Category Archives: AWD

Subaru Picture of the day!

AWD: The Impreza WRX STI uses Driver Controlled Center Differential (DCCD), the most performance-directed type of Symmetrical AWD. A limited-slip, planetary gear-type center differential provides a performanceoriented 35:65 front/rear power split.

AWD: The Impreza WRX STI uses Driver Controlled Center Differential (DCCD), the most performance-directed type of Symmetrical AWD. A limited-slip, planetary gear-type center differential provides a performanceoriented 35:65 front/rear power split.
AWD: The Impreza WRX STI uses Driver Controlled Center Differential (DCCD), the most performance-directed type of Symmetrical AWD. A limited-slip, planetary gear-type center differential provides a performanceoriented 35:65 front/rear power split.

AWD: The Impreza WRX STI uses Driver Controlled Center Differential (DCCD), the most performance-directed type of Symmetrical AWD. A limited-slip, planetary gear-type center differential provides a performanceoriented 35:65 front/rear power split.

Wheel Bearing Guide Subaru

Wheel Bearing Subaru Guide:

The amount of force exerted on wheel bearings is astounding. Each bearing is required to smoothly control the rotation of the wheel to the tune of about a thousand revolutions per mile, support the transfer of power to the wheels for rapid starts and sudden stops, and handle the powerful lateral twisting force of the tires changing direction against the pavement — all while supporting a vertical load of hundreds of pounds. And, we expect them to perform flawlessly just about forever? Not realistic.

Wheel Bearing Guide Subaru: This tapered roller bearing was damaged by faulty seals that allowed water and dirt to enter the bearing.
Wheel Bearing Guide Subaru: This tapered roller bearing was damaged by faulty seals that allowed water and dirt to enter the bearing.

The “Achilles Heel” of a wheel bearing is the seal. Although wheel bearings can fail due to damage, improper installation or material imperfection, the most common cause of failure is the seal losing its ability to hold the lubricating grease in and/or dirt and water out.

However, the best seal, applied to the best wheel bearing, cannot be expected to last if not correctly installed. This primer can help you properly service Subaru wheel bearings.

Brake Noise Is It Normal?

Brake Noise Is It Normal?

One of the most common concerns that any vehicle owner perceives as a problem is brake noise when stopping the vehicle. The question pops up: “What is considered to be an ‘acceptable’ level of brake noise?”

Brake Noise Is It Normal? One of the most common concerns that any vehicle owner perceives as a problem is brake noise when stopping the vehicle.
Brake Noise Is It Normal? One of the most common concerns that any vehicle owner perceives as a problem is brake noise when stopping the vehicle.

The disc brake systems used on vehicles today are designed and developed to meet many different, but very strict requirements. This must be accomplished while providing an optimum level of performance under a wide range of vehicle and environmental operating conditions.
The brake pads selected must be a balanced choice. There is a fine line between a quiet brake pad and one that will provide optimum performance under extreme braking conditions. Consequently, when a change is made in the brake pad formulation (whether it is meant to provide longer pad life, shorter stopping distances, noise reduction or a change in pedal effort), a trade-off must be made in one area or another.

An example of pad formulation change would be the industry’s switch from asbestos to semi-metallic brake linings.

Clutch Pedal Sticking Subaru

Clutch Pedal Sticking Subaru:

If you encounter a clutch pedal not returning completely after being engaged, or if there is a spongy or light clutch pedal feel while shifting, the following repair method should be followed.

Clutch Pedal Sticking Subaru: This condition may affect certain manual transmission vehicles with a hydraulic clutch system under certain weather conditions.
Clutch Pedal Sticking Subaru: This condition may affect certain manual transmission vehicles with a hydraulic clutch system under certain weather conditions.

This condition may affect certain manual transmission vehicles with a hydraulic clutch system under certain weather conditions.The affected manual transmission Subaru models are as follows:

1995-2002 Legacy
1997-2007 2.5L Impreza
1998-2003 Forester

To correct this condition you must replace the parts in the chart that match your vehicle using the following procedures:

Replacement Clutch Parts:

Subaru Cold Weather And Driveability

Subaru Cold Weather And Driveability:

The Winter season brings cold weather to many parts of the country, and with it the traditional driveability problems.

Subaru Cold Weather And Driveability: The Winter season brings cold weather to many parts of the country, and with it the traditional driveability problems.
Subaru Cold Weather And Driveability: The Winter season brings cold weather to many parts of the country, and with it the traditional driveability problems.

Before you push the panic button on Subaru cold weather and driveability problems, remember:

• No vehicle runs as well when it is cold as it does when it is at normal operating temperature.

• You have been operating the vehicle in more moderate temperatures and has gotten accustomed to the way it has been running. Now it is colder and things are not working the same.

• Some areas of the country may be using gasoline blended for warmer temperatures. These fuels normally do not atomize as well in cooler temperatures.

• Oxygenated and reformulated fuels that are in use in many parts of the country are normally harder to ignite in cold cylinders.

• Many drivers get their gas at one station because it may be close to home or work. Question them about this and if this is true, suggest they try a different brand of gas. It may take a couple tanks before any improvement is noticed. Different manufacturers blend their fuels differently.

