Hyundai Genesis 2013 User Manual

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GENESIS COUPE(BK) > 2013 > G 2.0 T-MPI > General Information

General Information > General Information > General Information

Identification Number Locations

Identification Number Description

Vehicle Identification Number

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1.World Manufacturer Identifier (WMI)

-KMF : Commercial vehicle (Van)

-KMH : Passenger vehicle or MPV(Multipurpose Passenger Vehicle)/SUV(Sports Utility Vehicle)/RV(Recreational Vehicle)

-KMJ : Van

-KM8 : MPV/SUV/RV (For U.S.A, Canada, Mexico)

2.Vehicle line

-H : GENESIS COUPE

3.Model & Series

-S : Low grade (L)

-T : Middle-Low grade (GL)

-U : Middle grade (GLS, JSL, TAX)

-V : Middle-High grade (HGS)

-W : High grade (TOP)

4.Body/Cabin type, Gross Vehicle Weight Rating KMF (Commercial vehicle / Van)

Except U.S.A, Canada, Mexico, Gulf Cooperation Council, China

-X : Standard Cabin / Semi-Bonnet

-Y : Double Cabin / Bonnet

-Z : Super Cabin / Box

For U.S.A, Canada, Mexico, Gulf Cooperation Council, China

-3 : Standard Cabin Class-E 4×2 / Semi-Bonnet Class-E 4×2

-4 : Standard Cabin Class-E 4×4 / Semi-Bonnet Class-E 4×4

-5 : Standard Cabin Class-F 4×2 / Semi-Bonnet Class-F 4×2

-6 : Standard Cabin Class-F 4×4 / Semi-Bonnet Class-F 4×4

-7 : Double Cabin Class-E 4×2 / Bonnet Class-E 4×2

-8 : Double Cabin Class-E 4×4 / Bonnet Class-E 4×4

-9 : Double Cabin Class-F 4×2 / Bonnet Class-F 4×2

-0 : Double Cabin Class-F 4×4 / Bonnet Class-F 4×4

-A : Super Cabin Class-E 4×2 / Box Class-E 4×2

-B : Super Cabin Class-E 4×4 / Box Class-E 4×4

-C : Super Cabin Class-F 4×2 / Box Class-F 4×2

-D : Super Cabin Class-F 4×4 / Box Class-F 4×4

KMH

-1 : Limousine

-2 : Sedan - 2 door

-3 : Sedan - 3 door

-4 : Sedan - 4 door

-5 : Sedan - 5 door

-6 : Coupe

-7 : Convertible

-8 : Wagon

-9 : Commercial Van

-0 : Pick-Up

KMJ

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-1 : Box

-2 : Bonnet

-3 : Semi-Bonnet KM8

-1 : Wagon 4×2 Class-A

-2 : Wagon 4×2 Class-B

-3 : Wagon 4×2 Class-C

-4 : Wagon 4×2 Class-D

-5 : Wagon 4×2 Class-E

-6 : Wagon 4×2 Class-F

-7 : Wagon 4×2 Class-G

-A : Wagon 4×4 Class-A

-B : Wagon 4×4 Class-B

-C : Wagon 4×4 Class-C

-D : Wagon 4×4 Class-D

-E : Wagon 4×4 Class-E

-F : Wagon 4×4 Class-F

-G : Wagon 4×4 Class-G

5.Restraint system, Brake system KMH, KM8

Except U.S.A, Canada, Mexico

-0 : Both side - None

-1 : Both side - Active belt

-2 : Both side - Passive belt For U.S.A, Canada, Mexico

Code

Seat belt

Front air bag

Knee air bag

Side air bag

Curtain air bag

Driver's

Passenger's

Driver's

Passenger's

1st row

2nd row

3rd row

1st row

2nd row

3rd r

A

○

○

○

×

×

○

×

×

○

○

×

B

○

○

○

×

×

×

×

×

×

×

×

C

○

○

○

×

×

○

×

×

○

○

○

D

○

○

○

×

×

○

○

×

○

○

×

E

○

○

×

×

×

×

×

×

×

×

×

F

○

○

○

×

×

○

×

×

×

×

×

N

○

×

×

×

×

×

×

×

×

×

×

KMJ

Except U.S.A, Canada, Mexico

-7 : Hydraulic brake system

-8 : Pneumatic brake system

-9 : Mixed brake system For U.S.A, Canada, Mexico

-X : Hydraulic brake system

-Y : Pneumatic brake system

-Z : Mixed brake system KMF

Except U.S.A, Canada, Mexico

