When the ignition switch is turned ON, the Powertrain Control Module
(PCM) will turn ON the in-tank fuel pump. The in-tank fuel pump will remain
ON as long as the engine is cranking or running and the PCM is receiving reference
pulses. If there are no reference pulses, the PCM will turn OFF the in-tank
fuel pump after 2 seconds since the ignition switch is turned ON or after
2 seconds once the engine stops running. The in-tank fuel pump is an electric
pump within an integral reservoir. The in-tank fuel pump supplies fuel through
an in-line fuel filter to the fuel rail assembly. The fuel pump is designed
to provide fuel at a pressure above the pressure that is needed by the fuel
injectors. A fuel pressure regulator, attached to the fuel rail assembly,
keeps the fuel available to the fuel injectors at a regulated pressure. The
unused fuel is returned to the fuel tank by a separate fuel return pipe.
Number(s) below refer to the step number(s) on the Diagnostic Table.
Fuel System Diagnosis
Step
| Action
| Value(s)
| Yes
| No
|
1
| Did you perform the Powertrain On-Board Diagnostic
(OBD) System Check?
| --
|
Go
to Step 2
| Go to
Powertrain On Board Diagnostic (OBD) System Check
|
2
|
- Turn the ignition switch OFF.
- Turn the air conditioning system OFF.
- Verify fuel is in the fuel tank.
- Relieve the fuel pressure. Refer to
Fuel Pressure Relief
.
- Install the Fuel Pressure Gauge.
- Turn the ignition switch ON.
Important: To avoid false fuel pressure readings, thoroughly bleed all air out
of the fuel pressure gauge.
- Bleed the air out of the fuel pressure gauge into an approved gasoline
container.
- Turn the ignition switch OFF for 10 seconds.
- Turn the ignition switch ON.
Important: The fuel pump will run for approximately 2 seconds. Cycle the
ignition switch as necessary in order to achieve the highest possible
fuel pressure.
- Observe the fuel pressure indicated by the fuel pressure gauge with
the fuel pump running.
Is the fuel pressure within the specified limits?
| 284-325 kPa
(41-47 psi)
|
Go to Step 3
|
Go to Step 12
|
3
|
Important: The fuel pressure may vary slightly when the fuel pump stops running,
the fuel pressure should stabilize and remain constant.
Note the fuel pressure after the fuel pump stops running.
Does the fuel pressure drop more than the specified value in 10 minutes?
| 34 kPa (5 psi)
|
Go
to Step 10
|
Go to Step 4
|
4
|
- Relieve the fuel pressure to the first specified value
- Monitor the fuel pressure.
Does the fuel pressure drop more than the second specified value in
10 minutes?
| 69 kPa (10 psi) 14 kPa (2 psi)
|
Go to Step 21
|
Go to Step 5
|
5
| Is the fuel pressure suspected of dropping-off during
acceleration, cruise, or hard cornering?
| --
|
Go to Step 6
|
Go to Step 8
|
6
| Visually and
physically inspect the following items for a restriction:
• | The in-line fuel filter. |
Was a restriction found?
| --
|
Go to Step 24
|
Go
to Step 7
|
7
|
- Remove the modular sender assembly. Refer to
Fuel Sender Assembly Replacement
- Visually and physically inspect the following items:
• | The fuel pump strainer for a restriction. |
• | The fuel pump flex pipe for leaks. |
• | Verify the fuel pump is the correct fuel pump for this vehicle. |
• | Broken baffles in the fuel tank. |
• | The fuel pump electrical wiring for high resistance. |
Was a problem found in any of these areas?
| --
|
Go to Step 24
|
Go to Step 20
|
8
|
- Start the engine.
- Observe the fuel pressure indicated by the fuel pressure gauge.
Is the fuel pressure within the specified limits?
| 214-303 kPa
(31-44 psi)
| System OK,
Go to
|
Go to Step 9
|
9
|
- Disconnect the vacuum hose from the fuel pressure regulator.
- With the engine idling, apply 41-47 kPa (12-14 in.
Hg) of vacuum to the fuel pressure regulator.
