Appliance lock with voltage encoded wiring

What is claimed is: 1. A door lock for a door of an appliance, comprising: a housing holding: (a) a door position switch having a state indicating that the door is in a closed position; (b) a door locking element movable between an unlock position and a lock position, the lock position engaging the door when the door is in the closed position to prevent the door from opening; (c) a lock sensing switch having a state indicating that the door locking element is in the lock position; (d) a door lock actuator for moving the door locking element upon receipt of an electrical lock signal; (e) a first and second resistor having different unique values, each attached to a corresponding one of the door position switch and the lock sensing switch so that corresponding switches control current through the corresponding attached resistors; and a harness connection to a harness having no more than three wires and adapted to communicate between the housing and an appliance controller, the harness including: a signal wire attached to a junction of the first and second resistors at a signal wire node to provide a unique electrical signal to the appliance controller through the harness as a function of different states of the door position switch and the lock sensing switch; and a ground wire connected to the signal wire node to provide a common ground for the door position switch, the lock sensing switch, and the door locking element. 2. The door lock of claim 1 further including an unlock sensing switch having a state indicating that the door locking element is in the unlock position and a third resistor having a different unique value from the first and second resistors, the third resistor attached to the unlock sensing switch which controls current through the third resistor; wherein the first, second, and third resistors communicate with the signal wire to provide a unique current through the signal wire as a function of the states of the door position switch, the lock sensing switch and the unlock sensing switch. 3. The door lock of claim 2 wherein each of the first, second, and third resistors are connected in series respectively with a respective one of the door position switch, the lock sensing switch and the unlock sensing switch, and wherein the series connected resistors and switches are connected jointly in parallel to the signal wire. 4. The door lock of claim 2 wherein the first, second, and third resistors each have a resistance value that is greater than or equal to twice a resistance value of a next lowest resistance of the first, second, and third resistors. 5. The door lock of claim 2 wherein each of the door position switch, the lock sensing switch and the unlock sensing switch are independently mechanically operable. 6. The door lock of claim 5 wherein each of the door sensing switch, the lock sensing switch and the unlock sensing switch are open single pole, single throw switches that close when the door is closed, the lock is in the lock position and the lock is in the unlock position, respectively. 7. The door lock of claim 1 further including an electrical actuator having a state that is retained without power, communicating with the door locking element to receive electrical power to move the door locking element between the unlock position and the lock position and vice versa. 8. The door lock of claim 7 wherein the electrical actuator has a first terminal attached to the signal wire and a second terminal attached to a power wire communicating electrical current to each of the door position switch and lock sensing switch to be conducted to the signal wire. 9. The door lock of claim 7 wherein the electrical actuator is an electrical solenoid. 10. The door lock of claim 7 wherein the electrical actuator is an electrical motor. 11. The door lock of claim 7 further including a control network attached to the signal line and the power line to controllably connect a first measurement voltage across the signal and power line to measure a current conducted therebetween in a measurement state, and to controllably and at separate times attach each of two polarities of actuation voltage across the signal and power line to actuate the electrical actuator, wherein the measurement voltage does not actuate the electrical actuator. 12. The door lock of claim 1 further including a sensing resistor receiving current from the signal wire to generate a voltage proportional to that current. 13. The door lock of claim 12 wherein the sensing resistor is in a housing holding the first and second resistors. 14. The door lock of claim 1 further including a controller providing an analog-to-digital converter for measuring an electrical voltage and for processing by a stored program held in the controller and wherein the signal wire connects to the analog-to-digital converter. 15. The door lock of claim 14 further including a motor for operating the appliance and wherein the controller executes a stored program for allowing the motor to operate only when the electrical voltage at the analog-to-digital converter indicates a state of the door position switch that indicates that the door is closed and a state of the lock sensing switch indicating that the door is locked and the state of the unlock sensing switch indicating that the door is not unlocked. 16. The door lock of claim 1 wherein the first and second resistors all have values less than 1000 ohms. 17. A method of communicating a state of an appliance door that has been closed and locked in an appliance having a door lock including: a housing holding: (i) a door position switch positioned to respond to movement of the door to a closed position; (ii) a door locking element movable between an unlock position and a lock position, the lock position engaging the door when the door is in the closed position to prevent the door from opening; (iii) a lock sensing switch sensing a position of the door locking element in the lock position; (iv) a door lock actuator for moving the door locking element upon receipt of an electrical lock signal; (v) an unlock sensing switch sensing a position of the door locking element in the unlock position; and (vi) a first, second, and third resistor having different unique values, each attached to a corresponding one of the door position switch, the lock sensing switch, and the unlock sensing switch so that corresponding switch control current goes through the attached resistor; a harness connection to a harness having no more than three wires and adapted to communicate between the housing and an appliance controller, the harness including: a signal wire attached to a junction of the first, the second, and the third resistors to provide a unique electrical signal to the appliance controller through the harness as a function of different states of the door position switch and the lock sensing switch and the unlock sensing switch; and a ground wire providing a common ground for the door position switch, the lock sensing switch, and the door locking element; the method comprising the steps of: (a) sensing a voltage on the signal wire to match a voltage corresponding to closure and locking of the door without unlocking of the door; and (b) allowing operation of the appliance in at least one mode depending on a matching at step (a).