Pioneer Log Homes Electric Powered Log
One of the most unique “vehicles” we have ever worked on. A real challenge to install a whole electric drive system in just two weeks. They set the world land speed record for an electric powered log.
Thanks to Bryan Reid from Pioneer Log Homes for the opportunity to be part of this project
Creative Workshop e-Carriage for NYC Central Park
“This past week, we unveiled the 2014 Horseless e-Carriage at the NYC International Auto Show. This car, which you helped us build, quite simply, stole the show!
I would like to take a moment to thank you for your hard work and contributions. Our deadlines got tight, moments stressful – but each of you, and the skills and products you represent – helped make this car a reality.
This car has now made worldwide news….from Japan to Germany to France – and through every major and minor news outlet in America….and it continues on….”
Jason Wenig, The Creative Workshop
This was an exciting project for us here at CEV. We provided a complete pre-wired system, custom wiring schematics and technical support. Congratulations to the crew at Creative Workshop – we look forward working with you to build many of these incredible vehicles in the future!
Dylan’s Austin Mini 1000 Conversion
“I had a great time doing this conversion and am so appreciative of the help from CanEV during the process.”
Donor Car: 1978 Austin Mini 1000
Motor: HPEV AC50
Controller: Curtis 1238-7501
Batteries: 32x 100AHA LiFePO4
Cost per km: approx $0.01
My build diary and more info can be found here: https://evmini.ca/
“I wanted to say a hearty “Thanks” for the great products, service, and advice you & your staff have given me over the past 18 months. Thought I’d send along some photos of the finished product.”
“This is a ’97 ES-10 with 18 eight-volt Trojans with remote fillers from Flow-Rite Controls. I used a Curtis controller, which is fan-cooled inside an aluminum plenum underneath your control box. The truck still has airbags, ABS and speedo/odometer.
It hits 70mph with relative ease on the highway and is a pleasure to drive with your power steering and brake setups. We haven’t pushed the miles-between-charge yet, but I’ve gone 16 miles with lots of traffic lights, with good battery power still left.
I put clear Lexan boxes around the batteries to keep fingers out and keep the batteries clean. It seems to insulate them reasonably well for our climate in FL.”
See more here.
Jan’s Homebuilt Electric Sports Car
Some people go fishing or play golf when they retire. I decided to design and build my own street-legal electric sports car – from the ground up. And oh what fun it was!
Here are a few pictures and some specs.
Body – Merlyn Mk4T replica
Chassis – Modeled after Lotus 23
Motor – 50 HP AC
Controller – Curtis 1238 AC
Batteries – 96V 100Ah LiFePO4
Weight – 1250 lb
0-100kph – 6 sec (est)
Range – 100 km (est)
Time to build – 2 years plus…
More information on my build can be found at https://www.szott.com/zot2/zot2.html.
Many thanks to Randy for supplying all the electrics and answering my endless stream of questions.
Joanna Zilsel and her converted S10
“It’s been just over one month since my uncle and I bought the 1993 Chevy S10 pick up, and we both love driving it! Living on the Sunshine Coast, we have many hills to negotiate, and the truck’s performance on them (and in general) surpasses our expectations. We estimate our range to be between 60 and 80 km–depending on hills and load–and we easily cruise at a comfortable 80 kmph on the highway (less going up a steep grade). Plugging in at the end of the day is a piece of cake. We just purchased a clamp-on amp meter to determine how much power we use when re-charging: it’s still too early to have an exact figure, but it looks like it will be less than 2 cents/kilometer. And I can’t tell you how great it feels to drive right past those gas stations! The truck may not be sleek or ‘sexy’, but I wouldn’t want it any other way. I love the fact that it’s a conversion, and feel proud to be able to show people that affordable, zero emissions vehicles can be on the road today. There is only down side to driving the truck: errands that would normally take me 20 minutes often end up taking several hours due to the crowds that invariably gather around, wanting to see under the hood and peppering me with enthusiastic questions!”
