I enjoy mountain biking off-road and often in areas with no cellular. Sometimes I ride in areas with many established trails that cross each other and navigation would help. I looked into bike navigation but they have small screens, are costly, and many of the features are redundant with my Garmin fenix 6x Pro Solar watch. I also never trade in my old smartphones so I have several fairly recent ones laying around. I decided to use my old Motorola Z4 smartphone as a biking navigation using. First I needed a real robust mount. I started on Amazon and found this one.
It grabs all 4 corners and locks in place.
I cleared and reset the phone, removing all unnecessary apps to minimize battery consumption. I also put it in airplane mode, and keep WiFi and Bluetooth off to save power. The Moto Z4 I am using also supports MotoMod batteries, of which I have a few. I am using the 2200mAh unit primarily and I can hot swap in others if it gets low on the trail (which is unlikely). I could also connect the phone to the USB port in the bike display to keep it charged if I wanted. I removed the SIM card as well so it would not search for cellular even out of airplane mode. Then I installed Google Maps, Trailforks, Garmin Explore, and GAIA maps. All of these offer offline maps of bike trails. There are many others too. So far I found GAIA to be the best for bike navigation as it can ever store satellite maps offline.
Here is how I organized the home screen.
Here is what GAIA maps looks like.
Here is a video showing the use of this riding some trails.
This first ride was on a pretty easy trail. I have yet to test it on harsher rides but so far it seems solid. I am of course by no means the first person to do this. I wanted to use an old phone, and not my current phone, just in case that mount breaks or I crash the bike. Also, I didn't want to drain the battery on the phone I use normally since I want to be able to make calls, or message through my Garmin satellite messenger in case of trouble.
I am selling my 2010 Mercedes E350 4matic sedan. It has 167k miles on it but runs and drives great. There is a slight whine in the drivetrain that has been there for years. The rims have curb rash and some are somewhat bent but it does not cause any problem. It was hit in the back in 2019 but there was no structural damage and we had it repaired at Benishek & Will which is a very reputable body shop. Current Kelly Blue Book value is $5,782 - $8,569. I will sell it for $6,000 or best offer.
I bought this car in 2015 from Autohaus in Peoria. We took many road trips in this car, especially between 2015 through 2018 so many of these miles are highway miles. The car has had very few miles since 2021. It has always been kept in a garage. This is the first year of the W212 body style and these have been great cars.
I now have over 350 miles on this bike, most of that off-road. This bike has been great for my riding style. I have the optional range extender battery which allows me to ride about 75 miles off-road on a charge. My riding includes many long hills and loamy conditions that burn through power too.
I have had some creaking noises which sound like they are coming from the handlebar area and possible the motor area. I checked and rechecked everything and all is tight.
When I bought this bike they offered several upgrades. One of which was a $300 Wren hub upgrade. I passed on it thinking why would I need that? Well, I found out why. I was up at Little Red Rock on a loamy hill. I hit the throttle and heard a snap and then the cassette just spun, no longer driving the wheel.
Luckily I was up hill so I was able to coast down to a main road and get picked up. I got home and took the hub apart and sure enough the ratchet teeth had sheared the ends off.
Now I decided to get the upgraded hub.
If you have an electric mountain bike with a high torque motor like this Bafang Ultra M620, best to also get a hub that can support it.
This bike is heavy but I used to ride dirt bikes back in the day so I don't mind the weight. The bike alone (no batteries) is 72lbs according to Biktrix. The main battery weighs 10.3lbs and the range extender weighs 7.6lbs. Total weight is about 90lbs.
Here is a video that shows the use of the throttle for some steeper or loamier bits in the beginning of the video. Watch for my left thumb applying motor power (throttle). Starting around the 5 minute mark, I begin the downhill portion that shows the suspension soaking up the terrain at around 20mph.
This next video shows a steep but short hill when I use the throttle to climb at about 25s in.