-7 : Hydraulic brake system

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-8 : Pneumatic brake system

-9 : Mixed brake system For U.S.A, Canada, Mexico

Restraint system

Brake system

Front air bag

Knee air bag

Side air bag

Curtain air

Code

Seat

bag

Hydrauric

Pneumatic

Mi

belt

Driver's

Passenger's

Driver's

Passenger's

1st

2nd

3rd

1st

2nd

3rd

row

row

row

row

row

row

X

○

×

×

×

×

×

×

×

×

×

×

○

-

-

V

○

○

×

×

×

×

×

×

×

×

×

○

-

-

W

○

○

○

×

×

×

×

×

×

×

×

○

-

-

6.Engine type

-D : Gasoline engine 2.0 (Theta-II T-MPI)

-J : Gasoline engine 3.8 (Lambda-II GDI)

7.Check digit or Driver’s side & Transmission

Except U.S.A, Canada, Mexico, Gulf Cooperation Council, China, Yemen

-A : LHD & MT

-B : LHD & AT

-C : LHD & MT+Transfer

-D : LHD & AT+Transfer

-E : LHD & CVT

-L : RHD & MT

-M : RHD & AT

-N : RHD & MT+Transfer

-S : RHD & AT+Transfer

-T : RHD & CVT

For U.S.A, Canada, Mexico, Gulf Cooperation Council, China, Yemen

-Check digit : 0 ~ 9, ×

8.Production year

-B : 2011, C : 2012, D : 2013, E : 2014 …

9.Plant of production

-A : Asan (Korea)

-C : Cheonju (Korea)

-U : Ulsan (Korea)

10.Vehicle production sequence number - 000001 ~ 999999

Paint Code

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Code	Color
NAA	Ceramic White
NBA	Space Black
NCA	Sleek Silver
NDA	Gray Titanum
NEA	Blue Diamond
NFA	Dynamic
	Yellow
NGA	Super Red
NHA	Blue Sapphire
NJA	Lime Green

Engine Number

1.Engine fuel

-G : Gasoline

2.Engine range

-4 : 4 cycle 4 cylinder

-6 : 4 cycle 6 cylinder

3.Engine development order

-D : Lambda engine

-K : Theta engine

4.Engine capacity

-J : Lambda 3778 cc (Lambda-II GDI)

-F : Theta-II 1998 cc (Theta-II T-MPI)

5.Production year

-B : 2011, C : 2012, D : 2013, E : 2014 …

6.Plant of production

-A : Asan (Korea)

-B : Beijing (China)

-H : Hwasung (Korea)

-K : Montgomery (U.S.A)

-M : Chennai (India)

-P : Poseung (Korea)

-S : Sohari (Korea)

-T : Izmit (Turkey)

-U : Ulsan (Korea)

-W : Shandong (China)

-Z : Zilina (Slovakia)

-1 : Yancheng (China)

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7. Engine production sequence number - 000001 ~ 999999

Transaxle Number Automatic

1.Model

-YA : A8LR1

2.Production year

-B : 2011, C : 2012, D : 2013, E : 2014...

3.Engine

-F : Lambda-II 3.8 GDI

-G : Theta-II 2.0 T-MP

4.Detailed classification

-A : Lambda-II 3.8 GDI / Theta-II 2.0 T-MPI

5.Spare

6.Transaxle production sequence number

-000001 ~ 999999

Manual

1.Assembly code

-R006 : Theta-II 2.0 T-MPI

-R007 : Lambda-II 3.8 GDI

2.Production year

-B : 2011, C : 2012, D : 2013, E : 2014...

3.Plant of production

-W : Wia (Korea)

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4.Production month

-1 : January

-2 : February

-3 : March

-4 : April

-5 : May

-6 : June

-7 : July

-8 : August

-9 : September

-A : October

-B : November

-C : December

5.Transaxle production sequence number

-00001 ~ 99999

Warning / Caution Label Locations

1. Radiator Cap Caution	3. Fan Caution
2. Battery Caution	4. Coolant Level
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Battery Caution Label Describtion

Warning / Caution Label (Cont'd)

A.

