The DUPLEX 2.4EX REX 7 Slim Assist is a state-of-the-art receiver from the REX SLIM series, designed specifically for models with narrow fuselages such as F3J and F5J gliders. This receiver integrates advanced stabilization features while maintaining a slim profile, making it ideal for tight spaces without sacrificing performance.
Key Features:
- Supported Protocols: Compatible with PPM, EX BUS, EX Telemetry, and S.Bus, providing versatile connectivity options.
- Programmable Channel Assignment: Allows for custom configuration of the 7 servo slots to suit specific model needs.
- Compact Dimensions: Slim and lightweight design (15 x 12.5 x 60 mm) ideal for models with restricted space.
- Full Range: Ensures reliable signal transmission across a wide range.
- Wireless Programming: Supports programming through the Duplex DC/DS transmitters' device overview for convenience.
- JETIBOX Programming: Can also be programmed using the JETIBOX.
Stabilization and Telemetry:
- Integrated ASSIST Stabilization System: Features damping, heading hold, and trainer mode to enhance flight stability and control.
- Telemetry: Provides data on rotation angles across 3 axes, G-Force, and temperature for comprehensive monitoring.
- Stabilized EX Bus Output: Can output a stabilized EX bus signal for integration with CentralBoxes and other systems.
- Versatile Application: Suitable for fixed-wing models, multicopters, delta wings, and flying wing models.
- Variometer Function: Available as an optional extension through the JETI SW Shop for altitude measurement.
Technical Data:
- Dimensions: 15 x 12.5 x 60 mm
- Weight: 12 g
- Supply Voltage: 3.5 - 8.4 V
- Telemetry: Yes
- Stabilization ASSIST: Yes
- Servo Slots: 7
- Antenna Length: 2 x 200 mm
Usage Notes:
- Ideal for Narrow Fuselages: The slim profile is tailored for models where space is at a premium.
- Advanced Flight Features: Includes a sophisticated stabilization system to improve handling and performance.
- Customizable Telemetry: Offers extensive telemetry options for real-time data monitoring.