Camytrade International
E-Bike & Electric Motorcycle Build Guide
Build Your Own
Electric Machine
Electric Machine
Step-by-step interactive guide. Choose your build type to get started.
Electric Bicycle
Convert any bicycle or build from scratch. Hub motor or mid-drive. 36V to 72V. 250W to 1500W.
Electric Motorcycle
Full performance EV motorcycle build. 72V to 96V systems. 3000W to 10000W hub motors.
Electric ATV
Convert gas ATV to electric. 48V to 96V systems. 5000W to 20000W. Off-road performance.
Electric Sea-Doo
Convert gas PWC to electric. 72V to 96V systems. Waterproof build. Silent, zero-emission riding.
Introduction
Building an Electric Bicycle
Whether you're converting an existing bicycle or building from scratch, this guide walks you through every component, every connection, and every step. Two main approaches: hub motor kit (easiest) or mid-drive kit (more efficient, better hill climbing).
Hub Motor vs Mid-Drive
| Feature | Hub Motor | Mid-Drive |
|---|---|---|
| Installation | Easy | Moderate |
| Hill climbing | Good | Excellent |
| Efficiency | Good | Best |
| Maintenance | Low | Medium |
| Cost | Lower | Higher |
| Throttle only | Yes | PAS preferred |
| Best for | Commuter, flat roads | Hills, range |
Voltage Systems
36V
Entry level
250–500W
48V
Standard
500–1000W
52V
Performance
750–1500W
72V
High power
1000–3000W
💡
Recommendation: 48V for most builds — best balance of speed, range, and parts availability. 52V for more punch on the same motor.
⚠️
Canadian regulations: E-bikes are limited to 500W motor and 32 km/h assisted speed for road-legal use. Builds above this require registration and insurance as a motor vehicle. Check provincial rules before building.
What You Need
E-Bike Components
A complete e-bike build requires these core components. Everything is available from Camytrade — hub motor kits include motor, controller, throttle, PAS sensor, and display in one package.
⚙️
Hub Motor
250W–1500W / 26"–29"
Rear or front wheel. Direct-drive (fast, regen) or geared (lightweight, quiet). BLDC brushless, 3-phase.
📡
Controller
36V/48V/52V/72V
KT, Lishui, or sine wave controller. Matched to motor voltage and wattage. FOC sine wave = smoother, quieter.
🔋
Battery Pack
36V–72V / 10Ah–30Ah
Lithium NCM or LiFePO4. Downtube, rear rack, or triangle frame mount. Always match voltage to controller.
🖥️
Display / Computer
LCD or LED panel
Shows speed, battery level, PAS level, odometer. SW102, 750C, 860C — depends on controller brand.
🔄
PAS Sensor
8 or 12 magnet disc
Pedal Assist Sensor — detects pedalling and activates motor. Mounts on bottom bracket. Required for road-legal builds.
🎮
Throttle
Thumb or half-twist
Voltage signal throttle (0.8V–4.2V). Thumb throttle easiest to install. Half-twist feels more natural for moto riders.
🛑
Brake Cutoff Levers
Magnetic or hydraulic
Cuts motor power when brakes applied. Safety critical — always install. Magnetic reed switch type most reliable.
🔌
Charger
Matched to pack voltage
2A–5A standard. 48V pack = 54.6V charger (13S Li-ion). Always verify charger voltage before connecting.
💡
Lights (optional)
Controller-powered
Many controllers have a light output wire. 6V or 12V LED front and rear — powered directly from the controller.
Motor & Controller
Choosing Motor & Controller
The motor and controller must be matched in voltage, current, and phase wire configuration. Mismatched pairs will damage the controller or underperform. Always buy as a matched kit when possible.
Motor Selection Guide
| Motor Type | Power | Best Voltage | Speed | Best For |
|---|---|---|---|---|
| Geared Hub (250W) | 250W | 36V | 25–28 km/h | Legal commuter |
| Geared Hub (500W) | 500W | 48V | 32–38 km/h | City riding |
| Direct Drive (1000W) | 1000W | 48V/52V | 40–50 km/h | Speed + regen |
| Direct Drive (1500W) | 1500W | 52V/72V | 50–65 km/h | Performance |
| Bafang BBS02 (750W) | 750W | 48V | 35–45 km/h | Hills, trail |
| Bafang BBSHD (1000W) | 1000W | 48V/52V | 45–55 km/h | Max mid-drive |
Hall Sensor Wires — 5 Signal Wires
| Wire | Colour | Function |
|---|---|---|
| Hall Power | Red | +5V supply to sensors |
| Hall Ground | Black | Ground reference |
| Hall A | Yellow | Position signal A |
| Hall B | Green | Position signal B |
| Hall C | Blue | Position signal C |
Phase Wires — 3 Power Wires
| Wire | Colour | Notes |
|---|---|---|
| Phase A | Yellow | High current — use thick wire |
| Phase B | Green | High current — use thick wire |
| Phase C | Blue | High current — use thick wire |
⚠️
If motor runs backwards, swap any two phase wires. If motor stutters, try different hall/phase combinations.
Power Source
E-Bike Battery Selection
The battery is the most expensive component of your e-bike build. Match voltage to your controller exactly. Capacity (Ah) determines your range. More Ah = more range but more weight.