Is the fuel pressure within the specified limits and remain constant?
| 214-303 kPa (31-44 psi)
|
Go to Step 19
|
Go to Step 20
|
10
|
- Turn OFF the ignition switch.
- Relieve the fuel pressure . Refer to
Fuel Pressure Relief
- Place the bleed hose of the fuel pressure gauge into an approved
gasoline container.
- Turn the ignition switch ON.
- Bleed the air out of the fuel pressure gauge.
- Using a scan tool pressurize the fuel system.
Important: Repeat pressurizing the fuel system with the scan tool as necessary
to achieve the highest possible fuel pressure.
- Wait for the fuel pressure to build.
- Slowly pinch the gauge inlet hose.
Does the fuel pressure remain constant?
| --
|
Go to Step 21
|
Go to Step 11
|
11
|
- Using a scan tool pressurize the fuel system.
- Wait for the fuel pressure to build.
- Close the valve in the fuel pipe shut-off adapter that is connected
to the fuel return pipe (2 on illustration).
Does the fuel pressure indicated by the fuel pressure gauge remain constant?
| --
|
Go to Step 20
|
Go to Step 22
|
12
| Is the fuel pressure above the specified limit?
| 325 kPa (47 psi)
|
Go
to Step 13
|
Go to Step 15
|
13
|
- Relieve the fuel pressure by placing the bleed hose of the fuel
pressure gauge into an approved gasoline container and opening the relief
valve.
- Disconnect the fuel return hose quick-connect fitting .
- Place the open end of the flexible hose into an approved gasoline
container.
- Turn the ignition switch OFF for approximately 10 seconds.
- Turn the ignition switch ON.
- Observe the fuel pressure gauge with the fuel pump running.
Is the fuel pressure within the specified limits?
| 284-325 kPa
(41-47 psi)
|
Go to Step 23
|
Go to Step 14
|
14
| Visually and physically inspect
the fuel outlet passages for a restriction.
Was a restriction found?
| --
|
Go to Step 24
|
Go
to Step 20
|
15
| Is the fuel pressure above the
specified value?
| 0 kPa (0 psi)
|
Go to Step 16
|
Go to Step 17
|
16
|
- Relieve the fuel pressure by placing the bleed hose of the fuel
pressure gauge into an approved gasoline container and opening the relief
valve.
- Using a scan tool, pressurize the fuel system.
- Wait for the fuel pressure to build.
- Slowly pinch the fuel pressure gauge outlet hose while the fuel
pump is running.
Does the fuel pressure indicated by the fuel pressure gauge rise above
the first specified value?
| 325 kPa (47 psi) 414 kPa
(60 psi)
|
Go to Step 20
|
Go to Step 7
|
17
| Refer to
Fuel Pump Electrical Circuit Diagnosis
to diagnose the fuel pump electrical circuit.
Was a problem found with the fuel pump electrical circuit?
| --
|
Go to Step 24
|
Go to Step 18
|
18
| Visually and physically inspect the following
items:
• | The in-line fuel filter for obstructions. |
• | The fuel feed pipe for a restriction. |
• | The fuel pump strainer for obstructions. |
• | The fuel pump flex pipe for leaks. |
Was a problem found in any of these areas?
| --
|
Go to Step 24
|
Go to Step 21
|
19
| Locate and
repair the loss of vacuum to the fuel pressure regulator.
Is the action complete?
| --
| System OK
| --
|
20
| Replace the fuel pressure regulator.
Refer to
Fuel Pressure Regulator Replacement (SFI)
.
Is the action complete?
| --
| System OK
| --
|
21
| Replace the modular fuel sender.
Refer to .
Is the action complete?
| --
| System OK
| --
|
22
| Locate and
replace any leaking fuel injector(s).
Refer to
Sequential Multiport Fuel Injector Replacement
.
Is the action complete?
| --
| System OK
| --
|
23
| Locate and correct the restriction in the fuel return pipe.
Is the action complete?
| --
| System OK
| --
|
24
| Repair the problem as necessary.
Is the action complete?
| --
| System OK
| --
|