We were looking to replace our Mercedes GL450 as it was accumulating miles and it does not get the best fuel economy. As we really loved the GL450 we were looking at newer Mercedes GLS and GLE vehicles to replace it. We drove many of both the GLS and GLE but could not find one that really worked for us. The newer Mercedes seats were an issue, as was the overall feel of the vehicle. We decided to look at Porsche Cayenne and drove a couple of them. We liked the vehicle better and ended up with this 2021 base Cayenne.
We had driven Cayenne's in the past (at least a decade ago) and never really liked them much so we didn't expect to like the newer ones either. However, Cayenne's changed substantially in 2019. Back in the day, the base Cayenne V6 was anemic too. This new turbo V6 is much better. I really wanted the hybrid version but cars are hard to find right now. Also, the Cayenne Hybrid is getting an upgrade for 2024 so maybe in a few years we will upgrade to one of those. For now we are getting used to the Cayenne.
I went to Dream Racing at the Las Vegas Motorplex to try out the new C8 Corvette. I have been interested in the C8 since they announced it would finally be a proper mid-engine car. I drive a Porsche Cayman S which is also mid-engine and it is the best layout for a sports car in my opinion. I like the looks of the C8 Corvette as well.
The experience starts with a short video to set expectations and orient you to the track and performance driving. That is followed by a ride around the track in an SUV. One thing unique about Dream Racing versus Exotics Racing or Speed Vegas was you don't wear helmets in the street cars. Helmets are only required in their race cars.
Seated in the car I adjusted the seat and wheel to my liking. I am not a big fan of the large center console but it did not bother me as much while driving either. I could get used to it. The feel behind the wheel was centered and good. As we pulled onto the track and gave it full throttle and the traction control kicked in for a bit. The traction control intervenes a bit more than I would like but still better than many other sports cars. It's hard to beat Porsche traction control on the track. I only bought 7 laps and that is not even enough to really get consistent with the line as you can see in the video, I am a bit sloppy and inconsistent. The engine makes 200HP more than my Cayman S and that was very nice. It also has a wide powerband but drops off earlier than what I am used to in the Cayman S. It took a bit to learn to shift earlier. The sound is very different than the Porsche but it is a good sound. That comes through pretty well on the video. The transmission was also very good. The handling is also good and pretty neutral. I did not understeer like the Ferrari 488 did.
My biggest complaints with this car is the brakes. Dream Racing even upgraded to some slotted rotors but they were a bit warped when I started, and very warped by the end of my session. The chassis could easily handle a serious brake upgrade and if I was going to track one of these, a brake upgrade would be a must. I suspect the Z06 will have solved this issue.
The car is clearly heavier than my Cayman S, by about 650lbs. You can really feel it too. The center of gravity is also noticeably higher. The chassis gets more upset when switching directions than the Cayman S. The car feels like it is sitting higher, based on the handling. I felt like I could not push it as hard in the corners. Dream Racing uses Pirelli P Zero tires and maybe they are not as good as the Michelin Pilot Sport 4S tires I have on the Cayman S. The feedback was good and with some more seat time on the track I could work around this. It was certainly a fun drive.
The C8 Corvette is a great car and Chevy has done a great thing here delivering a car like this at the price point they are asking. Most owners will likely never track this car hard and they will be very happy with their purchase. Those who do want to track it should consider a brake upgrade first, or consider the Z06. If Dream Racing or Speed Vegas get a Z06 I may just have to try that.
So far the cars I have tried at these track venues are the Ferrari 488, the Porsche GT3 RS, and this Chevy Corvette. The GT3 RS was the best track car. The next car I want to try at the track is the Porsche GT2 RS.
I have now driven 3 different venues as well. Speed Vegas has been purchased by Exotics Racing so now that is at the Speed Vegas facility south of town. I drove Exotics Racing back when it was at the west edge of the Las Vegas Motor Speedway area north of town. Dream Racing is in the center of the Las Vegas Motor Speedway oval track.
We had a SunPower solar system installed on our house. It consists of 20, 400W panels, 14 on the East roof and 6 on the South. The total system generating capacity is 8kW. Since the panels are on different roof angles, it is unlikely to get that 8kW since they will reach peak output at different times.
