Robust bit scheme for a memory of a replaceable printer component
First Claim
1. A replaceable printer component having an integral memory for use in a printing system, the component comprising:
- a semiconductor die; and
a plurality of circuits formed on the semiconductor die, each circuit associated with and indicating the state of a bit in the memory;
the memory storing a plurality of functional bits that must match values expected by the printing system for proper operation of the printing system, the memory storing a plurality of informational bits that are not critical to proper operation of the printing system, a large percentage of the circuits associated with the functional bits positioned substantially near a center of the semiconductor die.
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Accused Products
Abstract
A replaceable printer component having an integral memory for use in a printing system includes a semiconductor die and a plurality of circuits formed on the semiconductor die. Each circuit is associated with and indicates the state of a bit in the memory. The memory stores a plurality of functional bits that must match values expected by the printing system for proper operation of the printing system. The memory stores a plurality of informational bits that are not critical to proper operation of the printing system. A large percentage of the circuits associated with the functional bits are positioned substantially near a center of the semiconductor die.
24 Citations
15 Claims
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1. A replaceable printer component having an integral memory for use in a printing system, the component comprising:
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a semiconductor die; and
a plurality of circuits formed on the semiconductor die, each circuit associated with and indicating the state of a bit in the memory;
the memory storing a plurality of functional bits that must match values expected by the printing system for proper operation of the printing system, the memory storing a plurality of informational bits that are not critical to proper operation of the printing system, a large percentage of the circuits associated with the functional bits positioned substantially near a center of the semiconductor die.- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A method of storing information in a replaceable printer component having an integral memory, the replaceable printer component for use in a printing system, the method comprising:
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providing a semiconductor die with a plurality of circuits formed on the semiconductor die, each circuit associated with and indicating the state of a bit in the memory;
identifying functional bit fields related to the replaceable printer component that must match values expected by the printing system for proper operation of the printing system;
identifying informational bit fields related to the replaceable printer component that are not critical to the proper operation of the printing system; and
storing a large percentage of the functional bit fields in the semiconductor die using circuits that are positioned substantially near a center of the semiconductor die. - View Dependent Claims (11, 12, 13, 14, 15)
storing substantially all of the functional bit fields in the semiconductor die using circuits that are positioned substantially near the center of the semiconductor die.
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12. The method of claim 10, wherein the functional bit fields include bits representing a first data item that provides identifying information regarding the replaceable printer component, the bits representing the first data item useable by the printing system to determine whether the replaceable printer component is appropriate for use in the printing system, the method further comprising:
storing the bits representing the first data item in the semiconductor die using circuits that are positioned substantially near the center of the semiconductor die.
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13. The method of claim 12, wherein the functional bit fields include a parity bit associated with the first data item, the parity bit useable by the printing system to identify an error in the first data item, the method further comprising:
storing the parity bit in the semiconductor die using a circuit that is positioned substantially near the center of the semiconductor die.
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14. The method of claim 10, wherein the functional bit fields include a parity bit that is useable by the printing system to identify an error in one of the functional bit fields, the method further comprising:
storing the parity bit in the semiconductor die using a circuit that is positioned substantially near the center of the semiconductor die.
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15. The method of claim 10, wherein the functional bit fields include a plurality of parity bits that are useable by the printing system to identify an error in at least one of the functional bit fields, the method further comprising:
storing the plurality of parity bits in the semiconductor die using circuits that are positioned substantially near the center of the semiconductor die.
Specification