Extended Warranty BluTEC (AEM)

By: Dave Williams
July 4, 2024

Extended Modification Warranty MY 2009-2016 OM642 and OM651  BlueTEC II Diesel Vehicles

Mercedes-Benz USA, LLC will provide an Extended Modification Warranty for each vehicle that has received the Approved Emission Modification.  The Extended Modification Warranty period shall be the greater of: (i) 10 years from the date of initial sale or 120,000 miles on the odometer, whichever occurs first; or (ii) 4 years or 48,000 miles from the date of installation of the Approved Emission Modification, whichever occurs first.  If an owner or lessee has already paid to a have a repair performed related to any of the components listed below prior to the effective date of this Extended Modification Warranty, those repairs are not eligible for reimbursement.

The Extended Modification Warranty coverage may be denied if an Eligible Vehicle has been altered with the use of any after-market emission related components, parts, and/or software, or with the removal of any original emission related components, parts, and/or software, and such alteration(s) are likely to substantially affect the operation of the vehicle with the Approved Emission Modification, until the owner of such vehicle, at his or her expense, has reversed the alteration(s) such that the Approved Emission Modification will not be substantially affected.

The Extended Modification Warranty will not cover:

  • Any damage or malfunctions caused by the installation of non-EPA or non-CARB certified emission related parts, including damage or malfunction to parts needed for proper diagnosis of a covered part.
  • Damage or malfunctions caused by or related to outside influence, such as damage due to an accident, or vehicle misuse or neglect.

The Extended Modification Warranty includes parts and labor, and shall not void or supersede any existing warranty.

The Extended Modification Warranty shall cover the following parts:

  • Diesel Oxidation Catalyst (DOC)
  • Diesel Particulate Filter (DPF)
  • Selective Catalytic Reduction (SCR) Catalyst
  • Diesel Exhaust Fluid (DEF) Injector
  • Diesel Exhaust Fluid (DEF) Injector Controller
  • Diesel Exhaust Fluid (DEF) Supply Module
  • Diesel Exhaust Fluid (DEF) Pump
  • Temperature Sensor Unit (DEF Temperature Sensor)
  • Exhaust Temperature Sensor
  • Particulate Matter (PM) Sensor
  • Lambda Sensor (Emission Modification Categories 1-5 ONLY)
  • NOx Sensors
  • Fuel Injectors
  • Air Intake Throttle
  • Exhaust Gas Recirculation (EGR) Valve
  • Exhaust Gas Recirculation (EGR) Duct
  • Exhaust Gas Recirculation (EGR) Cooler (including bypass control)
  • Exhaust Gas Recirculation (EGR) Temperature Sensor
  • Intake Manifold/Charge Air Distributor
  • Turbocharger (including VGT Actuator)
  • Engine Control Unit (ECU) Hardware (where replaced as part of the Approved Emission Modification)
  • Transmission Control Unit (TCU) Hardware (where replaced as part of the Approved Emission Modification)
  • Hydraulic Control Unit (HCU) Hardware (where replaced as part of the Approved Emission Modification)
  • Onboard Diagnostic (OBD) System*
  • Cylinder Head Assembly Components (camshafts, valves, springs, valve spring keepers, valve seats, cam bearing caps, and manifold studs)
  • Engine Timing Chain
  • Intake Manifold Pressure Sensor
  • Instrument Cluster Hardware (where replaced as part of the Approved Emission Modification)
  • Coolant Thermostat (where replaced as part of the Approved Emission Modification)
  • and Crankcase ventilation valve (including line and heating element)

*The Extended Modification Warranty will cover the cost of any OBD Diagnostic Scan for malfunctions that trigger the MIL, regardless of whether the malfunction is attributable to a part that is covered under the Extended

Modification Warranty, as well as the cost of troubleshooting to determine the reason for the malfunction, but only if the malfunction is determined to be attributable to a part that is covered under the Extended Modification Warranty.

