2013 SSANGYONG NEW ACTYON SPORTS fuel

04-22
How to enter self-diagnosis mode ▶
Turn the ignition ON with the TRIP switch pressed.
Press and hold the TRIP switch for 5 to 10 sec. with the ignition ON.
Press and hold the TRIP switch for less than 10 sec. and then cycle the switch between ON and
OFF 5 times within 3 sec.
Confirm that the self-diagnosis mode is activated through the instrument cluster. 1.
2.
3.
4.
4. SELF-DIAGNOSIS CHECK
Self-diagnosis OFF ▶
If the engine speed increases to 396 rpm or more while the engine is cranking or the ignition key is
turned OFF in self-diagnosis mode, the self-diagnosis mode is turned OFF automatically.
Operating process ▶
Speed gauge: changes from 0 to 220 km
RPM gauge: changes from 0 to 6,000 rpm
Fuel gauge: changes from E to F
Temperature gauge: changes from C to H
Warning/Indicator lamps: All indicator/warning lamps controlled by MICOM are turned ON.
Dimming: Illuminates at the highest lighting level.
LCD display: All elements are activated. 1.
2.
3.
4.
5.
6.
7.

04-238210-01
5. BUZZER OUTPUT
Priority ItemBuzzer output time
Operating condition
ON OFF
1 "R" PAS buzzer output 75ms 610ms 610msec delay and then generate
75ms buzzer output
2 Overspeed warning 500ms 200ms Buzzer on when dial indication
speed exceeds 120km/h
3 ESP buzzer output 100ms 100ms Interior buzzer (PAS buzzer) ON
4 TEMP warning output 500ms 500ms Engine overheats
5 Fuel filter 500ms 500ms Water separator warning light ON
with IGN ON
If the signal with higher priority is activated during the operation of signal with lower priority, the
current operation should be completed before starting the operation with higher priority.
If there are multiple signals at a time, the operation should be completed in order of priority. -
-

04-24
6. CIRCUIT DIAGRAM
GAUGE (SPEED, RPM, FUEL, TEMP), WARNING LAMP (FUEL, FUEL FILTER, ABS, BRAKE, 4WD) ▶

06-8
1. OVERVIEW
TRIP/RESET Switch
The mode is changed each time this button is
pressed as follows: TRIP A -> TRIP B -> DTE -
> Driving time -> Average fuel economy ->
Instant fuel consumption -> Tail lamp
illumination level.Windshield de-icer switch
Pressing switch activates windshield
heated glass for approx. 12 minutes
The main switch which allows the
driver to control all door windows,
door lock and window lock from the
driver seat. Tailgate and
outside rearview
mirror heated glass
switch
Pressing switch
activates tailgate and
outside rearview
mirror heated glass
for approx. 12
minutes
Driver power window switchESP ON/OFF switch
Pressing this switch deactivates the ESP (Electronic
Stability Program) system and turns on the ESP OFF
indicator on the instrument cluster. Pressing this
switch again turns off the ESP OFF indicator and
activates the ESP system. Outside rearview mirror folding/unfolding switch
Press the FOLD/UNFOLD switch to fold the outside
rearview mirror and press the switch again to unfold
the mirror.
Rear Fog Lamp Switch
The rear fog lamp comes on when
the rear fog lamp is turned on only
while the front fog lamp is ON.
Steering Wheel Heating
Switch
To heat the steering wheel,
press this switch. To stop
the heating, press it again.
The indicator on the
instrument cluster comes
on when heating and goes
off when turning off. The
heating function stops when
stopping the engine.

