Two-wire field-mounted process device
First Claim
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1. A two-wire field-mountable process device comprising:
- a power module couplable to a two-wire loop and adapted to wholly power the process device with power received from the two-wire loop;
a loop communicator coupled to the power module, and being couplable to the two-wire loop to communicate on the two-wire loop;
a controller coupled to the loop communicator and power module;
a first input channel operably coupled to the controller and the power module, the first channel configured to couple to at least a first sensor for receiving at least one sensor input; and
a second input channel operably coupled to the controller and the power module, the second channel being configured to couple to at least a second sensor for receiving at least one sensor input; and
wherein the first and second channels are substantially electrically isolated from each other and from the two-wire loop.
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Abstract
A two-wire field-mounted process device with multiple isolated channels includes a channel that can be an input channel or an output channel. The given input or output channel can couple to multiple sensors or actuators, respectively. The process device is wholly powered by the two-wire process control loop. The process device includes a controller adapted to measure one or more characteristics of sensors coupled to an input channel and to control actuators coupled to an output channel. The controller can be further adapted to execute a user generated control algorithm relating process input information with process output commands. The process device also includes a loop communicator that is adapted to communicate over the two-wire loop.
107 Citations
16 Claims
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1. A two-wire field-mountable process device comprising:
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a power module couplable to a two-wire loop and adapted to wholly power the process device with power received from the two-wire loop;
a loop communicator coupled to the power module, and being couplable to the two-wire loop to communicate on the two-wire loop;
a controller coupled to the loop communicator and power module;
a first input channel operably coupled to the controller and the power module, the first channel configured to couple to at least a first sensor for receiving at least one sensor input; and
a second input channel operably coupled to the controller and the power module, the second channel being configured to couple to at least a second sensor for receiving at least one sensor input; and
wherein the first and second channels are substantially electrically isolated from each other and from the two-wire loop. - View Dependent Claims (2, 3, 4, 5, 6)
a first multiplexer coupled to the first terminal;
a first analog-to-digital converter coupled to the controller and the first multiplexer, the first converter being adapted to convert an analog signal from the at least first terminal, into a digital value and to convey the digital signal to the controller.
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3. The device of claim 2 wherein the second input channel includes a second terminal for coupling to the second sensor and further comprising:
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a second multiplexer coupled to the second terminal;
a second analog-to-digital converter coupled to the controller and the second multiplexer, the second converter being adapted to convert an analog signal from the at least second terminal, into a digital value and to convey the digital signal to the controller.
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4. The device of claim 1 wherein the first input channel is coupled to a first plurality of sensors for receiving a first plurality of sensor inputs and wherein the second input channel is coupled to a second plurality of sensors for receiving a second plurality of sensor inputs.
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5. The device of claim 1, wherein the first input channel and second input channel are isolated by optoisolators.
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6. The device of claim 1, wherein the controller is adapted to compute a process variable as a function of the sensor inputs relative to the first and second sensors.
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7. A two-wire field-mountable process device comprising:
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a power module couplable to a two-wire loop and adapted to wholly power the process device with power received from the two-wire loop;
a loop communicator coupled to the power module, and being couplable to the two-wire loop to communicate on the two-wire loop;
a controller coupled to the loop communicator and power module, and adapted to provide information relative to at least one process variable;
a memory module coupled to the power module and the controller, the memory module being adapted to store a user-generated control algorithm; and
an input channel operably coupled to the controller and the power module, the input channel being adapted to receive at least one sensor input; and
an output channel operably coupled to the controller and the power module, the output channel being adapted to provide an output based upon a command signal from the controller;
wherein the input and output channels are substantially electrically isolated from each other and from the power module and the controller; and
wherein the controller computes the information relative to the at least one process variable based at least in part upon a sensor signal received through the at least one sensor input and the user-generated control algorithm and the controller provides the command signal to the output channel based upon the information and the user-generated algorithm. - View Dependent Claims (8, 9, 10, 11, 12, 13, 14, 15)
multiple isolated input channels.
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14. The device of claim 13 wherein each of the multiple isolated input channels is adapted to receive a plurality of sensor inputs.
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15. The device of claim 7 wherein the output channel is adapted to provide a plurality of outputs.
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16. A two-wire field-mountable process device comprising:
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a power module couplable to a two-wire loop and adapted to wholly power the process device with power received from the two-wire loop;
a loop communicator coupled to the power module, and being couplable to the two-wire loop to communicate on the two-wire loop;
a controller coupled to the loop communicator and power module, and adapted to provide an output based upon at least one process variable;
a memory module coupled to the power module and the controller, the memory module being adapted to store a user-generated control algorithm relating the at least one process variable to the output;
an input channel operably coupled to the controller and the power module and electrically isolated from the controller and the power module, the input channel being adapted to receive at least one sensor input; and
wherein the controller provides the output based at least in part upon a sensor signal received through the at least one sensor input and the user-generated control algorithm.
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Specification
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Current AssigneeRosemount Incorporated (Emerson Electric Company)
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Original AssigneeRosemount Incorporated (Emerson Electric Company)
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InventorsKarschnia, Robert J., Peluso, Marcos, Kirkpatrick, William R., DiMarco, Steven J., Lenz, Gary A.
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Primary Examiner(s)PATEL, RAMESH B
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Application NumberUS10/400,148Publication NumberTime in Patent Office363 DaysField of Search700/1-3, 700/27-30, 700/9, 700/11, 700/17, 700/37, 700/83, 700/79, 710/11, 710/12, 710/16, 710/38, 710/105, 714/6, 714/11, 370/410, 370/437, 370/493, 370/468US Class Current700/19CPC Class CodesG05B 19/054 Input/outputG05B 2219/1127 Selector for I-O, multiplex...G05B 2219/1157 I-O used either as input or...G05B 2219/1163 Multiplexer for analog signalsG05B 2219/14144 Galvanic isolationG05B 2219/15091 Power and data busG05B 2219/25188 Superposition high frequenc...G06F 1/182 with special features, e.g....G06F 3/05 Digital input using the sam...H05K 7/1472 Bus coupling modules, e.g. ...H05K 7/1484 Electrical diagrams relatin...
