초록 ▼

An intrinsically safe redundant regulator circuit includes a plurality of voltage limiting regulators between a regulated rail and a ground rail. Each of the plurality of voltage limiting regulators includes: (i) a shunt regulator component configured to clamp a voltage across the regulated rail and

An intrinsically safe redundant regulator circuit includes a plurality of voltage limiting regulators between a regulated rail and a ground rail. Each of the plurality of voltage limiting regulators includes: (i) a shunt regulator component configured to clamp a voltage across the regulated rail and the ground rail to a safety clamp voltage value; and (ii) one or more components, where a property of each of the one or more components is selected to configure the safety clamp voltage value.

대표청구항 ▼

1. An intrinsically safe process control device comprising: a regulated rail;a ground rail;a device component electrically coupled to both the regulated rail and the ground rail, wherein a voltage applied across the regulated rail and the ground rail causes energy to be stored in the device componen

1. An intrinsically safe process control device comprising: a regulated rail;a ground rail;a device component electrically coupled to both the regulated rail and the ground rail, wherein a voltage applied across the regulated rail and the ground rail causes energy to be stored in the device component; andthree or more voltage limiting regulators, each voltage limiting regulator disposed in parallel with the device component and each voltage limiting regulator including: a shunt regulator component configured to clamp the voltage across the regulated rail and the ground rail to a safety clamp voltage value,one or more components, wherein a property of the one or more components is selected to configure the safety clamp voltage value, anda power sharing resistor configured to (i) limit the power dissipated across a transistor component configured to amplify a current from the regulated rail, or (ii) prevent the shunt regulator component from exceeding a corresponding power rating. 2. The intrinsically safe process control device of claim 1, wherein each of the three or more voltage limiting regulators further includes: a power limiting resistor configured to limit the power dissipated across the shunt regulator component. 3. The intrinsically safe process control device of claim 1, wherein each of the three or more voltage limiting regulators further includes: a managing resistor configured to prevent the transistor component from amplifying the current from the regulated rail when the voltage across the regulated rail and the ground rail is below a threshold. 4. The intrinsically safe process control device of claim 1, wherein the components of the circuit are physically spaced such that the circuit adheres to countable spacing standards. 5. The intrinsically safe process control device of claim 1, wherein the safety clamp voltage value corresponding to one of the three or more voltage limiting regulators is lower in magnitude than the safety clamp voltage value corresponding to the remaining of the three or more voltage limiting regulators. 6. The intrinsically safe process control device of claim 5, wherein a highest clamp voltage value of a tolerance stackup corresponding to one of the three or more voltage limiting regulators is lower than the lowest clamp voltage value of a tolerance stackup corresponding to the remaining of the three or more voltage limiting regulators. 7. The intrinsically safe process control device of claim 1, wherein the three or more voltage limiting regulators are compatible with a set of entity parameters. 8. The intrinsically safe process control device of claim 7, wherein resistance values of the power limiting resistor, the power sharing resistor, and the managing resistor are based on the set of entity parameters. 9. The intrinsically safe process control device of claim 1, wherein the one or more components includes a resistor and the property of the one or more components includes a resistance of the resistor. 10. The intrinsically safe process control device of claim 1, wherein the one or more components includes a plurality of resistors and the property of the one or more components includes a plurality of resistances each corresponding to a respective one of the plurality of resistors. 11. The intrinsically safe process control device of claim 1, wherein the device includes one or more non-redundant components. 12. The intrinsically safe process control device of claim 11, wherein the one or more non-redundant components include a non-redundant power rectifier configured to prevent energy storage in a case of reversed polarity of an input signal. 13. An intrinsically safe redundant regulator circuit comprising: a plurality of voltage limiting regulators between a regulated rail and a ground rail, wherein each of the plurality of voltage limiting regulators includes: a shunt regulator component configured to clamp a voltage across the regulated rail and the ground rail to a safety clamp voltage value,one or more components, wherein a property of the one or more components is selected to configure the safety clamp voltage value, anda power sharing resistor configured to (i) limit the power dissipated across a transistor component configured to amplify a current through the regulated rail, or (ii) prevent the shunt regulator component from exceeding a corresponding power rating. 14. The intrinsically safe redundant regulator circuit of claim 13, wherein each of the plurality of voltage limiting regulators further includes: a power limiting resistor configured to limit the power dissipated across the shunt regulator component. 15. The intrinsically safe redundant regulator circuit of claim 13, wherein each of the plurality of voltage limiting regulators further includes: a managing resistor configured to prevent the transistor component from amplifying the current from the regulated rail when the voltage across the regulated rail and the ground rail is below a threshold. 16. The intrinsically safe redundant regulator circuit of claim 13, wherein the components of the circuit are physically spaced such that the circuit adheres to countable spacing standards. 17. The intrinsically safe redundant regulator circuit of claim 13, wherein the safety clamp voltage value corresponding to one of the plurality of voltage limiting regulators is lower in magnitude than the safety clamp voltage value corresponding to the remaining of the plurality of voltage limiting regulators. 18. The intrinsically safe redundant regulator circuit of claim 17, wherein a highest clamp voltage value of a tolerance stackup corresponding to one of the plurality of voltage limiting regulators is lower than a lowest clamp voltage value of a tolerance stackup corresponding to the remaining of the plurality of voltage limiting regulators. 19. The intrinsically safe redundant regulator circuit of claim 13, wherein the plurality of voltage limiting regulators are configured according to a set of entity parameters. 20. The intrinsically safe redundant regulator circuit of claim 19, wherein resistance values of the power limiting resistor, the power sharing resistor, and the managing resistor are based on the set of entity parameters. 21. The intrinsically safe redundant regulator circuit of claim 13, wherein the plurality of voltage limiting regulators includes at least three voltage limiting regulators. 22. The intrinsically safe redundant regulator circuit of claim 13, wherein the one or more components includes a resistor and the property of the one or more components includes a resistance of the resistor.