We still have net metering here so we did not install a battery system yet. Net metering allows us to sell our excess power back to the energy company and accumulate a positive balance with the utility. During the times of year with higher solar generation than consumption we build up a credit which can be used during the summer months to pay for the usage that exceeds our generating. Basically, you somewhat use the grid as a enormous long-term battery. I believe as more solar powers the grid, these net meting plans will go away so I wanted to get in while they were still available. The 30% tax credit was also a huge incentive. Our system went online in April, the same month the utility raised the rates over 6% making the value prop that much stronger.
Utility power meter for solar showing energy sold back to the grid (arrow left)
Here is what the dashboard shows for a full day.
The system requires changing your power plan and your house power meter with the utility. The new meter shows which direction power is flowing. You can also see the daily summary on the utility website.
The grey shows the amount of energy the solar generated and the house used. The green shows the net power we sold back to the grid. The black shows the amount beyond what we generated in solar that we had to buy from the grid. April 12 was a cloudy day and April 13 was sunny. Even on that cloudy day we generated most of what we used.
Our system is sized to deliver 100% of our annual electric energy needs based on prior power consumption. It does not generate 100% of our peak power needs. The system also does not supply power if the grid goes down. We would need a battery system for that. At some point it will make sense to add a battery system but right now with net metering and a very stable grid here it does not seem cost effective. I do expect the cost of home energy storage to drop and the systems improve going forward.
I like to ride my mountain bike up in the mountains. Sometimes I am in canyons between mountains where there is no cellular reception. I decided I needed a satellite messenger so I could always communicate, and for safety. I already have a Garmin fenix 6X Pro Solar watch, and a Virb Ultra 30 camera so I decided to stick with Garmin for this as well. As I was looking, they just introduced this InReach Messenger device so I bought one.
This device integrates with the Garmin ecosystem so the watch can trigger tracking and well as SOS and other features. This device also pairs with my smartphone so I can use the smartphone UI to create, send, read messages and other functions. Using the smartphone is very handy as it has a nice big screen and I am very used to interacting with it versus learning a new UI that is far smaller. The device uses a Messenger app to connect and interact with the device. The device can be used stand-alone though which is great. If for some reason I did not have my phone I could still communicate.
I had read some reviews about this device as it was just coming out. One of the pro's was great battery life. I have found the battery life to be stellar actually. I am writing this article in April and I have not charged it since last year. It is still over 70%. I use the device about 3 hours a weekend most weekends, year round.
Messaging is pretty simple and it can automatically switch between WiFi, Cellular, and Satellite as needed to minimize satellite charges. I have never used all my messages in a month. It also sends my location every 10 minutes so my family can see where I am regardless of cellular connection. This is great for safety.
Overall I would highly recommend this device for people who like to go places where there is no cellular.
I enjoy real off-road mountain bike riding in places where full suspension is a must and fat tires are needed to get through the soft loam. Much of my riding includes long steep hills, some in loamy terrain. I often ride Jeep trails as well as dedicated bike trails.
I started with a very inexpensive mountain bike with full suspension and 2-1/4" wire tires. The narrow tires would sink in to the gravel and sand I often encounter. Even on hard pack trails, the long steep climbs were exhausting. I realized I needed a fat tire bike with full suspension. Once you get that, you have a heavy bike so I decided to go electric as well (which of course add even more weight).
I have been riding my Rurui XT10 rear hub drive electric mountain bike over a year and over 1,100 miles. In that time I failed 2 controllers due to overloading them on long steep hills. Since the motor must handle the wide speed range with no transmission, it is very poorly suited to low speed riding. On PAS 1 it would go about 12mph where assist would then taper off. Below about 10mph the motor was just turning too slow and was very inefficient. Electric motors may produce high torque at low speeds but they cannot sustain that very long. The long steep hills were too much for the hub drive system. The hub drive I have in this bike is geared which helps but it was not enough of a gear ratio for the riding I was doing. Freewheeling the bike would reach 39mph top motor speed. I never needed to motor to 39mph. 25mph would have been much more applicable to my riding. A hub drive with much high gear ratio could really help.
