Voltage regulation system for integrated circuit
First Claim
1. An integrated circuit, comprising:
- a power grid having a plurality of supply and ground voltage lines, wherein a first supply voltage line of the plurality of supply voltage lines includes first and second nodes and a first set of electronic components connected therebetween, and a first ground voltage line of the plurality of ground voltage lines includes third and fourth nodes and a second set of electronic components connected therebetween, and wherein the first and third nodes receive first supply and ground voltage signals, respectively, and have a first electronic circuit module connected therebetween, and the second and fourth nodes receive second supply and ground voltage signals, respectively, and have a second electronic circuit module connected therebetween;
a voltage regulator having a first input terminal connected to the second node for receiving the second supply voltage signal, a second input terminal for receiving a reference voltage signal, and an output terminal connected to the first node for providing the first supply voltage signal thereto; and
a reference voltage calibration circuit, connected to the first and third nodes for receiving the first supply and ground voltage signals, respectively, the second and fourth nodes for receiving the second supply and ground voltage signals, respectively, and generating the reference voltage signal based on at least one of a difference between voltage levels of the first supply and ground voltage signals and a difference between voltage levels of the second supply and ground voltage signals.
14 Assignments
0 Petitions
Accused Products
Abstract
An integrated circuit (IC) includes a power grid having first, through fourth nodes for receiving first supply, first ground, second supply, and second ground voltage signals, respectively, a voltage regulator, a reference voltage calibration circuit, a dual-rail sense circuit, and a voltage monitor circuit. The reference voltage calibration circuit receives the first supply, first ground, second supply, and second ground voltage signals and generates a reference voltage signal based on differences between voltage levels of the first supply and ground voltage signals, and the second supply and ground voltage signals. The voltage regulator regulates the first supply voltage signal based on the reference voltage signal and the second supply voltage signal. The dual-rail sense circuit generates a sense signal based on the second supply and ground voltage signals. The voltage monitor generates a voltage monitor signal based on the sense signal that indicates a state of the IC.
9 Citations
14 Claims
-
1. An integrated circuit, comprising:
-
a power grid having a plurality of supply and ground voltage lines, wherein a first supply voltage line of the plurality of supply voltage lines includes first and second nodes and a first set of electronic components connected therebetween, and a first ground voltage line of the plurality of ground voltage lines includes third and fourth nodes and a second set of electronic components connected therebetween, and wherein the first and third nodes receive first supply and ground voltage signals, respectively, and have a first electronic circuit module connected therebetween, and the second and fourth nodes receive second supply and ground voltage signals, respectively, and have a second electronic circuit module connected therebetween; a voltage regulator having a first input terminal connected to the second node for receiving the second supply voltage signal, a second input terminal for receiving a reference voltage signal, and an output terminal connected to the first node for providing the first supply voltage signal thereto; and a reference voltage calibration circuit, connected to the first and third nodes for receiving the first supply and ground voltage signals, respectively, the second and fourth nodes for receiving the second supply and ground voltage signals, respectively, and generating the reference voltage signal based on at least one of a difference between voltage levels of the first supply and ground voltage signals and a difference between voltage levels of the second supply and ground voltage signals. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
-
-
9. An integrated circuit, comprising:
-
a power grid having a plurality of supply and ground voltage lines, wherein a first supply voltage line of the plurality of supply voltage lines includes first and second nodes and a first set of electronic components connected therebetween, and a first ground voltage line of the plurality of ground voltage lines includes third and fourth nodes and a second set of electronic components connected therebetween, and wherein the first and third nodes receive first supply and ground voltage signals, respectively, and have a first electronic circuit module connected therebetween, and the second and fourth nodes receive second supply and ground voltage signals, respectively, and have a second electronic circuit module connected therebetween; a voltage regulator having a first input terminal connected to the second node for receiving the second supply voltage signal, a second input terminal for receiving a reference voltage signal, and an output terminal connected to the first node for providing the first supply voltage signal thereto; and a reference voltage calibration circuit for generating the reference voltage signal, comprising; a first voltage converter, connected to the first and third nodes for receiving the first supply and ground voltage signals, respectively, and generating a first single-ended voltage signal based on a difference between voltage levels of the first supply and ground voltage signals; a second voltage converter, connected to the second and fourth nodes for receiving the second supply and ground voltage signals, respectively, and generating a second single-ended voltage signal based on a difference between voltage levels of the second supply and ground voltage signals; a programmable reference voltage generator for generating first and second indicator signals, and the reference voltage signal based on a control signal; a first comparator having a first input terminal connected to the first voltage converter for receiving the first single-ended voltage signal, a second input terminal connected to the programmable reference voltage generator for receiving the first indicator signal, and an output terminal for generating a first trip signal when a voltage level of the first single-ended voltage signal exceeds a voltage level of the first indicator signal; a second comparator having a first input terminal connected to the second voltage converter for receiving the second single-ended voltage signal, a second input terminal connected to the programmable reference voltage generator for receiving the second indicator signal, and an output terminal for generating a second trip signal when a voltage level of the second single-ended voltage signal is less than a voltage level of the second indicator signal; a first flip-flop having a data-input terminal connected to the output terminal of the first comparator for receiving the first trip signal, a clock-input terminal for receiving a read-in signal, and an output terminal for outputting the first trip signal; a second flip-flop having a data-input terminal connected to the output terminal of the second comparator for receiving the second trip signal, a clock-input terminal for receiving the read-in signal, and an output terminal for outputting the second trip signal; and a regulator-reference controller, connected to the output terminals of the first and second flip-flops for receiving the first and second trip signals, respectively, at a predefined time interval, wherein the programmable reference voltage generator provides a control signal thereto based on the first and second trip signals and receiving the reference voltage signal therefrom, and the second input terminal of the voltage regulator for providing the reference voltage signal thereto. - View Dependent Claims (10, 11, 12, 13, 14)
-
Specification