Pulse-generating sensor unit for remote sensing system
First Claim
1. Sensing unit 10-i for a parameter measurement system (10, 12, 14, 16) which unit, after each receipt of a start pulse, generates a measurement pulse, the time interval between said start and measurement pulses representing the instantaneous value of a parameter being measured, havinga digital sensor (30) which generates, at its output, measurement pulses (mi) at a frequency corresponding to the instantaneous value of said parameter being sensed;
- a first frequency divider (38-42), having an input connected to said output of the digital sensor (30), and including a counter (38;
76); and
a gating circuit (36) between digital sensor (30) and said first frequency divider (38-42), said gating circuit (36) alternately blocking output pulses from said sensor (30) and becoming conductive in response to a start pulse (s),further comprisinga fixed-frequency oscillator (46;
70) having an output connected to an input of said counter, whose output pulses are combined in said counter (38;
76) for sensing-unit-sensitivity-adjustment purposes with the output measurement pulses of said digital sensor (30) in such a way that a deviation range,of the position of the measurement pulse (mi) about amiddle position value (to +di), which value is the sum of a time value to corresponding to a parameter valuecentered in a possible range of said parameter anda staggering delay interval characteristic of arespective sensing unit (10-i) in said measurement system is smaller than a predefined standard time window (fi -D) for each sensing unit'"'"'s measurement.
1 Assignment
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Accused Products
Abstract
In a digital remote-sensing system, in which the time intervals between pulses are modulated according to the value of the parameter being measured, an overly sensitive sensing element 30 may generate a pulse outside of the desired "time window", which might then be misinterpreted. To avoid this, the sensitivity of such a digital sensing element 30, generating a frequency-modulated signal, can be reduced without intrusion into the actual sensor 32, by "thinning" the output pulses of the digital sensing element 30 with pulses of constant frequency. In the case of a sensor which, after receipt of a start-pulse, generates one or more measurement pulses, this is accomplished by specifying a part of the pulse-period in a timing stage 44, which operates in dependence on a constant-frequency auxiliary oscillator 46. The timing stage'"'"'s output signal makes conductive a gating circuit 36, disposed between sensing element 30 and a downstream frequency divider 38-42, which generates the measurement pulses.
8 Citations
10 Claims
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1. Sensing unit 10-i for a parameter measurement system (10, 12, 14, 16) which unit, after each receipt of a start pulse, generates a measurement pulse, the time interval between said start and measurement pulses representing the instantaneous value of a parameter being measured, having
a digital sensor (30) which generates, at its output, measurement pulses (mi) at a frequency corresponding to the instantaneous value of said parameter being sensed; -
a first frequency divider (38-42), having an input connected to said output of the digital sensor (30), and including a counter (38;
76); anda gating circuit (36) between digital sensor (30) and said first frequency divider (38-42), said gating circuit (36) alternately blocking output pulses from said sensor (30) and becoming conductive in response to a start pulse (s), further comprising a fixed-frequency oscillator (46;
70) having an output connected to an input of said counter, whose output pulses are combined in said counter (38;
76) for sensing-unit-sensitivity-adjustment purposes with the output measurement pulses of said digital sensor (30) in such a way that a deviation range,of the position of the measurement pulse (mi) about a middle position value (to +di), which value is the sum of a time value to corresponding to a parameter value centered in a possible range of said parameter and a staggering delay interval characteristic of a respective sensing unit (10-i) in said measurement system is smaller than a predefined standard time window (fi -D) for each sensing unit'"'"'s measurement. - View Dependent Claims (2, 3, 4, 7, 8, 9, 10)
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5. Sensing unit 10-i for a parameter measurement system (10, 12, 14, 16) which unit, after each receipt of a start pulse, generates a measurement pulse, the time interval between said start and measurement pulses representing the instantaneous value of a parameter being measured, comprising
a digital sensor (30) which generates measurement pulses (mi) at a frequency corresponding to the instantaneous value of said parameter being sensed; -
a first frequency divider (38-42) downstream of the digital sensor (30), said first frequency divider (38-42) including a counter (38) connected to, and receiving the output pulses of, said digital sensor (30), a first adjustable memory (42) which specifies the divisor ratio of said first frequency divider, and a first comparator (40) having respective inputs connected to outputs of said counter (38) and of said adjustable memory (42), and an output whose signal constitutes the output of said first frequency divider (38-42); a gating circuit (36) between digital sensor (30) and said frequency divider (38-42), said gating circuit (36) becoming conductive in response to a start pulse (s), a fixed-frequency oscillator (46;
70), whose output pulses are combined in said counter (38;
76) with the output pulses of said digital sensor (30) in such a way that a deviation range of the position of the measurement pulse (mi) about a middle position value (to +di) is smaller than a predefined standard window (fi =D),said fixed-frequency oscillator (46) forming part of a timing stage (44) which responds to said start pulse (s) and to said measurement pulses (mi) by generating output signals which actuate said gating circuit (36) and said first frequency divider (38-42), and wherein said timing stage (44) includes a second frequency divider (50-52) having an input connected to the output of said oscillator (46;
70), and an output connected to said gating circuit (36) and to said first frequency divider (38-42), said second frequency divider includinga second counter (50) connected to an output of said oscillator (46), a second adjustable memory (54), and a second comparator (52) having respective inputs connected to outputs of said counter (50) and of said second adjustable memory (54), and an output whose signal constitutes the output of said second frequency divider (50-54), and wherein the divisor ratios of said first and second frequency dividers, and thus the contents of said first and second adjustable memories (42,
54), can be adjusted in opposite directions. - View Dependent Claims (6)
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Specification