ANT自动跳频数字系统简介
Introduction to ANT Automatic Frequency Hopping Digital System
ANT(蚂蚁版自动跳频数字系统)是富斯2020年开发的一套新系统,积淀了富斯科技十多年来系统开发的宝贵经验,该系统基于AFHDS 2A升级版的硬件平台运行,使用新一代高集成度2.4G芯片,通过RF高级模式功能,设定RF传输通道数量、各通道分辨率、距离、抗干扰、传输延时的简单操作,打造匹配用户需求的RF遥控系统,满足不同用户的需求。
ANT (ANT automatic frequency hopping digital system), developed by Flysky in 2020 with accumulating more than ten years of valuable development experiences, is a new system based on AFHDS 2A upgraded hardware platform using a new generation of highly integrated 2.4G chip. Through the RF advanced mode function, it is set with the number of RF transmission channels, resolution of each channel, distance, anti-interference, and transmission delay. With simple operations, the RF radio control system is created to meet user different demands.
ANT特色优势
ANT characteristic advantages
兼容单双向实时数据传输
Bidirectional Real-time Data Transmission
此系统具有双向通信功能,接收机接收发射机数据的同时,发射机还能够收到接收机回传来自于温度,速度等多种传感器的数据,用户能够掌握模型当前的工作状态,进而增添了操控乐趣,使模型控制变得更加安全。同时兼容单向通信。
This system features two-way communications. That is, the receiver receives data from the transmitter, and the transmitter can also receive the sensor data from the receiver such as temperature and speed. Users can obtain the current working state of the model. This can make users more joyful in the control and models become more secure. It is also compatible with one-way communication.
RF配置智能化
Intelligent Automatic RF Configuration
依据硬件特性、认证要求,以及产品对传输数据量、抗干扰、延时、距离等不同要求,系统智能适配相应的RF配置,以满足需求。
According to the hardware characteristics, certification requirements, as well as the product’s requirements on the transmission data volume, anti-interference, delay, and distance, the system is intelligently adapted to the corresponding RF configurations to meet user requirements.
多频点跳频工作
Automatic Frequency Hopping
此系统工作频段为 2.4GISM,根据需求RF配置智能化,通过RF配置的不同,开机时间不同、跳频规律不同和使用频点不同,主动避开同频干扰。
The system operates at 2.4 GHz ISM band: According to the intelligentized demand of RF configuration, the co-channel interference is avoided actively through different RF configurations, different boot time, different frequency hopping rules, and use of different frequencies.
独立身份识别系统
Independent ID recognition system
此系统每个发射机和接收机都具有唯一的身份识别 ID;当与接收机进行对码后,此 ID 码被存放在接收机内;接收机工作时,首先会验证此 ID 码,若验证失败则不会工作。此项可增强系统的主动抗干扰能力,从而提升系统的稳定性。
Each transmitter and receiver of this system has a unique ID. After the transmitter binds with the receiver, the ID is stored in the receiver. When the receiver works, it authenticates this ID first. If the authentication fails, the receiver will fail to work. This can enhance the active anti-interference ability of the system, thus improving the stability of the system.
高可靠性系统设计
Highly Reliable System Design
此系统采用高度集成的硬件方案,在减少电子物料的同时,还提升了系统的稳定性,可靠性和生产的一致性。
This system uses a highly integrated hardware solution. This can reduce electronic materials while also improving system stability, reliability and production consistency.
低功耗
Low Power Consumption
采用低功耗、高灵敏度器件及间隔数据发送的工作方式,使系统功耗降低至 FM 版本的六分之一,从而延长电池的使用时间。
The use of low power consumption, high sensitivity devices and interval data transmission operation can reduce the system power consumption as low as one-sixth of the FM version, thus extending the battery service life.