01-12
2. FEATURES
Early Downshifts with Hard Braking and Skip Shifts ▶
When heavy braking is detected, the transmission downshifts early and skips gears to provide increased
engine braking to provide gear selection for tip-in.
Gear Hold on Uphill/Downhill ▶
If the accelerator pedal is released when travelling uphill, upshifts are prevented to reduce busyness on
grades. If the accelerator pedal is released when travelling downhill, upshifts are prevented to enhance
engine braking.
Soft Engagement when Shifting to “D” and “R” Position ▶
A soft engagement feature avoids harsh take up of drive when selecting Drive or Reverse. This is
achieved by limiting engine speed and engine torque which results in a rapid, but progressive
engagement of either Drive or Reverse when moving from the Park or Neutral positions. There is no
drive engagement prevention strategy implemented on the transmission system as there is sufficient
engine strategy to protect the system. However, reverse gear engagement is prevented until engine
speed is less than 1400 rpm and the accelerator pedal position is less than 12% and vehicle speed is
less than 10 km/h.
Converter Clutch Lock-Up In All Gears ▶
The transmission features converter clutch lock-up in all gears. This feature provides improved fuel
economy and vehicle performance. It also improves transmission cooling efficiency when towing heavy
loads at low speeds, e.g. in city driving or hill terrain.
Embeded Memory Module (EMM) ▶
The embedded memory module (EMM) is
matched to the transmission's valve bodies
during transmission assembly to ensure refined
shift quality. The EMM is integrated into the input
speed sensor which is mounted on the valve
body in the transmission. The EMM is used to
store data such as valve body calibration data
and valve body serial number. Upon installation,
the TCU will download the data from the EMM
and utilise this data in the operation of the
transmission.
1) Features

01-133680-01
2) Cooling System
The transmission cooling system ensures rapid warm-up and constant operating temperature resulting
in reduced fuel consumption and refined shift quality.
It also includes a cooler by-pass within the hydraulic system to allow sufficient cooling and lubrication to
the transmission drivetrain in the event of a blockage in the transmission cooler.
Gear Shift ▶
Coastdown ▶
Torque Demand ▶ Transmission gear change is controlled by the TCU. The TCU receives inputs from various engine and
vehicle sensors to select shift schedules and to control the shift feel and torque converter clutch (TCC)
operation at each gear change
Coastdown downshifts occur at 0% accelerator pedal when the vehicle is coasting down to a stop. To
reduce the shift shock and to improve the shift feeling during downshift, TCU electronically controls the
transmission.
Torque demand downshifts occur (automatically) when the driver demand for torque is greater than the
engine can provide at that gear ratio. If applied, the transmission will disengage the TCC to provide
added acceleration.
3) Shift Strategy

01-213680-01
Pressure Modulation ▶
To provide a higher level of shift comfort and durability, the hydraulic pressure in the shift related friction
elements of the transmission must be matched accurately to the input torque to transmission. This
hydraulic pressure is composed of a hydraulically pre-set basic pressure and a control pressure which is
set by one of the variable bleed solenoids.
The transmission input torque can be directly calculated from the following operating parameters:
engine torque signals
engine speed or any signal transmitted from ECU through CAN lines
converter slip -
-
-
Separate pressure characteristics for each gear change make it possible to adapt precisely to the
particular shift operation.
5) Shift Mode Selection by TCU
The driver can select Standard (S) or Winter mode (W) with the mode switch. TCU automatically
changes the shift mode according to the transmission oil temperature, uphill or downhill gradient, and
altitude to keep the good driving conditions.
Standard Mode (S) ▶
Uphii and Downhill Mode ▶
Altitude Mode ▶ Standard Mode is selected when setting the mode switch in Standard (S) position with the gear select
<0093008c009d008c0099004700900095004702c8006b02c9004700880095008b0047009b008f008c0047009b009900880095009a00940090009a009a00900096009500470096009000930047009b008c00940097008c00990088009b009c0099008c004700
9000950047009500960099009400880093004700960097008c>rating range. Proper shift timing
provides the optimized fuel economy and good driving conditions.
In this mode, the operating points of torque converter lock-up clutch and the shifting points are adjusted
according to the vehicle weight.
In this mode, the shifting points are automatically adjusted according to the altitude to compensate the
engine torque changes due to barometric pressure and temperature.

04-8
3. DUAL MASS FLYWHEEL (DMF)
The dual mass flywheel (DMF) is of having a mass divided into two halves.
While one mass is connected to the engine crankshaft, which is affected by the mass moment of inertia
of the engine, the other mass is affected by one of the transmission.
The divided dual masses are connected to the coil spring and damping system internally.
The DMF has the following benefits: ▶
Reducing fuel consumption by lowering engine speed
Reducing rattling noise and vehicle vibration in all driving ranges
Reducing synchronization wear
Facilitating gear change
Protecting power train parts by preventing excessive load from being delivered -
-
-
-
-
Primary flywheel
Secondary flywheel
Arc damper spring
Torque limiter
Ring gear 1.
2.
3.
4.
5.