Throttle SUZUKI SWIFT 2008 2.G Service Manual Online

Downloaded from www.Manualslib.com manuals search engine 1D-15 Engine Mechanical:
Installation
Reverse removal procedure for installation noting the
followings.
• Use new intake manifold gasket (1).
• Use new EGR pipe gasket (2).
• Install intake manifold bolts (3) and nuts (4) to specified torque.
Tightening torque
Intake manifold bolt (a): 23 N·m (2.3 kgf-m, 17.0
lb-ft)
Intake manifold nut (b): 23 N·m (2.3 kgf-m, 17.0
lb-ft) • Install intake manifold rear stiffener (1) as shown in
figure.
• Connect ground terminal (2) to intake manifold to specified torque.
Tightening torque
Intake manifold ground terminal bolt (a): 11 N·m (
1.1 kgf-m, 8.0 lb-ft)
• Install throttle body referrin g to “Electric Throttle Body
Assembly Removal and Installation”.
• Install cowl top plate referring to “Cowl Top Components in Section 9K”.
• Refill cooling system refe rring to “Cooling System
Flush and Refill in Section 1F”.
• Upon completion of installation, turn ignition switch ON but engine OFF and check for fuel leaks.
• Finally, start engine and check for engine coolant leaks.
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2
3,(a)
4,(b)
I6RS0B141011-01
(a)
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I6RS0B141012-01

Downloaded from www.Manualslib.com manuals search engine 1D-17 Engine Mechanical:
Engine Assembly Removal and InstallationS7RS0B1406011
NOTE
After replacing electric throttle body
assembly, perform calibration of throttle
valve referring to “Electric Throttle Body
System Calibration in Section 1C”.

Removal1) Relieve fuel pressure according to “Fuel Pressure Relief Procedure in Section 1G”.
2) Disconnect negative and pos itive cable at battery.
3) Remove battery and tray.
4) Remove engine hood after disconnecting windshield washer hose.
5) Remove right and left side engine under covers.
6) Remove A/C compressor belt by referring to “Compressor Drive Belt Remo val and Installation in
Section 7B” or “Compressor Drive Belt Removal and
Installation in Section 7B”.
7) Drain engine oil, transaxle oil and coolant.
8) Remove cowl top plate referring to “Cowl Top Components in Section 9K”.
9) Remove air cleaner assembly referring to “Air Cleaner Components”.
10) With hose connected, detach A/C compressor from its bracket (A/C model) referring to “Compressor
Assembly Removal and Installation in Section 7B” or
“Compressor Assembly Removal and Installation in
Section 7B”.
CAUTION!
Suspend removed A/C compressor at a place
where no damage will be caused during
removal and installation of engine assembly.

11) Remove intake manifold rear stiffener (1) from intake manifold and cylinder block. 12) Disconnect the following electric wires:
• MAP sensor (1)
• ECT sensor (2)
•EGR valve (3)
• CMP sensor (4)
• Electric throttle body assembly (5)
• Ignition coil assembly (6)
• Injectors (7)
• Heated oxygen sensor No. 2 (8) and No. 1 (9)
• Oil control valve (10)
• Engine oil pressure switch (11)
• CKP sensor (12)
• Knock sensor (13)
• Back up light switch (14)
• Generator (15)
• Starting motor (16)
• Ground terminal (17) from intake manifold
• Battery ground terminal (18) from exhaust manifold
• Battery ground cable (19) from transaxle
• Magnet clutch switch of A/C compressor (A/C model)
• Each wire harness clamps
• Output shaft speed sensor (VSS) (34) (A/T model)
• Solenoid valve (33) (A/T model)
• Transmission range sensor (32) (A/T model)
• Input shaft speed sensor (31) (A/T model)
13) Remove fuse box from its bracket.
14) Disconnect the following cables: • Gear select control cable (23) (M/T model)
• Gear shift control cable (24) (M/T model)
• A/T select cable (A/T model)
15) Disconnect the following hoses: • Brake booster hose (26) from intake manifold
• Radiator inlet and outlet hoses (20) from each pipe
• Heater inlet and outlet hoses (21) from each pipe
• Fuel feed hoses (22) from fuel feed pipe
• EVAP canister purge valve hose (30) from purge pipe
• A/T fluid cooler hoses (A/T model)
16) With hose connected, detach clutch operating cylinder (25). (M/T model)
CAUTION!
Suspend removed clutch operating cylinder
at a place where no damage will be caused
during removal and installation of engine
assembly.

