DJI RoboMaster EP takes science to a new level. This multifunctional educational robot facilitates the assimilation of topics related to programming, artificial intelligence, mathematics and physics. It offers a special DJI SDK toolkit, many expandability and compatibility with various open source platforms such as Arduino. Lots of interesting tasks to do, the option to create boards with obstacles - these are just some of the reasons why DJI RoboMaster EP turns out to be the perfect tool combining learning with fun.
What makes the RoboMaster EP capable of performing so many different tasks? Carefully thought-out design! The robot is equipped with a special gripper and a durable and flexible arm. Thanks to this, he can reach for selected objects and move them from place to place. What's more, the advanced servo serves as the robot drive controller and supports custom control capabilities through the main control board, guaranteeing high precision and efficiency. The RoboMaster EP also has an infrared distance sensor, whose range is about 0.1-10 m, and the measurement error is up to 5%.
RoboMaster EP is perfect for a variety of lesson scenarios. The device has 4 sensor adapters (2 ports each) and a power connector module, which allows you to connect sensors from other manufacturers and provide them with a power source. This allows students to create custom programs or applications. In addition, a special robot expansion platform is compatible with building blocks. So you can expand the robot even more freely and get more fun out of it!
DJI RoboMaster EP is also a great tool for learning programming. Available in the DJI RoboMaster app, the new Scratch blocks allow quick and convenient control of the gripper, robotic arm or equipment from other manufacturers. The device supports 2 programming languages - Scratch 3.0 and Python 3.6. This makes it possible, among other things, to code virtual widgets and design your user interface. You can also program multiple robots to communicate with each other and perform specific interactions in real time. The app is compatible with most popular systems such as Android, Windows, Mac OS and iOS.
RoboMaster EP also allows you to work with the DJI SDK, a special DJI development toolkit that provides nearly endless possibilities and supports more than 50 programmable sensor ports. This allows students to use HD video, audio, and sensor streaming data to build AI apps and learn AI. The information provided by the distance sensor enables intelligent obstacle avoidance, and gyroscopes on the chassis and gimbal help determine the position of the robot. It is also possible to control multiple devices at the same time.
The robot also allows you to freely use open source equipment from other manufacturers. It is compatible with Micro:bit, Arduino and Raspberry Pi, among others. Specific products can be connected and powered using the serial ports on the main chassis controller. RoboMaster EP can also test model performance and recognize scenes using AI platforms such as NVIDIA Jetson Nano and DJI SDK. Thanks to this, students gain the opportunity to better understand issues related to the operation of artificial intelligence.
Students also have the opportunity to test their skills in various tasks and competitions. For example, you can program the robot to automatically detect prepared obstacles and avoid them. It is also possible to write a code thanks to which the RoboMaster EP will collect items placed on the board. There is also a judging system and software for conducting competitions, which makes it much easier to organize various competitions.
- Frontal Armor x1
- Wheel mounting plate Mecanum x1
- Wheel damping ring Mecanum x4
- Wheel skates Mecanum x48
- Grease x1
- Motion controller x1
- Bottle of gel balls x1
- Screwdriver holder x1
- M3508l brushless motor and ESC x4
- Engine mounting plate x4
- Screw holder x1
- Safety goggles x1
- X-shaped front shaft guard x1
- Cable holder x1
- Charger x1
- Smart battery x1
- AC power cord x1
- Internal hub with left thread × 2
- External hub with left thread × 2
- Inner hub with right thread × 2
- External hub with right thread × 2
- Damping ring holder x4
- Skid plate x1
- Masking tape x1
- Vision Marker x7
- Skid plate x1
- Chassis centre frame x1
- x1 Smart Controller
- Front axle guard x1
