A COMBINATION CURRENT SENSING DEVICE
1 Assignment
0 Petitions
Accused Products
Abstract
A combination current sensing device comprising a plurality of current measuring sensors, at least one ambience measuring sensor, a voltage measuring device and a computing device; at least a magnetic field concentrator, and a controlled module assembly constraining the magnetic field concentrator and the bar conductor, in a defined position with respect to one another; the combination current sensing device may have a plurality of incoming connections and a plurality of outgoing connections; and the computing device outputs a validated measure of primary current and an auxiliary information according to a plurality of range and a safe value of the primary current, ensuring functional safety. The voltage measuring device determines a voltage, configured functions and health of an electric source in combination with other sensors and the computing device. One or more of the devices may be optional and or external to the combination current sensing device.
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Citations
54 Claims
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30. A combination current sensing device (100) connectible in an electric circuit (50) fed by an electric Source (51) with a current Ie, the combination current sensing device (100) comprising:
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a plurality of current measuring sensors (200) further comprising at least a magnetic current measuring sensor (221, 231 and or 232) and at least an impedance current measuring sensor (261, 271 and or 272) including a resistance measuring sensor (261, 271 and or 272); an optional ambience measuring sensor (300); a computing device (400); a circuit board assembly (30) comprising a connecting interface (31); and a bar conductor (60) having a reduced width (62a); the ambience measuring sensor (300) disposed on the bar conductor (60), the magnetic current measuring sensors (221, 231 and or 232) disposed on the circuit board assembly (30), and the impedance current measuring sensor (261, 271 and or 272) integrally disposed on the bar conductor (60), the combination current sensing device (100) having at least one incoming connection (82a) and at least one outgoing connection (82d), the more than one incoming connection and or the more than one outgoing connection are each connected to an electric load (52), the computing device (400) outputting a validated measure of a primary current (500) lye, and the computing device (400) is optionally external to the combination current sensing device (100). - View Dependent Claims (32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47, 48)
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31. A combination current sensing device (100) connectible in an electric circuit (50) fed by an electric Source (51) with a current Ie, the combination current sensing device (100) comprising:
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a plurality of current measuring sensors (200) further comprising at least a magnetic current measuring sensor (221, 231 and or 232) and at least an impedance current measuring sensor (261, 271 and or 272) including a resistance measuring sensor (261, 271 and or 272); an ambience measuring sensor (300); a voltage measuring device (150); a computing device (400); a circuit board assembly (30) comprising a connecting interface (31); and a bar conductor (60) having a reduced width (62a); the ambience measuring sensor (300) disposed on the bar conductor (60), the magnetic current measuring sensors (221, 231 and or 232) disposed on the circuit board assembly (30) and the impedance current measuring sensor (261, 271 and or 272) integrally disposed on the bar conductor (60), the combination current sensing device (100) having at least one incoming connection (82a) and at least one outgoing connection (82d), the more than one incoming connection and or the more than one outgoing connection are each connected to an electric load (52), the computing device (400) outputting a validated measure of a primary current (500) Ive, the voltage measuring device (150) determines a voltage (151) of the electric source (51), the voltage measuring device (150) in combination with the current measuring sensors (200) and ambience measuring sensors (300) determine a capacity and a health of the electric source (51), and the computing device (400) is optionally external to the combination current sensing device (100). - View Dependent Claims (49)
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50. A combination current sensing device (100) connectible in an electric circuit (50) with a current Ie, the combination sensing device (100) comprises:
