Temperature compensated RRAM circuit
First Claim
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1. A temperature compensated RRAM sensing circuit to improve the readability against temperature variations, the circuit comprising:
- a) a temperature dependent memory resistor array;
b) a temperature dependent element;
c) a temperature compensated control circuit in communication with the temperature dependent element arid to provide at least one temperature dependent output signal to the temperature dependent memory resistor to compensate for the temperature variation of the resistance of the memory resistor; and
wherein the temperature dependent element is fabricated from the same material and process as the memory resistor.
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Abstract
A temperature compensated RRAM sensing circuit to improve the RRAM readability against temperature variations is disclosed. The circuit comprises a temperature dependent element to control the response of a temperature compensated circuit to generate a temperature dependent signal to compensate for the temperature variations of the resistance states of the memory resistors. The temperature dependent element can control the sensing signal supplied to the memory resistor so that the resistance states of the memory resistor are compensated against temperature variations. The temperature dependent element can control the reference signal supplied to the comparison circuit so that the output signal provided by the comparison circuit is compensated against temperature variations. The temperature dependent element is preferably made of the same material and process as the memory resistors.
69 Citations
22 Claims
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1. A temperature compensated RRAM sensing circuit to improve the readability against temperature variations, the circuit comprising:
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a) a temperature dependent memory resistor array;
b) a temperature dependent element;
c) a temperature compensated control circuit in communication with the temperature dependent element arid to provide at least one temperature dependent output signal to the temperature dependent memory resistor to compensate for the temperature variation of the resistance of the memory resistor; and
wherein the temperature dependent element is fabricated from the same material and process as the memory resistor. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14)
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15. A method to sense a resistance state of a selected memory resistor in an RRAM device to improve the readability against temperature variation, the method comprising the steps of:
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a) providing a temperature compensated control circuit comprising a temperature dependent element;
b) developing at least one temperature dependent sensing signal by the temperature compensated control circuit;
c) applying the at least one temperature dependent sensing signal to the memory resistor to compensate for the temperature variation of the resistance of the memory resistor;
d) sensing the compensated state of the memory resistor; and
wherein the temperature dependent element is fabricated from the same material and process as the memory resistor. - View Dependent Claims (16, 17)
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18. A temperature compensated RRAM sensing circuit to improve the readability against temperature variations, the circuit comprising:
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a) a temperature dependent memory resistor array;
b) a temperature dependent element;
c) a temperature compensated control circuit in communication with the temperature dependent element arid to provide at least one temperature dependent output signal to the temperature dependent memory resistor to compensate for the temperature variation of the resistance of the memory resistor; and
wherein the temperature dependent output signal developed by the temperature compensated control circuit is a temperature dependent current source, the temperature dependency of the current source being in the opposite direction as the temperature dependency of the memory resistor so that the voltage across the memory resistor is compensated age net temperature variations.
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19. A temperature compensated RRAM sensing circuit to improve the readability against temperature variations, the circuit comprising:
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a) a temperature dependent memory resistor array;
b) a temperature dependent element;
c) a temperature compensated control circuit in communication with the temperature dependent element arid to provide at least one temperature dependent output signal to the temperature dependent memory resistor to compensate for the temperature variation of the resistance of the memory resistor; and
wherein the temperature dependent output signal developed by the temperature compensated control circuit is a temperature dependent voltage source, the temperature dependency of the voltage source being in the same direction as the temperature dependency of the memory resistor so that the current across the memory resistor is compensated against temperature variations.
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20. A temperature compensated RRAM sensing circuit to improve the readability against temperature variations, the circuit comprising:
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a) a temperature dependent memory resistor array;
b) a temperature dependent element;
c) a temperature compensated control circuit in communication with the temperature dependent element arid to provide at least one temperature dependent output signal to the temperature dependent memory resistor to compensate for the temperature variation of the resistance of the memory resistor; and
wherein the temperature compensated control circuit is a current load nMOS circuit.
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21. A temperature compensated RRAM sensing circuit to improve the readability against temperature variations, the circuit comprising:
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a) a temperature dependent memory resistor array;
b) a temperature dependent element;
c) a temperature compensated control circuit in communication with the temperature dependent element arid to provide at least one temperature dependent output signal to the temperature dependent memory resistor to compensate for the temperature variation of the resistance of the memory resistor; and
wherein the temperature compensated control circuit is a current source pMOS circuit.
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22. A temperature compensated RRAM sensing circuit to improve the readability against temperature variations, the circuit comprising:
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a) a temperature dependent memory resistor array;
b) a temperature dependent element;
c) a temperature compensated control circuit in communication with the temperature dependent element arid to provide at least one temperature dependent output signal to the temperature dependent memory resistor to compensate for the temperature variation of the resistance of the memory resistor; and
d) a diode connecting to the temperature dependent element.
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Specification
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Current AssigneeXenogenic Development Limited Liability Company (Intellectual Ventures LLC)
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Original AssigneeSharp Laboratories of America Incorporated (Hon Hai Precision Industry Co., Ltd.)
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InventorsHsu, Sheng Teng
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Primary Examiner(s)PHUNG, ANH K
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Application NumberUS10/384,985Publication NumberTime in Patent Office736 DaysField of Search365/211, 365/213, 365/171, 365/173, 365/158US Class Current365/211CPC Class CodesG11C 11/5678 using amorphous/crystalline...G11C 11/5685 using storage elements comp...G11C 13/0004 comprising amorphous/crysta...G11C 13/0007 comprising metal oxide memo...G11C 13/004 Reading or sensing circuits...G11C 2013/0054 Read is performed on a refe...G11C 2213/31 Material having complex met...G11C 2213/72 Array wherein the access de...G11C 2213/79 Array wherein the access de...G11C 7/04 with means for avoiding dis...G11C 7/062 Differential amplifiers of ...G11C 7/067 Single-ended amplifiersG11C 7/14 Dummy cell management; Sens...
