Apparatus and system for a programmable resistance circuit

The invention claimed is: 1. A programmable resistance circuit for configuring a plurality of output voltages with a reference resistor, the programmable resistance circuit comprising: a transistor connected to the reference resistor and an analog return line from the programmable resistance circuit; a modulated voltage source connected to the transistor, wherein the modulated voltage source biases the transistor between a first state allowing forward current flow to the analog return line and a second state exhibiting a high impedance to the forward current flow to the analog return line, wherein the first state and the second state respectively emulate turning the reference resistor off and on to establish an average output voltage across the programmable resistance circuit, wherein the average output voltage corresponds to an average resistance value of the reference resistor. 2. The programmable resistance circuit of claim 1 , wherein the analog return line connects to a remote ground of at least one external electronic circuit module, and wherein the analog return line is isolated from the local ground of the programmable resistance circuit. 3. The programmable resistance circuit of claim 2 , wherein the average output voltage across the programmable resistance circuit drives the at least one external electronic control module. 4. The programmable resistance circuit of claim 2 , wherein the local ground is connected to the modulated voltage source and a filter connected to the analog return line, wherein the filter comprises resistance that isolates the local ground of the programmable resistance circuit. 5. The programmable resistance circuit of claim 2 , wherein the modulated voltage source comprises a pulse width modulation (PWM) voltage source configured with a selected duty cycle, and wherein the duty cycle establishes the average resistance value between a source line of the at least one external electronic circuit module and the analog return line. 6. The programmable resistance circuit of claim 5 , wherein a microcontroller connected to the modulated voltage source sets the selected duty cycle. 7. The programmable resistance circuit of claim 6 , wherein a reflected resistance between the source line and the analog return line corresponds to the average output voltage across the programmable resistance circuit and further corresponds to a button zone selection directed to the at least one external electronic circuit module. 8. The programmable resistance circuit of claim 7 , wherein the duty cycle further establishes the reflected resistance. 9. The programmable resistance circuit of claim 8 , further comprising a primary filter circuit connecting the reference resistor and the analog return line. 10. The programmable resistance circuit of claim 1 , wherein the modulated voltage source comprises a connection to a microcontroller and is configured to receive a plurality of different duty cycle settings. 11. The programmable resistance circuit of claim 10 , wherein each duty cycle setting corresponds to a distinct button zone processed by the microcontroller. 12. The programmable resistance circuit of claim 10 , wherein the average output voltage is formed across the programmable resistance circuit by a reading module source supply and the reference resistor and the analog return line, which are configured to connect to an analog to digital controller (ADC). 13. A computerized system for processing switch data with an external electronic control module in a vehicle, the system comprising: a user interface in a vehicle configured for a user to operate vehicle button selection zones; a microcontroller processing user inputs received at the vehicle button selection zones; a modulated voltage source in communication with the microcontroller, wherein the microcontroller adjusts a duty cycle of a modulated voltage output from the modulated voltage source according to the user inputs received at the vehicle button selection zones; a programmable resistance circuit comprising a reference resistor receiving the modulated voltage output with the duty cycle; and an average output voltage provided from the programmable resistance circuit to the external electronic control module, wherein the average output voltage corresponds to an average resistance value of the reference resistor corresponding to the duty cycle of the modulated voltage source. 14. The computerized system of claim 13 , further comprising: an external voltage source connected to the external electronic circuit module and the programmable resistance circuit; a comparison resistor connecting the external voltage source to the reference resistor, the reference resistor setting a current amplitude drawn from the external voltage source across the programmable resistance circuit to the external electronic module; a transistor connected to the reference resistor and connected to an analog return line that is further connected to the microcontroller, a modulated voltage source biasing the transistor between a first state allowing forward current flow to the analog return line and a second state exhibiting a high impedance to the forward current flow, wherein the first state and the second state respectively emulate turning the reference resistor off and on to establish the average output voltage according to the duty cycle of the modulated voltage source. 15. The programmable resistance circuit of claim 14 , further comprising a remote ground connected to the external electronic circuit module and a local ground connected to the transistor, further comprising a filter connected to the analog return line and isolating the local ground from the remote ground. 16. The computerized system of claim 13 , wherein the modulated voltage source comprises a pulse width modulation (PWM) voltage source configured with a selected duty cycle, and wherein the selected duty cycle establishes the average output resistance from the programmable resistance circuit. 17. The computerized system of claim 16 , wherein the average output voltage across the programmable resistance circuit corresponds to a vehicle function selection as read by the external electronic module. 18. The computerized system of claim 13 , wherein the modulated voltage source is adjustable according to a plurality of different duty cycle settings. 19. The computerized system of claim 18 , wherein each duty cycle setting corresponds to a distinct function selection of the user interface processed by the microcontroller. 20. The computerized system of claim 13 , wherein the modulated voltage source is a pulse width density modulated voltage source.