航空电子设备(第2版 英文版)/飞行技术专业系列教材
出版时间:
2017-01
版次:
2
ISBN:
9787564352035
定价:
38.00
装帧:
平装
开本:
16开
纸张:
胶版纸
页数:
225页
字数:
479千字
正文语种:
英语
5人买过
-
《航空电子设备(第2版 英文版)/飞行技术专业系列教材》是航空电子设备英文版,系统介绍了民航当前采用的通信、导航、仪表及自动控制系统的种类、功能和工作原理,包括:高频通信、甚高频通信等常见机载通信设备的原理、结构、使用方法,四大导航设备(VOR、DME、ILS和ADF)、雷达系统及机载监视设备(TCAS、GPWS和风切变探测系统)等的原理与使用方法,航空仪表的基础知识和飞机的基本仪表设备,自动飞行控制系统的作用、组成、控制规律等。 Chapter 1 Air Data Computer System
1. 1 Introduction
1.2 The Basic Principle
1.3 Temperature Measurement Probes
1.4 Pressure Transducers
1.5 Air Data Instruments
Chapter 2 Electronic Instrument Systems
2.1 Introduction
2.2 Electronic Flight Instrument Systems
2.3 Engine Indicating and Crew Alerting System
2.4 Electronic Centralized Aircraft Monitoring
Chapter 3 Automatic Flight Control Systems
3.1 Introduction
3.2 The Flight Director
3.3 The Autopilot
3.4 Autopilot Flight Director Systems
3.5 The Yaw Damper
3.6 Automatic Pitch Trim
3.7 Autothrottle
3.8 Autoland
3.9 Flight Envelope Protection
3.10 Typical Auto Flight Operation for B767 Airplane
Chapter 4 Flight Data Recording & Airplane Condition Monitoring System
4.1 Introduction
4.2 Flight Data Recording System
4.3 Airplane Condition Monitoring System
Chapter 5 Airborne Weather Radar System
5.1 Introduction
5.2 Basic Principles
5.3 Control Panel
5.4 Display-EHSI Presentation
5.5 Operation In-Flight
5.6 Warning
Chapter 6 Secondary Surveillance Radar and Transponder
6.1 Introduction
6.2 Air Traffic Control Radar Beacon System
6.3 Mode S Secondary Radar System
Chapter 7 Traffic Alert and Collision Avoidance System
7.1 Introduction
7.2 TCAS II System Architecture
7.3 The Principle of Operation of TCAS II
7.4 TCAS II Displays
7.5 TCAS II Aural Messages
7.6 Control Panel
7.7 Crew Response
7.8 The Use of TCAS II
7.9 Flight Crew Procedure for A320 Airplane
Chapter 8 Ground Proximity Warning System
8.1 Introduction
8.2 GPWS System Architecture
8.3 GPWS Alert Modes
Chapter 9 Enhanced Ground Proximity Warning System
9.1 Introduction
9.2 Enhanced GPWS Features
9.3 Look-Ahead Terrain Alerting
9.4 Terrain Display
9.5 Flight Deck Effects for EGPWS Alert
9.6 Aural Message Priority
9.7 EGPWS Control Panel
9.8 Flight Crew Procedures
Chapter 10 Runway Awareness and Advisory System
10.1 Introduction
10.2 The Principle of RAAS
10.3 System Operation Description
10.4 RAAS Quick Reference
Chapter 11 Predictive Windshear System
11.1 Introduction
11.2 The Principle of PWS
11.3 Limitations of PWS
11.4 The Alert of PWS
11.5 The Operation of PWS
11.6 Flight Crew Procedure for A320 Airplane
Chapter 12 Radio Altimeter
12.1 Introduction
12.2 The Principle of LRRA
12.3 Radio Altitude Display
12.4 Errors and Accuracy
Chapter 13 Inertial Navigation System
13.1 Introduction
13.2 The Principle and Construction of the Accelerometer
13.3 The Gyro-Stabilised (Gimballed) Platform
13.4 Position Calculation
13.5 INS Self-Alignment
13.6 INS Error Corrections
13.7 Mode Selector Panel and CDU
Chapter 14 Inertial Reference System
14.1 Description of the Strapdown System
14.2 The Control and Display oflRS
14.3 The IRS Outputs
14.4 IRS Alignment
Chapter 15 Global Positioning System
15.1 Introduction
15.2 GPS Elements
15.3 GPS Operating Principle
15.4 GPS Receiver Unit
15.5 GPS Reliability/Integrity
15.6 GPS Errors
15.7 Differential GPS
Chapter 16 Flight Management Computer System
16.1 Introduction
16.2 FMCS Architecture
16.3 Command Display Unit
16.4 The Flight Management Computer Database
16.5 General FMS Operation
References
-
内容简介:
《航空电子设备(第2版 英文版)/飞行技术专业系列教材》是航空电子设备英文版,系统介绍了民航当前采用的通信、导航、仪表及自动控制系统的种类、功能和工作原理,包括:高频通信、甚高频通信等常见机载通信设备的原理、结构、使用方法,四大导航设备(VOR、DME、ILS和ADF)、雷达系统及机载监视设备(TCAS、GPWS和风切变探测系统)等的原理与使用方法,航空仪表的基础知识和飞机的基本仪表设备,自动飞行控制系统的作用、组成、控制规律等。
-
目录:
Chapter 1 Air Data Computer System
1. 1 Introduction
1.2 The Basic Principle