Battery Voltage Reference
| Nominal V | Cell Config | Full Charge | Cutoff | Charger | Range (10Ah) |
|---|---|---|---|---|---|
| 36V | 10S | 42.0V | 30.0V | 42.0V | 35–55 km |
| 48V | 13S | 54.6V | 39.0V | 54.6V | 45–70 km |
| 52V | 14S | 58.8V | 42.0V | 58.8V | 50–80 km |
| 72V | 20S | 84.0V | 60.0V | 84.0V | 70–110 km |
🔴
Critical: A 48V controller must use a 48V battery (13S, 54.6V full charge). Never connect a 52V battery to a 48V controller — overvoltage will destroy the controller MOSFETS immediately.
Battery Mounting Options
1
Downtube Mount
Most common. Bottle cage or integrated frame mount. Keeps weight centred and low. Best for conversions.
2
Rear Rack Mount
Pannier-style battery on rear rack. Heavier rear end but easy to remove. Common on cargo bikes.
3
Triangle Frame Pack
Custom pack built to fit inside the frame triangle. Best weight distribution. Requires custom pack build.
BMS — Required for All Packs
The BMS (Battery Management System) protects your cells from overcharge, over-discharge, and short circuits. Never run lithium cells without a BMS.
| Voltage | BMS S-count | Min Current |
|---|---|---|
| 36V | 10S BMS | 30A continuous |
| 48V | 13S BMS | 30A continuous |
| 52V | 14S BMS | 40A continuous |
| 72V | 20S BMS | 60A continuous |
Connections
E-Bike Wiring Diagram
━ Battery +/−
━ Phase wires (A/B/C)
━ Hall sensor wires
━ Throttle / PAS / Display
━ Brake cutoff
🔌
Always connect battery LAST after all other wiring is complete. Double-check polarity before connecting battery to controller.
Step by Step
E-Bike Build Procedure
1
Choose & Prepare Your Bicycle Frame
Hub motor kits work with most standard frames. Check dropout width — rear hub motors require 135mm quick release or 142mm thru-axle. Mid-drive kits require 68mm or 73mm bottom bracket shell.
✓ Steel and aluminium frames both work. Carbon frames need special care with torque arms.
2
Lace the Motor into the Wheel (Hub Motors)
If your kit doesn't include a pre-laced wheel, the motor hub needs to be laced into your rim with spokes. Take it to a bike shop if you're not experienced — improper lacing causes wobble and spoke breakage.
⚠️ Most hub motor kits come pre-laced. Always check spoke tension after 50km of riding.
3
Install Torque Arm (Hub Motors)
A torque arm bolts between the motor axle and the frame dropout. This is CRITICAL — without it the motor can spin in the dropout under hard acceleration or braking, cutting through the phase and hall wires.
🔴 Never skip the torque arm. This is the #1 cause of hub motor installation failures.
4
Install Bottom Bracket Motor (Mid-Drive)
Remove existing bottom bracket. Thread in the Bafang BBS motor unit using the supplied lockring tool. Torque to spec (40–50Nm). Install chainring with the correct number of teeth for your gear range.
5
Mount the Controller
Zip-tie or strap the controller to the frame — inside the triangle or under the downtube. Ensure it's protected from water. Controllers generate heat — don't enclose them completely. KT controllers have a waterproof rating, but avoid full submersion.
6
Connect Phase & Hall Wires
Match colours: Yellow-Yellow, Green-Green, Blue-Blue for both phase and hall wires. Most kits use standardised colour coding. Secure connectors with electrical tape or heat shrink.
⚠️ If motor runs backwards after first test, swap any two phase wire connectors. Do NOT swap hall wires to fix direction.
7
Install PAS Sensor
Bolt the disc magnet to the crank spider or pedal axle. Mount the sensor to the chainstay with a 3–5mm gap between sensor and magnets. Route cable to controller.
8
Install Throttle & Brake Cutoffs
Mount throttle on handlebar. Install brake lever cutoffs — replace or add to existing brake levers. Route cables to controller. Test cutoff function before connecting battery.
9
Mount Display
Clamp display to handlebar. Connect the 5-pin or 6-pin display cable to controller. Most KT/LCD3 displays plug directly in. Secure cable routing along frame with zip ties.
10
Mount Battery & Connect
Secure battery in its mount. Route battery cable to controller. CHECK POLARITY. Connect battery connector — you should see the display illuminate. Do not connect with the motor spinning.
🔴 Reverse polarity will instantly destroy the controller. Double-check red=positive, black=negative before connecting.
11
First Power-On Test
With wheel lifted off ground: power on, check display reads correct battery voltage. Test throttle — wheel should spin smoothly in correct direction. Test PAS by pedalling. Test brake cutoffs — motor must stop immediately when brakes applied.
12
Cable Management & Weatherproofing
Route all cables neatly along frame. Use spiral wrap or braided sleeve. Apply dielectric grease to all connectors. Seal any entry points on the frame with rubber grommets. Apply Velcro straps for controller and battery. Take for a slow test ride in a safe area.
Performance Calculator
E-Bike Range & Speed Estimator
Your Build
Results
720Wh
Pack Energy
V × Ah
55km
Est. Range
Mixed riding
38km/h
Est. Top Speed
Motor limited
10A
Avg Draw
At voltage
72min
Runtime
Full throttle
14AWG
Min Wire
Phase wires
What You Need
Tools & Materials
Tools
🔧
Spoke Wrench
For wheel truing after lacing
RECOMMENDED
🔩
Lockring Tool (Bafang)
Required for mid-drive install
REQUIRED mid-drive
🔌
Multimeter
Verify voltage, check polarity
REQUIRED
🔥
Heat Gun + Heat Shrink
Waterproof all connectors
REQUIRED
✂️
Wire Stripper / Crimper
AWG 10–22 range
REQUIRED
🔥
Soldering Iron
For battery connector install
RECOMMENDED
🔦
Zip Ties (100 pack)
Cable management
REQUIRED
🧰
Allen Key Set (metric)
2mm–10mm for all mounting
REQUIRED
Introduction
Building an Electric Motorcycle
An electric motorcycle conversion or scratch build is a serious project requiring mechanical skill, electrical knowledge, and the right components. This guide covers 72V hub-motor builds — the most popular configuration for DIY e-moto projects producing 3000W to 10000W.
