Programmable security sensor

We claim: 1. A programmable barrier alarm for monitoring a barrier, comprising: a magnet; and a sensor, comprising: a magnetic field detector for sensing a magnetic field produced by the magnet and for producing an electronic signal based on the magnetic field; a processor; and a memory for storing alarm threshold values and processor-executable instructions that, when executed by the processor, cause the sensor to; in a calibration mode of operation: determine a value of a first electronic signal from the magnetic field detector when the barrier is in the closed position; calculate a first threshold value based on the first electronic signal; and calculate a second threshold value based on the first electronic signal; in a normal mode of operation, compare electronic signals from the magnetic field detector to the first and second threshold values; and generate an alarm signal if any of the electronic signals are less than the first threshold or greater than the second threshold. 2. The barrier alarm of claim 1 , wherein the first threshold value is determined by increasing the value of the first electronic signal by a predetermined percentage and the second threshold value is determined by increasing the value of the electronic signal by a second percentage. 3. The barrier alarm of claim 1 , wherein the barrier alarm further comprises a user interface for providing a signal to the processor indicative of when the barrier is in the closed position. 4. The barrier alarm of claim 1 , wherein the value of the first electronic signal is determined when the magnetic field is stable for a predetermined time period, as determined by the processor. 5. The barrier alarm of claim 1 , further comprising: an instrumentation amplifier having an adjustable gain; wherein the processor-executable instructions further comprise instructions that cause the barrier alarm to: determine, by the processor, when the electronic signal is not within a predetermined voltage range; increasing the gain of the instrumentation amplifier when the electronic signal is less than a lower limit of the predetermined voltage range; decreasing the gain of the instrumentation amplifier when the electronic signal is greater than an upper limit of the predetermined voltage range. 6. The barrier alarm of claim 1 , wherein the processor-executable instructions further comprise instructions that cause the barrier alarm to, while in the calibration mode of operation: generate a second electronic signal representative of a second magnetic field sensed by the magnetic field detector when the barrier is in an open position; and calculate the first threshold value based on the first and second electronic signals; and calculate the second threshold value based on the first and second electronic signals. 7. The barrier alarm of claim 6 , wherein the processor-executable instructions that cause the processor to calculate the first threshold comprise instructions that cause the barrier alarm to, while in the calibration mode of operation: determine a difference between the value of the first electronic signal and the second electronic signal; multiply the difference by a predetermined percentage to obtain a product; assign the product to the first threshold. 8. The barrier alarm of claim 6 , wherein the barrier alarm further comprises a user interface for providing a signal to the processor indicative of when the barrier is in the open position. 9. The barrier alarm of claim 6 , wherein the first and second threshold values are determined when the magnetic field, as determined by the magnetic field detector, is stable for a predetermined time period. 10. A method performed by a programmable barrier alarm monitoring a barrier, comprising: sensing, by a magnetic field detector, a magnetic field produced by a magnet; generating, by the magnetic field detector, an electronic signal based on the magnetic field; in a calibration mode of operation: determining, by a processor coupled to the magnetic field generator, a value of a first electronic signal from the magnetic field detector when the barrier is in a closed position; calculating a first threshold value based on the first electronic signal; and calculating a second threshold value based on the first electronic signal; and in a normal mode of operation: comparing electronic signals from the magnetic field detector to the first and second threshold values; and generating an alarm signal if any of the electronic signals are less than the first threshold or greater than the second threshold. 11. The method of claim 10 , wherein the first threshold value is determined by increasing the value of the first electronic signal by a predetermined percentage and the second threshold value is determined by increasing the value of the electronic signal by a second percentage. 12. The method of claim 10 , wherein the barrier alarm further comprises a user interface for providing a signal to the processor indicative of when the barrier is in the closed position. 13. The method of claim 10 , wherein the value of the first electronic signal is determined when the magnetic field is stable for a predetermined time period, as determined by the processor. 14. The method of claim 10 , further comprising: determining, by the processor, when the electronic signal is not within a predetermined voltage range; increasing a gain of an instrumentation amplifier when the electronic signal is less than a lower limit of the predetermined voltage range; decreasing the gain of the instrumentation amplifier when the electronic signal is greater than the predetermined voltage range. 15. The method of claim 10 , further comprising: while in the calibration mode of operation: generating a second electronic signal representative of a second magnetic field sensed by the magnetic field detector when the barrier is in an open position; and calculating the first threshold value based on the first and second electronic signals; and calculating the second threshold value based on the first and second electronic signals. 16. The method of claim 15 , wherein calculating the first threshold comprises: determining a difference between the value of the first electronic signal and the second electronic signal; multiplying the difference by a predetermined percentage to obtain a product; assigning the product to the first threshold. 17. The method of claim 15 , wherein the barrier alarm further comprises a user interface for providing a signal to the processor indicative of when the barrier is in the open position. 18. The method of claim 15 , further comprising: determining, by the processor, when the magnetic field is stable for a predetermined time period; and determining, by the processor, the first and second threshold values when the magnetic field is stable for a predetermined time period.