The GS-8800's measurement capabilities are augmented by an rf Interface Module, which handles rf switching and conditioning, and offers the highest measurement accuracy possible.
GS- 8800的测量性能由RF界面接口模件进行扩展,该模件可处理RF开关和调节,提供可能的高精确性。
Based on the deep study of relate theories and technologies of RFID chip, the paper has finished the analysis and design of the rf interface circuits, digital circuits and EEPROM circuits.
在对RFID芯片系统的相关理论和技术的深入研究的基础上,分析设计了RFID芯片的射频接口电路、数字电路和EEPROM存储电路。
Finally, by connecting the development platform with the wireless rf chip CC2420, it designs and implements a simple STIM wireless interface based on the IEEE 1451.5 standard.
最后,还通过开发平台与无线射频芯片CC 2420的连接,设计并实现了一个简单的基于IEEE 1451.5标准的STIM无线接口。
First introduces the whole rf system, including system specification, duplex method, key technology, interface definition and etc.
首先研究了整个射频系统的系统指标、双工方式、关键技术、系统组成和接口定义。
Antenna interface is the interface circuit for the rf transmitting circuit, the signal reception circuit and the probe.
天线接口电路是射频发射电路、信号接收电路与磁体天线的接口电路。
Designed and realized using OO method, the rf environment was characterized by modularization, simple interface, expandability, and easy substitution of effects models.
射频环境设计和实现采用面向对象的方法,具有模块化、接口简单、可扩展性、易于效应模型的添加和替换等特点。
Incremental Redundancy is included in EGPRS to achieve maximum efficiency over the air interface (rf).
EGPRS中采用冗余递增技术,通过空中接口(RF)实现最大效率。
RF optimization adjusts some air interface parameters to achieve WCDMA network performance upgrade, efficiently utilize network resource.
射频优化是通过调整WCDMA空中接口参数,提高网络的各方面性能,确保网络资源的有效利用。
The transmitting device is in use for receiving data from the interface module, and transmits the RF signal processed from the received data.
所述发射设备,用于从接口模块接 收数据,并将收到的数据处理为射频RF信号后进行发射。
Thus, the transceiver ACTS as an interface between digital and rf domains.
因此,收发信机充当数字域和射频域之间的接口。
On the ground of the basic princple of 4G system, this aritcle is aimed to design the interface between RF and Baseband of B3C system which mainly includes three parts AGC, AFC and APC.
该基带——射频接口的核心包括自动增益控制(AGC),自动频偏控制(AFC)和自动功率控制(APC)的设计。
On the ground of the basic princple of 4G system, this aritcle is aimed to design the interface between RF and Baseband of B3C system which mainly includes three parts AGC, AFC and APC.
该基带——射频接口的核心包括自动增益控制(AGC),自动频偏控制(AFC)和自动功率控制(APC)的设计。
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