Caring For AGM And Flooded Batteries

Ethanol Damage to Fuel Pumps

Forcing Vehicle Monitors For Calibration

Caring For AGM And Flooded Batteries

Ethanol Damage to Fuel Pumps

Forcing Vehicle Monitors For Calibration

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TPMS sensor signals are low power and low frequency, with most sensors transmitting at 315MHz or 433MHz.

One of the problems with ethanol is how it reacts to water in the air and in the tank.

Underhood Service targets repair shops that derive 50 percent or more of their revenue from the service and repair of under-the-hood systems. The expanding amount of knowledge and capital needed to keep up with technological advances has led these shop owners to concentrate on underhood systems, while also offering preventive maintenance services on most major vehicle systems. By subscribing, you’ll receive the ShopOwner digital edition magazine (12 times/year) featuring articles from Underhood Service and the Underhood Service eNewsletter (twice weekly). Access to digital editions, contests, news, and more are ready for you today!

Underhood Service targets repair shops that derive 50 percent or more of their revenue from the service and repair of under-the-hood systems. The expanding amount of knowledge and capital needed to keep up with technological advances has led these shop owners to concentrate on underhood systems, while also offering preventive maintenance services on most major vehicle systems. By subscribing, you’ll receive the ShopOwner digital edition magazine (12 times/year) featuring articles from Underhood Service and the Underhood Service eNewsletter (twice weekly). Access to digital editions, contests, news, and more are ready for you today!

ByUnderhood Service Staff Writers on Jan 20, 2021

ByUnderhood Service Staff Writers on Jul 15, 2022

High underhood temps, increased power demands and vibration can damage alternators or starters. Sponsored by ACDelco.

Don’t settle for “almost” - it matters where the engine is manufactured or remanufactured. Sponsored by ACDelco.

Brake pads are thoroughly developed to produce the best result. This video is sponsored by ZF Aftermarket.

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The clock master is the master module responsible for keeping time and broadcasting this information to the slave module(s).

Most Ford and Lincoln vehicles are equipped with a clock display. However, the module that controls each vehicle line’s clock may differ depending on vehicle equipment and model year. The following information is intended to assist with identifying the clock master and the strategies in which the clock operates.

The clock master is the master module responsible for keeping time and broadcasting this information to the slave module(s).

Normal allowance for clock time gain or loss on all vehicles and systems should be no more than 10.5 to 15.25 seconds per week. This gain/loss is dependent on temperature exchanges during that period of time, and can equate to 45 seconds to one minute per month.

The default time zone is Eastern. This will always have an offset of  five hours behind universal time clock (UTC) plus any user offset. UTC does not account for daylight savings time as this is a North American market legal requirement only.

The clock master differs between each vehicle depending on the architecture type. There are three different architecture types currently used on all Ford and Lincoln vehicles.

The SYNC Module (APIM) for vehicles equipped with SYNC Gen 2 or SYNC 3 is the clock master. If the vehicle is equipped with SYNC Gen 1, the front control/display interface module (FCDIM) is the clock master.

Vehicles with navigation: The APIM receives a time and date message from the global positioning system module GPSM satellite antenna. The time value provided is in terms of UTC. The APIM will then display the time, with the appropriate time zone offset provided by the navigation software.

Vehicles without navigation: The APIM is still the clock master. However, the APIM will calculate the offset by subtracting the current displayed time from the UTC time that is being broadcast by the GPSM/satellite antenna. 

Vehicles with SYNC Gen 1 and FCDIM: All clock functionality is controlled by the FCDIM. The FCDIM is the clock master and broadcasts clock information to other modules.

The offset is calculated by using UTC time and subtracting current displayed time. This offset value is used each time the APIM is powered up. Upon power up the offset is added to the UTC time provided by the GPSM/satellite antenna and then compared to the clock time that the APIM internally tracks. If the two do not match, the APIM will correct to the tracked time with the UTC time plus the offset.

The body control module (BCM) is the clock master. The APIM and FCDIM are slave modules.

Vehicles with navigation: The APIM (slave module) is still responsible for reading the GPS data from the GPSM/satellite antenna, applying the appropriate time zone offset, and comparing that time to the current tracked time provided by the BCM (clock master). As a slave module, the APIM will not automatically update the time displayed on its own. The slave module will request a time change from the clock master. The clock master then sends a request to the slave modules to update the displays.

Vehicles without navigation: The slave module will still calculate the offset. It will also use this offset value and the time provided by the GPSM/satellite antenna to compare with the current time value from the clock master. If the times do not match, the slave module will send a time change request to the clock master instead of instantly updating. The clock master will then send the request to have the displays updated accordingly.

The offset equals the UTC time minus the current displayed time. This offset value is used every time the slave module powers up. Upon powering up, the offset is added to the UTC time provided by the GPSM/satellite antenna and then compared to the clock that the slave module internally tracks.

These vehicles follow the same rules as the Type B architecture-type vehicles. For older vehicles and others not listed, the audio control module (ACM) is the clock master.

For vehicles equipped with SYNC Gen 2 or SYNC 3, the clock master can be determined through the APIM Bezel and the service information. Vehicles equipped with SYNC 3 do not have a separate GPSM. Per the WSM Section415-00 Description and Operation, the GPSM is internal to the APIM.

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