However, the other issue is how and when power is applied. The Rurui had what is called a "cadence" sensor which measures the crank speed. In reality it seemed to only measure if there was crank speed or not. If you were pedaling, it applied power assist based on your PAS level selected. It makes for a strange riding experience since the motor power applied is independent of your pedaling force. There is also a delay in reading pedaling speed (cadence) and applying power. If you wanted to ride slow through some technical bits, you really had to cut the motor power. I would often do this by just pulling a brake lever far enough to cut the motor. There are now hub-drive bikes that use torque sensors.
I think hub drives are a decent approach for road bikes or at least when riding on well developed hard trails with gentle slopes.
I analyzed many approaches to augmenting the Rurui to better suit my riding. I could add a front hub drive and I have seen some bike like that on the market. However many of the downsides would still exist, now with the added weight of another motor and a whole bunch of added complexity.
I could add a mid-drive. This would give the benefit of mid-drive but also keep the hub drive. It could more than double my power. I could switch between as needed or use both. Again, weight and complexity were concerns. Another big concern was how low the add-on mid drive systems hang. I already had problems smashing my pedals on rocks I did not want to smash a motor.
It was time to just upgrade the bike. I needed a powerful mid-drive bike with more speeds to handle tougher off-road situations. I needed to be able to crawl along at lower speeds through the technical stuff. I needed to be able to climb much steeper and longer off-road hills. I needed better suspension to keep the pedals out of the rocks. I needed a drive system that would work better at low speeds and higher loads for long periods. I wanted less un-spring mass on the bike for improved suspension performance. After many months of research, I decided on the Biktrix Juggernaut Ultra FS Pro 3.
The differenced was stark and immediate. The very first thing I noticed was the power delivery. It is pretty much immediate assist when you start pedaling. I can start off up a fairly steep hill with no problem. It is like having bionic legs. Since it is sensing the pedaling force to apply power, the response of very controlled and natural. Here are some video clips from my first off-road ride on the bike.
I have ridden this route before on the Rurui several times. I normally have to get off and push the bike up the steep parts. Not on the Biktrix. I did push through a few very steep technical bits but that was not because the bike could not climb it. This ride was a breeze on the Biktrix.
The mid-drive system takes advantage of the narrower pedal cadence speeds versus wheel speeds. The motor is geared to apply much more torque since it does not have to deal with very high pedal speeds. It takes advantage of the bike gears to support a wide range of bike speeds.
As with everything, there are of course some trade-offs. When shifting gears motor power is interrupted to protect the gears from damage. As with a non-electric bike, when shifting you should reduce pedal force until the sift is complete. This of course does interrupt power delivery for a second. Another trade-off is that this total power from pedaling plus the motor power now goes through your chain and gears. This will be very hard on them. Even if I have to change the chain, chainring, and cassette every year it will be totally worth it.
If you enjoy real off-road riding, the mid drive with many speeds (11 in my case) and wide speed changes (42t-11t) is the way to go. Hub drive could be fine in flatter and hard-packed terrain where you plan to be at speeds greater than 10mph at all times.
I bought this bake based on my experiences with prior bikes given where I like to ride. I go off-road much more than on pavement. I put 1,200 miles on my Rurui XT10 and learned many things about the pros and cons of hub drive electric mountain bikes. I realized that for my riding I needed a powerful mid-drive bike so after shopping around, I bough this.
The power delivery from this bike is much better suited to my riding. It uses both crank torque and cadence sensors to determine how much motor power to add. This is a much more controlled and natural way to add assist power. It also takes advantage of all the gears, 11 on this bike, to provide high torque and a wide speed range. The mid-drive is also all suspended weight which gives better suspension dynamics in rough terrain.
It arrived in a box very similar to my Rurui bike did.
Like the Rurui, I had it assembled in about 30 minutes. Pretty easy.
I took a couple short rides around the neighborhood and adjusted it to get everything working well and the best ergonomic feel.
