The Ultimate Guide to Choosing TPMS Sensor Tool
The Best TPMS Tools For All Vehicles in
Take this example. If you only work with GM vehicles, you can opt for the TPMS tool that is compatible with that brand. EL- by VXDAS is a good fit for that. If your shop works on F-150 series vehicles, you can use the JDIAG TPMS tool. Select the TPMS tools that align with the most common vehicles stopping by your shop.
Three best practices for TPMS sensor replacement
Three best practices for TPMS sensor replacement
There are two main categories when replacing a TPMS sensor: OEM and aftermarket. The automotive aftermarket provides technicians many options when replacing a TPMS sensor and with so many sensor options out there, it is important to determine which technology would work best for your shop.
Before determining which TPMS sensors to invest in for replacement sensors, be sure to invest in a TPMS scan tool, such as a VT56, that can aid in determining which TPMS sensor brands should be used for replacement. The vehicle coverage depends on the TPMS sensor technology, and most shops invest in more than one sensor brand. It is best to use a TPMS tool, such as the VT56 or VT36, that has the ability to read, activate and reset TPMS systems, as well as program more than one type of TPMS sensor brand. With the help of a TPMS scan tool, technicians can stock up on the appropriate sensors by using the following three best practices for TPMS sensor replacement.
1 Determine the TPMS system
There are two types of TPMS systems: direct and indirect. Direct TPMS systems use TPMS sensors inside the wheel to report pressure data to the vehicles ECU in real time. The direct systems include Asian, domestic and European vehicles. An indirect TPMS system uses an ABS system to monitor the speed of the wheel in order to record tire pressure readings correctly. Indirect systems can include Asian and some European vehicles.
Although there are no TPMS sensors within the wheel for vehicles with an indirect system, a relearn procedure must be performed to turn the TPMS light off. Some TPMS scan tools can help determine whether the system is direct or indirect, and will walk the technician step-by-step on how to reset their vehicle.
2- Choose a TPMS sensor type
To work on any vehicle that comes in the shop for TPMS services, most shops carry more than one sensor brand for the best vehicle coverage. With so many different TPMS sensors in the aftermarket, technicians should know which options are out there to choose what is best for them.
Original equipment (OEM)
OEM sensors are a direct replacement of original manufactured sensors. The IDs are already written to the sensor, therefore, it does not need to be configured before it is installed.
Programmable or Configurable (Aftermarket)
Programmable or configurable sensors are aftermarket universal TPMS sensors. The sensor must be programmed or cloned from an OEM or another aftermarket sensor before use, using a TPMS tool.
- Alligator Sens.it, Standard Qwik, NAPA Qwik, Schrader EZ-sensor® , Orange Universal, MAX T.O.T.A.L., Mobiletron, PDQ, Steelman Select, U-Pro, Myers U-Pro, HUF Intellisens, and Dynamic Pro-Select.
Multi-protocol (Aftermarket)
Multi-protocol TPMS sensors are aftermarket sensors pre-loaded with few sensor protocols. It is a part-for-part replacement. Since the IDs are already written to the sensor, it does not need to be configured before use.
- VDO REDI-Sensor
1:1 (Aftermarket)
One-to-one TPMS sensors are aftermarket sensors that are a direct replacement of an OE sensor with one preloaded sensor protocol. The IDs are written to the sensor and does not need to be configured before use.
- Dill OE, Standard OE, NAPA OE-Design, and Orange Direct Fit.
TPMS Sensor Technology Programmable, configurable (Aftermarket) Multi-protocol (Aftermarket) 1:1 (Aftermarket) OEM (Original Equipment) TPMS ID Protocols
Sensor must be programmed or cloned from OE or another aftermarket sensor before use. (Programmable sensors have no protocols written to the sensor, whereas configurable sensors have several protocols written to the sensor.)
Comes pre-loaded with few sensor protocols. Does not require configuring before use.
Comes with one preloaded sensor protocol. Does not require configuring before use.
Direct replacement of original manufactured sensor. Does not require configuring before use.
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UniversalNot a direct (part for part) replacement
Part for part replacement
Part for part replacement
Direct (part for part) replacement
Programmable via TPMS diagnostic tool?Yes
No
No
No
Cloneable via TPMS diagnostic tool?Yes
No
Depends on TPMS sensor brand
No
Is a relearn procedure required?Yes, unless the sensor is cloned
Yes
Yes
Yes
Using a TPMS scan tool, users can create or clone the TPMS sensor IDs for programmable or configurable sensors. The technician will need to perform a relearn procedure to write new TPMS sensor IDs to the vehicles ECU. The steps on how to perform the relearn procedure are sometimes written in the VT56 TPMS Tool, or can be found in the owners manual.
3 Choose the correct TPMS sensor frequency
TPMS sensors are available in two frequencies: 315MHz and 433MHz. TPMS signals transmit at 433MHz in Europe and at 315MHz in most parts of the world. When replacing a TPMS sensor, be sure to verify it has the correct electromagnetic wave frequency for the vehicle system. Using the wrong frequency will result in a failed relearn procedure and/or failed sensor programming. A TPMS tool, such as the VT31, VT36 and VT56, have the ability to determine the frequency of the old or new sensor.
There are a few simple ways to determine which sensor frequency a vehicle uses by using your TPMS tool.
Read or activate the sensor, and the frequency information will be displayed on the tool.
Use the program sensor function to determine which sensor frequency should be used when replacing the sensor, determined by the vehicles Make, Model, and Year.
Verifying the frequency helps technicians determine which brands of sensors to invest for the future. Some TPMS models and model years from the same automaker use different frequencies. For example, a Nissan Rogue uses 315MHz sensors, and a Nissan Rogue uses 433MHz sensors. Once it is determined which frequency is used, a TPMS tool will display which brand of sensors has coverage for the vehicle by Make, Model and Year.
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