Low voltage low power signal processing system and method for high accuracy processing of differential signal inputs from a low power measuring instrument
First Claim
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1. A signal processing system suitable for processing transducer signals in a low power measuring instrument, the signal processing system comprising;
- a reference signal generator for generating an ADC ramp signal;
one or more differential signal channels, each differential signal channel comprising;
a first comparator comprising a first input, a second input, and an output, the first input of the first comparator receiving the first signal of a pair of differential signals, the second input of the first comparator receiving the ramp signal, the output of the first comparator providing a first-comparator output signal based on the signals at the first and second inputs; and
a second comparator comprising a first input, a second input, and an output, the first input of the second comparator receiving the second signal of the pair of differential signals, the second input of the second comparator receiving the ramp signal, the output of the second comparator providing a second-comparator output signal based on the signals at the first and second inputs; and
one or more digital differential value determining circuits for receiving the first-comparator output signal and the second-comparator output signal of at least one differential signal channel and determining a digital value representative of the difference between the pair of differential signals received by the at least one differential signal channel; and
wherein the one or more digital differential value determining circuits comprise at least one clock circuit configured such that for at least one comparator included in the clock circuit a trip-point voltage of the comparator and a voltage change rate of a clock ramp signal input to the comparator are both controlled based on a common signal, such that variations in a voltage supplied to the clock during normal operation does not substantially affect the clock period.
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Abstract
A low voltage low power signal processing system and method for use in low power and/or portable measuring instruments such as linear or rotary encoders, electronic calipers and the like. In one embodiment, the analog-to-digital converter is implemented as a parallel, single ramp, with two matched comparators for each leg of differential input, which can be implemented with relatively simple circuitry, and consequently be of a small size. The system may be used with a three-phase transducer configuration, for which the preferred signal processing techniques are able to cancel most of the third harmonic distortion in the system, and for which the fully differential signal processing methods of the invention are advantageous. The invention may be used in a portable measuring instrument that operates from a single 1.5 volt watch battery or solar cell, and that has a current drain of 5 microamps. By using capacitors of the same type in the ramp generator and clock generator, and charging them with scaled bias currents, and by using resistors and capacitors of the same type in the clock and analog-to-digital converter, the scale factor of the system is made to be independent of process parameters.
53 Citations
29 Claims
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1. A signal processing system suitable for processing transducer signals in a low power measuring instrument, the signal processing system comprising;
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a reference signal generator for generating an ADC ramp signal;
one or more differential signal channels, each differential signal channel comprising;
a first comparator comprising a first input, a second input, and an output, the first input of the first comparator receiving the first signal of a pair of differential signals, the second input of the first comparator receiving the ramp signal, the output of the first comparator providing a first-comparator output signal based on the signals at the first and second inputs; and
a second comparator comprising a first input, a second input, and an output, the first input of the second comparator receiving the second signal of the pair of differential signals, the second input of the second comparator receiving the ramp signal, the output of the second comparator providing a second-comparator output signal based on the signals at the first and second inputs; and
one or more digital differential value determining circuits for receiving the first-comparator output signal and the second-comparator output signal of at least one differential signal channel and determining a digital value representative of the difference between the pair of differential signals received by the at least one differential signal channel; and
wherein the one or more digital differential value determining circuits comprise at least one clock circuit configured such that for at least one comparator included in the clock circuit a trip-point voltage of the comparator and a voltage change rate of a clock ramp signal input to the comparator are both controlled based on a common signal, such that variations in a voltage supplied to the clock during normal operation does not substantially affect the clock period. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A signal processing system suitable for processing transducer signals in a low power measuring instrument, the signal processing system comprising;
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a reference signal generator for generating an ADC ramp signal;
two or more differential signal channels, each differential signal channel comprising;
a first comparator comprising a first input, a second input, and an output, the first input of the first comparator receiving the first signal of a pair of differential signals, the second input of the first comparator receiving the ramp signal, the output of the first comparator providing a first-comparator output signal based on the signals at the first and second inputs;
a second comparator comprising a first input, a second input, and an output, the first input of the second comparator receiving the second signal of the pair of differential signals, the second input of the second comparator receiving the ramp signal, the output of the second comparator providing a second-comparator output signal based on the signals at the first and second inputs;
one or more digital differential value determining circuits for receiving the first-comparator output signal and the second-comparator output signal of at least one of the differential signal channels and determining a digital value representative of the difference between the pair of differential signals received by the at least one differential signal channel;
wherein the signal processing system is operable from a low voltage power supply providing a voltage less than 1.75 volts to process the signals of the at least two differential signal channels in parallel and determine the corresponding digital values in parallel;
wherein at least one pair of differential signals depend on the operation of a transducer included in a low power measuring instrument which also includes the signal processing system, the low power measuring instrument operable to determine a measurement based on the digital values; and
wherein the at least two differential signal channels comprise at least three differential signal channels, the transducer comprises a three-phase displacement transducer, and the at least one digital differential value determining circuit determining at least three digital values representative of the differences between at least three pairs of differential signals received by the at least three differential signal channels, the at least three digital values further processable to determine a displacement measurement which is substantially free of at least one of third harmonic spatial distortion and third harmonic signal processing distortion. - View Dependent Claims (10, 11)