72V System Reference
84V
Full Charge
20S × 4.2V
72V
Nominal
20S × 3.6V
60V
Cutoff
20S × 3.0V
10kW
Max Power
Hub motor
Power vs Performance
| Motor | 72V Speed | Range (40Ah) | Use |
|---|---|---|---|
| 3000W hub | 80–100 km/h | 100–140 km | Street |
| 5000W hub | 100–120 km/h | 80–110 km | Performance |
| 8000W hub | 120–140 km/h | 60–90 km | Sport |
| 10000W hub | 130–150 km/h | 50–75 km | Max power |
⚠️
Registration required: Any motorised two-wheeler above 500W in Canada must be registered as a motor vehicle, insured, and the rider must hold a valid motorcycle licence. Build legally and safely.
What You Need
Electric Motorcycle Components
⚙️
Hub Motor
3000W–10000W
QS Motor 273, QS138, or equivalent. Direct drive rear wheel. 17" or 18" rim for motorcycle fitment. 3-phase BLDC.
📡
Controller (FOC)
72V / 100A–400A
VOTOL EM-150/200/300, Fardriver, Sabvoton, Kelly. Sine wave FOC for smooth power delivery. Must match motor KV rating.
🔋
72V Battery Pack
20S NCM / 40Ah–150Ah
Lithium NCM prismatic or cylindrical. 20S configuration = 72V nominal / 84V full charge. BMS required — JBD, DALY, or ANT.
🖥️
Display / Speedometer
VOTOL app or LCD
VOTOL controllers use Bluetooth app. Standalone LCD speedometer for speed/SOC display. Calibrate for wheel circumference.
🎮
Twist Throttle
0–5V Hall throttle
Hall-effect throttle — more reliable than resistive type. Full twist grip moto-style. Must match controller input voltage range.
🛑
Brake System
Hydraulic disc
Front and rear hydraulic disc brakes minimum for 3000W+. Brake cutoff switches required for all builds. 320mm front disc recommended for 5kW+.
🔌
84V Charger
84.0V CC/CV
Verified 84.0V output charger for 20S lithium pack. 5A standard, 10A fast charge. Always verify output voltage before use.
⚡
ANL Fuse
150A–400A / 100V+
On B+ wire as close to battery as possible. Rate at 1.5× peak current draw. Must be rated for system voltage.
🔑
Key Switch
12V or direct battery
Controls power to controller enable line. Anti-theft. Some builds use a kill switch relay. Always include a lockable key switch.
📍
GPS Tracker
SIM-based
Highly recommended — hidden SIM GPS tracker for theft recovery. Wired to ignition or dedicated power. Essential on a custom build.
Power Plant
Motor & Controller Matching
The controller must be matched to the motor's KV rating, phase current, and voltage. A mismatched controller will either underperform, overheat, or destroy the motor windings. Always buy motor and controller as a verified pair.
VOTOL EM Series — 72V Builds
| Parameter | 3000W — EM-100S | 5000W — EM-150S | 10000W — EM-200S |
|---|---|---|---|
| Battery Voltage | 72V (84V max) | 72V (84V max) | 72V (84V max) |
| Rated Phase Current | 100A | 150A | 200A |
| Peak Phase Current | 200A | 300A | 400A |
| Motor Poles Setting | Match motor (e.g. 23) | Match motor | Match motor |
| Flux Weakening | Mild (5–10%) | Moderate (10–20%) | Aggressive (20–30%) |
| Speed Limit (RPM) | Set per wheel size | Set per wheel size | Set per wheel size |
| Undervoltage Cutoff | 60.0V | 60.0V | 60.0V |
| Overvoltage Limit | 88.0V | 88.0V | 88.0V |
| Regen Braking | Yes — adjustable | Yes — adjustable | Yes — adjustable |
| Programming | Bluetooth app (Android) | Bluetooth app | Bluetooth app |
| Throttle Input | 0–5V Hall throttle | 0–5V Hall throttle | 0–5V Hall throttle |
📱
VOTOL App Setup (Android): Download "VOTOL Controller" from Play Store. Connect via Bluetooth. First set Battery High Voltage (88V), Battery Low Voltage (60V), then set motor pole pairs, then throttle calibration. Always save settings after changes.
