Abstract: A first slave electronic module and a second slave electronic module are adapted for communicating over the data bus. The first slave electronic module has a first resistor coupled in series with a main power line. The second electronic module has a second resistor coupled in series with the main power line. A master electronic module has a master current measurement circuit for determining an aggregate current level indicative of the total number of slave electronic modules on the main power line. A first current measurement circuits is capable of measuring a node current indicative of a number of other active slaves connected to the main power line and data bus. A master data processor in the master electronic module is arranged to assign a unique module identifier to a first slave electronic module based on the first node current and the aggregate current level, the unique module identifier indicating a respective position of the first slave electronic module on the data bus.

Abstract: A fault injection circuit injects a test signal into a data bus with a normal high logic level and a normal low logic level. The test signal has a greater logic level greater than the normal high logic level of the data bus or a lower logic level lower than the normal low logic level of the data bus. An analog-to-digital converter is coupled to a voltage level detector for sensing an aggregate level of an aggregate signal on the data bus. The aggregate signal is composed of the termination circuit signal and the test signal. A diagnostic tool determines whether a faulty connection between the data bus and a network device exists, where the sensed aggregate level exceeds at least one of the normal high logic level and the normal low logic level.

Abstract: A first slave electronic module and a second slave electronic module are adapted for communicating over the data bus. The first slave electronic module has a first resistor coupled in series with a main power line. The second electronic module has a second resistor coupled in series with the main power line. A master electronic module has a master current measurement circuit for determining an aggregate current level indicative of the total number of slave electronic modules on the main power line. A first current measurement circuits is capable of measuring a node current indicative of a number of other active slaves connected to the main power line and data bus. A master data processor in the master electronic module is arranged to assign a unique module identifier to a first slave electronic module based on the first node current and the aggregate current level, the unique module identifier indicating a respective position of the first slave electronic module on the data bus.

Abstract: An assembly is provided comprising a member having a graduated edge that varies in radius with respect to an axis, and a sensor adjacent to the graduated edge, the member and the sensor are capable of rotating relative to one another. The sensor provides a signal level proportional to a distance between the sensor and the graduated edge, and the distance, between the sensor and the graduated edge, is indicative of a rotation angle of the member relative to the sensor.

Abstract: A fault injection circuit injects a test signal into a data bus with a normal high logic level and a normal low logic level. The test signal has a greater logic level greater than the normal high logic level of the data bus or a lower logic level lower than the normal low logic level of the data bus. An analog-to-digital converter is coupled to a voltage level detector for sensing an aggregate level of an aggregate signal on the data bus. The aggregate signal is composed of the termination circuit signal and the test signal. A diagnostic tool determines whether a faulty connection between the data bus and a network device exists, where the sensed aggregate level exceeds at least one of the normal high logic level and the normal low logic level.

Abstract: A multiple forward speed automatic transmission produces its lowest forward speed ratio when a hydraulic clutch and hydraulic brake are disengaged and a one-way clutch connects a ring gear to the transmission casing. Second forward speed ratio results when the hydraulic clutch is engaged to connect the ring gear to the planetary carrier of a second gear set. Reverse drive and regenerative operation result when an hydraulic brake fixes the planetary and the direction of power flow is reversed. Various sensors produce signals representing the position of the gear selector lever operated manually by the vehicle operator, the speed of the power source, the state of the ignition key, and the rate of release of an accelerator pedal. A control algorithm produces input data representing a commanded upshift, a commanded downshift and a torque command and various constant torque signals. A microprocessor processes the input and produces a response to them in accordance with the execution of a control algorithm.

Abstract: A windshield wiper system for continuously controlling position and velocity of a wiper blade as it sweeps across the windshield. The blade is coupled directly to a motor having an encoder for continuously generating actual position pulses related to blade movement across the windshield. Desired position pulses are continuously generated which are related to desired blade position during the sweep. Both desired and actual position pulses are accumulated or counted such that desired and actual blade position are continuously known during the sweep. An error signal is generated by comparing accumulated desired and actual position pulses. Motor speed is corrected in response to the error signal for continuously correcting blade position and velocity.

Abstract: A digital energy meter for providing energy measurements of nonsinusoidal waveforms. Voltage and related current components of a digitally sampled waveform are multiplied to form a product representative of instantaneous power. The products are summed or accumulated over a first time period, and the sums then accumulated over a second time period to form a second sum representative of total power over the second time period. An energy measurement is then obtained by an algorithm which requires only a simple division by a power of two.