Self verifying transaction card with disabling capability
First Claim
1. A self verifying transaction card having a keyboard for entering a personal identification code, a non-volatile memory with a stored code, a self contained non-replaceable power supply sealed within said card, clock/calendar means for determining real time and a timer for measuring elapsed time from activation of the card, a verification display consisting essentially of one or more light emitting diodes (LED'"'"'s) forming an alphanumeric verification configuration, one or more LED drivers, RAM for entry of access codes, and comparator circuitry for comparison of entry of an access code with the stored code;
- whereby entry of an access code, as a personal identification code, via said keyboard, into the RAM, activates the comparator circuitry to compare the entered personal identification code with the stored code in the non-volatile memory, with a match between the entered code and the stored code resulting in the comparator circuitry activating the one or more LED drivers, which in turn illuminate the one or more light emitting diodes into a pre-determined verification configuration as a verification display, wherein said verification display changes according to a preset algorithm contained in the non-volatile memory;
said algorithm relating time and date of a transaction, as determined by said clock/calendar means, to the elapsed time from activation of the card to the time of a transaction, as determined by the timer means;
whereby during a predetermined time length window a unique pre-determined verification configuration is generated and displayed by said one or more LED'"'"'s, wherein different verification configurations are generated and displayed during different time windows, wherein the card further contains means for modulating the output of the one or more LED'"'"'s whereby the one or more LED'"'"'s blink in a pattern to provide alphanumeric information readable by an optical reader for transmission to a remote terminal, and wherein said one or more LED'"'"'s blink at a slow rate with periods of active time when said LED'"'"'s are powered and visible and periods of blank time when said LED'"'"'s are not powered and are not visible, to conserve power of said non-replaceable power source.
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Accused Products
Abstract
A self verifying transaction card having a self contained keyboard or keypad for entering a personal identification code, a simplified verification display comprised of light emitting diodes (LED'"'"'s) which light up in a pre-determined configuration for validation of a verification check, a non-volatile memory with a stored code, and a self contained power supply. The card further contains circuitry for comparison of an entry with the stored code, with a pre-determined successive number of improper entries serving to disable the card from further identification functions and transactions. Clock/calendar timer and a contained microprocessor or microcontroller cause the verification function to be disabled at the expiration date of the card. The clock/calendar timer also provides a basis for uniquely correlating the time and date of a transaction to a changing verification display. A proper verification configuration at the time of transaction is not determinable and fraudulent transactions by merchants are prevented. In one embodiment the LED display is modulated to blink rapidly to conserve energy and to optically transmit data from the card to a remote terminal.
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Citations
6 Claims
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1. A self verifying transaction card having a keyboard for entering a personal identification code, a non-volatile memory with a stored code, a self contained non-replaceable power supply sealed within said card, clock/calendar means for determining real time and a timer for measuring elapsed time from activation of the card, a verification display consisting essentially of one or more light emitting diodes (LED'"'"'s) forming an alphanumeric verification configuration, one or more LED drivers, RAM for entry of access codes, and comparator circuitry for comparison of entry of an access code with the stored code;
- whereby entry of an access code, as a personal identification code, via said keyboard, into the RAM, activates the comparator circuitry to compare the entered personal identification code with the stored code in the non-volatile memory, with a match between the entered code and the stored code resulting in the comparator circuitry activating the one or more LED drivers, which in turn illuminate the one or more light emitting diodes into a pre-determined verification configuration as a verification display, wherein said verification display changes according to a preset algorithm contained in the non-volatile memory;
said algorithm relating time and date of a transaction, as determined by said clock/calendar means, to the elapsed time from activation of the card to the time of a transaction, as determined by the timer means;
whereby during a predetermined time length window a unique pre-determined verification configuration is generated and displayed by said one or more LED'"'"'s, wherein different verification configurations are generated and displayed during different time windows, wherein the card further contains means for modulating the output of the one or more LED'"'"'s whereby the one or more LED'"'"'s blink in a pattern to provide alphanumeric information readable by an optical reader for transmission to a remote terminal, and wherein said one or more LED'"'"'s blink at a slow rate with periods of active time when said LED'"'"'s are powered and visible and periods of blank time when said LED'"'"'s are not powered and are not visible, to conserve power of said non-replaceable power source. - View Dependent Claims (2, 3, 4, 5, 6)
- whereby entry of an access code, as a personal identification code, via said keyboard, into the RAM, activates the comparator circuitry to compare the entered personal identification code with the stored code in the non-volatile memory, with a match between the entered code and the stored code resulting in the comparator circuitry activating the one or more LED drivers, which in turn illuminate the one or more light emitting diodes into a pre-determined verification configuration as a verification display, wherein said verification display changes according to a preset algorithm contained in the non-volatile memory;
Specification