Multimode retail system
First Claim
1. A multimode system for receiving data in a retail environment, said multimode system comprising:
- a secure input module comprising a keypad and a processor; and
a controller coupled with the secure input module, the controller comprising a processor and a tangible memory, wherein the memory stores software comprising instructions, the instructions operable to be executed by the processor to perform operations for implementing a high security mode and a low security mode that modify operation of the keypad to receive a high security input and a low security input from a customer, the high security input to be communicated to the controller by the secure input module in cipher text and the low security input to be communicated to the controller by the secure input module in plaintext,wherein the controller is adapted to implement the low security mode upon detection by said multimode system of a security breach condition,wherein, in the high security mode, the keypad accepts the low security input and the high security input,wherein, in the low security mode, the keypad accepts the low security input and does not accept the high security input, andwherein the low security mode remains for a limited window as measured by a window counter, the expiration of which disables the keypad and configures the controller to require intervention to restart the window counter.
6 Assignments
0 Petitions
Accused Products
Abstract
Embodiments of a multimode system for use in, for example, a fuel dispenser, are configured for receiving data in a retail environment. The multimode system can include: a secure input module for receiving high security input and low security input from a customer, the high security input to be communicated by the secure input module in cipher text, and the low security input to be communicated by the secure input module in plaintext. The multimode system is adapted to operate in a high security mode and a low security mode. The multimode system is adapted to enter the low security mode upon detection by the multimode system of a security breach condition. In the high security mode, the secure input module accepts low security input and high security input. In the low security mode, the secure input module accepts the low security input and does not accept the high security input.
-
Citations
14 Claims
-
1. A multimode system for receiving data in a retail environment, said multimode system comprising:
-
a secure input module comprising a keypad and a processor; and a controller coupled with the secure input module, the controller comprising a processor and a tangible memory, wherein the memory stores software comprising instructions, the instructions operable to be executed by the processor to perform operations for implementing a high security mode and a low security mode that modify operation of the keypad to receive a high security input and a low security input from a customer, the high security input to be communicated to the controller by the secure input module in cipher text and the low security input to be communicated to the controller by the secure input module in plaintext, wherein the controller is adapted to implement the low security mode upon detection by said multimode system of a security breach condition, wherein, in the high security mode, the keypad accepts the low security input and the high security input, wherein, in the low security mode, the keypad accepts the low security input and does not accept the high security input, and wherein the low security mode remains for a limited window as measured by a window counter, the expiration of which disables the keypad and configures the controller to require intervention to restart the window counter. - View Dependent Claims (2, 3, 4, 5, 6)
-
-
7. A method for operating a multimode system in a retail environment, comprising:
-
a controller comprising a processor and a tangible memory that stores software comprising instructions, the instructions operable to be executed by the processor to perform operations for; operating a keypad in a high security mode in which the keypad accepts a low security input and a high security input, the low security input to be communicated by the keypad in plaintext and the high security input to be communicated by the keypad in ciphertext; detecting a security breach condition; and in response to the security breach condition, operating the keypad in a low security mode in which the secure input module accepts the low security input and does not accept the high security input, wherein the low security mode remains for a limited window as measured by a window counter, the expiration of which disables the keypad and configures a controller to require intervention to restart the window counter. - View Dependent Claims (8, 9, 10, 11, 12)
-
-
13. A fuel dispenser comprising:
-
a secure payment module (SPM) comprising a keypad; and a controller coupled with the SPM, wherein at least one of the SPM and the controller comprises a processor and a tangible memory, wherein the tangible memory stores software comprising instructions, the instructions operable to be executed by the processor to perform operations to; detect a tamper event of the SPM; and initiate an adjustment of the keypad between a high security mode and a low security mode, wherein the SPM is operable to accept confidential customer information and non-confidential customer information in the high security mode and the SPM is operable to accept only non-confidential customer information in the low security mode, and wherein the low security mode remains for a limited window as measured by a window counter, the expiration of which disables the keypad and configures the controller to require intervention to restart the window counter.
-
-
14. A fuel dispenser comprising:
-
a secure payment module (SPM) comprising; a secure keypad, and a secure processor; and a controller coupled with the SPM, the controller comprising a processor and a tangible memory that stores software comprising instructions, the instructions operable to be executed by the processor to perform operations for detecting a tamper event, wherein the controller is configured to adjust operation of the SPM to function in two modes, wherein the SPM operable to process non-debit and debit transactions in a first mode, wherein the SPM operable to process only non-debit transactions in a second mode, wherein the SPM is operable to switch from the first to second mode in response to the tamper event, and wherein the second mode remains for a limited window as measured by a window counter, the expiration of which disables the keypad and configures a controller to require intervention to restart the window counter.
-
Specification