Fardriver ND Series — 72V Builds
⚡
Fardriver advantage: Superior FOC algorithm, better low-speed torque, and more precise tuning than VOTOL. Preferred by serious builders. ND72530 and ND96530 are the most popular 72V models.
| Parameter | 3000W — ND72260 | 5000W — ND72530 | 10000W — ND721200 |
|---|---|---|---|
| Battery Voltage | 72V nominal | 72V nominal | 72V nominal |
| Max Battery Voltage | 84V | 84V | 84V |
| Rated Phase Current | 260A | 530A | 1200A |
| Cont. Battery Current | 80A | 150A | 300A |
| Flux Weakening | Auto-adaptive FOC | Auto-adaptive FOC | Auto-adaptive FOC |
| Overvoltage Cutoff | 88V (set in app) | 88V | 88V |
| Undervoltage Cutoff | 60V (set in app) | 60V | 60V |
| Regen Braking | Yes — brake lever signal | Yes | Yes |
| Speed Sensor | Hall or encoder | Hall or encoder | Hall or encoder |
| Programming | Fardriver app (Android) | Fardriver app | Fardriver app |
| Anti-theft | Built-in | Built-in | Built-in |
FARDRIVER KEY SETTINGS
| Setting | Value |
|---|---|
| BatHighLim | 88.0V |
| BatLowLim | 60.0V |
| PhaseCurrentMax | Match motor rating |
| MotorPolePairs | Count motor poles ÷ 2 |
| ThrottleHighV | 4.0–4.5V |
| ThrottleLowV | 0.8–1.0V |
| SpeedLimit | Set to legal/safe limit |
| RegenStrength | 20–40% (start low) |
FARDRIVER SETUP PROCEDURE
1
Download Fardriver app (Android). Enable Bluetooth.
2
Power controller with battery. Scan for device in app.
3
Set BatHighLim = 88V and BatLowLim = 60V first.
4
Set motor pole pairs. Count stator slots ÷ 6 for hub motors.
5
Calibrate throttle: turn throttle fully, tap "Learn Throttle Max" then release and tap "Learn Throttle Min".
6
Set speed limit. Start at 50% phase current for first test ride.
⚠️
Fardriver model naming: NDvoltagephase-current — e.g. ND72530 = 72V nominal, 530A phase current. Always buy the model rated for your motor's peak phase current requirement.
Sabvoton & Kelly — 72V Options
SABVOTON SVMC72150
| Spec | Value |
|---|---|
| Voltage | 72V (84V max) |
| Phase Current | 150A rated |
| Programming | Android app |
| Regen | Yes |
| Best For | 3000W–5000W builds |
| Notes | Good mid-range option, wide support |
KELLY KLS7230S
| Spec | Value |
|---|---|
| Voltage | 72V (84V max) |
| Phase Current | 300A peak |
| Programming | PC software (USB) |
| Regen | Yes |
| Best For | 5000W–8000W builds |
| Notes | Very reliable, no smartphone needed |
💡
Which controller to choose? For most DIY 72V builds: VOTOL EM-150S is easiest to set up and most forgiving. Fardriver ND72530 gives better performance and torque at the expense of more complex tuning. Both are available from Camytrade.
Phase/Hall Combo Finding
New motor+controller pairs often require finding the correct phase/hall wire combination. There are 6 phase combinations × 6 hall combinations = 36 possible combos. Use our VoltWrench Phase/Hall Finder tool to identify the correct combination systematically.
⚠️
Test at low throttle first. Wrong combo = motor jerks, stutters, or runs hot. Never run at full throttle until correct combo is confirmed.
Wire Gauges — 72V Moto Builds
| Wire | 3000W | 5000W | 10000W |
|---|---|---|---|
| Battery main | 8 AWG | 6 AWG | 4 AWG |
| Phase wires | 10 AWG | 8 AWG | 6 AWG |
| Hall wires | 22 AWG | 22 AWG | 22 AWG |
| Throttle | 22 AWG | 22 AWG | 22 AWG |
| Brake cutoff | 22 AWG | 22 AWG | 22 AWG |
72V Power Source
72V Battery Pack Guide
The 72V (20S) lithium pack is the heart of your e-motorcycle. Pack capacity directly determines range. For detailed 20S pack building instructions including BMS wiring, balance connector, and cell selection — see our dedicated 72V Battery Build Guide.
Pack Sizing by Use Case
| Use Case | Min Capacity | Recommended | Est. Range | Approx Weight |
|---|---|---|---|---|
| City commuter (3kW) | 30Ah | 40Ah | 100–140km | 15–18kg |
| Mixed road (5kW) | 40Ah | 60Ah | 100–130km | 18–22kg |
| Performance (8kW) | 60Ah | 80Ah | 90–120km | 22–28kg |
| Max range (10kW) | 80Ah | 100–150Ah | 120–200km | 28–45kg |
🔋
For full 20S pack build instructions — cell selection, BMS wiring, balance connector, and build steps — see the 72V / 84V NCM Battery Build Guide on camytrade.ca.
Connections
Electric Motorcycle Wiring Diagram
━ Battery B+/B− (via fuse)
━ Phase wires A/B/C
━ Hall sensor wires
━ Throttle / Display / Key
━ Brake cutoff switches
━ Charger C+/C−
⚡
72V is lethal. A 72V pack at full charge is 84V — enough current to cause cardiac arrest. Always disconnect battery before working on wiring. Use insulated tools. Never work alone.
Step by Step
Electric Motorcycle Build Procedure
1
Choose & Prepare Your Frame
Purpose-built e-moto frame or motorcycle conversion. Frame must accommodate battery pack (large central cavity), motor in rear wheel, and controller mounting. Check rear axle spacing — most hub motors require 135–155mm.
2
Lace Hub Motor into Motorcycle Rim
QS and similar motors come unlaced. Take to a moto wheel builder for 17" or 18" rim lacing. Specify correct spoke count and rim width for your tyres (typically 140/70-17 or 160/60-17 rear).
⚠️ Motorcycle wheel lacing is different from bicycle. Use a specialist — incorrect lacing can fail at speed.
3
Install Rear Wheel & Torque Arms
Install motor wheel into swingarm. Install BOTH left and right torque arms — this is critical on a motorcycle where rear wheel torque forces are much higher than an e-bike. Weld torque arms to frame if possible for permanent builds.
