Claims
- 1. An electronic lock and key system comprising:
- a plurality of key means including a plurality of different first precision resistor means;
- receiving means for receiving said key means, said receiving means comprising a receptacle for said key means, a precision source of potential, second precision resistor means and precision reference means, said receiving means being capable of producing a plurality of output voltages representative of a plurality of first precision resistor means of different resistances in said plurality of different key means which are received by the receptacle of said receiving means;
- analog-to-digital conversion means operatively coupled to said receiving means and capable of converting said plurality of output voltages representing different key means to a corresponding plurality of digital output values and having a plurality of outputs for outputting a plurality of different digital values greater than zero;
- first control means for controlling said analog-to-digital conversion means to cause it to measure the resistances of the first precision resistor means of said key means which are operatively engaged with the receptacle of said receiving means, said first control means comprising control logic means; address latch means; microprocessor means coupled to said control logic means and said address latch means for applying inputs thereto; and additional logic means coupled to said control logic means and said address latch means to receive inputs therefrom and to provide output signals to said analog-to-digital conversion means;
- programmable array logic means operatively coupled to said plurality of outputs of said analog-to-digital conversion means for receiving said digital output values from said analog-to-digital conversion means and decrypting said digital values to provide information on output means of said programmable array logic means relating to identification of different key means which are operatively engaged with the receptacle of said receiving means; and
- second control means for controlling the programmable array logic means.
- 2. The electronic lock and key system of claim 1, in which the programmable array logic means is read protected.
- 3. The electronic lock and key system of claim 1, in which the maximum potential across the key means is 6 volts.
- 4. The electronic lock and key system of claim 1, in which said resistor means comprises a precision one percent resistor contained within a male headphone type connector attached to a plastic handle.
- 5. The electronic lock and key system of claim 1, in which the output means of the programmable array logic means is operatively coupled to a point of service terminal.
- 6. The electronic lock and key system of claim 5, in which key means having resistor means of different resistances may be provided for use by different classes of key holders.
- 7. The electronic lock and key system of claim 6, in which said different classes include operators, programmers and supervisors.
- 8. The electronic lock and key system of claim 1, in which said second control means effectively alters the inputs to the programmable array logic means from the analog-to-digital conversion means.
- 9. An electronic lock system comprising:
- receiving means for receiving a plurality of different keys which include a plurality of different first precision resistor means, said receiving means comprising a receptacle for said keys, a precision source of potential, second precision resistor means and precision reference means, said receiving means being capable of producing a plurality of output voltages representative of a plurality of first precision resistor means of different resistances included in different ones of said keys which are received by the receptacle of said receiving means;
- analog-to-digital conversion means operatively coupled to said receiving means and capable of converting said plurality of output voltages to a corresponding plurality of digital output values and having a plurality of outputs for outputting a plurality of different digital values greater than zero;
- first control means for controlling said analog-to-digital conversion means to cause it to measure the resistances of the first precision resistor means included in said keys which are operatively engaged with the receptacle of said receiving means, said first control means comprising control logic means; address latch means; microprocessor means coupled to said control logic means and said address latch means for applying inputs thereto; and additional logic means coupled to said control logic means and said address latch means to receive inputs therefrom and to provide output signals to said analog-to-digital conversion means;
- programmable array logic means operatively coupled to said plurality of outputs of said analog-to-digital conversion means for receiving said digital output values from said analog-to-digital conversion means and decrypting said digital values to provide information on output means of said programmable array logic means relating to identification of different keys which are operatively engaged with the receptacle of said receiving means; and
- second control means for controlling the programmable array logic means.
- 10. The electronic lock system of claim 9, in which the programmable array logic means is read protected.
- 11. The electronic lock system of claim 9, in which the output means of the programmable array logic means is operatively coupled to a point of service terminal.
- 12. The electronic lock system of claim 9, in which keys having resistor means of different resistances may be provided for use by different classes of key holders.
- 13. The electronic lock system of claim 12, in which said different classes include operators, programmers and supervisors.
- 14. The electronic lock system of claim 9, in which said second control means effectively alters the inputs to the programmable array logic from the analog-to-digital control means.
Parent Case Info
This is a continuation of co-pending application Ser. No. 123,430 filed on Nov. 20, 1987, now abandoned.
US Referenced Citations (15)
Continuations (1)
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Number |
Date |
Country |
Parent |
123430 |
Nov 1987 |
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