Loop powered transmitter with a single tap data isolation transformer and unipolar voltage converters

What is claimed is: 1. A loop-powered transmitter, comprising: a data isolation transformer including a primary winding and a secondary winding; an analog-to-digital converter (ADC) to convert a sensor signal to a digital value, the ADC including a multi-signal interface; and a first microcontroller coupled between the multi-signal interface of the ADC and only one tap of the primary winding of the data isolation transformer; a second microcontroller coupled to a tap of the secondary winding of the data isolation transformer, the second microcontroller having a multi-signal interface output; a digital-to-analog converter (DAC) having a digital input and a power input, the digital input connecting to the digital multi-signal interface output of the second microcontroller; a second unipolar voltage converter coupled to a primary winding of a power isolation transformer and to the power input of the DAC. 2. The loop-powered transmitter of claim 1 further comprising: a first unipolar voltage converter coupled to the secondary winding of the power isolation transformer to thereby receive power through the power isolation transformer and to generate a unipolar operating power to operate the ADC and the first microcontroller; and a current limiting resistor connecting the primary winding of the data isolation transformer to ground. 3. The loop-powered transmitter of claim 2 , in which the second microcontroller is configured to receive the digital value from the first microcontroller through the data isolation transformer. 4. The loop-powered transmitter of claim 3 , in which the second unipolar voltage converter coupled to the primary winding of the power isolation transformer and, from a voltage on a current loop, to generate a unipolar operating power to operate the second microcontroller and the DAC. 5. The loop-powered transmitter of claim 1 , wherein the second microcontroller couples to the DAC via the multi-signal interface. 6. The loop-powered transmitter of claim 1 , in which the second unipolar voltage converter is coupled to the primary winding of the power isolation transformer to generate a unipolar operating power from a current loop, the generated unipolar operating power to operate the second microcontroller. 7. The loop-powered transmitter of claim 6 further comprising: a current limiting resistor connecting the primary winding of the data isolation transformer to ground. 8. The loop-powered transmitter of claim 1 further including a current limiting resistor connecting the primary winding of the data isolation transformer to ground. 9. A loop-powered transmitter, comprising: a power isolation transformer; a data isolation transformer including a primary winding and a secondary winding; an analog-to-digital converter (ADC) configured to convert an analog signal to a digital value and to provide the digital value through the data isolation transformer; a first unipolar voltage converter to receive power through the power isolation transformer and to generate a unipolar operating power to operate the ADC; a current limiting resistor connecting the primary winding of the data isolation transformer to ground a first microcontroller coupled between the multi-signal interface of the ADC and only one tap of the primary winding of the data isolation transformer; a second microcontroller coupled to the tap of the secondary winding of the data isolation transformer, the second microcontroller having a multi-signal interface output; a digital-to-analog converter (DAC) having a digital input and a power input, the digital input connecting to the digital multi-signal interface output of the second microcontroller; and a second unipolar voltage converter coupled to a primary winding of the power isolation transformer and to the power input of the DAC. 10. The loop-powered transmitter of claim 9 , wherein the ADC is configured to provide the digital value through the first and second microcontrollers and the data isolation transformer to the DAC. 11. The loop-powered transmitter of claim 10 wherein the first microcontroller is coupled between the multi-signal output interface of the ADC and only one tap of a primary winding of the data isolation transformer, and the second microcontroller is coupled between the secondary winding of the data isolation transformer and the DAC. 12. The loop-powered transmitter of claim 10 , wherein the second unipolar voltage converter is configured to generate, from a voltage on a current loop, a unipolar operating power to operate the second microcontroller and the DAC and to provide power to the first unipolar voltage converter through the power isolation transformer. 13. The loop-powered transmitter of claim 12 wherein the DAC is configured to modulate a current on the current loop based on the digital value received by the second microcontroller through the data isolation transformer from the first microcontroller. 14. The loop-powered transmitter of claim 9 wherein the analog signal includes a sensor signal. 15. The loop-powered transmitter of claim 9 wherein the analog signal includes a temperature sensor signal. 16. A loop-powered transmitter, comprising: a data isolation transformer having a primary winding and a secondary winding, the primary winding having a tap; an analog-to-digital converter (ADC) having, an analog input lead and a digital multi-signal interface output and a power input; a first microcontroller connected to the digital output of the ADC and the tap of the primary winding; a power isolation transformer having a primary winding and a secondary winding; a first unipolar voltage converter coupled to the secondary winding of the power isolation transformer and the power input of the ADC; a second microcontroller coupled to the tap of the secondary winding of the data isolation transformer, the second microcontroller having a multi-signal interface output; and a digital-to-analog converter (DAC) having a digital input and a power input, the digital multi-signal interface output of the second microcontroller. 17. The loop-powered transmitter of claim 16 including a current limiting resistor connecting the primary winding of the data isolation transformer to a ground terminal. 18. The loop-powered transmitter of claim 16 , in which the second microcontroller receives a digital value from the first microcontroller through the data isolation transformer. 19. The loop-powered transmitter of claim 18 including: a second unipolar voltage converter coupled to the primary winding of the power isolation transformer. 20. The loop-powered transmitter of claim 18 , in which: the first microcontroller is connected to only a single tap of the primary winding of the data isolation transformer; and the second microcontroller is connected to only a single tap of the secondary winding of the data isolation transformer. 21. A loop-powered transmitter, comprising: a power isolation transformer having a primary winding and a secondary winding; a data isolation transformer having a primary winding and a secondary winding, the primary winding and the secondary winding of the data isolation transformer each having a tap; an analog-to-digital converter (ADC) having, an analog input lead and a digital multi-signal interface output and a power input; a first microcontroller connected to the digital output of the ADC and the tap of the primary winding of the data isolation transformer; a first unipolar voltage converter c