🔴 Single-sided torque arm will fail on a 3kW+ motorcycle build. Both sides mandatory.
4
Build & Install Battery Pack
Build or source your 20S NCM pack (see Battery Build Guide). Mount securely in frame with compression straps or custom battery box. Pack must be protected from water ingress and road vibration. Minimum IP54 weather rating recommended.
5
Mount Controller
Mount VOTOL/Fardriver/Sabvoton controller in a well-ventilated location — under seat or side panel. Controllers at 200A+ generate significant heat. Add heatsink compound between controller and any metal mounting surface. Secure with M6 bolts, use rubber vibration mounts.
6
Install ANL Fuse on B+
Mount ANL fuse holder on the B+ wire as close to the battery positive terminal as physically possible — within 15cm. Rate the fuse at 1.5× peak phase current. At 5kW/72V = ~70A average, use 150A fuse. At 10kW, use 250A fuse.
🔴 No fuse = no short circuit protection. A battery short without a fuse will cause immediate fire.
7
Connect Phase Wires
Connect motor phase wires (3 thick wires) to controller output. Use correct gauge — see wire sizing table. Use XT150 or Anderson SB connectors for 5kW+. Solder all connections and heat shrink. Route phase wires away from chain and moving parts.
8
Connect Hall Sensor Wires
5-wire hall connector: Red (+5V), Black (GND), Yellow (A), Green (B), Blue (C). Route through frame to controller. Keep hall wires away from phase wires — high current in phase wires causes interference in hall signal.
9
Install Throttle & Controls
Mount Hall-effect twist throttle. Wire to controller throttle input (3 wires: power, ground, signal). Install key switch in series with controller enable wire. Add brake cutoff switches to both brake levers — these must cut power immediately when brakes are applied.
10
Program the Controller
Connect via Bluetooth (VOTOL app) or PC software. Set: battery voltage limits (84V max, 60V cutoff), phase current limit, speed limit, throttle curve, regen braking strength. Always start with conservative settings for first test.
⚠️ Never run at max settings on first power-up. Start at 50% current limit. Increase gradually after confirmed correct phase/hall combo.
11
Phase/Hall Combination Test
With rear wheel lifted: apply minimal throttle. If motor stutters or jerks, try different phase wire combinations. There are 6 permutations. Once smooth rotation confirmed in correct direction, test hall wire combinations if needed. Document the correct combination.
12
First Ride Test
In a safe off-road area: test throttle response, brake cutoffs, regen braking, and top speed gradually. Check for unusual heat on controller, motor, or battery after 10 minutes. Check all connections for looseness or heat marks.
13
Final Assembly & Safety Check
Install fairings, covers, and panels. Final cable management — all wires secured away from moving parts, heat sources, and ground contact. Install GPS tracker. Verify all fasteners torqued. Document all controller settings. Register vehicle if required in your province.
Performance Calculator
E-Moto Range & Power Estimator
Your Build
Ah
Results
2,880Wh
Pack Energy
90km
Est. Range
115km/h
Est. Top Speed
69A
Avg Current
150A
ANL Fuse
8AWG
Phase Wire
Equipment
Tools & Equipment
Required Tools
🔌
Insulated Multimeter
CAT III 1000V rated
REQUIRED
🔧
Torque Wrench
4–120Nm range
REQUIRED
💻
Laptop + Controller SW
VOTOL/Fardriver programming
REQUIRED
📱
Smartphone + BMS App
JBD/DALY/ANT monitoring
REQUIRED
🔥
Soldering Station
80W+ temp controlled
REQUIRED
✂️
Heavy Wire Crimper
AWG 4–10 hydraulic
REQUIRED
🧰
Insulated Tool Set
1000V rated — mandatory at 72V+
REQUIRED
🚒
CO₂ Fire Extinguisher
For lithium battery emergency
REQUIRED
🔬
Thermal Camera
Detect hot spots on first runs
RECOMMENDED
Electric ATV Conversion
Converting a Gas ATV to Electric
An electric ATV conversion replaces the gas engine, fuel tank, and exhaust with an electric motor, controller, and battery pack. The result is instant torque, zero emissions, near-silent operation, and low maintenance. Most gas ATV frames convert well — the heavy engine bay accommodates a large battery pack perfectly.
System Specs by ATV Size
| ATV Class | Motor | Battery | Range |
|---|---|---|---|
| Youth (90–250cc) | 5–8kW | 48V 30Ah | 40–60km |
| Mid (300–450cc) | 8–15kW | 72V 40Ah | 50–80km |
| Full (500–700cc) | 15–20kW | 72V 60Ah | 60–100km |
| Sport/UTV | 20–30kW | 96V 80Ah | 70–120km |
Electric vs Gas ATV
| Feature | Electric | Gas |
|---|---|---|
| Torque delivery | Instant 0 RPM | Peak RPM only |
| Maintenance | Minimal | High |
| Noise | Near silent | Loud |
| Trail access | More areas | Restricted |
| Refuel time | 1–4h charge | Minutes |
| Running cost | Very low | High |
⚡
Best candidates for conversion: Yamaha Grizzly, Honda Foreman, Polaris Sportsman, Can-Am Outlander. Look for solid frame condition, working rear axle, and good suspension — the drivetrain is what you're replacing.
What You Need
ATV Conversion Components
⚙️
Electric Motor
5kW–30kW BLDC/PMSM
QS Motor 138, 273, or equivalent. Direct drive or chain/belt to rear axle. Must handle mud, water, and vibration — look for IP67 rating.