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I6RS0B141014-01

Downloaded from www.Manualslib.com manuals search engine 1D-65 Engine Mechanical:
NOTE
The specified tightening torque is also described in the following.
“Air Cleaner Components”
“Throttle Body and Intake Manifold Components”
“Engine Mountings Components”
“Timing Chain Cover Components”
“Timing Chain and Chain Tensioner Components”
“Camshaft, Tappet and Shim Components”
“Valves and Cylinder Head Components”
“Pistons, Piston Rings, Connecting Rods and Cylinders Components”
“Main Bearings, Crankshaft and Cylinder Block Components”

Reference:
For the tightening torque of fastener not specified in this section, refer to “Fasteners Information in Section 0A”.
Connecting rod bearing cap bolt
15 N⋅m (1.5 kgf-m, 11.0 lb-ft) and then
retighten by turning through 45 ° twice )
/ )
Sensor plate bolt 111.1 8.0 )
Piston cooling valve 111.1 8.0 )
Main bearing cap No.1 bolt (a) 30 N⋅m (3.0 kgf-m, 22.0 lb-ft), 50 N ⋅m (5.0
kgf-m, 36.5 lb-ft) and then retighten by
turning through 60 ° )
Main bearing cap No.2 bolt (b) 252.5 18.0 )
Rear oil seal housing bolt 111.1 8.0 )
Flywheel or drive plate bolt 707.0 51.0 )
Main bearing cap No.1 bolt 30 N⋅m (3.0 kgf-m, 22.0 lb-ft), 50 N ⋅m (5.0
kgf-m, 36.5 lb-ft) and then retighten by
turning through 60 ° )
Main bearing cap No.2 bolt 252.5 18.0 ) / )
Main bearing cap No.1 bolt 30 Nm (3.0 kgf-m, 22.0 lb-ft), 50 Nm (5.0
kgf-m, 36.5 lb-ft) and then retighten by
turning through 60 ° )
Fastening part
Tightening torque
Note
N ⋅mkgf-mlb-ft

Downloaded from www.Manualslib.com manuals search engine Engine Cooling System: 1F-2
Coolant capacity
For M/T model:• Engine, radiator and heater: 5.5 liters (11.62/9.68 US/lmp pt.)
• Reservoir: 0.7 liters (1.48/1.23 US/lmp pt.)
• Total: 6.2 liters (13.10/10.91 US/lmp pt.)
For A/T model: • Engine, radiator and heater: 5.4 liters (11.41/9.50 US/lmp pt.)
• Reservoir: 0.7 liters (1.48/1.23 US/lmp pt.)
• Total: 6.1 liters (12.89/10.74 US/lmp pt.)
Schematic and Routing Diagram
Coolant CirculationS7RS0B1602001
While the engine is warmed up (thermosta t closed), coolant circulates as follows.
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10 3 7
4
9
8
6
5
2 12 1
13
I6RS0C160001-01
1. Radiator inlet hose
6. Water pump11. Heater core
2. Radiator outlet hose 7. Throttle body12. Radiator
3. Throttle body inlet hose 8. Engine13. Heat exchanger
4. Throttle body outlet hose 9. Heater core inlet hose
5. Thermostat 10. Heater core outlet hose

Downloaded from www.Manualslib.com manuals search engine 1F-3 Engine Cooling System:
When coolant is warmed up to normal temperature and the thermostat opens, coolant passes through the radiator
core to be cooled as follows.
11
10 3 7
4
9
8
6
5
2 12 1
13
I6RS0C160002-01
1. Radiator inlet hose
6. Water pump11. Heater core
2. Radiator outlet hose 7. Throttle body12. Radiator
3. Throttle body inlet hose 8. Engine13. Heat exchanger
4. Throttle body outlet hose 9. Heater core inlet hose
5. Thermostat 10. Heater core outlet hose

Downloaded from www.Manualslib.com manuals search engine 1F-5 Engine Cooling System:
Repair Instructions
Cooling System ComponentsS7RS0B1606001
I7RS0B160004-01
F: Vehicle forward10. Water outlet cap gasket 20. Heater outlet No.2 hose 30. Heat exchanger water pipe
1. Radiator 11. O-ring 21. Heater union 31. To cylinder head
2. Reservoir 12. Thermostat case water outlet pipe 22. Heater inlet No.1 hose 32. To water pump
3. Engine cooling fan assembly 13. Thermostat case 23. Heater outlet No.1 hose33. To heater core
4. Radiator cap 14. Thermostat 24. Water bypass No.2 hose 34. To throttle body
5. Drain plug 15. Thermostat cap 25. Heat exchanger 35. Heater inlet No.2 hose
6. Radiator outlet hose 16. Water bypass No.1 hose 26.Heat exchanger inlet No.1 hose 36. Heater inlet pipe
7. Radiator inlet hose 17. Water inlet No.1 pipe 27. Heat exchanger inlet No.2 hose : 15 N⋅m (1.5 kgf-m, 11.0 lb-ft)
8. Water outlet cap 18. Water inlet hose 28. Heat exchanger outlet No.1 hose : Do not reuse.
9. ECT sensor 19. Water inlet No.2 pipe 29. Heat exchanger outlet No.2 hose