My first off-road ride was out to a trail I had been building, less than 8 mile round trip. Later that same day, I took it for a 23 mile loop which included paved bike path, long steep hills, loamy washes, rocky hard-pack, and everything else the desert has. I had ridden most of this route before on the Rurui so this was a great ride to contrast them. This bike is so much better suited to off-road riding. With 11 speeds and the mid-drive, it can climb any hill with ease. I shot a YouTube video with some clips from that ride.
I don't even have the range extended battery installed yet but so far the battery life is fantastic. Surely this is at least partly due to the mid-drive motor being in a much more efficient operating range, especially in the off-road situations that require high power such as steep hills and loamy terrain. The hub drive was just turning too slow and to close to stall where it become very inefficient and is hard on the controller too. The mid-drive has a much narrower operating speed since it is based on crank speed and takes advantage of the gears to handle a wide wheel speed range.
The Biktrix has a better suspension too. It has air suspension front and rear. The front rake has more angle which makes the wheelbase a bit longer, making the bike more stable at higher speeds. This also angles the wheel more when turning.
I have now put over 1,100 miles on my Rurui XT10 and I have learned much about what I needed for where I ride. I chose the Biktrix bike because:
Bafang M620 ultra mid-drive is the best motor for serious off-road with steep hills and loamy terrain that I ride in.
52V batteries are more efficient and powerful with the M620 motor than the typical 48V.
11 speed cassette with 11-42 gears supports a wide range of riding conditions, including steep hills and loamy terrain. The bigger rear gears will work much better in the technical or real steep riding. It is a proper cassette too, instead of the screw-on freewheel than has limits.
Fat-tire and full suspension for serious off-road riding.
It has an optional add-on battery for extra capacity when needed but easily removed to reduce weight when not needed. Main battery alone is 126% capacity of the Rurui. With the additional battery I will have 220% capacity of the Rurui. I have only run the Rurui out of power one time so while this will be nice it is likely more than I will generally need. This will give the option of longer, steeper rides at higher speeds.
Air shock and forks.
Inverted fork has less un-sprung mass and is more rigid.
The next best option I found in this price range was the Eunorau Specter S. It was less expensive than the Biktrix. It has the same motor and 11-speed cassette. It used 48V instead of 52V and lacked the air suspension. Besides, it is hard to pronounce the name.
The Rurui was great for street riding and off-road in less steep areas. The rear hub drive did not provide enough low speed power for climbing for where I like to ride. It did great at speeds from 11mph and up but for lower speed technical stuff, or long steep hills it did not work well.
I also looked into more aggressive off-road bikes that were closer to electric dirt bikes. Here are some examples.
CAB Motorworks. They make bikes from 750W all the way to over 20kW. These are based on motocross bikes more than bicycles. They had some very appealing features such as proper motocross suspension, wheels, and tires and regenerative braking. I also like the moto seat option. However, these would not be welcome anywhere but off-road. They would not pass as a bicycle to most people. They are also much heavier that most ebikes and are single speed (pedal). The one I was most interested in was the Falcon.
UltraTRX. They make a range of off-road ebikes that include bike that are based on the higher end of ebikes all the way to motocross bikes. The Cheetah looked the most interesting to me.
I ordered the Biktrix but it has not shipped yet. Once I get it and take it for a few rides, I will post about it here on this blog.
It was interesting how much of a presence automotive and machinery companies had at a consumer electronics show. These products are integrating more leading edge technology all the time. There was a large presence of companies working on autonomy and robotics across many industries there. The automotive sector had most of the West Hall and much of the North Hall as well. There were many companies showcasing electric vehicle charging, solar power, home backup power, and companies expanding their existing battery ecosystems to other products.
One company, Greenworks, who makes mostly battery powered lawn and yard care tools, is expanding into electric bikes using their existing battery ecosystem.
Now you can leverage the battery you already own for your lawn more and drop it into you ebike. One interesting thing about their ebikes is they use their 80V battery. Most ebikes using 36V or 48V but having that higher voltage is more efficient and can deliver more power with current motors available in the industry. There were several other ebike companies there as well.
There were several companies showcasing power products such as portable solar systems and battery packs. One such company, Enercamp, had a modular system that was primarily used for fast charging EV's with a lower power source. You could charge up the battery pack on a 110V outlet and then use this pack to fast charge your EV. It also had a 240V outlet you could use for home backup power in the event of a power outage. It also have a vehicle mount system so you could carry a bank of batteries with you to eliminate range anxiety for EVs.
