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新款 Seeed 原裝進口 Crazyflie 2.1 Brushless version 迷你小飛機 2.1無刷版本(114993410)
The Crazyflie 2.1 Brushless version is a versatile open-source flying development platform that only weighs 27g and fits in the palm of your hand. Crazyflie 2.1 is equipped with a low-latency/long-range radio as well as Bluetooth LE. This gives you the option of downloading our app and using your mobile device as a controller or, in combination with the Crazyradio PA, using your computer to display data and fly with a game controller.
【Part List】清單:
- Crazyflie 2.1 Plus control board 2.1 控制板 X1
- 350mAh LiPo battery(備用零件Spare part) X1
- Battery holder(備用零件Spare part)X1
- Foam battery pad X1
- Propeller guards (1 spare)(備用零件Spare part) x5
- Standing legs (1 spare)(備用零件Spare part) X5
- Brushless motors(備用零件Spare part) X4
- Short (black) screws 螺絲 X14
- Long (silver) screws 螺絲 X4
- Short male deck connectors X2
- Long male deck connectors X2
- CW propellers (3 spare)(備用零件Spare part) X5
- CCW propellers (3 spare) (備用零件Spare part) X5
- Micro-USB cable (48cm) (備用零件Spare part)X1
- ScrewdriverX1
- Propellers removal tool X1
【Feature 特徵】:
- 〔Easy to assemble〕: no soldering required
- 〔Automatic Expansion Deck Detection〕
- 〔Multiple positioning technologies supported〕
- 〔Cross-Platform Compatibility〕:Compatible with iOS and Android via Bluetooth LE, and with Windows, Mac, and Linux using Crazyradio, Crazyradio PA, or Crazyradio 2.0 for flying.
- 〔Long-Range Radio Communication〕:Tested to further than 1 km radio range line-of-sight (LOS) with the Crazyradio PA
- 〔Wireless firmware updates〕更新
- 〔Dual-MCU architecture〕:Supports Real-time logging, graphing and variable setting in addition to full use of expansion decks when using a Crazyradio or Crazyradio PA and a computer
The Crazyflie 2.1+ of the successful Crazyflie 2.X development platform comes with upgraded battery and propellers for a up to 15% improved flight performance. Together with an extensive ecosystem of software and deck expansions it’s ideal for education, research and swarming.
Crazyfly 2.1 brushless version is designed to be as flexible as possible. This meant adding as many features as users could fit and writing firmware made to be modified. In addition to the default functionality that comes with the Crazyflie 2.1 brushless version that added a flexible expansion interface where a variety of expansion decks can be attached, both on the top and the bottom of the Crazyflie 2.1 brushless version. From this expansion interface the user can access buses such as UART, I2C and SPI as well as PWM, analog in/out and GPIO.
Go to Getting started with the Crazyflie 2.1 + to build your crazyflie, update its firmware and fly with it with the clients. Also take a look at our System overview to learn more about Crazyflie’s ecosystem of positioning systems, Clients and of course the crazyflie itself with its expansion decks.
〔Specification 規格〕:
【Microcontrollers Spec】
- Main application MCU:STM32F405,Cortex-M4, 168MHz, 192kb SRAM, 1Mb flash
- Radio and power management MCU:nRF51822,Cortex-M0, 32Mhz, 16kb SRAM, 128kb flash
- Connector:micro-USB接口
- On-board LiPo charger:100mA, 500mA and 980mA modes available
- Memory:8KB EEPROM
- Port:Full speed USB device/Partial USB OTG capability present but no 5V output
【IMU Spec】
- 3 axis accelerometer / gyroscope:BMI088
- High precision pressure sensor:BMP388
【Flight Spec】
- Flight time with stock battery:7 minutes
- Charging time with stock battery:40 minutes
- Max recommended payload weight:15 g
【Radio Spec】
- ISM band radio:2.4GHz
- radio range LOS:> 1 km (Increased range with 20 dBm radio amplifier)
- Wireless:BLE
- Support platform:
- iOS / Android clients
- Win/Linux/OSX python client(Any gamepad/controller with at least 4 analog axes)
- Antenna:Dual antenna support
- Onboard components:接口
- chip antenna
- U.FL connector
【Expansion connector mode】
- VCC:3.0V (max 100mA)
- VCOM:max 1A(unregulated VBAT or VUSB)
- VUSB:both for input and output
- Interfaces:
- SPI
- I2C (400kHz)
- 2 x UART
- 4 x GPIO/CS for SPI
- 1-wire bus for expansion identification
- 2 x GPIO connected to nRF51
【Mechanical Spec】
- Takeoff weight:27g
- Size (WxHxD):92x92x29mmm (motor-to-motor and including motor mount feet)
【Hardware Overview】
Note
- The Crazyflie 2.1 brushless version is a 3.0V system, meaning a high output will be 3.0V but still compatible with a 3.3V system,
- All IO pins are 5V tolerant except PA5 and the NRF51 pins,
- The NRF51 pins can be multiplexed with any of the available NRF51 peripheral,
- The STM32F405RG pins can be multiplexed.
[Application應用]:
● Use the Crazyflie 2.X for development
The Crazyradio PA enables you to connect the Crazyflie 2.X to a computer wireless and download new firmware, modified to your liking. The logging and parameter frameworks provide APIs for getting and setting data in the Crazyflie 2.X live, even when you are flying! All software, firmware, as well as clients on the computer that is open source and the source code is available for you to play with as you like.
● Paint in the dark with a Crazyflie
The Crazyflie 2.X is fun to fly as is but adding the LED-ring deck and flying in the dark adds a new dimension. The RGB LEDs let you choose any colour and with some coding any light sequence can be displayed, for instance, controlled by the on board sensors. Why not take photos with an open shutter of a moving Crayflie 2.X and paint in the dark?
● assistance when flying the Crazyflie and Crazyradio PA
Flying a quadcopter like the Crazyflie manually requires some skill and practising. By adding the Flow deck v2 the Crazyflie gets more information about its motion and can assist the pilot.
note: Currently assisted mode is only supported when flying using a computer and gamepad, not with a mobile device.
● awareness of the surroundings to the Crazyflie and Crazyradio PA
The Multi-ranger deck measures the distance to objects forward/back/left/right and up. It can be used for obstacle avoidance, mapping a room or games where the Crazyflie 2.X “bounces” between the walls of a room. Combine with a Flow deck v2 to measure the distance to the floor as well and support autonomous flight.