Additional Extended Warranty Periods for Certain Emission-Related Components

As indicated in the table below, some emission-related components have an additional extended warranty period.  The additional extended warranty is added to the applicable Extended Modification Warranty period above.

# Part EMC 1 & EMC 2 EMC 9 EMC 10, & EMC 11
1 DOC 6 months and 6,000 miles 6 months and 6,000 miles 6 months and 6,000 miles
2 DPF 6 months and 6,000 miles 6 months and 6,000 miles 6 months and 6,000 miles
3 SCR catalyst 12 months and 12,000 miles 6 months and 6,000 miles 6 months and 6,000 miles
4 DEF injector
5 DEF injector controller
6 DEF supply module
7 DEF pump 6 months and 6,000 miles 6 months and 6,000 miles 6 months and 6,000 miles
8 DEF temperature sensor
9 Exhaust temperature sensor 12 months and 12,000 miles 6 months and 6,000 miles 6 months and 6,000 miles
10 PM sensor (Part not applicable) 6 months and 6,000 miles 6 months and 6,000 miles
11 Lambda sensor 12 months and 12,000 miles (Part not applicable) (Part not applicable)
12 NOx Sensors 24 months and 24,000 miles 12 months and 12,000 miles 12 months and 12,000 miles
13 Fuel injectors 6 months and 6,000 miles
14 Air intake throttle 6 months and 6,000 miles
15 EGR valve 6 months and 6,000 miles
16 EGR duct 6 months and 6,000 miles
17 EGR cooler (incl. bypass control) 6 months and 6,000 miles
18 Intake manifold/charge air distributor 6 months and 6,000 miles
19 EGR temperature sensor 6 months and 6,000 miles
20 Turbocharger
21 Engine control unit
22 Transmission control unit
23 Hydraulic control unit (EHS)
24 OBD system
25 Cylinder Head assembly
26 Timing chain
27 Intake manifold pressure sensor
28 Instrument cluster
29 Coolant thermostat, where replaced as part of AEM

 

Starlink

February 11, 2024
By Bob Kelly

Information regarding Starlink changes on a weekly basis.  Please visit https://www.starlink.com/ for the latest technical data, plans and updates.

Starlink 101

Starlink offers a number of antennas, and frequently changes the names of the antennas. One is no longer offered for sale. The  antennas are:

  • Starlink Standard – non actuated antenna with a static mount
  • Starlink Standard Actuated – Actuated antenna with a static mount, allegedly no longer available for purchase (2/11/2024)
  • Starlink Flat high performance with wedge mount – allegedly the only approved antenna for in motion use (2/11/2024)
  • Starlink V2 High Performance – Actuated antenna with stand
  • Starlink V2 Standard antenna with stand –data unavailable (2/11/2024)
  • Starlink round antenna (Unavailable).

The original antenna worked on two channels, the new one works on three. The new antennas provide enhanced performance, additionally, the new satellite dish’s Wi-Fi modem is now waterproof and can operate outside in more varied weather conditions, between -22 to 122 degrees Fahrenheit (-30 to 50 degrees Celsius).

The High Performance actuated antenna has a field of view of 140 degrees and the High Performance Antenna is better at dealing with obstructions than the V2 antenna. The High Performance Antenna has a wider field of view, making more satellites visible and able to be communicated with. Power consumption is reported to be from 110W to 150W.

The High Performance flat antenna has a field of view of 140 degrees and is better at dealing with obstructions than the V2 antenna. The High Performance Antenna has a wider field of view, making more satellites visible and able to be communicated with. Power consumption is reported to be from 110W to 150W. It is advertised to be survivable to 175MPH.

Starlink Standard, non actuated antenna with a static mount has a field of view of 110 degrees, vs 100 degrees for the Standard dish, with software assisted manual orienting. Power consumption is reported to be from 70W to 100W.

Starlink Standard, actuated antenna has a field of view of 100 degrees. Power consumption is reported to be from 50W to 75W.

