Dodge Journey: Description, Operation
DESCRIPTION
Fig. 29: Removing/Installing ECM - 2.0L Diesel
The ECM (3) is located in the left side of engine compartment attached to the left inner fender below the air filter housing.
OPERATION
The ECM has been programmed to monitor different circuits of the diesel fuel injection system. This monitoring is called on-board diagnostics. Certain criteria must be met for a diagnostic trouble code to be entered into the ECM memory. The criteria may be a range of: engine rpm, engine temperature, time or other input signals to the ECM. If all of the criteria for monitoring a system or circuit are met, and a problem is sensed, then a DTC will be stored in the ECM memory. It is possible that a DTC for a monitored circuit may not be entered into the ECM memory, even though a malfunction has occurred. This may happen when the monitoring criteria have not been met. The ECM compares input signal voltages from each input device with specifications (the established high and low limits of the input range) that are programmed into it for that device. If the input voltage is not within the specifications and other trouble code criteria are met, a DTC will be stored in the ECM memory.
ECM OPERATING MODES
As input signals to the ECM change, the ECM adjusts its response to the output devices. For example, the ECM must calculate a different fuel quantity and fuel timing for engine idle condition than it would for a wide open throttle condition. There are several different modes of operation that determine how the ECM responds to the various input signals.
Ignition Switch On (Engine Off)
When the ignition is turned on, the ECM activates the glow plug relay for a time period that is determined by engine coolant temperature, atmospheric temperature and battery voltage.
Engine Start-Up Mode
The ECM uses the engine temperature sensor and the crankshaft position sensor (engine speed) inputs to determine fuel injection quantity.
Normal Driving Modes
Engine idle, warm-up, acceleration, deceleration and wide open throttle modes are controlled based on all of the sensor inputs to the ECM. The ECM uses these sensor inputs to adjust fuel quantity and fuel injector timing.
Limp-In Mode
If there is a fault detected with the accelerator pedal position sensor, the ECM will set the engine speed at 1100 RPM.
Overspeed Detection Mode
If the ECM detects engine RPM that exceeds 5200 RPM, the ECM will set a DTC in memory and illuminate the MIL until the DTC is cleared.
After-Run Mode
The ECM transfers RAM information to ROM and performs an Input/Output state check.
MONITORED CIRCUITS
The ECM is able to monitor and identify most driveability related trouble conditions. Some circuits are directly monitored through ECM feedback circuitry. In addition, the ECM monitors the voltage state of some circuits and compares those states with expected values. Other systems are monitored indirectly when the ECM conducts a rationality test to identify problems. Although most subsystems of the engine control module are either directly or indirectly monitored, there may be occasions when diagnostic trouble codes are not immediately identified. For a trouble code to set, a specific set of conditions must occur and unless these conditions occur, a DTC will not set.
DIAGNOSTIC TROUBLE CODES
Each diagnostic trouble code (DTC) is diagnosed by following a specific procedure. The diagnostic test procedure contains step-by-step instruction for determining the cause of the DTC as well as no trouble code problems. Refer to the appropriate Diesel Powertrain Diagnostic service information for more information.
HARD CODE
A DTC that comes back within one cycle of the ignition key is a hard code. This means that the problem is current every time the ECM/SKIM checks that circuit or function. Procedures in this service information verify if the DTC is a hard code at the beginning of each test. When the fault is not a hard code, an intermittent test must be performed. NOTE: If the scantool displays faults for multiple components (i.e. ECT, VSS, IAT sensors) identify and check the shared circuits for possible problems before continuing (i.e. sensor grounds or 5- volt supply circuits). Refer to the appropriate schematic diagram to identify shared circuits. Refer to the appropriate Diesel Powertrain Diagnostic service information for more information.
INTERMITTENT CODE
A DTC that is not current every time the ECM/SKIM checks the circuit or function is an intermittent code.
Most intermittent DTCs are caused by wiring or connector problems. Problems that come and go like this are the most difficult to diagnose; they must be looked for under specific conditions that cause them. NOTE: Electromagnetic (radio) interference can cause an intermittent system malfunction. This interference can interrupt communication between the ignition key transponder and the SKIM.
The following checks may assist you in identifying a possible intermittent problem:
- Visually inspect the related wire harness connectors. Look for broken, bent, pushed out or corroded terminals.
- Visually inspect the related wire harness. Look for chafed, pierced or partially broken wire.
- Refer to hotlines or technical service bulletins that may apply.
Refer to the appropriate Diesel Powertrain Diagnostic service information for more information.
ECM DIAGNOSTIC TROUBLE CODES
NOTE: Before replacing the ECM for a failed driver, control circuit or ground circuit, be sure to check the related component/circuit integrity for failures not detected due to a double fault in the circuit. Most ECM driver/control circuit failures are caused by internal failures to components (i.e. relays and solenoids) and shorted circuits (i.e. sensor pull-ups, drivers and ground circuits). These faults are difficult to detect when a double fault has occurred and only one DTC has set. If the scan tool displays faults for multiple components (i.e.VSS, ECT, Batt Temp, etc.) identify and check the shared circuits for possible problems before continuing (i.e. sensor grounds or 5-volt supply circuits). Refer to SYSTEM WIRING DIAGRAMS to identify shared circuits. Refer to the appropriate Diesel Powertrain Diagnostic service information for more information.
STANDARD PROCEDURE
PCM/ECM REPROGRAMMING
Follow the instructions in order, refer to RECEIVER, Wireless Ignition Node .
Removal, Installation
REMOVAL Fig. 30: Air Inlet Duct 1. Remove air inlet duct (3). 2. Disconnect negative battery cable. 3. Disconnect vacuum hose (1). 4. Remove air filter housing assembly (2). Fig. 31: R ...See also:
Intermediate shaft, gas
REMOVAL
2.4L
1. Remove the right half shaft.
Fig. 44: Intermediate Shaft - 2.4L
2. Remove the three intermediate shaft bolts (1).
3. Remove the intermediate shaft (2).
2.7L
1. Remove the r ...
Removal, Installation
REMOVAL
WARNING: Disable the airbag system before attempting any steering
wheel, steering
column or instrument panel component diagnosis or service. Disconnect
and isolate the negati ...
Installation
Fig. 137: Rear Mount Bracket
1. If transmission brackets were removed or transmission was replaced install
the rear mount bracket and
tighten (1) to 100 N.m (74 ft. lbs.).
Fig. 138: Front Mou ...