Current measurement circuit and method of diagnosing faults in same
First Claim
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1. A current measurement circuit comprising:
- a first input node and second input node which respectively receive a voltage from either side of a resistive element through which electrical current can flow;
a differential amplifier, which produces an output signal indicative of the difference in voltage between its input terminals;
electrical path forming means providing a connection between each of said input nodes and a respective input terminal of said differential amplifier;
a controllable voltage source for selectively applying an offset voltage to at least one input of said differential amplifier in response to a control signal;
a control signal generator which generates said control signal applied to said voltage source such that at a first instance an offset voltage is applied which is greater than the offset voltage applied at a second instance, anda diagnostic means which identifies faults present in said electrical path between said first input node and said respective input to said amplifier by comparing the output from said amplifier at said first instant with the output at said second instant and further in which said diagnostic means produces an error signal indicating a fault in the event that said difference between the output of said amplifier at said first instant and said output at the second instant is less than a predetermined threshold level, wherein either;
said voltage source is adapted to apply an offset voltage to just one input terminal of said amplifier;
orsaid control means causes said circuit to perform at least one of the following functions;
(a) applying an offset voltage to said positive terminal at said second instant but not to said negative terminal, and to apply no offset voltage at said first instant;
(b) applying an offset voltage to said negative terminal at said second instant but not to said positive terminal, and to apply no offset voltage at said first instant; and
(c) applying an offset voltage to both said positive terminal and said negative terminal at said second instant but apply no offset voltage at said first instant.
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Abstract
A current measurement circuit includes first and second input nodes which receive the respective voltages at either side of a resistive element through which electrical current can flow, a differential amplifier means which produces an output signal indicative of the difference in voltage between its input terminals, electrical path forming means providing a connection between each of the input nodes and a respective input terminal of the differential amplifiers, a controllable voltage source for selectively applying an offset voltage to at least one input of the differential amplifier in response to a control signal, a control signal generator which generates the control signal applied to the voltage source such that at a first instance an offset voltage is applied which is greater than that applied at a second instance, and a diagnostic means which is adapted to identify faults present in the electrical path between the first input node and the respective input to the amplifier by comparing the output from the amplifier at the first instant when the offset voltage is applied and at the second instant without the offset voltage.
11 Citations
12 Claims
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1. A current measurement circuit comprising:
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a first input node and second input node which respectively receive a voltage from either side of a resistive element through which electrical current can flow; a differential amplifier, which produces an output signal indicative of the difference in voltage between its input terminals; electrical path forming means providing a connection between each of said input nodes and a respective input terminal of said differential amplifier; a controllable voltage source for selectively applying an offset voltage to at least one input of said differential amplifier in response to a control signal; a control signal generator which generates said control signal applied to said voltage source such that at a first instance an offset voltage is applied which is greater than the offset voltage applied at a second instance, and a diagnostic means which identifies faults present in said electrical path between said first input node and said respective input to said amplifier by comparing the output from said amplifier at said first instant with the output at said second instant and further in which said diagnostic means produces an error signal indicating a fault in the event that said difference between the output of said amplifier at said first instant and said output at the second instant is less than a predetermined threshold level, wherein either; said voltage source is adapted to apply an offset voltage to just one input terminal of said amplifier;
orsaid control means causes said circuit to perform at least one of the following functions;
(a) applying an offset voltage to said positive terminal at said second instant but not to said negative terminal, and to apply no offset voltage at said first instant;
(b) applying an offset voltage to said negative terminal at said second instant but not to said positive terminal, and to apply no offset voltage at said first instant; and
(c) applying an offset voltage to both said positive terminal and said negative terminal at said second instant but apply no offset voltage at said first instant. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A method of diagnosing faults present in a current sensing apparatus including a differential amplifier having a positive input and a negative input, the differential amplifier also having an output and being operable to produce an output indicative of a potential drop across a current sense resistor connected through respective electrical paths to the positive and negative inputs, the method comprising the following steps:
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(a) measuring the output of the amplifier at a first instant; (b) applying an offset voltage to at least one input of the differential amplifier at a second instant, wherein the offset voltage is applied to only one input of the differential amplifier at the second instant; (c) measuring the output of the amplifier at a second instant; (d) comparing the output of the amplifier at the second instant to that at the first instant; and (e) determining the difference between the outputs of the amplifier that are compared in step (d) and comparing the resulting difference to a predetermined limit to determine whether a fault in at least one of the electrical paths from the current sense resistor to the positive and negative inputs should be indicated, and wherein a fault is indicated upon the difference being less that the predetermined limit for indicating a fault. - View Dependent Claims (11, 12)
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Specification
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Current AssigneeTRW Limited (Zeppelin - Stiftung der Stadt Friedrichshafen)
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Original AssigneeTRW Limited (Zeppelin - Stiftung der Stadt Friedrichshafen)
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InventorsWilliams, Andrew Stephen James, Crozier, Stephen Edwin
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Primary Examiner(s)BETSCH, REGIS J
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Application NumberUS11/991,594Publication NumberTime in Patent Office3,525 DaysField of Search702/64US Class Current1/1CPC Class CodesG01R 19/0023 Measuring currents or volta...G01R 31/2829 Testing of circuits in sens...