The performance of your connection will depend mainly on your service plan, and the amount of Starlink users in your area, not your hardware choice. The High Performance equipment stands out when it comes to reliability and performance in harsh weather. Since the electronic phased array antenna on the High Performance dish is much larger, and the power supply is more powerful, the dish that can power through rain, snow, and ice better than the Standard version. Priority data has network precedence over Standard and Mobile data, so as a result, users will experience faster and more consistent download and upload speeds.

There are a number of plans.

  • Standard
  • Priority –
  • Mobile
  • Mobile Priority

Standard Plan

The Standard Plan is intended for use in a permanent location. The plan has unlimited data, and the price is currently $120 per month. Starlink recommends the Standard Antenna.

Priority Plan

The Priority Plan is intended for use in a permanent location. The plan has data on a sliding usage scale. A 40 GB per month plan is $140 a month.  A 1TB per month plan is $250 a month. A 2TB per month plan is $550 a month. After the Priority allotment is consumed, Standard Data connectivity will be provided. Priority Data is available at a GB charge.  Starlink recommends the Flat High Performance Antenna with wedge mount.

Roam (Mobile) Plan

The Mobile Plan is intended for portability, and will work when the antenna is in motion. You are allowed to pause service. The plan has unlimited data, and the price is currently $150 per month for regional mobility (The United States). Mobile Priority Data is available by the GB charge. The price is currently $200 per month for global mobility. Starlink recommends the Standard Antenna.

Mobile Priority Plan

The Mobile Priority Plan is intended for in motion Ocean use, Network Priority and Priority Support. The plan will work when the antenna is in motion. The plan has unlimited inland data. The plan has data on a sliding usage scale. A 50 GB per month plan is $250 a month.  A 1TB per month plan is $1,000 a month. A 5TB per month plan is $5,000 a month. Additional Priority is available at a GB charge. Starlink recommends the Flat High Performance Antenna with wedge mount.

Terms

The Best Effort tier currently offers advertised download speeds from 5 to 50Mbps. Download speeds are often higher in areas that do not have a concentration of users. In contrast, the standard residential tier offers speeds from 20 to 100Mbps. Users can have download speeds between 25 and 220 Mbps, with a majority of users experiencing speeds over 100 Mbps. Upload speeds are typically between 5 and 20 Mbps.

Streaming

According to the internet site updater.com, for SD quality, 1Mbps will work. However, Netflix notes a faster connection will mean improved video quality. Peacock states that the recommended speed for preminum content is 8 Mbps, and 4K content requires 25Mbps. HD streaming generally requires between 3 Mbps and 5Mbps. Other sources state that for 4K/Ultra HD (UHD) the requirement is between 15Mbps and  25Mbps. The next question is how many RV’s are equipped with 4K televisions?

Mobility

Starlink Roam costs more (and has slower speeds) than Starlink Standard. However, Starlink Roam allows users to take their internet access on the go, and use the service while the antenna is in motion, while Starlink Residential is assigned to a fixed home address, and reportedly will not work in motion.

Power Usage

The standard Starlink dish is reported to consume roughly 1 kilowatt hour of electricity in 24 hours. That’s just shy of the usable capacity in a 100 amp-hour lithium battery. The larger, in-motion dish is reported to use roughly twice as much power. The popular on line media opines that this can equate to a massive amount of increased power demand for many RVers.

In general, I’ve found the consumption is in the neighborhood of 6AHr., which over 12 Hrs is about 80 AHr.  However, I’ve found that about 400W of solar on the roof covers about 50% of the daily usage and still recharges the batteries. I have a combination of a High performance Flat mount wedge panel and the Mobile plan.  The system is powered by a Bestek 300AHr Pure Sine Inverter. In the same location, the system reconnects to satellites after being turned off and provides Internet service within 5 minutes.

