Not that things aren't constantly changing, but I forgot that Thundersky actually has a BMS for their large format batteries, as well. There is a healthy amount of negative feeling and distrust toward them on the national EVDL list because they sent several bad/old modules to the participants of a group buy a couple years ago and were unrepentant about it. These were high-profile people on the national scene, including Victor at Metric Mind. Recent tests by Rich Rudman
<span>of Manzanita micro have been very positive about their new LiFePO4 cells and their US distributor just got $25 million of funding to build a factory in the US. They are comparatively weak (max current) compared to Valence, A123, Saft, LG and other manufaturers of similar chemistries, but less than half the cost in most cases.
<br><br>In all fairness, I disqualified bare cell manufacturers because building a traction pack from 18650 or </span>26650 cells is out of the question for most converters. You see people like Bill Dube' (killacycle) and Jeff
Thomas (of EV Bones for his personal kit car) doing crazy things like that, but I consider it out of my depth. Maybe that would be okay for you...<br><br>- ian<br><br><div class="gmail_quote">On Dec 5, 2007 3:35 PM, Ian Ward <
<a href="mailto:ian.ward@gmail.com" target="_blank">ian.ward@gmail.com</a>> wrote:<br><blockquote class="gmail_quote" style="border-left: 1px solid rgb(204, 204, 204); margin: 0pt 0pt 0pt 0.8ex; padding-left: 1ex;">
I also have a hill country commute and the regen definitely helps with range on the downhills in traffic. I drive down (and then up) tumbleweed hill on 2222 every day. If traffic is light enough, I can coast much of the way to work, but usually traffic slows me down and it is nice to recapture some portion of that.
<br><br>My Ranger EV has a single-speed transmission with a ratio of about 1:12. A couple drive AC OEMs sell transmissions with motors, but usually only the low power variety, which won't get you anywhere near 6 second 0-60. You can have this custom fabbed, which I'm also looking into for my conversion project. That almost guarantees you're using an AC motor or a permanent magnet DC motor because you'll need the very high RPM limits due to reach your top speed. These motors allow for high RPMs through lack of mechanical commutation (brushless). Usually though, performance-oriented conversions/builds would use multi-ratio transmissions and DC motors (price, simplicity and availability).
<br><br>Your friend is partially right about the transmission. You do want one that can handle high-torque. That is one of the great things about electric motors, but he is wrong(ish) about efficiency. Most electric motors are very efficient across the RPM range. It is specific to each individual motor, but a factor of torque at a given RPM. You're realistically talking about a 20% difference at most anywhere along the band beyond zero. For AC motors, the difference is even smaller.
<br><br>According to wikipedia (caveat emptor) the "Lotus Seven has the highest drag coefficient of any known production car--ranging from 0.65 to 0.75, depending on bodywork". That is unfortunate for highway speeds, and hopefully your locost can reduce that, somewhat.
<br><br>There isn't much room in a 7 for people, much less batteries. I'm thinking you are looking at some very expensive batteries to get that much range. Add in the acceleration demand, and you're definitely in LiPO4 territory. The Valence U-Charge XP series is the only drop-in battery with that chemistry that is suitable for EVs at the moment; all others requiring a custom BMS, pack design, cell welding, etc. Of this series, I would suggest the UEV, which is a
19.2V 65Ah model ($1935/module). It's got high-voltage and high capacity, so you're getting a lot of bang for your many, many bucks. How many batteries depends on what drive system you choose - AC will be high (300+), DC will be lower (usually 96-252). If you want to get up a hill while maintaining speed, you'll want the lighter batteries, too.
