DTC P050F:00 [EVP CONTROL UNIT]
id040251837700
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DTC
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P050F:00
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Low power brake unit vacuum
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DETECTION CONDITION
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• Power brake unit vacuum is 30 kPa {225 mmHg, 8.8 inHg} lower or more than the barometric pressure for a continuous 15 s when the electric vacuum pump is operating.
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FAIL-SAFE FUNCTION
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• Refer to “Fail-safe function table”. (See DTC TABLE [EVP CONTROL UNIT].)
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POSSIBLE CAUSE
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• Electric vacuum pump power supply voltage decreases
• Vacuum line malfunction
• Electric vacuum pump malfunction
• Electric vacuum pump drive circuit malfunction
• EVP control unit malfunction
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SYSTEM WIRING DIAGRAM
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Diagnostic Procedure
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Step |
Inspection |
Action |
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1
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RECORD SNAPSHOT DATA TO UTILIZE WITH REPEATABILITY VERIFICATION
• Record the snapshot data on the repair order.
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—
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Go to the next step.
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2
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VERIFY IF SNAPSHOT DATA IS AFFECTED BY OTHER RELATED DTCs OCCURRING
• Using the M-MDS, perform the EVP control unit DTC inspection.
• Are following DTCs detected?
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Yes
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Go to the applicable DTC inspection.
(See DTC TABLE [EVP CONTROL UNIT].)
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No
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Go to the next step.
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3
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DETERMINE IF EVP CONTROL UNIT POWER SUPPLY CIRCUIT MALFUNCTION
• Verify the following items with regard to the recorded snapshot data from Step 1.
• Is the snapshot data VPWR value is 8.3—17.4 V when the snapshot data VPS_FBK is On.
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Yes
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Go to the next step.
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No
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VPWR PID is below 8.3 V:
• Perform the DTC U3003:16 procedure.
VPWR PID is above 17.4 V:
• Go to the next step.
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4
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DETERMINE WHETHER MALFUNCTION IS PAST OR PRESENT
• Using the M-MDS, clear the DTC from the EVP control unit. .
• Switch the ignition ON (engine off).
• Disconnect the EVP control unit connector.
• Access the VS1 and VS2 PIDs using the M-MDS.
• Access the simulation item VPS_FBK using the M-MDS.
• Verify PIDs VS 1 and VS2 when the electric vacuum pump was operated for 10 s by simulation item VPS_FBK.
• Are VS1 and VS2 PIDs 31.5 kPa {236 mmHg, 9.30 inHg}or more?
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Yes
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Go to the next step.
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No
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Go to Step 7.
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5
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DRIVE VEHICLE THEN VERIFY DTC REPEATABILITY
• Using the M-MDS, clear the DTC from the EVP control unit.
• Start the engine and drive the vehicle.
• Using the M-MDS, perform the EVP control unit DTC inspection.
• Is the same Pending DTC present?
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Yes
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Go to Step 7.
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No
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Go to the next step.
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6
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DRIVE VEHICLE THEN VERIFY DTC REPEATABILITY BASED ON SERVICE QUESTIONING RESULTS AND SNAPSHOT DATA
• Using the M-MDS, clear the DTC from the EVP control unit.
• Drive the vehicle based on the service questions content and snapshot data driving conditions.
• Using the M-MDS, perform the EVP control unit DTC inspection.
• Is the same Pending DTC present?
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Yes
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Go to Step 8.
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No
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DTC troubleshooting completed.
Explain to the customer that there are no malfunctions with the vehicle based on the contents of the servicing.
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7
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INSPECT VACUUM LINE
• Inspect the vacuum line.
(See VACUUM LINE INSPECTION.)
• Is the vacuum line normal?
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Yes
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Go to the next step.
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No
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Repair or replace the malfunctioning part, then go to Step 9.
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8
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INSPECT ELECTRIC VACUUM PUMP
• Inspect the electric vacuum pump.
• Is the electric vacuum pump normal?
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Yes
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Go to the next step.
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No
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Replace the electric vacuum pump, then go to the next step.
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9
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VERIFY DTC TROUBLESHOOTING COMPLETED
• Using the M-MDS, clear the DTC from the EVP control unit.
• Using the M-MDS, perform the EVP control unit DTC inspection.
• Is the same Pending DTC present?
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Yes
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Repeat the inspection from Step1.
If the malfunction recurs, replace the EVP control unit, then go to the next step.
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No
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Go to the next step.
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10
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VERIFY NO DTC IS PRESENT
• Are any DTCs present?
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Yes
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Go to the applicable DTC inspection.
(See DTC TABLE [EVP CONTROL UNIT].)
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No
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DTC troubleshooting completed.
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