Testing determined that at startup, the system (inverter, router, power supply and antenna) drew about 16Ahr, for a short period of time.  After acquiring satellites, and running nominally, the system drew between 5.5Ahr and 6.5 AHr. For my RV, with 6V GC batteries, this makes it a realistic addition to my camping.  Energy management becomes far more important. Time and several days of dry camping will determine what changes to my energy routine will be required. A week stay in Quartzsite revealed that with the sun low on the horizon, additional energy is needed to run the Starlink all day.  There was about a four hour window during the middle of the day where incoming energy from the solar panels exceeded the consumption of the system.  A 2,400W inverter generator was used to supplement power.

Lithium Batteries

September 5, 2023
By Collin Ray Tate

Lithium-ion (Li-ion) batteries and Lithium Iron Phosphate (LiFePO4) batteries are both types of rechargeable lithium batteries, but they have some differences in terms of chemistry, characteristics, and applications.

Lithium-ion (Li-ion) batteries are commonly used in a wide range of devices such as smartphones, laptops, electric vehicles, and more. They offer high energy density, meaning they can store a lot of energy in a relatively small and lightweight package. Li-ion batteries have good energy efficiency and can provide high discharge currents, making them suitable for applications requiring high power output.

Lithium Iron Phosphate (LiFePO4) batteries are a specific type of lithium-ion battery that uses lithium iron phosphate as the cathode material. These batteries are known for their stability, safety, and longer cycle life compared to traditional Li-ion batteries. LiFePO4 batteries are less prone to thermal runaway and overheating, making them a safer option for certain applications. They have a lower energy density compared to standard Li-ion batteries, which can affect their specific energy capacity and size. LiFePO4 batteries are often used in applications that prioritize safety, longevity, and reliability, such as electric vehicles, solar energy storage systems, and some industrial applications.

Standard Li-ion batteries are used in a broader range of devices where energy density and power output are key factors.

 

RV is not a Large SUV

By Bob Kelly
September 2019

I just realized that a RV is not a large SUV with more space.

The realization occurred upon my return from a 6,800 mile trip that started in mid July 2019. I brought my nieces, who are new to RV’s, with me.

There were a couple of things at the end of the trip, after 30 days of traveling, that provided insight as to why some new RV owners are timid/encounter problems with dry camping or boondocking. It was one of those AHA! moments. I’m sorry that I never saw the component before.

I came to RV’s with a strong backpacking/sailing background. In the late 70’s I owned a Backpacking shop in Upper Montclair, NJ. In the late 80’s I had a friend who owned a 35’ sloop that we moved from NJ to Newport, RI. Both experiences laid the foundation for my later RV trips.

An RV is not just a bigger SUV you can eat and sleep in, with more room for your dogs. The RV is a mobile city of one, and not just a house on wheels. If you only stay at RV parks with full hookups, you can stop reading, as you are essentially still at home, just in a different neighborhood.

At home, there is unlimited energy. Carelessness results in a bigger utility bill. Leaving the water run, or having a leak increases the quarterly water bill or makes your water pump run more. Energy and water at home are endless, and seldom a concern.

The RV, like the backpacker, or boat, must carry all of its water and energy, or find a location where
it’s available. If you have unlimited water, you must have unlimited sewer disposal.

The incidents that brought this to light, is the boost solenoid in my RV, that connects the house batteries to the alternator, broke. This wasn’t a problem prior, since I have 300 W of solar on the roof. Essentially, I was been dry camping for the bulk of the trip, since the alternator did not contribute anything to my energy budget.

My niece asked to plug in her laptop to a small laptop inverter. It was a cloudy and rainy day, but we were doing well on the batteries, so I said OK. Later in the day, when I checked the batteries they were at 40%. She left the charger plugged in. Not her fault, she didn’t understand the system. We had to run the generator.

Days later, it was shower night. I filled the water tank. It took 21 gallons to fill (I have a water meter). We did the standard 11 or 12 minutes of propane hot water heating, and then showered with just the hot water on. I did not realize that we had taken on some really soft water, and when you washed, it felt like the soap hadn’t rinsed off. The standard lather, shut off water, scrub and rinse turned into lather, shut off water, scrub and rinse, and rinse, and rinse. I was the last to shower and found my self standing in an inch of water in the shower basin.