<br><br>Use the EV calculator to run some simulations:<br><a href="http://www.geocities.com/hempev/EVCalculator.html?200629" target="_blank">http://www.geocities.com/hempev/EVCalculator.html?200629</a><br><font color="#888888">
<br>-ian</font><div><div></div><div><br><br><div class="gmail_quote">
On Dec 5, 2007 3:05 PM, Brian Lasseter <<a href="mailto:blasseter.cmpe01@gtalumni.org" target="_blank">blasseter.cmpe01@gtalumni.org</a>> wrote:<br><blockquote class="gmail_quote" style="border-left: 1px solid rgb(204, 204, 204); margin: 0pt 0pt 0pt 0.8ex; padding-left: 1ex;">
<div>On Dec 5, 2007 2:06 PM, Josh Handel <<a href="mailto:jhandel@ktomics.net" target="_blank">jhandel@ktomics.net</a>> wrote:<br>> > You mentioned a single speed transmission, and I had that thought.. If I understand correctly Electric motors have 100% torque at 0 RPM. Too me, that meant I should use a single gear that is a blance between not bogging down my motor off the line and reaching my ideal topspeed when the motor reached its max RPM. I talked it over with a friend and he seemed to think that electric motors were more efficent at higher RPM so your better off using a full blown transmission. He also seemd to think that the larger magnets of a high Torque electric motor were performance prohibative over a higher RPM motor that can run with smaller magnets. From a NON EV perspective that makes since, but I don't know if those costs are real applicable to design when you are talking about something that is already 1000lbs + in size...
<br><br></div>Electric motors do have 100% torque at 0 RPM... however you will be<br>pulling a lot of power to run your car slowly over hills with a single<br>speed transmission... See Otmar's discussion on this in his Apr 2nd
<br>blog post here... <a href="http://www.cafeelectric.com/blog/?cat=3" target="_blank">http://www.cafeelectric.com/blog/?cat=3</a><br><br>Also... with so much torque... the motorcycle transmission would be<br>hard pressed not to fly apart with a suitably large electric motor.
<br>We have enough problems destroying regular car transmissions with<br>electric motors, and I would presume that the car transmissions are<br>meant to handle higher torque and abuse. Randy, at Canda EV, told me<br>a story of a customer of his that floored a recently delivered
<br>Electric Vehicle conversion done by his shop, and the motor proceeded<br>to shatter both front CV axles from the massive torque. A regular<br>car's computer will not let you apply that much power to the<br>transmission... an EV will not care. (Though you could program a
<br>Zilla not to allow you to accelerate faster than a given rate.)<br><br>I recommend a car transmission.<br><div><br><br>> > So all that leads back to my first question. Which Electric motors are more efficient, High RPM low torque or Lower RPM high torque?
<br><br></div>Well... for the most part, electric motors are both. They have high<br>torque at low RPMs, and they have low torque at high RPMs. However<br>series wound DC motors are more efficient at higher RPMs, but not by
<br>much.<br><br>If you look at a chart for my FB1-4001 Advanced DC motor, operating at<br>my voltage of 144V...<br><a href="http://www.evmotors.com.au/products/download/fb144.pdf" target="_blank">http://www.evmotors.com.au/products/download/fb144.pdf
</a><br><br>You will notice a few things...<br>- I have 160 ft/lb. of torque at 3000rpm, and I have 10 ft/lb. of<br>torque at 8000rpm. So the motor is both High RPM low torque AND Low<br>RPM high torque.<br>- The motor runs most efficiently at 35ft/lb of torque and about
<br>5500rpm. Normally a car shifts to a higher gear at 3000-4000rpm. In<br>this case though, I will not need to up shift until 6000-7000rpm.<br>This is why an automatic transmission will not work in my electric<br>car, and a manual transmission is a must.
<br>- If you look at the total efficiency curve, you will see that the<br>motor is always 80-90% efficient running between 3000-8000rpm. So in<br>this case, what speed the motor runs best at is not a real concern.<br>Ambient wind speed, body shape, and even carrying the weight of a 2nd
<br>person will all have a greater power impact to my batteries than what<br>than the speed I'm running the motor at in relation to my<br>transmission.<br><font color="#888888"><br><br>--<br>TTFN,<br>Brian "Lasso" Lasseter
<br><br> · (512)736-1677 · AIM:digininja · ICQ:2238123 · MSN:azoreg ·<br>"No Sane man will dance." -Cicero (106-43 B.C.)<br></font><div><div></div><div><br>_______________________________________________
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