Nonvolatile realtime clock calendar module
First Claim
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1. A nonvolatile realtime clock calendar circuit module, including a secondary power source, for use in a microcomputer based time-of-use utility meter system deriving power from a primary power source, comprising:
- semi-conductor chip integrated circuit clock means for computation of realtime clock calendar information, including input and output means for connection to the system for transfer of data between said integrated circuit clock means and said system;
protected read/write logic circuit means connected to said integrated circuit clock means for selectively enabling said integrated circuit clock means to prevent said transfer of data when said data is undesired or degraded due to primary power source outage or transient, said protected read/write logic circuit means being responsive to qualifying digital voltage states of said primary power source and a RESET signal, before said integrated circuit clock means can be read from or written to;
time reference means connected to said integrated circuit clock means providing a precise counting reference for realtime computation;
a rechargeable capacitor connected to said integrated circuit clock means effective to provide sufficient power to said integrated circuit clock means to sustain valid realtime computation for a period exceeding twelve (12) hours when power from the primary power source of the system is not available.
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Abstract
A circuit module for general use in microcomputer based systems, such as time-of-use electronic utility meters, which maintains realtime clock calendar information even through long term power outages of 12 hours or more without the use of batteries. Realtime computations are protected by combining a very low power realtime clock calendar integrated circuit with a large capacitor as a secondary power source. The circuit module provides a reference clock calendar for the associated microcomputer. The module includes a capacitor charging circuit deriving power from a primary power source, a crystal oscillator time base circuit and a memory read/write protect circuit. During a power failure the capacitor, which is disconnected from the primary power source, supplies to the module the necessary power to maintain valid realtime computations. At the end of the outage when line power returns, the capacitor is quickly recharged and the non-degraded realtime clock calendar database is available to be transferred to the associated microcomputer to re-establish realtime processing.
69 Citations
9 Claims
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1. A nonvolatile realtime clock calendar circuit module, including a secondary power source, for use in a microcomputer based time-of-use utility meter system deriving power from a primary power source, comprising:
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semi-conductor chip integrated circuit clock means for computation of realtime clock calendar information, including input and output means for connection to the system for transfer of data between said integrated circuit clock means and said system; protected read/write logic circuit means connected to said integrated circuit clock means for selectively enabling said integrated circuit clock means to prevent said transfer of data when said data is undesired or degraded due to primary power source outage or transient, said protected read/write logic circuit means being responsive to qualifying digital voltage states of said primary power source and a RESET signal, before said integrated circuit clock means can be read from or written to; time reference means connected to said integrated circuit clock means providing a precise counting reference for realtime computation; a rechargeable capacitor connected to said integrated circuit clock means effective to provide sufficient power to said integrated circuit clock means to sustain valid realtime computation for a period exceeding twelve (12) hours when power from the primary power source of the system is not available. - View Dependent Claims (2, 3)
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4. A nonvolatile realtime clock calendar circuit, for use in or with an associated circuit in an electronic device having a primary power source, requiring a periodic interrupt command to provide continuity of realtime data during periods of power outages and power transients, comprising:
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a semi-conductor chip intergrated circuit clock means for generating said periodic interrupt commands, including input means for receiving a digital word corresponding to a desired interrupt period and output means for transmitting said periodic interrupt commands from the calendar circuit to the associated circuit; protected read/write means connected to said integrated circuit clock means including logic circuitry requiring qualifying digital voltage states of the primary power source and a RESET command for selectively enabling said integrated circuit clock means and preventing undesired or degraded data transfer due to primary power outages and transients; time reference means connected to said integrated circuit clock means, providing a counting reference for generating said periodic interrupt commands; a rechargeable capacitor adapted to be charged by the primary power supply generally at five (5) volts or greater and connected to said integrated circuit clock means, said capacitor being effective to provide a minimum of two (2) volts and a capacitance of at least 0.2 farad at 70 degrees F ambient condition to said integrated circuit clock means to sustain valid realtime computation for a period exceeding twelve (12) hours when power from the primary power source of the system is not available; and leakage prevention means between said capacitor and the power source located in one of said circuits to cause said capacitor to supply power only within said realtime clock calendar circuit during power outage and transients. - View Dependent Claims (5, 6, 7, 8, 9)
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Specification
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Current AssigneeEnergy Optics, Inc. (American Millennium Corporation Incorporated), Chrysler Corporation (Stellantis NV)
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Original AssigneeEnergy Optics, Inc. (American Millennium Corporation Incorporated)
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InventorsWard, Steven M., Stokes, John H., Clark, John I., Morris, James D.
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Primary Examiner(s)Krass, Errol A.
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Assistant Examiner(s)Juffernbruch, Daniel W.
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Application NumberUS06/688,035Time in Patent Office1,023 DaysField of Search364/184, 364/187, 364/483, 365/226, 365/228, 365/229, 371/29, 371/66, 340/870.02US Class Current702/58CPC Class CodesG06F 1/14 Time supervision arrangemen...