📡
Controller (FOC)
72V–96V / 200A–500A
Fardriver ND72530 or ND96530, VOTOL EM-200, Kelly KLS. Must handle high peak current for off-road climbs. Waterproof enclosure essential.
🔋
Battery Pack
72V–96V / 40Ah–100Ah
NCM prismatic pack. Fits in engine bay with custom battery box. IP65+ waterproofing mandatory. 20S (72V) or 26S (96V) configuration.
🔗
Adapter Plate
Custom CNC aluminium
Couples motor shaft to ATV drivetrain (chain, belt, or direct). Must be precision-machined for your specific motor and ATV transmission output.
🛡️
Waterproof Enclosures
IP65 minimum
Controller box, BMS enclosure, connector boots. ATVs get submerged, mud-packed, and pressure washed. Every electrical component needs waterproofing.
🖥️
BMS (20S or 26S)
JBD / DALY / ANT
Battery management system matched to pack voltage. 150A+ continuous for off-road use. Bluetooth monitoring recommended for diagnostics on the trail.
🎮
Thumb Throttle
Hall effect 0–5V
ATV-style thumb throttle. Waterproof Hall-effect type. Must match controller input range. Handlebar-mount with existing brake integration.
⚡
ANL Fuse + Contactor
250A–400A
Main fuse on B+ close to battery. High-voltage contactor (relay) for key switch control — prevents arcing on connect/disconnect at high voltage.
Drivetrain
Motor Mounting & Drivetrain
The biggest challenge in an ATV conversion is coupling the electric motor to the existing drivetrain. Three approaches: direct hub (replace rear axle hub), chain/sprocket, or belt drive. Chain drive is most common and reliable for off-road use.
Drive Options Compared
| Type | Efficiency | Maintenance | Off-road |
|---|---|---|---|
| Chain drive | 92–95% | Lube/replace | Excellent |
| Belt drive | 95–98% | Low | Good |
| Direct hub | 98% | Minimal | Best |
| Gearbox kept | 85–90% | High | Excellent |
Motor Mounting Tips
1
Weld or bolt a motor mount plate to the frame in the engine bay. Use 10mm steel plate minimum.
2
Align motor sprocket with rear axle sprocket. Misalignment causes rapid chain wear.
3
Use heavy-duty chain (520 or 530 pitch). Install chain tensioner for off-road use.
4
Waterproof all motor phase connectors with silicone potting or IP67 connectors.
Power Source
ATV Battery Pack
The engine bay of most ATVs offers excellent space for a large battery pack. A 72V 60Ah pack fits most mid-size ATVs. The battery must be sealed against water, mud, and vibration — this is the most critical part of an ATV build.
Battery Box Requirements
1
IP65 Minimum Waterproofing
Weld or fabricate an aluminium or steel battery box. Seal all penetrations with waterproof cable glands. Test with garden hose before installing pack.
2
Vibration Isolation
Mount battery box on rubber vibration isolators. ATV terrain sends severe shock loads into the frame — unsupported cells can have terminals crack.
3
Ventilation & Temperature
Small vent with IP-rated filter to prevent pressure buildup. NCM cells should not exceed 45°C continuous. Monitor with BMS temperature sensor.
4
Low Centre of Gravity
Mount battery as low as possible in the frame. Lowers centre of gravity vs the original gas engine — improves handling and rollover resistance.
⚠️
Never cross water deeper than your battery box without waterproof testing first. A flooded battery can cause immediate thermal runaway. Test box seal at 1m depth for 30 minutes before first water crossing.
Connections
ATV Wiring Overview
━ B+/B− main power
━ Controller signals
━ Phase wires
━ Hall sensors
━ Charger port
💧
Waterproof every connection. Use Anderson SB connectors with silicone boots, or Deutsch DT connectors. Never use standard automotive connectors on an ATV — they fail immediately in mud and water.
Step by Step
ATV Conversion Procedure
1
Strip the Gas Drivetrain
Remove engine, fuel tank, exhaust, radiator, carburettor/fuel injection, air filter, and all associated wiring. Keep the frame, suspension, brakes, wheels, steering, and 12V accessory wiring. Document everything with photos before removal.
2
Assess & Clean Frame
Inspect frame for cracks, rust, or damage after stripping. Repair and repaint mounting surfaces. Note exact dimensions of engine bay for battery box fabrication.
3
Fabricate Motor Mount
Weld or bolt 10mm steel motor mount plate into engine bay. Locate motor for optimal chain/belt alignment with rear axle sprocket. Use mock-up with cardboard first, then fabricate in steel.
⚠️ Have a welder with structural experience do this — motor mount failure at speed is catastrophic.
4
Fabricate Battery Box
Build waterproof battery enclosure from 3mm aluminium or 2mm steel. Include cable glands for all wire penetrations, vent with IP-rated filter, and drain plug. Test water seal before installing cells.
5
Install Battery Pack
Build or source your 72V NCM pack (see Battery Build Guide). Mount on vibration isolators. Route B+ and B− cables through waterproof glands. Install ANL fuse within 15cm of battery positive terminal.
6
Install Motor & Chain
Bolt motor to mount plate. Install sprocket on motor shaft with keyway and locking nut. Route chain from motor sprocket to rear axle sprocket. Set chain tension — 10–15mm slack. Install chain guard.
7
Mount Controller in Waterproof Box
Install controller in IP65 aluminium enclosure. Mount with thermal compound to enclosure wall for heat dissipation. Route phase wires and hall wires through waterproof glands.