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a plurality of current measuring sensors (200) further comprising at least one magnetic current measuring sensor (221, 231 and or 232) and at least one impedance measuring sensor (261, 271 and or 272); an ambience measuring sensor (300); a circuit board assembly (30); a bar conductor (60) having a plurality of joining means (69), a rectangular face (61), a bar width (62), a plurality of referencers (64); at least one magnetic field concentrators (70) further comprising at least two parallel walls (71), each parallel wall (71) having at least one step (73), the magnetic field concentrator (70) surroundingly disposed around the bar conductor (60), substantially equally spread around the magnetic current measuring sensor (221, 231 and or 232) present on the bar conductor (60); and a controlled module assembly (80) comprising a base chamber, further comprising a plurality of bar locators (11), a plurality of board locators (12) and a tunnel (13); and an open cover (20), further comprising a bar slot (21) on two opposite sides of a slot width (24) slightly more than the bar width (62) of the bar conductor (60), the controlled module assembly (80) constraining the circuit board assembly (30) having the at least one magnetic current measuring sensors (221), the magnetic field concentrator (70) and the bar conductor (60) in a defined position with respect to one another and maintaining a prescribed electrical isolation between the bar conductor (60) and the magnetic field concentrator (70);
the process of assembling the controlled module assembly (80) comprises the steps of;(i) Placing a circuit board assembly (30) on board locators (12) in the base chamber (10). (ii) Placing the bar conductor (60) on the base chamber (10) within bar locators (11) of the base chamber (10) such that the base chamber (10) is constrained within the plurality of referencers (64) on the bar conductor (60). (iii) Placing parallel walls (71) of magnetic field concentrator (70) in the open passage (32) of the circuit board assembly (30), such that the steps (73) on the parallel walls (71) stop against the extended legs (33) of the circuit board assembly (30), such that there is a pre-determined gap (81) between the bar conductor (60) and the magnetic field concentrator (70), and the connector (31) on the circuit board assembly (30) gets accommodated and is accessible through the tunnel (13) of the base chamber (10). (iv) Placing an open cover (20) such that the open cover (20) is constrained by the bar conductor (60) passing through bar slots (21) of the open cover (20). (v) Filling an insulating resin through the open cover (20).
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51. A process of outputting a validated measure of a primary current (500) lye and an auxiliary information (911) by a combination current sensing device (100) connectible in an electric circuit (50), fed by an electric source (51) with a current Ie, the combination current sensing device (100) comprising:
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a combination sensing device (100) which further comprises a plurality of current measuring sensors (200) further comprising at least a magnetic current measuring sensor (221, 231 and or 232), at least an impedance current measuring sensors (261 or 271 and 272) and at least an optional ambience measuring sensor (300);
a computing device (400);
a voltage measuring device (150);
a circuit board assembly (30); and
a bar conductor (60);
the computing device (400) outputting the validated measure of the primary current (500) lye value and the auxiliary information (911) according to a plurality of range and a safe value of the primary current (500);
the process of outputting the validated value of the primary current (500) lye and the auxiliary information (911) comprises the steps of;Inputting an output (200a) of the at least one magnetic current measuring sensor (221), an output (200b) of at least one impedance current measuring sensor (261) and an output (200c) of the at least one optional ambience measuring sensor (300) to the computing device (400); (ii) Verifying that measured value of the magnetic current measuring sensor (221) as well as of the impedance current measuring sensor (261) falls in any of the defined range; (iii) Applying a consistency check, like verifying that the difference in value of measured current by the magnetic current measuring sensor (221) and the resistance current measuring sensor (261) is less than a prescribed percentage (904); (iv) Outputting a voltage of the electric source (51); (v) Outputting, in combination with the voltage measuring device (150), the current measuring sensors (200) and ambience measuring sensors (300) determine a capacity and a health of the electric source (51); (vi) Outputting a value of the validated measure of the primary current (500) lye which is the highest in a precision level (420), obtained from an output (200a) selected from a plurality of outputs from the plurality of current measuring sensors (200) and outputting a corresponding precision level (420); and (vii) Invoking a fault mode (912) of the computing device (400) and outputting the validated measure of the primary current (500) lye in the fault mode (912) and outputting corresponding precision level (420), whereby the computing device (400) outputs the next best value of the primary current (500) as per predefined precision levels, simultaneously ensuring outputting a predefined safe value if any current measuring sensor (200) is non-operational or if a difference in value of measured current by the magnetic current measuring sensor (221) and the impedance current measuring sensor (261) is more than the prescribed percentage (904). - View Dependent Claims (52, 53, 54)
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Specification