P1614
DTC P1613 Secondary Air Injection Driver MalfunctionDTC P1614 Secondary Air Injection System Driver Bank 2
DESCRIPTION
DTC Detection Condition:
The Secondary Air Injection (AIR) system consists of an air pump, the Air Switching Valve (ASV), a pressure sensor, the Air Injection Control Driver (AID) and the ECM. For a short time after cold engine starts, the AIR system pumps secondary air to the exhaust port of the cylinder head to purify the exhaust emissions. The secondary air is supplied by the air pump and is pumped to the exhaust port through the ASV.
The AID drives the ASV and the air pump according to command signals transmitted by the ECM. The pressure sensor detects the pressure in the secondary air passage when the AIR system is ON and OFF, and transmits a pressure signal to the ECM. The AID is not only equipped to drive the pump and valve, but also with a diagnosis function to detect malfunctions in the AIR system circuit.
MONITOR DESCRIPTION
Monitor Strategy (Part 1):
Monitor Strategy (Part 2):
Typical Enabling Conditions:
Typical Malfunction Thresholds:
Component Operating Range:
For a short time after cold engine starts, the ECM transmits command signals to the Air Injection Control Driver (AID) to drive the air pump and the Air Switching Valve (ASV). The AID detects open and short circuits according to the voltages at the AID terminals to the air pump and ASV, and the circuit voltage of the AID power source, and transmits diagnostic information as a signal to the ECM.
If the Secondary Air Injection (AIR) system circuit or the AID itself malfunctions, the AID sends a malfunction signal (duty signal) as diagnostic information to the ECM (when the system is normal, a system normal signal is sent). The ECM sets the DTC based on the diagnostic information from the AID.
EXAMPLE:
1. The duty ratio of the diagnostic signal from the AID is 0 or 100% (remains at 0 V or the same as battery voltage).
2. The duty ratio of the diagnostic signal from the AID shows an impossible ratio (other than 0, 20, 40, 80 and 100%).
3. The AID outputs the normal signal (normal duty signal: 80%) while the system is not operating.
Wiring Diagram (Part 1):
Wiring Diagram (Part 2):
Step 1:
Step 2:
Step 3:
Step 3(Continued)-6:
Step 6(Continued):
INSPECTION PROCEDURE
HINT: Diagnostic information output by the AID can be confirmed by connecting an oscilloscope to the diagnostic information terminal of the AID. Reading the waveform while performing the AIR system intrusive operation provided in the System Check function, allows the possible trouble areas to be narrowed down.
NOTE:
- This AIR INJ CHECK*1 (Air Injection Check*2) only allows technicians to operate the AIR system for a maximum of 5 seconds. Furthermore, the check can only be performed up to 4 times per trip. If the test is repeated, intervals of at least 30 seconds are required between checks. While AIR system operation using the intelligent tester or Techstream is prohibited, the tester display indicates the prohibition (Wait or Error).
If an Error is displayed on the tester during the test, stop the engine for 10 minutes, and then try again.
- Performing the AIR INJ CHECK*1 (Air Injection Check*2) repetitively may cause damage to the AIR system. If necessary, leave an interval of several minutes between System Check operations to prevent the system from overheating.
- When performing the AIR INJ CHECK*1 (Air Injection Check*2) operation after the battery cable has been reconnected, wait for 7 minutes with the ignition switch turned ON or the engine running.
- Turn the ignition switch OFF when the AIR INJ CHECK*1 (Air Injection Check*2) operation finishes.
- *1: Intelligent tester
- *2: Techstream
HINT:
- By using the intelligent tester or Techstream to perform the AIR INJ CHECK*1 (Air Injection Check*2) operation in the System Check, the air-fuel ratio and the pressure in the secondary air injection system passage can be checked while the secondary air injection system is operating. This helps technicians to troubleshoot the system when it malfunctions.
- Read freeze frame data using the intelligent tester or Techstream. Freeze frame data records the engine condition when malfunctions are detected. When troubleshooting, freeze frame data can help determine if the vehicle was moving or stationary, if the engine was warmed up or not, if the air-fuel ratio was lean or rich, and other data from the time the malfunction occurred.
- *1: Intelligent tester
- *2: Techstream