistor in the first half bridge to produce a first diagnostic waveform representative of full scale stimulus and comparing the first diagnostic waveform with a standard waveform for full scale stimulus. - View Dependent Claims (6)
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7. A method for detecting faults in a resistive bridge sensor having first and second bridge halves, each half having bridge resistors and conditioning electronics connected thereto comprising the following steps
switching a pull-down resistor in parallel with a bridge resistor in the first half bridge to produce a first diagnostic waveform representative of full scale stimulus and comparing the first diagnostic waveform with a standard waveform for full scale stimulus.
- 8. A sensor having a supply voltage connection, a ground connection and at least one output connection and conditioning electronics having at least one output and at least one input connection to the sensor, first and second normally open switches connected to the at least one input connection of the conditioning electronics, the first switch being connected to a sensor output connection and a first load, and the second switch being connected to a sensor output connection and a second load, the first load being connected between the first switch and a voltage supply and the second load being connected between the second switch and a voltage supply.
Specification