Downloaded from www.Manualslib.com manuals search engine 1G-3 Fuel System:
4) Check that battery voltage is 11 V or more.
5) Measure fuel pressure at each condition.If measured pressure is out of specification, refer to
“Fuel Pressure Check in Section 1A” and check each
possibly defective part. Replace if found defective.
a) Turn ignition switch ON to operate fuel pump and after 2 seconds turn it OFF. Repeat this 3 or 4
times and then check fuel pressure.
Fuel pressure specification
With fuel pump operating and engine
stopped: 270 – 310 kPa (2.7 – 3.1 kg/cm2, 38.4
– 44.0 psi)
b) Start engine and warm it up to normal operating temperature, and measure fuel pressure at
idling.
Fuel pressure specification
At specified idle speed: 270 – 310 kPa (2.7 –
3.1 kg/cm2, 38.4 – 44.0 psi)
c) Stop engine, and measure fuel pressure at one minute after stopping.
Fuel pressure specification
With 1 min. after engine (fuel pump) stop
(Pressure reduces as time passes): Over 300
kPa (3.0 kg/cm
2, 42.7 psi)
6) After checking fuel pressure, remove fuel pressure gauge.
WARNING!
As fuel feed line is still under high fuel
pressure, make sure to release fuel pressure
according to the following procedures.
• Place fuel container under joint.
• Cover joint with rag and loosen joint nut slowly in order to release fuel pressure
gradually.

7) Remove special tools from fuel delivery pipe and fuel feed hose.
8) Connect fuel feed hose to fuel delivery pipe and clamp it securely.
9) With engine OFF and ignition switch ON, check for fuel leaks.
Fuel Cut Operation InspectionS7RS0B1704002
NOTE
Before inspection, make sure that gear shift
lever is in neutral positi on (shift select lever
is “P” range for A/T vehicle), A/C is OFF and
parking brake lever is pulled all the way up.

1) Warm engine up to normal operating temperature.
2) While listening to sound of injector (2) by using sound scope (1) or such, increase engine speed to
higher than 3,000 r/min.
3) Check to make sure that injector operation sound is stop when throttle valve is closed instantly and it is
heard again when engine speed is reduced to
approx. 2,000 r/min or less.
I2RH01170032-01
I2RH0B170004-01

Downloaded from www.Manualslib.com manuals search engine Ignition System: 1H-3
Component Location
Ignition System Components LocationS7RS0B1803001
NOTE
The figure shows left-hand steering vehicle. For right-hand steering vehicle, parts with (*) are installed
at the opposite side.

16*
1
2
14
7
5 12 11
410
6
89
3 13*
15
17
I6RS0C180001-01
1. ECM 7. ECT sensor13. Data link connector
2. Ignition coil assembly for No.1 and No.4 spark plugs 8. MAF and IAT sensor 14. Battery fuse box
3. Ignition coil assembly for No.2 and No.3 spark plugs 9. Electric throttle body 15. Relay box
4. CMP sensor 10. Wheel speed sensor (VSS) 16. Junction block assembly
5. CKP sensor 11. High-tension cords
6. MAP sensor 12. Knock sensor

Downloaded from www.Manualslib.com manuals search engine 1H-8 Ignition System:
Ignition Coil Assembly (Including ignitor)
Removal and Installation
S7RS0B1806005
Removal1) Disconnect negative (–) cable at battery.
2) Remove air cleaner assembly with air intake pipe and cylinder head upper cover.
3) Disconnect ignition coil coupler.
4) Disconnect high-tension cord (3) from ignition coil assembly (2).
5) Remove ignition coil bolts (1) and then pull out ignition coil assembly.
Installation 1) Install ignition coil assembly (2).
2) Tighten ignition coil bolts (1) to specified torque, and then connect igni tion coil coupler.
Tightening torque
Ignition coil bolt (a): 10 N·m (1.0 kgf-m, 7.5 lb-ft)
3) Install high-tension cord (3) to ignition coil assembly while gripping its cap.
4) Install cylinder head upper cover and air cleaner assembly with air intake pipe.
5) Connect negative (–) cable to battery.
Ignition Coil Assembly (Including ignitor)
Inspection
S7RS0B1806006
Measure secondary coil for resistance.
If resistance is out of specification, replace ignition coil
assembly.
Secondary coil resistance
7.5 – 10.3 k Ω at 20 °C, 68 ° F
Ignition Timing InspectionS7RS0B1806007
NOTE
• Ignition timing is not adjustable. If ignition
timing is out of specification, check
system related parts.
• Before starting engine, place transmission gear shift lever in “Neutral” (shift selector
lever to “P” range for A/T model), and set
parking brake.

