Zwift, has introduced game controllers designed for Zwift at-home fitness application. The ‘Zwift Play’ controllers attach to a road bike’s drop handlebars using silicone straps. Once mounted, wireless controllers allow riders to take full control of their in-game experience, removing need for a keyboard and mouse to control braking, steering, and navigation functionality.
Zwift Play is supported by integrated Nordic Semiconductor’s nRF52832 SoC’s (system-on-chip) 64 MHz, 32-bit Arm Cortex M4 processor with floating point unit (FPU), which provides ample computational resource to oversee controllers. Using bluetooth LE and ANT+ connectivity of nRF52832 SoC’s 2.4 GHz multiprotocol radio, in-game control and navigation can be transmitted with low latency to user’s device such as a PC, Mac, Android, iOS, or AppleTV, which all support Zwift fitness platform. Zwift Play also connects wirelessly to an associated app via Nordic SoC-enabled bluetooth LE connectivity.
A directional pad on left controller allows for navigation of game menus and enables users to select turns while exploring Zwift’s virtual worlds. Shortcut buttons placed on right controller are laid out in a familiar configuration allowing users to keep their eyes on road. Buttons allow riders to make selections in menus, and when riding act as shortcuts that allow users to give ‘Ride Ons’, deploy ‘PowerUps’, skip workout blocks, and more. Both controllers also feature paddles that allow users to steer and brake.
“These extra functions, along with additional buttons, will unlock new possibilities to further develop the Zwift application, offering users a wider range of experiences,” says Meir Machlin, vice president of engineering at Zwift.
Zwift Play uses a Li-Po 1400 mAh battery which is expected to deliver 20 hours of play under normal use. The Zwift platform also features a companion app that allows users to track progress, join clubs, and find events. The ‘Zwift companion’ app will also be used to update firmware on Zwift Play functionality made possible by over-the-air device firmware update (OTA-DFU) capabilities of Nordic SoC.
“We selected Nordic’s nRF52832 for Zwift Play due to the SoC’s combination of processing power, RF performance, generous memory, efficient power consumption, and bluetooth LE/ANT+ multiprotocol support. The SoC is also supported by the nRF Connect SDK (software development kit), which we used as our baseline to implement our own application code above bluetooth LE, and also provided basic functionalities including OTA-DFU, encryption, logging, and more.” adds Machlin.
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