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12. A signal processing method suitable for processing transducer signals in a low power measuring instrument, the signal processing method comprising;
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generating an ADC ramp signal;
for at least one differential signal channel;
receiving the first signal of a pair of differential signals at a first input of a first comparator of the differential signal channel and receiving the ramp signal at a second input of the first comparator of the differential signal channel;
outputting a first-comparator output signal based on the signals at the first and second inputs; and
receiving the second signal of a pair of differential signals at a first input of a second comparator of the differential signal channel and receiving the ramp signal at a second input of the second comparator of the differential signal channel;
outputting a second-comparator output signal based on the signals at the first and second inputs;
generating at least one clock signal based on the operation of at least one comparator wherein a trip-point voltage of the comparator and a voltage change rate of a clock ramp signal input to the comparator are both controlled based on a common signal such that normal variations in a voltage supply used to generate the clock signal do not substantially affect the clock period and wherein the clock signal is used in the step of determining a digital value; and
determining a digital value representative of the difference between each pair of differential signals received by a differential signal channel based on the first-comparator output signal and the second-comparator output signal of that differential signal channel and the generated at least one clock signal. - View Dependent Claims (13, 14, 15, 16, 17, 18, 19, 20)
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21. A signal processing system suitable for processing transducer signals in a low power measuring instrument, the signal processing system compnsing;
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a reference signal generator for generating an ADC ramp signal;
two or more differential signal channels, each differential signal channel comprising;
a first comparator comprising a first input, a second input, and an output, the first input of the first comparator receiving the first signal of a pair of differential signals, the second input of the first comparator receiving the ramp signal, the output of the first comparator providing a first-comparator output signal based on the signals at the first and second inputs; and
a second comparator comprising a first input, a second input, and an output, the first input of the second comparator receiving the second signal of the pair of differential signals, the second input of the second comparator receiving the ramp signal, the output of the second comparator providing a second-comparator output signal based on the signals at the first and second inputs;
a power supply usable to provide a first voltage level to the reference signal generator during normal operation and further usable to provide a second voltage level proportional to the first voltage level to a transducer which determines at least one pair of differential signals received by the signal processing system during normal operation; and
one or more digital differential value determining circuits for receiving the first-comparator output signal and the second-comparator output signal of at least one of the differential signal channels and determining a digital value representative of the difference between the pair of differential signals received by the at least one differential signal channel, wherein;
the signal processing system is operable to process the signals of the at least two differential signal channels in parallel and determine the corresponding digital values in parallel; and
a scale factor of the signal processing circuit and the signal amplitude of the differential signals determined by the transducer change in a manner that compensates each other with regard to variations in the voltage of the power supply, such that the overall measurement accuracy of a measuring instrument including the signal processing system and the transducer is substantially insensitive to variations in the voltage of the power supply during normal operation. - View Dependent Claims (22, 23, 24, 25, 26)
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27. A signal processing method suitable for processing transducer signals in a low power measuring instrument, the signal processing method comprising;
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providing a first voltage usable to generate an ADC ramp signal;
generating the ADC ramp signal based on the first voltage;
providing a second voltage proportional to the first voltage to a transducer which determines at least two pairs of differential signals received by a corresponding differential signal channel;
for each of at least two corresponding differential signal channels;
receiving the first signal of a pair of differential signals at a first input of a first comparator of the differential signal channel and receiving the ramp signal at a second input of the first comparator of the differential signal channel;
outputting a first-comparator output signal based on the signals at the first and second inputs of the first comparator; and
receiving the second signal of a pair of differential signals at a first input of a second comparator of the differential signal channel and receiving the ramp signal at a second input of the second comparator of the differential signal channel;
outputting a second-comparator output signal based on the signals at the first and second inputs of the second comparator; and
determining a digital value representative of the difference between each pair of differential signals received by a differential signal channel based on the first-comparator output signal and the second-comparator output signal of that differential signal channel, wherein;
the providing a first voltage, generating, providing a second voltage, receiving, outputting and determining steps are performed to determine the digital values corresponding to each differential channel in parallel, and a scale factor associated with the signal processing method and the signal amplitude of the differential signals determined by the transducer change in a manner that compensates each other with regard to proportional variations in the first and second voltages, such that for a measuring instrument including the transducer and which also includes the signal processing method as part of the operation of the measuring instrument the overall measurement accuracy of the measuring instrument is substantially insensitive to normal variations in a power supply used to provide the first and second voltages. - View Dependent Claims (28, 29)
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Specification
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Current AssigneeMitutoyo Corporation
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Original AssigneeMitutoyo Corporation
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InventorsMawet, Patrick H.
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Primary Examiner(s)Hoff, Marc S.
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Assistant Examiner(s)TSAI, CAROL S W
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Application NumberUS09/898,674Publication NumberTime in Patent Office1,330 DaysField of Search702/189, 702193-195, 702/106, 702/57, 702/64, 702/FOR.106, 702/FOR.135, 702/FOR.110, 341/118, 341/120, 341/155, 341/143, 341/158, 341/169, 341/170, 341/138, 341/159, 324/207.12, 324/207.19, 324/207.23, 324/207.24, 340/870.31, 340/870.35, 340/870.39, 323/207, 323/233, 363/65US Class Current702/189CPC Class CodesH03M 1/123 Simultaneous, i.e. using on...H03M 1/56 Input signal compared with ...