Keep lighted cigarettes and all other flames or sparks away from the battery.

B.

Wear eye protection when charging or working near a battery. Always provide ventilation when working in an enclosed space.

•When lifting a plastic-cased battery, excesive pressure on acid to leak resulting in personal injury. Lift with a battery carrier or with your hands on opposite corners.

•Never attempt to change the battery when the battery cables are connected.

•The electrical ignition system works with high voltage.

Never touch these components with the engine running or the ignition switched on.

C.

Keep batteries out of the reach of children because batteries contain highly corrosive SULFURIC ACID. Do not allow battery acid to contact your skin, eyes, clothing or paint finish.

D.

If any electrolyte gets into your eyes, flush your eyes with clean water for at least 15 minutes and get immediate medical attention. If possible, continue to apply water with a sponge or cloth until medical attention is received. If electrolyte gets on your skin, throughly wash the contacted area. If you feel a pain or a burning sensation, get medical attention immediately.

E.

Always read the following instructions carefully when handing a battery.

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F.

Hydrogen, which is a highly combustible gas, is always presents in battery cells and may explode if ignited.

G.

An improperly disposed battery can be harmful to the environment and human health.

Always confirm local regurations for battery disposal.

Handling And Storage The Battery

Battery Itself	• Batteries should be stored in cool, dry (27 degrees Celsius) places and out
	of direct sunlight.
	• MF batteries are tightly sealed to prevent acid leakage.
	However, tilting the battery to an angle of 45 degrees can cause acid to leak
	through the vents on the sides. Therefore, batteries should always be stored
	in their upright positions. Prevent placing any aqueous or solid (i.e.
	conductors) bodies on top of the battery.
	• It is extremely dangerous to use tools, such as hammers, on the battery
	terminals when connecting cables to the mounted battery.
Battery on Vehicle	• When storing the vehicle for long periods of time, make sure to remove the
	memory fuse at junction box to prevent natural discharging.
	• Also, run the engine for battery charging within 1 month if the memory fuse
	wasn't removed from the start of vehicle storing.
	If the memory fuse was removed, run the engine for battery charging within
	3 months from the start of vehicle storing.

After reconnecting or recharging a discharged battery, the ESC OFF indicator may illuminate.

In this case, turn the handle half way to the left and right whilst the ignition switch is in the ON position. Then, restart the engine after the ignition is OFF.

The ESC OFF indicator may turn OFF.

If the ESC OFF indicator does not turn OFF, have the system checked refering to DTC. (Refer to the BR group.)

Lift And Support Points

When heavy rear components such as suspension, fuel tank, spare tire, tailgate and trunk lid are to be removed, place additional weight in the luggage area before hoisting. When substatial weight is removed from the rear of the vehicle, the center of gravity may change and cam cause the vehicle to tip forward on the hoist.

•Since each tire/wheel assembly weights approximately 30lbs (14kg), placing the front wheels in the luggage area can assist with the weight distribution.

•Use the same support points to support the vehicle on safety stands.

1.Place the lift blocks under the support points as shown in the illustration.

2.Raise the hoist a few inches (centimeters) and rock the vehicle to be sure it is firmly supported.

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3. Raise the hoist to full height to inspect the lift points for secure support.

Towing

If the vehicle needs to be towed, call a professional towing service. Never tow vehicle with just a rope or chain. It is very dangerous.

Emergency Towing

There are three popular methods of towing a vehicle :

-The operator loads the vehicle on the back of truck. This is best way of transporting the vehicle.

-The tow truck uses two pivoting arms that go under the tires of the driving axle and lift them off the ground. The other two wheels remain on the ground.

-The tow truck uses metal cables with hooks on the ends. These hooks go around parts of the frame or suspension, and the cables lift that end of the vehicle off the ground. The vehicle's suspension and body can be seriously damaged if this method of towing is attempted.

If the vehicle cannot be transported by flat-bed, should be towed with the wheels of the drivig axle off the ground and do the following :

Manual Transaxle

•Release the parking brake.

•Shift the Transaxle to neutral Automatic Transaxle

•Release the parking brake.

•Start the engine.

•Shift to [D] position, then [N] position.

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•Turn off the engine.

•The vehicle equipped with full-time 4WD should be only transported on a flat-bed.

