Description
The Moza CS V2P Steering Wheel is the kind of wheel that instantly makes you want to push a little harder into every corner. Crafted from solid aluminum alloy and wrapped in supple leather, it delivers that unmistakable mix of sturdiness and comfort. With zero-latency wireless technology and magnetic carbon-fiber shifters that click with addictive precision, every shift feels sharp and deliberate. The 330mm diameter gives it a proper GT-style stance—perfect for long sessions where control and endurance meet craftsmanship.
What Sets the Moza CS V2P Steering Wheel apart?
-
Aluminum Alloy Strength with Carbon Fiber Detail The CS V2P pairs a rigid aluminum frame with 3mm forged carbon paddles, creating a wheel that feels planted and confidence-inspiring. It’s light enough to move swiftly through hairpins yet solid enough to never feel flimsy. Drivers appreciate how the cool-to-touch aluminum rim contrasts with the textured leather grips, giving a tactile mix that feels both refined and purposeful.
-
Wireless Freedom Without Interference Moza’s patented wireless technology gives the CS V2P an edge in consistency. There’s no cable drag, no twisting, and no random disconnects mid-race. Racers often point out how seamless the signal feels even under intense steering input. The wireless setup doesn’t just simplify your rig—it eliminates one of the most annoying failure points in sim racing: cable fatigue.
-
Ergonomic Control Layout The 10 programmable buttons, 2 universal joysticks, and dual 20-segment knobs create a cockpit that feels intuitive and efficient. The tactile click of each button is crisp enough to be felt through gloves, and the layout avoids overcrowding. Compared to other wheels in this price range, the CS V2P manages to deliver complexity without chaos, letting you focus on racing rather than hunting for functions.
-
D1-Spec Quick Release System The quick release on the CS V2P locks in with the confidence of a race car hub. It’s fast, stable, and built for daily use. Many sim racers note how satisfying the fit feels—no play, no creaks, just a clean engagement. That makes it perfect for switching between wheel types mid-session, especially if you alternate between GT and formula-style racing.
Pros and Cons
| Pros |
Cons |
| Strong aluminum build ensures long-term durability. |
Not compatible with non-Moza wheel bases. |
| Wireless design eliminates cable clutter and wear. |
Leather may wear faster with glove use. |
| Magnetic carbon paddles provide consistent shifting feedback. |
|
| Ergonomic button layout makes controls intuitive. |
|
Specifications
| Specification |
Value |
| Grip Material |
Leather |
| Frame and Front Plate Material |
Aluminum Alloy |
| Shifter Paddle Material |
3 mm-thick Forged Carbon Fiber |
| Size |
330mm |
| Magnetic Shifter Paddles |
2 |
| Clutch Paddles |
2 |
| 20-segment Knob (Pressable) |
2 |
| Universal Rocker (Pressable) |
2 |
| LED Shift Indicator |
10 RGB LEDs with 7 Adjustable Colors |
| Quick Release Type |
D1 Spec Quick Release |
| Paddle Sensor |
Contactless Photoelectric Sensor |
| Compatibility |
Compatible with All Moza Bases |
Moza CS V2P Steering Wheel Compatibility
| Moza Base |
Connection Type |
| R21 |
Wireless |
| R16 |
Wireless |
| R9 |
Wireless |
| R5 |
Wired via Slip-Ring Communication |
The Moza CS V2P Steering Wheel works seamlessly with all Moza wheel bases, including the R21, R16, R9, and R5. The R21, R16, and R9 communicate wirelessly, while the R5 uses a dependable slip-ring wired connection. The D1-spec quick release ensures a firm fit with zero play, though the wheel is not compatible with other ecosystems such as Fanatec, Thrustmaster, or Simucube without third-party adapters.
On the platform side, the CS V2P connects to PC via Moza’s wheel bases, offering full functionality across leading sim titles like Assetto Corsa, iRacing, and rFactor 2. It’s not compatible with consoles such as PlayStation or Xbox, as Moza’s focus remains firmly on PC racing. For PC-based sim racers, it provides consistent performance, easy customization, and complete integration within the Moza ecosystem.