1.3 Temperature Measurement Probes
1.4 Pressure Transducers
1.5 Air Data Instruments
Chapter 2 Electronic Instrument Systems
2.1 Introduction
2.2 Electronic Flight Instrument Systems
2.3 Engine Indicating and Crew Alerting System
2.4 Electronic Centralized Aircraft Monitoring
Chapter 3 Automatic Flight Control Systems
3.1 Introduction
3.2 The Flight Director
3.3 The Autopilot
3.4 Autopilot Flight Director Systems
3.5 The Yaw Damper
3.6 Automatic Pitch Trim
3.7 Autothrottle
3.8 Autoland
3.9 Flight Envelope Protection
3.10 Typical Auto Flight Operation for B767 Airplane
Chapter 4 Flight Data Recording & Airplane Condition Monitoring System
4.1 Introduction
4.2 Flight Data Recording System
4.3 Airplane Condition Monitoring System
Chapter 5 Airborne Weather Radar System
5.1 Introduction
5.2 Basic Principles
5.3 Control Panel
5.4 Display-EHSI Presentation
5.5 Operation In-Flight
5.6 Warning
Chapter 6 Secondary Surveillance Radar and Transponder
6.1 Introduction
6.2 Air Traffic Control Radar Beacon System
6.3 Mode S Secondary Radar System
Chapter 7 Traffic Alert and Collision Avoidance System
7.1 Introduction
7.2 TCAS II System Architecture
7.3 The Principle of Operation of TCAS II
7.4 TCAS II Displays
7.5 TCAS II Aural Messages
7.6 Control Panel
7.7 Crew Response
7.8 The Use of TCAS II
7.9 Flight Crew Procedure for A320 Airplane
Chapter 8 Ground Proximity Warning System
8.1 Introduction
8.2 GPWS System Architecture
8.3 GPWS Alert Modes
Chapter 9 Enhanced Ground Proximity Warning System
9.1 Introduction
9.2 Enhanced GPWS Features
9.3 Look-Ahead Terrain Alerting
9.4 Terrain Display
9.5 Flight Deck Effects for EGPWS Alert
9.6 Aural Message Priority
9.7 EGPWS Control Panel
9.8 Flight Crew Procedures
Chapter 10 Runway Awareness and Advisory System
10.1 Introduction
10.2 The Principle of RAAS
10.3 System Operation Description
10.4 RAAS Quick Reference
Chapter 11 Predictive Windshear System
11.1 Introduction
11.2 The Principle of PWS
11.3 Limitations of PWS
11.4 The Alert of PWS
11.5 The Operation of PWS
11.6 Flight Crew Procedure for A320 Airplane
Chapter 12 Radio Altimeter
12.1 Introduction
12.2 The Principle of LRRA
12.3 Radio Altitude Display
12.4 Errors and Accuracy
Chapter 13 Inertial Navigation System
13.1 Introduction
13.2 The Principle and Construction of the Accelerometer
13.3 The Gyro-Stabilised (Gimballed) Platform
13.4 Position Calculation
13.5 INS Self-Alignment
13.6 INS Error Corrections
13.7 Mode Selector Panel and CDU
Chapter 14 Inertial Reference System
14.1 Description of the Strapdown System
14.2 The Control and Display oflRS
14.3 The IRS Outputs
14.4 IRS Alignment
Chapter 15 Global Positioning System
15.1 Introduction
15.2 GPS Elements
15.3 GPS Operating Principle
15.4 GPS Receiver Unit
15.5 GPS Reliability/Integrity
15.6 GPS Errors
15.7 Differential GPS
Chapter 16 Flight Management Computer System
16.1 Introduction
16.2 FMCS Architecture
16.3 Command Display Unit
16.4 The Flight Management Computer Database
16.5 General FMS Operation
References
查看详情
-
全新
广东省广州市
平均发货21小时
成功完成率80.31%
-
全新
四川省绵阳市
平均发货10小时
成功完成率92.95%
-
全新
江苏省无锡市
平均发货10小时
成功完成率92.86%
-
全新
天津市河东区
平均发货29小时
成功完成率89.92%
-
全新
天津市西青区
平均发货14小时
成功完成率90.45%
-
全新
江苏省苏州市
平均发货9小时
成功完成率95.67%
-
全新
河北省保定市
平均发货27小时
成功完成率83.92%
-
全新
河北省保定市
平均发货25小时
成功完成率84.94%
-
全新
北京市丰台区
平均发货23小时
成功完成率88.56%
-
全新
江西省九江市
平均发货11小时
成功完成率78.98%
-
全新
北京市朝阳区
平均发货9小时
成功完成率96.78%
-
全新
河北省保定市
平均发货15小时
成功完成率91.06%
-
全新
江苏省无锡市
平均发货18小时
成功完成率94.42%
-
全新
广东省广州市
平均发货7小时
成功完成率90.41%
-
全新
江苏省南京市
平均发货8小时
成功完成率96.7%
-
全新
江苏省南京市
平均发货16小时
成功完成率82.72%
-
全新
天津市西青区
平均发货20小时
成功完成率84.44%
-
全新
山东省潍坊市
平均发货10小时
成功完成率85.18%
-
全新
江苏省无锡市
平均发货7小时
成功完成率89.13%
-
全新
北京市西城区
平均发货30小时
成功完成率90.45%
-
全新
江苏省南京市
平均发货44小时
成功完成率76.06%
-
全新
江苏省南京市
平均发货41小时
成功完成率74.59%