•Improper towing preparation will damage the transaxle. follow the above procedure exactly. If you cannot shift the transaxle or start the engine(automatic transaxle), your vehicle must be transported on a flatbed.

•It is the best to tow vehicle no farther than 30km (19miles), and keep the speed below 50km/h (30mph). (For the full-time 4WD vehicle, limit the towing to 1.5km (1mile) and 15km/h (10mph)

•Trying to lift or tow your vehicle by the bumpers will cause serious damage. The bumpers are not designed to support the vehicle's weight.

Front :

Rear :

Tightening Torque Table Of Standard Parts

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	Bolt niminal diameter			Pich (mm)		Torque Nm (kg.cm, lb.ft)
	(mm)					Head Mark 4			Head Mark 7
	M5		0.8		3 ~ 4 (30 ~ 40, 2.2 ~ 2.9)			5 ~ 6 (50 ~ 60, 3.6 ~ 4.
	M6		1.0		5 ~ 6 (50 ~ 50, 3.6 ~ 4.3)			9 ~ 11 (90 ~ 110, 6.5 ~
	M8		1.25		12 ~ 15 (120 ~ 150, 9 ~ 11)			20 ~ 25 (200 ~ 250, 14.
								18.0 )
	M10		1.25		25 ~ 30 (250 ~ 300, 18 ~ 22)			30 ~ 50 (300 ~ 500, 22 ~
	M12		1.25		35 ~ 45 (350 ~ 450, 25 ~ 33)			60 ~ 80 (600 ~ 800, 43 ~
	M14		1.5		75 ~ 85 (750 ~ 850, 54 ~ 61)			120 ~ 140 (1,200 ~ 1,400
								100)
	M16		1.5		110 ~ 130 (1,100 ~ 1,300, 80 ~			180 ~ 210 (1,800 ~ 2,100
					94)			~ 150)
	M18		1.5		160 ~ 180 (1,600 ~ 1,800, 116			260 ~ 300 (2,600 ~ 3,000
					~ 130)			~ 215)
	M20		1.5		220 ~ 250 (2,200 ~ 2,500, 160			360 ~ 420 (3,600 ~ 4,200
					~ 180)			~ 300)
	M22		1.5		290 ~ 330 (2,900 ~ 3,300, 210			480 ~ 550 (4,800 ~ 5,500
					~ 240)			~ 400)
	M24		1.5		360 ~ 420 (3,600 ~ 4,200, 260			610 ~ 700 (6,100 ~ 7,000
					~ 300)			~ 505)

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- The torques shown in the table are standard values under the following conditions :

• Nuts and bolts are made of galvanized steel bar.

• Galvanized plain steel washers are inserted.

• All nuts, bolts and plain washers are dry.

- The torques shown in the table are not applicable :

• When spring washers, toothed washers and the like are inserted.

• If plastic parts are fastened.

• If self-tapping screws or self-locking nuts are used.

• If threads and surfaces are coated with oil.

- If you reduce the torques in the table to the percentage indicated below, under the following conditions, if will be the standard value.

• If spring washers are used : 85%

• If threads and bearing surfaces are stained with oil : 85%

General Service Information

Protection Of The Vehicle

Always be sure to cover fenders, seats, and floor areas before starting work.

The support rod must be inserted into the hole near the edge of the hood whenever you inspect the engine compartment to prevent the hood from falling and causing possible injury.

Make sure that the support rod has been released prior to closing the hood. Always check to be sure the hood is firmly latched before driving the vehicle.

Preparation Of Tools And Mesuring Equipment

Be sure that all necessary tools and measuring equipment are available starting work.

Special Tools

Use special tools when they are required.

Removal Of Parts

First find the cause of the problem and then determine whether removal or disassembly before starting the job.

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Disassembly

If the disassembly procedure is complex, requiring many parts to be disassembled, all parts should be disassembled in a way that will not affect their performance or external appearance.

1.Inspection of parts

Each part, when removed, should be carefully on suspected for malfunction, deformation, damage, and other problems.

2.Arrangement of parts

All disassembled parts should be carefully arranged for effective reassembly.

Be sure to separate and correctly identify the parts to be replaced from those that will be used again.

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3.Cleaning parts for reuse

All parts to be used again should be carefully and thoroughly cleaned by an appropriate method.

Parts

When replacing parts, use HYUNDAI genuine parts.

