Downloaded from www.Manualslib.com manuals search engine Torque Specifications
DESCRIPTIONTORQUE (N·m)
Bow Beam to Plate Bolts 60 ± 5
Front Intermediate Shaft to ITM Controller Bolts 70 ± 7
ITM Bracket to Bow Beam Bolts 60 ± 5
ITM Control Module Bolts 9 ± 1
Transaxle to Transfer Case Bolts 80
Rear Intermediate Shaft to ITM Controller Bolts 39 ± 3
Rear Intermediate Shaft to Rear Differential Bolts 65 ± 6
Transfer Case Fluid-Limiting Bolt 40 ± 3
Transfer Case Fluid Fill Bolt 40 ± 3
Transfer Case Fluid Drain Bolt 40 ± 3
Transfer Case Front Housing Bolt 35
Transfer Case Rear Housing Bolts 40
Transfer Case Right Bearing Seat Bolt 35
Transfer Case Vent Bolt 18 ± 3
Fluid Specifications
NAMETYPEQUANTITYMAINTENANCE TERM
Transaxle Gear Fluid GL-4 75w-902.2 Liters1 year / 30,000 km
Transfer Case Gear Fluid GL-5 80w-900.8 Liters50,000 km
Rear Final Drive Gear
Fluid Hypoid 85w-90
0.8 Liters50,000 km
Transfer Case Specifications
Differential Assembly
Side GearType of Gear Straight bevel gear
Number of Gears 14
Planetary Gear Type of Gear
Straight bevel gear
Number of Gears 10
Hypoid G Gear Drive GearNumber of Gears 41
Driven Gear Number of Gears 14
ITM Control Module Electronic Signals
SIGNALSMODE OF PROVISION SIGNAL SOURCE
Signals Of The Four Wheel Speed CANWheel Speed Sensor
Vehicle Speed Signals CANVehicle Speed Sensor
Acceleration Signals CANG Sensor
Engine Speed Signals CANCrankshaft Position Sensor
Throttle Position Signals CANThrottle Position Sensor
Steering Wheel Angle Signals SimulatedITM Module
Ignition Switch Signals DirectIgnition Switch
GENERAL INFORMATION
09
09–19Chery Automobile Co., Ltd.
Downloaded from www.Manualslib.com manuals search engine ON-VEHICLE SERVICE
Interactive Torque Management (ITM) Controller
Description
The ITM Controller is mounted between the front and rear intermediate drive shafts.
NOTE :
Under normal vehicle usage, the ITM Controller requires no maintenance
Operation
The ITM Controller transfers the torque output from the transaxle to the rear drive axle.
LTSM160008
LTSM160005T
09
09–21Chery Automobile Co., Ltd.
Downloaded from www.Manualslib.com manuals search engine INSTRUMENT CLUSTER
Description
The Instrument Cluster (IC) is located in the instrument panel directly in front of the driver. The IC is used to inform
the driver of specific vehicle information. The IC uses indicator lamps and gauges to warn the driver of potentially
critical operating conditions.
Operation
The Instrument Cluster (IC) uses hard wired inputs from various sensors and switches. The sensors and switches are
located throughout the vehicle. The IC displays the following gauges:
•Speedometer - The IC displays the vehicle speed as determined by the Engine Control Module (ECM).
• Tachometer - The IC displays the engine speed as determined by the Engine Control Module (ECM).
• Temperature Gauge - The IC displays the engine coolant temperature as determined by the Engine Control
Module (ECM).
• Fuel Gauge - The IC displays the amount of fuel in the fuel tank as determined by the fuel level sensor.
1 - Tachometer
2 - Maintenance Indicator Light
3 - Cruise Indicator Light
4 - Parking Brake System Warning Light
5 - Parking Light
6 - Malfunction Indicator Light
7 - Left-Turn Light
8 - Door/Trunk Lid Open Warning Display
9 - Charging System Light
10 - Front Fog Light Indicator Light
11 - Brake System Warning Light
12 - High Beam Indicator Light
13 - Speedometer
14 - Airbag Light
15 - Rear Fog Light Indicator Light16 - 4WD Warning Light (If Equipped)
17 - Right-Turn Light
18 - Low Fuel Warning Light
19 - ABS Warning Light
20 - Oil Pressure Warning Light
21 - Fuel Gauge
22 - Temperature Gauge
23 - Electronic Throttle Control Indicator Light
24 - Km/h Light
25 - Transaxle Range Indicator (If Equipped)
26 - Odometer/Trip Odometer
27 - Digital Clock
28 - Adjust Button
29 - Seat Belt Reminder Light
30 - Coolant Temperature Warning Light
LTSM150129
15–52Chery Automobile Co., Ltd.
Downloaded from www.Manualslib.com manuals search engine DIAGNOSIS & TESTING
Clearing Service Monitor Lamp
Perform the following to clear the service monitor lamp:1. Turn the ignition switch off.
2. Press down and hold the Mode switch.
3. Turn the ignition switch on.
4. Release the Mode switch.
5. Press the Mode switch and the Clock switch simultaneously within 30 seconds and hold less than 2 seconds to clear the mileage maintenance identification.
Diagnostic Help
1. The X-431 scan tool connects to the Data Link Connector (DLC) and communicates with the vehicle electronicmodules through the class two serial data circuit.
2. Confirm that the malfunction is current and carry-out the diagnostic tests and repair procedures.
3. If the DTC cannot be deleted, it is a current fault.
4. Use a digital multimeter to perform voltage readings on electronic systems.
5. Refer to any Technical Bulletins that issued.
6. Visually inspect the related electrical wiring harness.
7. Inspect and clean all Instrument Cluster (IC) grounds that are related to the DTC.
8. If numerous trouble codes were set, use the electrical schematic and look for any common ground circuits or voltage supply circuits that may apply to the DTC.
Intermittent DTC Troubleshooting
If the failure is intermittent, perform the following:
•Check for loose connectors.
• Look for any chafed, pierced, pinched, or partially broken wires.
• Monitor the scan tool data relative to this circuit.
• Wiggle the related electrical wiring harness and connectors while looking for an interrupted signal on the
affected circuit.
• If possible, try to duplicate the conditions under which the DTC set.
• Look for the data to change or for the DTC to reset during the wiggle test.
• Look for broken, bent, pushed out or corroded terminals.
• Inspect the sensor and mounting area for any condition that would result in an incorrect signal, such as dam-
age or foreign material.
• A data recorder, and/or oscilloscope should be used to help diagnose intermittent conditions.
Ground Inspection
Ground connections are very important to the proper operation of electrical and electronic circuits. Ground connec-
tions are often exposed to moisture, dirt and other corrosive elements. The corrosion (rust) can become an unwanted
resistance. This added resistance can alter the way a circuit works.
Electronically controlled circuits are very sensitive to proper grounding. A loose or corroded ground can drastically
affect an electronically controlled circuit. A poor or corroded ground can effect the circuit. Perform the following when
inspecting a ground connection:
1. Remove the ground bolt or screw.
2. Inspect all mating surface for tarnish, dirt, rust, etc.
3. Clean as required to assure good contact.
4. Reinstall bolt or screw securely.
5. Inspect for �add-on�accessories which may be interfering with the ground circuit.
6. If several wires are crimped into one ground eyelet terminal, check for proper crimps. Make sure all of the wires are clean, securely fastened and providing a good ground path. If multiple wires are crimped to one eyelet, make
sure no excess wire insulation has been crimped creating a bad ground.
15–64Chery Automobile Co., Ltd.