Canadian Electric Vehicles Conversions
1998 Suzuki Swift Hatchback Conversion
The Swift conversion utilized a High Performance Golf Carts AC31 3-phase motor controlled by a Curtis AC controller. It was originally powered by a 96 volt bank of 114 amp-hour Discover lead acid batteries before being replaced with Thunder Sky 90 amp-hour lithium ion pack. The lead acid pack weighed 256 Kg and the lithium pack weighed 102.4 Kg, a difference of 153.6 Kg.
Suzuki Swift performance comparison of Lead Acid and Lithium Batteries:
From 0 to 60 Km/h, the lithium pack accelerated up to speed in less than one second sooner than the lead acid every time. The graphs show the current draw from the lithium batteries start off much lower before they stabilized at the lead acid levels. The lithium cells consumed approximately 4 amp-hours less each run, mostly due to the higher operating voltage and 60% less weight. Below the graph 50km/h maintained shows the amps used to travel at 50 Km/hr and averaged at 54.56 and 40.13 amps for the lead acid and lithium packs respectively. Even though the lead acid battery bank had a rated capacity of 114Ah, under regular driving conditions the pack only delivered between 25 to 30 usable amp-hours, only 26% of the rated value. At 55 Km/h the lead acid pack used 55.6 amps which suggested that the swift could run for approximately 54 hours giving a range of 29.7 Km. With the lithium pack the capacity rating of 90 Ah is very close to the available capacity and was used for the range calculations. Traveling at 50 Km/h the swift was using approximately 40 amps which indicated a possible range of 112.5 Km. This is 3.8 times the lead acid pack mostly due to the increased power density of the lithium ion cells, but also due to the high efficiency and light weight construction of the leading edge battery technology. The lithium pack consumed less current at that speed due to the higher operating voltage which decreases the amount of current necessary to provide the same amount of power.
96 volt High Performance Golf Cart AC drive system, 90 ahr Thunder Sky Lithium battery pack with Battery Management System dual Delta-Q battery chargers and 30 amp DC-DC converter. Gauges include amp meter and EV Pro fuel gauge. Up to 200 amps of regen braking single speed drive with 85 km/hr top speed. Range of 40 – 60 km (range and speed would significantly increase with standard transmission). Power brakes, electric heat / defrost, retains back seat.
1998 Beetle Conversion
96 Volt AC50 System from HPEV with 650 amp controller
260 ahr Winston lithium batteries
Top speed over 140 kph
Range over 150 km
Weight 3456 lbs
Ford Ranger Conversion
A bolt-in system utilizing AC drive and Lithium batteries for conversion of existing 2000-2009 fleet Rangers to pure electric power. Converting a Ford Ranger from gas to electric reduces CO2 emissions from 16.2 tonnes CO2/40,000 km to zero. Designed to meet the daily needs of a typical fleet truck with a range of 80-120 km per charge. Converting a Ranger is a smart way to recycle existing gas trucks to zero emission fleet vehicles.
Contact firstname.lastname@example.org for fleet conversions
Ice Resurfacer Conversion
Canadian Electric Vehicles has developed a bolt-in system utilizing AC drive and Lithium batteries for conversion of an existing gas or propane ice resurfacer to pure electric power. Converting an ice resurfacer to electric is a smart and economical way to recycle existing ice resurfacers to zero emission vehicles.
Conversion Kit for Models 520 / 525 / 526:
- 50 hp AC Drive System
- 28 kW of Lithium Batteries
- Onboard 5 kW Charger
- Recharge time after single cleaning: 1hr from 220 V/30 A
- Capable of 6 cleanings before a recharge is needed but recommended to be charged after each use
- J1172 charge inlet – plugs into standard EV charging station
- 30 A 12 V supply to run accessories
- Very little weight change over propane/gas powered resurfacer
- Drives and performs the same as a propane/gas powered resurfacer. The converted resurfacer has regenerative braking which slows the resurfacer down when the throttle is released just like the compression braking of the original engine.
- Very low maintenance
Contact email@example.com for fleet conversions