3500 4x4 Pickup L6-359 5.9L DSL Turbo (1996)
-
O2 Sensor 2/1 Output Voltage Low
-
O2 Sensor 2/2 Output Voltage Low
-
Charging System Working
-
Power Steering Switch Working
-
Thermostat Working
-
O2 Sensor 1/1 (open circuit or high voltage)
-
O2 Sensor 1/2 (open circuit or high voltage)
-
O2 Sensor 2/1 (open circuit or high voltage)
-
O2 Sensor 2/2 (open circuit or high voltage)
Overview
OVERVIEW
The Powertrain Control Module (PCM) features a multi-processor environment (one 16 bit microcomputer, two 8 bit micro-computers) allowing
parallel processing of time critical operations. Dedication of one 8 bit processor (K4) to spark control and the other 8 bit processor (D3) to fuel
control allows increases in throughput and reduced software complexity in the 16 bit microcomputer (Z2). The result is increased capability in the
Z2 to handle overall strategy implementation, OBDII, and other computation-intensive processes. This approach allows control of up to a ten
cylinder engine running in excess of 6,500 RPM.
Transmission Control
TRANSMISSION CONTROL
The PCM operation includes control of 3 and 4 speed automatic transmissions utilizing electronic governor pressure control, eliminating the need
for a separate transmission controller. Transmission control is achieved through regulation of governor pressure using a variable force solenoid
valve. (Valve position is controlled by pulse width modulation. Torque convertor lock-up and overdrive solenoids are also controlled by the PCM,
as are the transmission protection relay and dashboard overdrive lamp. PCM inputs affecting transmission operation include the throttle position
sensor, output shaft speed sensor, vehicle speed sensor, engine speed sensor, brake switch, cruise control switches, ignition, overdrive on/off
switch and sump fluid temperature thermistor.
Electronic Governor Pressure Control
Regulation of governor pressure enables control of WOT shift points to within +/- 50 RPM resulting in improved shift quality (as opposed to
control to within +/- 300 RPM in transmission utilizing mechanical governors). The elimination of the mechanical governor resulted in a
physically smaller and lighter package. Torque calculation can be used to determine when upshifting is advantageous.
Anti-Hunt Shift Strategy
This strategy was added in order to maintain fuel economy over a variety of load conditions. This technique allows for relatively early upshift
in mid-range throttle settings under light load conditions, resulting in improved fuel economy. Under heavier loading, shifts are delayed to
prevent upshifting into a condition where insufficient torque is available to maintain vehicle speed, resulting in downshift/upshift cycling.
Sump Pump Temperature Sensing
A thermistor is attached to the lock-up solenoid and submerged in the sump fluid. The sump fluid temperature is a factor in the calculation of
WOT shift strategy, low temperature shift compensation, sump temperature limiting strategy, overdrive strategy, torque converter clutch
strategy, and governor pressure transducer calibration.