- Base of front axle module x1
- Gimbal x1
- Camera x1
- Blaster x1
- Gel ball container x1
- Speaker x1
- Impact detector x4
- Camera cable x1
- Data cable 35 cm x1
- Data cable 23 cm x2
- Data cable 12 cm x4
- Rear Armor x1
- Left Armor x1
- Right Armor x1
| Producer | DJI |
|---|---|
| Name | DJI RoboMaster EP Core |
| Infrared distance sensor range | 0.1-10 m |
| FOV | 20° |
| Accuracy | 5% *For surfaces with reflectivity from 10% to 90%. |
| Range of motion of the robotic arm | Horizontal: 22 cm; Vertical: 15 cm; |
| Number of axes of the robotic arm | 2 |
| Gripper range | Approx. 10 cm |
| Sero weight | Approx. 70 g |
| Servo dimensions | 44.2 x 22.6 x 28.6 mm |
| Servo transmission ratio | 512:1 |
| Servo modes | Angle, Speed |
| Sensor adapter port type | IO, AD |
| Number of sensor adapter ports | 2 |
| Power connector module communication port | CAN bus (5) |
| Power connector module output | USB-A power port: 5V 2A; Power port with pin strip: 5V 4ATX30; Power Port: 12V 5A; |
| Power connector module output | TX30 12 volts |
| Camera field of view (FOV) | 120° |
| Max. Photo resolution | 2560x1440 |
| Max video resolution | FHD: 1080p/30FPS; HD: 720p/30FPS; |
| Max. video bitrate | 16 Mbps |
| Photo format | .JPEG |
| Video format | .MP4 |
| Matrix | CMOS 1/4"; Effective pixels: 5 MP; |
| Operating temperature | -10°C - 40°C |
| EP weight | Approx. 3.3 kg |
| EP dimensions | 320 x 240 x 270 mm (L x W x H) |
| Chassis speed | 0-3.5 m/s (forward), 0-2.5 m/s (backward), 0-2.8 m/s (sideways) |
| Max. chassis speed | 600°/s |
| Max. engine speed | 1000 rpm |
| Max. engine torque | 0.25 N·m |
| Max. motor power output | 19 watts |
| Driver | FOC |
| Method of control | Closed loop speed control |
| Engine protection | Overvoltage, overheating and short circuit protection, Soft start, chip and sensor malfunction detection |
| Smart Controller latency | Wi-Fi: 80-100ms; Router: 100-120ms; (no obstacles, no interference) *Measurements were taken in interference-free and unobstructed environment, approximately 1 m away from mobile device, router and EP. An iOS device using an iPhone X device for testing may vary. |
| Live view quality | 720p/30FPS |
| Max. Live view bitrate | 6 Mbps |
| Smart controller operating frequency | 2.4 GHz, 5.1 GHz, 5.8 GHz *Outdoor use of the 5.1 GHz and 5.8 GHz frequency bands is prohibited in some areas. You must always comply with all local laws and regulations of your country or region. |
| Smart Controller Mode | Wi-Fi connection, Router connection |
| Max. transmission range | Wi-Fi: FCC, 2.4GHz 140m, 5.8GHz 90m, CE, 2.4GHz 130m, 5.8GHz 70m, SRRC, 2.4GHz 130m, 5.8GHz 90m, MIC, 2.4GHz 130m; Router: FCC, 2.4GHz 190m, 5.8GHz 300m, CE, 2.4GHz 180m, 5.8GHz 70m, SRRC, 2.4GHz 180m, 5.8GHz 300m, MIC, 2.4GHz 180m; *Measured in interference-free and unobstructed environment. In the case of a Wi-Fi connection, the mobile device used for testing was the sixth-generation iPad (released in 2018). In the case of connection via Router, several router models were used for testing. FCC: TP-Link Archer C9; SRRC: TP-Link WDR8600; CE: TP-Link Archer C7; MIC: WSR-1160DHP3. |
| Transmission power (EIRP) of the intelligent controller | 2.400-2.4835 GHz: FCC: ≤30 dBm, SRRC: ≤20 dBm, MIC: ≤20 dBm; 5.170-5.25 GHz: FCC: ≤30 dBm, SRRC: ≤23 dBm, MIC: ≤23 dBm; 5.725-5.850 GHz: FCC: ≤30dBm, SRRC: ≤30dBm; |
| Transmission standard | IEEE 802.11 a/b/g/n |
| Battery capacity | 2400 mAh |
| Nominal charging voltage | 10.8 volts |
| Max. Charging voltage | 12.6 volts |
| Battery type | LiPo 3S |
| Energy | 25.92 WHr |
| Battery weight | 169 g |
| Charging temperature | 5°C - 40°C |
| Max. Charging power | 29 watts (Printing) |
| Working time | Approx. 35 min (measured at a constant speed of 2 m/s on a flat surface) |
| Standby time | Approx. 100 min |
| Charger input | 100-240 V, 50-60 Hz, 1 A |
| Charger output | 12.6 V = 0.8 A or 12.6 V = 2.2 A |
| Charger voltage | 12.6 volts |
| Charger power rating | 28 watts |
| Application | RoboMaster |
| Supported operating systems | iOS 10.0.2 or later, Android 5.0 or later |
| Recommended routers | TP-Link TL-WDR8600, TP-Link TL-WDR5640 (China); TP-Link Archer C7, NETGEAR X6S (International); |
| Recommended power source for outdoor routers | Powerbank for laptops (check the input power on the router) |
| Supported SD cards | MicroSD cards up to 64GB |