8
Wire Everything
Connect phase wires (use Deutsch connectors). Connect hall sensor wires. Install throttle with waterproof housing. Wire key switch through contactor. Install brake cutoff switches on both levers.
9
Program Controller
Connect via Bluetooth app. Set voltage limits (84V max for 20S, 101V for 26S). Set phase current to 50% for first test. Confirm motor direction — ATV should move forward on throttle. Increase current limit gradually.
10
Waterproof All Connections
Apply silicone boots or self-amalgamating tape to every connector. Fill any voids with dielectric grease. Route all wiring away from moving parts, heat sources, and sharp edges. Secure with UV-resistant zip ties.
11
Test & Commission
Lift rear wheels off ground. Test at low throttle — check direction, brake cutoffs, BMS app readings. First ride on flat ground, check for heat on motor, controller, and battery after 10 min. Test water crossing only after full waterproof verification.
Equipment
Tools & Equipment
Required Tools
🔧
MIG/TIG Welder
Motor mount and battery box fabrication
REQUIRED
✂️
Angle Grinder
Frame prep and metal cutting
REQUIRED
🔩
Chain Alignment Tool
Critical for sprocket alignment
REQUIRED
🔌
Multimeter (CAT III)
Voltage and continuity checks
REQUIRED
💻
Controller App + Laptop
Fardriver / VOTOL programming
REQUIRED
🛡️
Deutsch Crimper
Waterproof connector crimping
REQUIRED
🔬
Thermal Camera
Check motor/controller heat
RECOMMENDED
🚒
CO₂ Extinguisher
Lithium fire safety
REQUIRED
Electric PWC Conversion
Converting a Gas Sea-Doo / PWC to Electric
An electric PWC conversion replaces the gas engine and jet pump drive with an electric motor coupled directly to the jet pump impeller. The hull, jet pump housing, steering, and seating all remain. The result is silent, fume-free riding with instant torque — perfect for lakes, harbours, and environmentally protected waterways.
System Specifications
72–96V
System Voltage
20S–26S NCM
15–30kW
Motor Power
Jet pump drive
60–100Ah
Battery
1–2hr ride time
IP68
Waterproofing
Full submersion
Compatible Hull Types
| PWC Model | Hull Space | Pump Size | Notes |
|---|---|---|---|
| Sea-Doo GTX | Excellent | 155mm | Best candidate |
| Sea-Doo RXT | Excellent | 160mm | Large hull |
| Yamaha WaveRunner | Good | 148mm | Popular choice |
| Kawasaki Ultra | Good | 160mm | Large engine bay |
| Sea-Doo Spark | Tight | 140mm | Small — challenging |
⚠️
Critical difference from land vehicles: ALL electrical components must be IP68 rated or fully encapsulated. A PWC hull fills with water on capsize. Plan for full submersion of every component — not just splash resistance.
What You Need
Sea-Doo Conversion Components
⚙️
Electric Motor
15–30kW / IP68
High-power axial flux or radial PMSM motor. Must be fully sealed — consider liquid-cooled motors for sustained power. Direct couple to jet pump shaft.
🌊
Jet Pump (existing)
Keep original pump
The original jet pump impeller, housing, and nozzle all stay. Only the drive shaft coupling to the gas engine is replaced with the electric motor coupler.
📡
Waterproof Controller
IP67 / 72V–96V
Fardriver or VOTOL in IP67 enclosure, or potted controller specifically designed for marine use. Must handle sustained high current — PWC runs at high load continuously.
🔋
Marine Battery Pack
72V–96V / 60–100Ah
NCM or LiFePO4 pack in fully sealed, buoyant-rated enclosure. LiFePO4 is safer in marine environments — no thermal runaway risk if hull floods.
🔗
Motor-Pump Coupler
Custom CNC
Precision-machined coupler joins electric motor output shaft to jet pump driveshaft. Must handle 15–30kW torque transmission and be corrosion-resistant (316 stainless or aluminium 6061).
🖥️
Waterproof BMS
IP68 / 20S or 26S
BMS must be IP68 or encapsulated in waterproof resin. Marine-grade BMS with temperature cutoff essential — battery in hull can get warm in confined space.
🎮
Throttle (handlebar)
Original or marine Hall
Use original PWC thumb throttle lever if compatible, or marine-grade Hall throttle. Must be waterproof — fully submerged on capsize.
🔌
Charge Port (IP68)
Shore power connector
Waterproof shore-power charge inlet. Must seal completely when not in use. Locking cap mandatory. Mount above waterline on hull side.
Jet Pump Drive
Motor to Jet Pump Coupling
The jet pump on a PWC is driven by a straight driveshaft from the engine. The electric motor replaces the engine and couples to this same driveshaft or directly to the pump impeller shaft. Alignment is absolutely critical — even 0.5mm of misalignment will destroy the shaft seal and flood the hull.
Motor Selection for PWC
| Motor Type | Power | RPM Range | Pros |
|---|---|---|---|
| Axial flux PMSM | 15–30kW | 3000–6000 | Compact, high torque density |
| Radial hub motor | 10–20kW | 2000–4500 | Available, proven |
| Marine induction | 20–50kW | 1500–4000 | Rugged, water-cooled |
💡
Jet pump impellers are optimised for 5500–8000 RPM. Your motor must reach this range at full voltage, or use a reduction gear (1:1.5 to 1:2 ratio).
Shaft Seal — Critical Detail
1
The original mechanical shaft seal must be replaced or refurbished — it seals where the driveshaft enters the hull.
2
Motor must be precisely aligned to shaft centreline — use a dial indicator, max 0.2mm runout.
