Instrumentation system with multiple sensor modules
First Claim
1. An instrumentation apparatus for sensing and measuring a plurality of types of conditions such as temperature, pressure and the like, said apparatus comprising in combination:
- a. a first sensor module including a sensor responsive to a first type of condition for generating a first electrical signal indicative of such first type of condition;
b. at least a second sensor module including a sensor responsive to a second type of condition for generating a second electrical signal indicative of such second type of condition;
c. central processor means being selectively responsive to the electrical signal generated by said first sensor module for computing a measurement sensed by said first sensor module, said central processor means also being selectively responsive to the electrical signal generated by said second sensor module for computing a measurement sensed by said first sensor module;
d. display means coupled to said central processor means for numerically displaying the measurement computed by said central processor means;
e. means for selectively coupling one of said first and second sensor modules to said central processor;
f. each of said first and second sensor modules including a memory storing sensor type code data for indicating to said central processor means the type of condition sensed by the sensor included in each such sensor module;
g. each of said first and second sensor modules including a clock input terminal for receiving a synchronizing clock signal, each of said first and second sensor modules including a memory data output terminal for providing the stored sensor type code data as a serial data stream, each of said first and second sensor modules including a power input terminal for receiving operating power, and each of said first and second sensor modules including an analog output terminal for providing an analog output signal;
h. said central processor means including a clock output terminal providing a clocking signal and adapted to be coupled to the clock input terminal of the selected sensor module, said central processor including a memory data input terminal coupled to the memory data output terminal of the selected sensor module, said central processor means being responsive to the sensor type code data of the selected sensor module that is coupled to said central processor means for controlling the manner by which said central processor computes the measurement sensed by the selected sensor module, said central processor means including a power source terminal coupled to the power input terminal of the selected sensor module, and said central processor means further including an analog input terminal coupled to the analog output terminal of the selected sensor module for receiving the analog output signal provided thereby, said central processor means further including an analog-to-digital converter for converting the analog output signal provided by the selected sensor module to a digital signal;
i. each of said clock input terminals, memory data output terminals, power input terminals, and analog output terminals being of each sensor module being separate from one another.
0 Assignments
0 Petitions
Accused Products
Abstract
An instrumentation system includes a hand-held computer-based measuring meter having a visual display and a plurality of individual sensor modules that can be selectively coupled to the measuring meter for measuring one of a variety of parameters such as temperature, pressure, or the like. Each sensor module includes a sensor responsive to a particular stimulus, as well as a data memory for storing information about the sensor. When the sensor module is interconnected with the measuring meter, the measuring meter accesses the memory of the sensor module to input data corresponding to sensor type, an accuracy code, calibration point data, and a calibration date code. The measuring meter compares the calibration date code to the current date to determine whether the sensor module requires recalibration. The measuring meter uses the accuracy code data to determine the number of significant digits displayed by the visual display. The measuring meter uses the sensor type code and calibration points to calibrate the measuring meter relative to the sensor module and to select the algorithm used to compute the current value measured by the sensor module.
206 Citations
7 Claims
-
1. An instrumentation apparatus for sensing and measuring a plurality of types of conditions such as temperature, pressure and the like, said apparatus comprising in combination:
-
a. a first sensor module including a sensor responsive to a first type of condition for generating a first electrical signal indicative of such first type of condition; b. at least a second sensor module including a sensor responsive to a second type of condition for generating a second electrical signal indicative of such second type of condition; c. central processor means being selectively responsive to the electrical signal generated by said first sensor module for computing a measurement sensed by said first sensor module, said central processor means also being selectively responsive to the electrical signal generated by said second sensor module for computing a measurement sensed by said first sensor module; d. display means coupled to said central processor means for numerically displaying the measurement computed by said central processor means; e. means for selectively coupling one of said first and second sensor modules to said central processor; f. each of said first and second sensor modules including a memory storing sensor type code data for indicating to said central processor means the type of condition sensed by the sensor included in each such sensor module; g. each of said first and second sensor modules including a clock input terminal for receiving a synchronizing clock signal, each of said first and second sensor modules including a memory data output terminal for providing the stored sensor type code data as a serial data stream, each of said first and second sensor modules including a power input terminal for receiving operating power, and each of said first and second sensor modules including an analog output terminal for providing an analog output signal; h. said central processor means including a clock output terminal providing a clocking signal and adapted to be coupled to the clock input terminal of the selected sensor module, said central processor including a memory data input terminal coupled to the memory data output terminal of the selected sensor module, said central processor means being responsive to the sensor type code data of the selected sensor module that is coupled to said central processor means for controlling the manner by which said central processor computes the measurement sensed by the selected sensor module, said central processor means including a power source terminal coupled to the power input terminal of the selected sensor module, and said central processor means further including an analog input terminal coupled to the analog output terminal of the selected sensor module for receiving the analog output signal provided thereby, said central processor means further including an analog-to-digital converter for converting the analog output signal provided by the selected sensor module to a digital signal; i. each of said clock input terminals, memory data output terminals, power input terminals, and analog output terminals being of each sensor module being separate from one another. - View Dependent Claims (2, 3, 4, 5, 6, 7)
-
Specification