Replacement

Standard values, such as torques and certain adjustments, must be strictly observed in the reassembly of all parts. If removed, the following parts should always be replaced with new ones.

1.Oil seals

2.Gaskets

3.O-rings

4.Lock washers

5.Cotter pins (split pins)

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6. Plastic nuts

Depending on their location.

7.Sealant should be applied to gaskets.

8.Oil should be applied to the moving components of parts.

9.Specified oil or grease should be applied to the prescribed locations (oil seals, etc) before assembly.

Adjustment

Use gauges and testers to adjust correctly the parts to standard values correctly.

Electrical System

1.Be sure to disconnect the battery cable from the negative (-) terminal of the battery.

2.Never pull on the wires when disconnecting connectors.

3.Locking connectors will click when the connector is secure.

4.Handle sensors and relays carefully. Be careful not to drop them against other parts.

Ruber Parts And Tubes

Always prevent gasoline or from touching rubber parts or tubing.

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Measuring Body Dimensiongs

1.Basically, all measurements in this manual are taken with a tracking gauge.

2.When a measuring tape is used, check to be sure there is no elongation, twisting or bending.

3.For measuring dimensions, both projected dimensions and actual - measurement dimensions are used in this manual.

Dimensions Projected

1.These are the dimensions measured when the measurement points are projected from the vehicle's surface, and are the reference dimensions used for used for body alterations.

2.If the length of the tracking gauge probes is adjustable, measure it by lengthening one of two probes as long as the different value in height of the two surface.

Measuring Actual Dimensions

1.These dimensions indicate the actual linear distance between measurement points, and are used as the reference dimensions when a tracking gauge is used for measurement.

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2. First adjust both probes to the same length (A=A') before measurement.

Check the probes and gauge itself to make sure there is no free play.

Measurement Point

Measurements should be taken at the center of the hole.

Checking Cables And Wires

1.Check the terminal for tightness.

2.Check terminals and wires for corrosion from battery electrolyte, etc.

3.Check terminals and wires for open circuits.

4.Check wire insulation and coating for damage, cracks and degrading.

5.Check the conductive parts of terminals for contact with other metallic parts (vehicle body and other parts).

6.Check grounded parts to verify that there is complete continuity between their attaching bolt(s) and the vehicle's body.

7.Check for incorrect wiring.

8.Check that the wiring is so clamped to the prevent contact with sharp corners of the vehicle body, etc. or hot parts (exhaust manifold, etc.)

9.Check that the wiring is clamped firmly to provide enough clearance from the fan pulley, fan belt and other rotating or moving parts.

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10.Check that the wiring has a little space so that it can vibrate between fixed and moving parts such as the vehicle body and the engine.

Check Fuses

A blade type fuse test taps provided to allow checking the fuse itself without removing if from the fuse box. The fuse is good if the test lamp lights up when one lead is connected to the test taps (one at a time) and the other lead is grounded. (Turn the ignition switch so that the fuse circuit becomes operative)

Serivicing The Electrical System

1.Prior to servicing the electrical system, be sure to turn off the ignition switch and disconnect the battery ground cable.

In the course of MFI or ELC system diagnosis, when the battery cable is removed, any diagnostic trouble code retained by the computer will be cleared. There fore, if necessary, read the diagnostic before removing the battery cable.

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2.Attach the wiring harnesses with clamps so that there is no slack. However, for any harness which passes the engine or other vibrating parts of the vehicle, allow some slack within a range that does not allow the engine vibrations to cause the harness to come into contact with any of the surrounding parts and then secure the harness by using a clamp.

3.If any section of a wiring harness interferes with the edge of a parts, or a corner, wrap the section of the harness with tape or something similar in order to protect if from damage.

4. When installing any parts, be careful not to pinch or damage any of the wiring harness.

5. Never throw relays, sensors or electrical parts, or expose them to strong shock.

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6.The electronic parts used in the computer, relays, etc. are readily damaged by heat. If there is a need for service operations that may cause the temperature to exceed 80°C (176°F), remove the electronic parts before hand.

7. Loose connectors cause problems. Make sure that the connectors are always securely fastened.

8. When disconnecting a connector, be sure to grip only the connector, not the wires.

9. Disconnect connector which have catches by pressing in the direction of the arrows shown the illustration.

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10. Connect connectors which have catches by inserting the connectors until they make a clicking sound.