1) Connect scan tool to DLC (1) with ignition switch OFF.
Special tool
(A): SUZUKI scan tool
2) Start engine and warm it up to normal operating temperature.
3) Make sure that all of electrical loads except ignition are switched off.
4) Check to be sure that idle speed is within specification referring to “Idle Speed and IAC
Throttle Valve Opening Inspection in Section 1A”
5) Fix ignition timing by using “Fixed Spark” of “Misc Test” mode on scan tool.
I2RH0B180006-01
I3RM0A180004-01
I2RH0B180007-01
(A)
1
I4RS0B180003-01

Downloaded from www.Manualslib.com manuals search engine Automatic Transmission/Transaxle: 5A-3
General Description
A/T DescriptionS7RS0B5101001
This automatic transaxle is electronic control full automatic transaxle with forward 4-speed and reverse 1-speed.
The torque converter is a 3-element, 1-step and 2-phase type and is equipped with an automatically controlled lock-up
mechanism.
The gear change device consists of a ravigneau type planet ary gear unit, 3 multiple disc type clutches, 3 multiple disc
type brakes and 2 one-way clutches.
The hydraulic pressure control device consists of a valve body assembly, pressure control solenoid valve (linear
solenoid), 2 shift solenoid va lves, TCC pressure control solenoid valve (lin ear solenoid) and a timing solenoid valve.
Optimum line pressure complying with engine torque is produced by the pressure control solenoid valve in
dependence upon control signal from transmission control module (TCM). This makes it possible to control the line
pressure with high accuracy in accordance with the engine power and running conditions to achieve smooth shifting
characteristics and high efficiency.
A clutch-to-clutch control system is prov ided for shifting between 3rd gear and 4th gear. This clutch-to-clutch control
system is made to function optimally , so that hydraulic pressure controls such as shown below are conducted.
• When upshifting from 3rd gear to 4th gear, to adjust the drain hydraulic pressure at releasing the forward clutch, a
timing solenoid valve is used to switch a hydraulic passage with an orifice to another during shifting.
• When downshifting from 4th gear to 3rd gear, to adjust the line pressure applied to the forward clutch at engaging the forward clutch, a timing solenoid valve is used to s witch a hydraulic passage with an orifice to another during
shifting.
• When upshifting from 3rd gear to 4th gear with engine throttle opened, to optimize the line pressure applied to the forward clutch at releasing the forward clutch, the learning control is processed to compensate the switching timing
of the timing solenoid at every shifting.
• When downshifting from 4th gear to 3rd gear with engine throttle opened, to optimize the line pressure applied to
the forward clutch at engaging the forw ard clutch, the learning control is processed to compensate the line pressure
at every shifting.
Employing the ravigneau type planetary gear unit and this clutch-to-clutch control system greatly simplifies the
construction to make possible a lightweight and compact transaxle.
A line pressure learning control is conducted to provide opti mum shifting time at every upshifting with engine throttle
opened. If long upshifting time is detected, the subsequent line pressure applied during upshifting is intensified. On the
contrary, if short upshifting time is detected, the subs equent line pressure applied during upshifting is weakened.
Slip controlled lock-up function
Even at a lower speed than when the TCC gets engaged completely, control over the TCC pressure control solenoid
works to cause the TCC to slip (be engaged slightly), ther eby improving the transmission efficiency. While such slip
control is being executed, the oil pressure applied to the TCC is controlled by the TCC pressure control solenoid so
that the difference between the engine speed and the input shaft speed becomes close to the specified value.
Also, during deceleration, the TCC is made to slip (be enga ged slightly) to raise the engine speed and enlarge the fuel
cut operation range so that better fuel consumption is achieved.
Due to this reason, it is absolutely necessary for the automati c transmission to use ATF suitable for slip control. Use of
any fluid other than the specified ATF may cause j uddering or some other faulty condition to occur.