In the smart home area, there were several companies showcasing their wireless power delivery solutions. These system can send low power (like 1W) to wireless sensors to keep them charged so they never need battery replacement. This could be a great way for things like the Moen smart sprinkler sensors to stay changed, if Moen ever intergraded this in.
Speaking of Moen's smart sprinkler system, it looks pretty slick. Instead of a simple timer, it closes the loop on actual soil moisture and weather forecast.
While systems like this have been around for a while, most were very expensive and from companies that come and go. Moen has a great chance to finally mainstream this technology. As drought has gripped the West, these systems will make more sense all the time. Even more so, places like Illinois that have varying rainfall that can at times fulfil or exceed your irrigation needs, but at other times need to irrigate it will also make sense. We had a home in Illinois that was on 0.6 acres. We would often get adequate rain through about June before really needing to water at all. July through September could have dry spells where we did need to water. A simple rain sensor did of course help but did not really cover it. Our soil was very rich and retained the water well. We could get a 1" rain and that would often be good for more than a week even in hot weather. Irrigation in Illinois was very expensive too. Some months when we did water we would have $300 or higher water bills. A system like Moen's could easily pay for itself in months there.
There were many new products in the health monitoring space. Some include: sensors in the toilet to monitor health, fitness and health tracker watches, rings, and beds. Optical trackers for your sleep monitoring. A glucose meter that used a laser to get the blood sample instead of a needle. In addition, there were systems to enable more home health monitoring and care.
There was of course much more but these were a few things I found interesting.
My Rurui XT10 Electric Mountain Bike hit 1,000 miles today. That took just over a year. My first ride was December 11th, 2021 and today is December 30th, 2022. I have had some great rides on this thing. I made several upgrades along the way to make it better suited for heavy duty off-road riding. I still get tons of exercise since it is a very heavy bike with fat tires and full suspension and I ride up long steep loamy hills mostly. I pedal the whole time. A typical 2.5 hour 20 mile off-road ride burns around 1,300 calories and I can really feel it. The big difference with the electric assist is the speed, especially up the hills and in soft terrain. I mostly use power assist level (PAS) 1. I would guess it is in PAS 1 about 70% of the time I am riding with assist. PAS 2 probably accounts for another 20%. I don't use assist going downhill of course, which can be almost half of a typical ride.
After my upgrades, this bike works well for my riding. I am on my 3rd controller now. They can't handle the power and fail. Both were replaced by Rurui though and the latest one claims to be rated for 18A instead of 17A. So far, so good. If it fails again, I will be getting a higher power rated controller. Other than that, it has been a good bike overall. I also had to replace the rear tire and rear brake pads because I wore them out. I bought this bike for $1,599 and I would say I got good value for the money. That is quite inexpensive for a full-suspension 750W fat-tire electric mountain bike. I have been looking casually at other bike like it since I bought this but have not really found a more compelling one in this price range, or even for more than tipple this price. I have also considered building my own but decided I would be far better off just upgrading components on this one.
The GL450 is now past 120k miles (123k) and due for a few maintenance items. I recently replaced the front brake pads for the first time. My E350 also went 120k before needing front pads. Here are the new versus old pads showing wear.
I let them go long enough it also took out the wear sensor (which is cheap to replace).
I replaced the spark plugs too. This required a special 14mm thin-wall 12-point wobble socket.
When working on a Mercedes, you will need a set of reverse torx sockets and wrenches too.
I also replaced the accessory belt.
The belt appeared to be in great condition. No cracks or visible wear at all. My E350 belt was like that too. But at 120k miles it seems like a good idea to just replace it anyway as they are not expensive, even through Mercedes.
As I was replacing the belt, I broke 2 plastic coolant tubes.
Overflow Tube
These were about $130 each and in stock at the local dealer since they often get broken. The overflow tube in the bottom photo broke very easily.
I change the oil using the oil reminder in the display.