11.When using a circuit tester to check continuity or voltage on connector terminals, insert the test probe into the harness side. If the connector is a sealed connector, insert the test probe through the hole in the rubber cap until contacts the terminal, being careful not to damage the insulation of the wires.

12.To avoid overloading the wiring, take the electrical current load of the optional equipment into consideration, and determine the appropriate wire size.

	Noeminal size	SAE gauge No.	Permissible current
			In engine compartment	Other areas
	0.3mm²	AWG 22	-	5A
	0.5mm²	AWG 20	7A	13A
	0.85mm²	AWG 18	9A	17A
	1.25mm²	AWG 16	12A	22A
	2.0mm²	AWG 14	16A	30A
	3.0mm²	AWG 12	21A	40A
	5.0mm²	AWG 10	31A	54A

Precautions For Catalytic Converter

If a large amount of unburned gasolined gasoline flow into the converter, it may overheat and create a fire hazard. To prevent this observe the following precations and explain them to your customer.

1.Use only unleaded gasoline.

2.Do not run the engine while the car is at rest for a long time. Avoid running the engine at fast idle for more than 10minutes and idle speed for more than 20 minutes.

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3.Avoid start-jump tests. Do start-jumps only when absolutely necessary. Perform this test as rapidly as possible and, while testing, never race the engine.

4.Do not measure engine compression for and extended time. Engine compression tests must be made as rapidly as possible.

5.Avoid coasting with the ignition turned and during prolonged braking.

6.Do not dispose of used catalytic converter together with parts contaminated with gasoline or oil.

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GENESIS COUPE(BK) > 2013 > G 2.0 T-MPI > Automatic Transaxle System

Automatic Transaxle System > General Information > Specifications

Specifications

	Item			Specifications
	Transmission type			A8LR1
	Engine model			Gasoline 2.0 TCI
	Torque converter type			3-element, 1-stage, 2-
				phase type
	Oil pump system			Internal gear type
				Clutch: 4EA
	Friction elements			Brake: 2EA
				OWC : 1EA
	Planetary gear			3EA
			1st	3.964
			2nd	2.468
			3rd	1.61
			4th	1.176
	Gear ration		5th	1
			6th	0.832
			7th	0.652
			8th	0.565
			Reverse	2.273
	Final gear ratio			4.181
	Accumulator			6EA
	Solenoid valve			9EA
	Shift lever position			4 Range (P,R,N,D)
	Oil filter			1EA

* VFS: Variable Force Solenoid

Sensors

Input Speed Sensor

Type: Hall effect sensor

Specifications

Operation condition (°C)°F ((-)40 ~ 150)) -40 ~ 302

Air gap(mm)in.

1.3(0.0512)

High 1.4

Output voltage (V)

Low 0.7

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Middle Speed Sensor

Type: Hall effect sensor

Specifications

Operation condition (°C)°F ((-)40 ~ 150)) -40 ~ 302

Air gap(mm)in.

1.3(0.0512)

High 1.4

Output voltage (V)

Low 0.7

Output Speed Sensor

Type: Hall effect sensor

Specifications

Operation condition (°C)°F ((-)40 ~ 150)) -40 ~ 302

Air gap(mm)in.

1.3(0.0512)

High 1.4

Output voltage (V)

Low 0.7

Oil Temperature Sensor

Type: Negative thermal coefficient type

Specifications

	Temp.[(°C)°F]	Resistance
		(kΩ)
	(-40)-40	139.5
	(-20)-4.0	47.4
	(0)32.0	18.6
	(20)68.0	8.10
	(40)104.0	3.80
	(60)140.0	1.98
	(80)176.0	1.08
	(100)212.0	0.63
	(120)248.0	0.38
	(140)284.0	0.25
	(150)302.0	0.16

Inhibitor Switch

Type: Combination of output signals from 4 terminals

Specifications

Power supply

12

(V)

Output type

Pin to Pin

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Solenoid Valves

Direct control VFS[UD/C, 27/B, 6/C]

