P1613
DTC P1613 Secondary Air Injection Driver MalfunctionDESCRIPTION
DTC Detection Condition:
The Secondary Air Injection (AIR) system pumps air to the exhaust port to accelerate the activation of the catalyst. The secondary air injection system consists of the ECM, air pump, Air Switching Valve (ASV) (EASV), Air Switching Valve No. 2 (ASV No. 2) (ASV1, 2), pressure sensor and Air Injection Control Driver (AID). The Air Switching Valve (ASV) (EASV) is an electromagnetic type and Air Switching Valve No. 2 (ASV No. 2) (ASV1, 2) is a vacuum type.
The secondary air injection system pumps pressurized air to the exhaust port by the air pump through the ASV and ASV No. 2. The ASV assists the ASV No. 2. The ASV No. 2 also controls air supply.
The ECM sends signals to the AID, and then the AID operates the air pump and ASV. The pressure sensor detects pressure and exhaust pulsation in the system when the system operates and when it does not operate, and sends the data to the ECM.
MONITOR DESCRIPTION
Monitor Strategy:
Typical Enabling Conditions (Part 1):
Typical Enabling Conditions (Part 2):
Typical Malfunction Thresholds:
Component Operating Range:
When the air injection system operation is required while the engine is warming up, the ECM transmits command signals to the Air Injection Control Driver (AID) to drive the air pump and Air Switching Valve (ASV).
AID detects an open and short in the air pump and air switching valve circuit according to the terminal voltage and sends a signal as the diagnostic information to the ECM.
If the air injection system drive circuit or the AID itself has a malfunction, the AID sends a malfunction signal (duty signal) as a diagnostic information signal 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 information signal output from AID is 0 or 100% (remains at 0 V or battery voltage).
2. The duty ratio of the diagnostic signal from the AID shows an impossible ratio (other than 0, 20, 40, 60, 80, 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 1-2:
Step 2(Continued)-3:
Step 4-5:
Step 6-7:
Step 8-10:
Step 10(Continued):
INSPECTION PROCEDURE
HINT: The diagnostic information output from the Air Injection Control Driver (AID) can be confirmed by connecting an oscilloscope to the diagnostic information terminal of the AID. A trouble area search can be narrowed by reading the waveform on the oscilloscope when performing the AIR system intrusive operation function provided in the SYSTEM CHECK.
1. Start the engine and warm it up.
2. Turn the ignition switch OFF.
3. Connect the intelligent tester to the DLC3 with CAN VIM.
4. Connect an oscilloscope probe to the AIDI terminal of the ECM.
5. Start the engine and turn the tester ON.
6. On the tester, enter the following menus: DIAGNOSIS / ENHANCED OBD II / SYSTEM CHECK / AIR INJ SYSTEM.
7. On the tester, enter the following menus: DIAGNOSIS / ENHANCED OBD II / SYSTEM CHECK / AIR INJ CHECK / MANUAL OPERATION / OPERATION 1 and 2.
HINT:
OPERATION 1: AP: OFF; EASV: CLOSE; ASV1: CLOSE; ASV2: OFF
OPERATION 2: AP: ON; EASV: OPEN; ASV1: OPEN; ASV2: OPEN
8. Monitor the voltage output of the AID (duty ratio signal).
Part 1:
Part 2:
Oscilloscope Waveform (Part 1):
Oscilloscope Waveforms (Part 2):
NOTE:
- This AIR INJECTION CHECK only allows technicians to operate the AIR system for 5 seconds. Furthermore, the check can be performed 4 times a trip. If the test is repeated, intervals of at least 30 seconds are required between checks. While the AIR system operation using the intelligent tester is prohibited, the tester displays the prohibition (WAIT or ERROR). If ERROR (AI STATUS NG) is displayed on the tester, stop the engine for 10 minutes and then try again.
- Performing the AIR INJ CHECK over and over again may cause damage in the secondary air injection system. If necessary, wait several minutes between tests to prevent overheating the system.
- When performing the AIR INJ CHECK 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 operation finishes.
HINT:
- Using the AIR INJ CHECK operation of the SYSTEM CHECK provided in the intelligent tester function, conditions for air fuel ratio and pressure in the secondary air injection system passage can be checked while the secondary air injection system is operating. It helps technicians to troubleshoot the system when it is malfunctioning.
- Read freeze frame data using the intelligent tester. The ECM records vehicle and driving condition information as freeze frame data the moment a DTC is stored. When troubleshooting, freeze frame data can be helpful in determining whether the vehicle was running or stopped, whether the engine was warmed up or not, whether the air/fuel ratio was lean or rich, as well as other data recorded at the time of a malfunction.