• The 4EAT has a temperature sensor in the ATF and the Transmission Control Unit (TCU) will not allow an up-shift into 4th gear until the ATF has reached a specific temperature. This 4EAT design characteristic may be interpreted as a driveability problem by a driver who is not familiar with 4EAT operation.

There are many reasons for Subaru cold weather and driveability issues during cooler weather. Spending a few minutes with your Subaru and look over the points listed above should eliminate misconceptions about the Subaru cold weather performance and driveability characteristics of Subaru vehicles.

 

LSD Mechanical DCCD Advantage Explained:

LSD Mechanical DCCD Advantage Explained:

LSD: Advantages of mechanical LSD

The mechanical LSD mechanism is advantageous in that it has good response of the LSD differential limiting force to the engine driving force and has direct vehicle operational stability allowing the driver to easily grasp changes in the vehicle behavior. This post discusses these advantages in comparison with conventional DCCD system.

LSD Mechanical Advantage: Controlling coil current based on driving force estimated from detected information. Time lag existent between a change in engine driving force and generation of LSD differential limiting force.
LSD Mechanical Advantage: Controlling coil current based on driving
force estimated from detected information.

LSD Advantage: The LSD differential limiting force exactly follows changes in the engine driving force.
LSD Mechanical Advantage: The LSD differential limiting force exactly
follows changes in the engine driving force.

DCCD Subaru STi Explained

DCCD Subaru STi Explained:

The Driver’s Control Center Differential system is system that appropriately controls the differential limiting force of center differential LSD depending on running conditions of a vehicle. The DCCD system evolved provides controls that follow operations of the driver, while conventional DCCD system provides those based on conditions of the vehicle.

The system consists of a center differential of planetary gear type provided with LSD function, a steering angle sensor, a yaw rate sensor, a lateral G sensor, a DCCD control module and other components.

DCCD: The DCCD system evolved provides controls that follow operations of the driver, while conventional DCCD system provides those based on conditions of the vehicle.
DCCD: The DCCD system evolved provides controls that follow operations of the driver, while conventional DCCD system provides those based on conditions of the vehicle.

Hybrid LSD mechanism using conventional electromagnetic clutch LSD mechanism added with torque-sensitive mechanical LSD mechanism allows approximate coincidence between the vehicle acceleration/deceleration and LSD clutch differential limiting timings, resulting in linear LSD characteristics acquired through driver’s accelerator operation. Thus, the driver can more freely control the vehicle by easily grasping behavior of the vehicle.

In addition, the steering angle sensor let the DCCD control module know the driver’s intension of turning. In combination with the yaw rate and lateral G sensors, it adjusts the electromagnetic clutch LSD differential limiting force based on the running path imaged by the driver and the actual behavior of the vehicle. Thus, cornering in better accordance with the driver’s image is enabled, preventing occurrence of understeer and oversteer.

LSD MECHANICAL DCCD ADVANTAGE EXPLAINED

For balancing between the vehicle turning performance and traction during turning in a high order, the center differential driving torque is set to have distribution ratio 41:59.

 

DCCD: For balancing between the vehicle turning performance and traction during turning in a high order, the center differential driving torque is set to have distribution ratio 41:59.
DCCD: For balancing between the vehicle turning performance and traction during
turning in a high order, the center differential driving torque is set to have distribution ratio 41:59.

 

Manual mode switch/DCCD control dial

In manual mode, the DCCD control can be used to adjust the differential limiting force of the electromagnetic clutch LSD mechanism in the range from free to lock. Current settings of the control dial are displayed on the indicator in the meter.

DCCD: In manual mode, the DCCD control can be used to adjust the differential limiting force of the electromagnetic clutch LSD mechanism in the range from free to lock.
DCCD: In manual mode, the DCCD control can be used to adjust the differential limiting force of the electromagnetic clutch LSD mechanism in the range from free to lock.

 

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SI-Drive 2008+ STi Explained:

SI-Drive 2008+ STi Explained:

The 2008 Subaru Impreza WRX STI has a heritage of power and control. Previous models have been the foundations for countless racing victories and championships. The new WRX STI promises the same with it’s 305- horsepower, turbocharged, intercooled Boxer engine and a six-speed manual transmission.

SI-Drive: he new WRX STI promises the same with it's 305- horsepower, turbocharged, intercooled Boxer engine and a six-speed manual transmission.
SI-Drive: he new WRX STI promises the same with it’s 305- horsepower, turbocharged, intercooled Boxer engine and a six-speed manual transmission.

Power and control incorporate enhanced technology. As suggested by new switchgear on the dashboard and center console and my markings within the instrument cluster’s center-mounted tachometer, a driver has some things to learn before wringing out the most from the car.

Today’s electronics now allow the driver to tinker with engine response characteristics, the manner in which All-Wheel-Drive system fights for traction, and the degree to which braking and engine management help maintain vehicle stability. These capabilities are made possible by standard Vehicle Dynamics Control (VDC), Driver Controlled Center Differential (DCCD), and Subaru Intelligent Drive (SI-Drive).