3
Use flexible coupler between motor and driveshaft to absorb minor misalignment and vibration.
4
Check bilge (hull bottom) for water after every test run until seal is confirmed leak-free.
Marine Power
Marine Battery Pack
For a Sea-Doo conversion, LiFePO4 chemistry is strongly recommended over NCM. LiFePO4 does not undergo thermal runaway if the pack is flooded or damaged — critical when the battery lives in a hull that may capsize. NCM can be used but requires more robust encapsulation.
LiFePO4 vs NCM for Marine
| Property | LiFePO4 | NCM |
|---|---|---|
| Thermal runaway | No | Yes — fire risk |
| Energy density | Lower | Higher |
| Flood safety | Safe | Dangerous |
| Cycle life | 3000+ cycles | 500–1000 |
| Full charge V (20S) | 73.0V | 84.0V |
| Recommended | ✓ Marine use | Sealed only |
Battery Enclosure for Marine
1
IP68 rated box — tested to 1m submersion for 30 minutes minimum. Use O-ring sealed aluminium case.
2
Positive buoyancy — battery box should float if hull fills. Foam fill remaining void space.
3
Bilge pump integration — install automatic bilge pump and water alarm inside hull. Water ingress must be detected before it reaches battery.
4
Stainless hardware only — all bolts, brackets, and terminals inside hull must be 316 stainless steel. Aluminium oxidises in saltwater.
Marine Wiring
Sea-Doo Wiring Overview
━ B+/B− (waterproof glands)
━ Phase wires (marine grade)
━ Hall/throttle signals
━ Shore charge port
━ Bilge pump / water alarm
🌊
Marine wiring rule: Every single wire penetrating the hull must use a waterproof cable gland rated IP68. Use tinned marine-grade wire — standard automotive wire corrodes in weeks in a marine environment.
Step by Step
Sea-Doo Conversion Procedure
1
Strip the Engine & Fuel System
Remove engine, supercharger, intercooler, fuel tank, fuel lines, exhaust system, and engine bay wiring harness. Keep jet pump, driveshaft, hull, steering, handlebars, and seating. Photograph and label everything.
2
Clean & Inspect Hull Interior
Pressure wash hull interior. Inspect for cracks, delamination, or water damage. Check bilge drain. Measure engine bay dimensions carefully for battery box fitment. Note all existing wiring routing paths.
3
Service Jet Pump & Shaft Seal
Fully service the jet pump — inspect impeller for damage, replace wear ring if needed, replace mechanical shaft seal with new OEM part. This is your last chance to access the seal before the motor is installed. A leaking shaft seal sinks the conversion.
🔴 Never skip shaft seal replacement on a conversion. The old seal is worn for a reason — install new.
4
Fabricate Motor Mount
Build motor mount from 316 stainless steel or marine-grade aluminium 6061. Must align motor shaft precisely to driveshaft centreline. Use dial indicator — max 0.2mm runout. Bolt to existing engine mount points where possible.
5
Install Flexible Coupler
Install flexible jaw coupler or rubber spider coupler between motor shaft and driveshaft. This absorbs vibration and minor misalignment. Torque coupler bolts to spec. Check runout again after installation.
6
Build & Install Battery Pack
Assemble LiFePO4 or sealed NCM pack in IP68 enclosure. Install in hull with stainless mounting hardware on anti-vibration mounts. Battery box must not shift during capsize manoeuvres. Keep below centre of gravity for stability.
7
Install Waterproof Controller
Mount IP67 controller enclosure above the bilge waterline. Use tinned marine wire for all connections. Route through IP68 cable glands. Apply corrosion inhibitor (Corrosion-X or equivalent) to all terminals.
8
Route & Connect All Wiring
Use tinned marine-grade wire throughout. Route all cables above bilge waterline where possible. Every hull penetration = IP68 cable gland. Install waterproof fuse holder close to battery. Wire original PWC throttle to controller throttle input.
9
Install Shore Charge Port
Mount IP68 charge inlet on hull side above waterline. Route charge wires to BMS charge input. Install lockable sealing cap — charge port must be capped before any water contact. Test charge port seal with water before use.
10
Install Bilge Pump & Water Alarm
Install automatic bilge pump and high-water alarm. Route alarm to handlebar indicator light. A small water ingress alarm gives you warning before hull fills. Check bilge after every session until shaft seal proven leak-free.
11
Dry Test First
On trailer, run motor briefly at low throttle. Check all connections for heat, check bilge for any water. Check shaft rotation is correct direction (water should thrust backward = PWC moves forward). Confirm brake/cut-off function.
12
First Water Test (Calm Water)
Launch in calm shallow water. Idle speed first — check bilge for water after 5 minutes. If dry, increase speed gradually. Check BMS app for temperature. After first session, drain bilge and inspect all connections for corrosion or moisture. Do NOT capsize test until fully confident in seal integrity.
Marine Tools
Tools & Equipment
Required Tools
📏
Dial Indicator
Shaft alignment — 0.2mm max runout
REQUIRED
🔧
Marine-Grade Torque Wrench
Stainless fastener torquing
REQUIRED
🌊
Pressure Washer (test)
Waterproof seal testing
REQUIRED
🔌
Multimeter (CAT III)
All electrical checks
REQUIRED
✂️
Marine Wire Crimper
Tinned wire, IP-rated terminals
REQUIRED
🔬
Bilge Water Detector
Test shaft seal integrity
REQUIRED
💻
Controller App
Motor programming
REQUIRED
🛡️
Corrosion-X Spray
All electrical terminals
REQUIRED
Camytrade International
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