Things were fixed so we had a dry shower pan, but we were essentially out of water. The girls had become very comfortable, and felt at home, but they weren’t at home, and that provided the revelation.

The RV, unlike home, requires you to monitor your energy availability and utility use. You must be aware of the energy you have at your disposal, and how you have been using it. The RV requires judicious use of water, and a conscious evaluation of where you are in your water budget. The RV requires that you monitor your waste tanks. None of these things are complicated or difficult, it’s just that they must be done. If you raise your awareness, and/or plan ahead, there are dump stations everywhere. Dry Camping/boondocking is just as comfortable as being in the most palatial RV resort except there generally is no AC, and the sites are much more open and less crowded.

Being able to manage your utilities provides you with the opportunity to go almost anywhere. It opens up some beautiful uncrowded places and parks. It just requires you to be a little bit in the utility business.

Solar and Batteries

Solar wattage and batteries are completely independent. Solar Panels collect energy (sunlight) convert it into electricity to be used/stored.

Batteries store energy chemically and deliver it as electricity. Lead acid batteries (flooded/AGM) have a particular chemistry and their charging profiles taper (you can’t put in as much electricity at the end as you did in the beginning, when the batteries were in a discharged state). As the flooded/AGM batteries get closer to being fully charged (the term float is applicable) the voltage that they can be charged at decreases. Read more “Solar and Batteries”

FB Files Test Page

This is a test page for the organization of files from the Facebook View Navion Motorhomes Group.

Cabinet Latch Alternative – D Gerrelts
Cabinet latch alternative (3)

Emergency Jack Retraction PDF HWH Levelers – M Stern
Emergency Jack Retraction – HWH® Corporation

Overnight Parking –  J.J. Kosmider
ViewandNavionMemberOvernight Parking 11.15.2022 

Resetting Oil Service Light – J Utschig
Sprinter, Resetting Oil Service Light 

 

Electrical Management

One of the concerns expressed frequently is the occasional lack of plug in power.  Energy management is a good thing to master, regardless of where you camp.

There are two electrical systems in our RV’s.

The first system is a 12V Direct Current (DC) system that powers the interior lights, the refrigerator, the propane furnace, the entertainment center, the water pump, and the exhaust fans, and the energy for that is stored in the batteries. Stock batteries have the lowest energy storage capacity, and lithium batteries have the highest. The batteries are charged by the RV engine alternator, solar panels if installed, and the coach generator. Read more “Electrical Management”

One Place Reset

By Tom Land
May 2, 2021

Below is the procedure to reset the One Place controller in the View/Navion.

  • Hold down for 10 seconds: pump, tank, and battery buttons simultaneously.
  • The unit’s software version will display.
  • Press and release the ‘pump’ button.
  • Press and release the ‘battery’ button.

Complete – should now show correct tanks, etc.

Acceptable Sprinter Fuel

by Kent Gardam
April 30, 2022

All diesel fuel legally available for “on road” use has to be ULSD (Ultra Low Sulphur Diesel). That label should be on the pump.

You may occasionally encounter cheaper diesel fuel labeled “For Off Road Use Only”. That fuel does not have the highway taxes included and is illegal to use for “on road” driving. Don’t use it.

If you also see a “Diesel #2” label that’s great, use it.

If you see a “B5” label that is perfectly acceptable too.

If you see a “B20” label then Mercedes recommends that you minimize its use (an occasional tankful is fine) but if that’s all you have available as a regular diet then you need to do oil changes, oil filter changes, and fuel filter changes twice as often as your Sprinter manual recommends.

If you see an orange “Biomass” sticker on the pump DO NOT USE THAT FUEL. Mercedes does not approve use of that fuel at this time. Perhaps in the future they will but not now.

If you see a “Renewable Diesel” sticker on the pump DO NOT USE THAT FUEL. Mercedes does not approve use of that fuel at this time. Perhaps in the future they will but not now.