发射机应答器便会自动发出信号。
这也是欧版应答器要安装在旁边的原因。
所以,应答器报文直接涉及到行车安全。
So the Balise telegram directly relates to the traffic safety.
沿海岸线的导航也广泛地利用定频雷达应答器。
Fixed radar transponders were heavily used in navigation along coastlines.
射频识别系统主要由应答器和读写器两部分组成。
RFID system is mainly composed of two parts, tag and target.
PKE系统源码,包括基站及应答器源码,含电路图。
PKE system source code, including base station and transponder code, including the circuit diagram.
车载应答器天线坠入铁轨或其附近,导致列车脱轨。
The onboard responder antenna drops into or near the rail top which cause the train digression .
该地面电子设备在远距离可准确监测应答器的工作状态。
The ground electronic device can accurately and remotely monitor the working state of the transponder.
导航方法和海底应答器绝对位置的校准是水声定位导航技术的关键。
The key techniques of underwater acoustic positioning and navigation are the navigation method and the precise calibration of the absolute position of the seabed transponder.
作为高频频地波雷达的配套器件,应答器的工作方式和雷达密切相关。
As a device match of the high frequency ground wave radar, the responder 'working is correlating with the radar.
还包括用于与诸如打印机编码器的装置中的应答器选择性地通信的方法。
Also included are methods for selective communication with the transponder in an apparatus such as a printer-encoder.
该智能应答器已完成了对炮位雷达信号的测试,取得了令人满意的效果。
The test for the intelligent responder is completed for the signal of the weapon location radar and the test result is satisfactory.
对话锁识别系统和锁系统是以发射机应答器技术为核心内容的电子控制系统。
Dialock identification and locking system is a electronic control system which uses transponder technology as its core.
介绍了一种炮位雷达智能应答器的系统构成、基本原理、主要功能及其实现。
In this paper the composition, basic principle and main functions of one intelligent responder of weapon location radar as well as its implementation are introduced.
分配给每个设备的MMSI号码,都必须准确地被编入该应答器中,和及时更新。
The MMSI number assigned to each device must be accurately programmed and updated as necessary.
对查询应答器和里程计的定位方式提出一种用接触网定位器辅助列车定位的方法。
This auxiliary locating technique brings much higher precision on train location and requires much less balise devices.
本实用新型公开了一种智能化道路交通标志线,包括埋设在交通标志线下的应答器;
The utility model relates to an intelligentized traffic lines, comprising a responder buried below the lines and a radiofrequency reader and a micro director arranged in the vehicles.
考虑了单应答器水声定位导航的深海工作特性,特别给出了相应的声线弯曲修正方法。
The performance of the navigation system with a single transponder system operating in the deep sea is considered, and the corresponding methods for the correction of the sound ray bending are given.
可以实现虚拟应答器、虚拟信号机,减少轨旁设备及维护工作量,大大降低系统成本。
It can reduce the cost of the train positioning system greatly by reducing trackside equipments and workload of maintenance.
在管道的每个分叉处,应答器与胶囊的目的地通讯以便磁体将其推向左或右,视情况而定。
At each bifurcation of the pipe, the transponder communicates the capsule's destination and the magnets pull it to the left or the right, as appropriate.
系统软件整体设计包括两部分:一部分软件基于B/S模式,实现应答器报文信息管理工作;
The system comprises two part of the software. One is about telegram information management, based on B/S model;
支承结构可包括用于支承介质卷的主轴(100)并包括用于与识别应答器通信的识别耦合器。
A support structure may include a spindle (100) for supporting a media roll and include an identification coupler for communicating with the identification transponder.
本文实现了天线、ASK调制、应答器的电源、负载调制、解调、电源传感器和高频功放模块。
Finally, the antenna, ASK modulation, power supply of the tag, load impedance modulation, demodulation, power supply sensor and HF power amplifier were realized.
介绍了影响应答器数据传输电缆特性阻抗的主要因素,并结合生产实践讨论了如何进行质量控制。
The main factors affecting the characteristic impedance of the data cables for responder are presented. The method to control quality is discussed considering the practical production.
介绍了影响应答器数据传输电缆特性阻抗的主要因素,并结合生产实践讨论了如何进行质量控制。
Key aspects of well-logging cable data transmission system, such as cable transmission features, modulation technology, design of Manchester encoder and decoder based on complica.
根据合同,Thales公司将为印度整个机队共63架米格- 29战斗机提供敌我识别询问应答器。
According to the contract, Thales will deliver IFF for the whole Indian fleet of 63 MiG-29.
文中结合海底应答器位置校准方法,分别就声速分布已知和未知两种条件开发了深海声线弯曲修正方法。
Combined with the calibration method, two methods for the sound ray bending correction in deep sea are developed when the sound velocity profile is known and unknown separately.
文中结合海底应答器位置校准方法,分别就声速分布已知和未知两种条件开发了深海声线弯曲修正方法。
Combined with the calibration method, two methods for the sound ray bending correction in deep sea are developed when the sound velocity profile is known and unknown separately.
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