Control type : Normal low type

Control Pressure kpa (kgf/cm², psi)	0 ~ 1569.06
	(0 ~ 16,0 ~ 227.57)
Current value (mA)	0 ~ 1100
Internal resistance (Ω)	5.0 ~ 5.6
Direct control VFS[8LR/B]
Control type : Normal low type
Control Pressure kpa (kgf/cm², psi)	0 ~ 2108.42
	(0 ~ 21.5 ~ 305.80)
Current value (mA)	0 ~ 1100
Internal resistance (Ω)	5.0 ~ 5.6
Direct control VFS[4&OD/C]
Control type : Normal high type
Control Pressure kpa (kgf/cm², psi)	0 ~ 1569.06
	(0 ~ 16,0 ~ 227.57)
Current value (mA)	0 ~ 1100
Internal resistance (Ω)	5.0 ~ 5.6
Direct control VFS[35R/C]
Control Type : Normal high type
Control Pressure kpa (kgf/cm², psi)	0 ~ 2108.42
	(0 ~ 21.5 ~ 305.80)
Current value (mA)	0 ~ 1100
Internal resistance(Ω)	5.0 ~ 5.6
Line Pressure Control VFS
Control type : Normal high type
Control Pressure kpa (kgf/cm², psi)	0 ~ 500.14
	(0 ~ 5.1,0 ~ 72.54)
Current value (mA)	0 ~ 850
Internal resistance (Ω)	4.8 ~ 5.4
Damper Clutch Control VFS
Control type : Normal low type
Control Pressure kpa (kgf/cm², psi)	0 ~ 500.14
	(0 ~ 5.1, 0 ~ 72.54)
Current value (mA)	0 ~ 850
Internal resistance (Ω)	4.8 ~ 5.4

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ON/OFF Solenoid Valve

Control type : Normal low type
Control pressure kpa (kgf/cm², psi)						539.36
						(5.5, 78.23)
	Internal resistance (Ω)					10 ~ 11
Solenoid Valve Operation Table
	UD/C	4&OD/C	35R/C	27/B			8LR/B	6/C			ON/OFF
P		O			O						O
N		O	O				O				O
1	O	O	O
2	O	O	O		O
3	O	O
4	O		O
5
6			O						O
7			O		O
8			O				O
LOW	O	O	O				O
REV		O					O				O

O : Connected status

Tightening Torques

	Item	N.m	Kgf.m	lb-ft
	TCM installation mounting bolt	9.8 ~ 11.8	1.0 ~ 1.2	7.2	~ 8.7
	Shift lever assembly bolt	8.8 ~ 13.7	0.9 ~ 1.4	6.5 ~ 10.1
	Inhibitor switch mounting bolt	9.8 ~ 11.8	1.0 ~ 1.2	7.2	~ 8.7
	Oil drain plug	22.6 ~ 24.5	2.3 ~ 2.5	16.6	~ 18.1
	Oil check plug	22.6 ~ 24.5	2.3 ~ 2.5	16.6	~ 18.1
	Torque converter mounting bolt	45.1 ~ 52.0	4.6 ~ 5.3	33.3	~ 38.3
	Automatic transaxle upper mounting bolt	63.7 ~ 83.4	6.5 ~ 8.5	47.0	~ 61.5
	(TM=>Eng)	34.3 ~ 46.1	3.5 ~ 4.7	25.3	~ 34.0
	Automatic transaxle lower mounting bolt	42.2 ~ 48.1	4.3 ~ 4.9	31.1	~ 35.4
	(Eng=>TM)
	Stater motor mounting bolt	49.0 ~ 63.7	5.0 ~ 6.5	36.2	~ 47.0
	Stater motor mounting nut	42.2 ~ 53.9	4.3 ~ 5.5	31.1	~ 39.8

tomsn048@gmail.com

Page 5 of 74

Lubricants

Item	Specified lubricant	Quantity
	GS CALTEX ATF SP-IV-RR	9.6L
Transaxle fluid	Hyundai Genuine ATF SP-IV-	(2.535 U.S gal., 10.14 U.S.qt., 8.45
	RR	Imp.qt.)

Automatic Transaxle System > Automatic Transaxle System > Repair procedures

EOL Input

Description

When shift shock is occurred or parts related with the transaxle are replaced, EOL should be performed. In the following case, EOL is required.

•Transaxle assembly replacement

•TCM replacement

Bar code location

EOL Input procedure

• Transaxle assembly replacement

Page 6 of 74

Internet :On

tomsn048@gmail.com

Page 7 of 74

Internet :Off