Contains information related to marketing campaigns of the user. These are shared with Google AdWords / Google Ads when the Google Ads and Google Analytics accounts are linked together.
90 days
__utma
ID used to identify users and sessions
2 years after last activity
__utmt
Used to monitor number of Google Analytics server requests
10 minutes
__utmb
Used to distinguish new sessions and visits. This cookie is set when the GA.js javascript library is loaded and there is no existing __utmb cookie. The cookie is updated every time data is sent to the Google Analytics server.
30 minutes after last activity
__utmc
Used only with old Urchin versions of Google Analytics and not with GA.js. Was used to distinguish between new sessions and visits at the end of a session.
End of session (browser)
__utmz
Contains information about the traffic source or campaign that directed user to the website. The cookie is set when the GA.js javascript is loaded and updated when data is sent to the Google Anaytics server
6 months after last activity
__utmv
Contains custom information set by the web developer via the _setCustomVar method in Google Analytics. This cookie is updated every time new data is sent to the Google Analytics server.
2 years after last activity
__utmx
Used to determine whether a user is included in an A / B or Multivariate test.
18 months
_ga
ID used to identify users
2 years
_gali
Used by Google Analytics to determine which links on a page are being clicked
30 seconds
_ga_
ID used to identify users
2 years
_gid
ID used to identify users for 24 hours after last activity
24 hours
_gat
Used to monitor number of Google Analytics server requests when using Google Tag Manager
1 minute
SourceBuster is used by WooCommerce for order attribution based on user source.
Name
Description
Duration
sbjs_first_add
Timestamp, referring URL, and entry page for your visitor’s first visit to your store (only applicable if the visitor returns before the session expires)
session
sbjs_current_add
Timestamp, referring URL, and entry page for your visitor’s current visit to your store
session
sbjs_migrations
Technical data to help with migrations between different versions of the tracking feature
session
sbjs_session
The number of page views in this session and the current page path
30 minutes
sbjs_udata
Information about the visitor’s user agent, such as IP, the browser, and the device type
session
sbjs_first
Traffic origin information for the visitor’s first visit to your store (only applicable if the visitor returns before the session expires)
session
sbjs_current
Traffic origin information for the visitor’s current visit to your store
session
Marketing cookies are used to follow visitors to websites. The intention is to show ads that are relevant and engaging to the individual user.
Facebook Pixel is a web analytics service that tracks and reports website traffic.
ECU tuning, or Engine Control Unit tuning, involves modifying the software that controls the engine's performance. This process optimizes engine parameters to enhance power, efficiency, and drivability, making it a popular choice for vehicle enthusiasts looking to maximize their vehicle's potential.
By adjusting fuel maps, ignition timing, and boost levels, ECU tuning can lead to significant increases in horsepower and torque. For example, a well-executed remap on a Ford Ranger can yield up to 30 additional horsepower, providing a noticeable improvement in performance and responsiveness.
Benefits of Dyno Testing
Dyno testing is a critical part of the tuning process, allowing technicians to measure a vehicle's power output and performance accurately. This testing ensures that the tuning adjustments made to the ECU are effective and safe, providing real-time feedback on how changes affect engine performance.
Using a dynamometer, tuners can assess horsepower and torque at the wheels, identifying the optimal settings for each vehicle. This precise measurement helps in delivering tailored tuning solutions that enhance performance while maintaining reliability, which is crucial for daily drivers and performance vehicles alike.
Performance Upgrades for Diesel Vehicles
Performance upgrades for diesel vehicles often include enhancements such as turbochargers, intercoolers, and exhaust systems. These modifications work together to improve airflow and combustion efficiency, leading to better power delivery and fuel economy.
For instance, installing a high-performance intercooler can reduce intake temperatures, allowing for denser air entering the engine, which ultimately contributes to higher power outputs. Upgrades like these are especially beneficial for heavy-duty applications, such as towing or off-roading, where performance and reliability are paramount.
Choosing the Right Tuning Package
Selecting the appropriate tuning package for your vehicle can significantly impact its performance and longevity. Factors to consider include the specific model, intended use, and personal performance goals, ensuring that the tuning aligns with your driving style and vehicle capabilities.
For example, a Stage 1 tuning package may be ideal for daily drivers seeking a balance of performance and fuel efficiency, while a Stage 3 package could be more suitable for enthusiasts looking for maximum power and aggressive driving dynamics. Understanding these options helps customers make informed decisions that best suit their needs.
Understanding ECU Tuning
ECU tuning, or Engine Control Unit tuning, involves modifying the software that controls the engine's performance. This process optimizes engine parameters to enhance power, efficiency, and drivability, making it a popular choice for vehicle enthusiasts looking to maximize their vehicle's potential.
By adjusting fuel maps, ignition timing, and boost levels, ECU tuning can lead to significant increases in horsepower and torque. For example, a well-executed remap on a Ford Ranger can yield up to 30 additional horsepower, providing a noticeable improvement in performance and responsiveness.
Benefits of Dyno Testing
Dyno testing is a critical part of the tuning process, allowing technicians to measure a vehicle's power output and performance accurately. This testing ensures that the tuning adjustments made to the ECU are effective and safe, providing real-time feedback on how changes affect engine performance.
Using a dynamometer, tuners can assess horsepower and torque at the wheels, identifying the optimal settings for each vehicle. This precise measurement helps in delivering tailored tuning solutions that enhance performance while maintaining reliability, which is crucial for daily drivers and performance vehicles alike.
Performance Upgrades for Diesel Vehicles
Performance upgrades for diesel vehicles often include enhancements such as turbochargers, intercoolers, and exhaust systems. These modifications work together to improve airflow and combustion efficiency, leading to better power delivery and fuel economy.
For instance, installing a high-performance intercooler can reduce intake temperatures, allowing for denser air entering the engine, which ultimately contributes to higher power outputs. Upgrades like these are especially beneficial for heavy-duty applications, such as towing or off-roading, where performance and reliability are paramount.
Choosing the Right Tuning Package
Selecting the appropriate tuning package for your vehicle can significantly impact its performance and longevity. Factors to consider include the specific model, intended use, and personal performance goals, ensuring that the tuning aligns with your driving style and vehicle capabilities.
For example, a Stage 1 tuning package may be ideal for daily drivers seeking a balance of performance and fuel efficiency, while a Stage 3 package could be more suitable for enthusiasts looking for maximum power and aggressive driving dynamics. Understanding these options helps customers make informed decisions that best suit their needs.
