内容简介
使用二维码、磁条、接触式IC卡的很多领域都已经被RFID技术所征服,诸如电子票、门禁卡、借记卡和数字证书这类应用每时每刻都需要用到这项技术。
MIFARE是使用广泛的RFID技术,《射频识别:应用中的MIFARE和非接触式智能卡(影印版 英文版)》将提供与之相关的实用而又完备的介绍。此外,开始的章节会涵盖物理基础、相关标准、RFID天线设计、安全考虑和加密等内容。
《射频识别:应用中的MIFARE和非接触式智能卡(影印版 英文版)》详细阐述了完整的读卡器的软硬件设计。读卡器的固件和相应的PC软件支持任何NET语言编程。
特别开发的PC程序“Smart Cara Magic NET”是一个简单的开发环境,支持点击鼠标就发送命令到智能卡上,同时也可以创建C#脚本。另外,读者也可以参考所有使用Visual Studlo2010 Express版本的例子。
《射频识别:应用中的MIFARE和非接触式智能卡(影印版 英文版)》介绍了主要的智能卡读卡器API标准,着重讲解了如何使用C/C++、Java和C#在标准PC和智能卡读卡器上进行非接触式智能卡编程。
目录
Preface
1 RFID Fundamentals
1.1 Introduction to RFID
1.1.1 RF
1.1.2 ID
1.1.3 RFID system classification
1.1.3.1 Frequenc{es and transmission principles
1.1.3.2 Applications
1.2 RFID system components
1.2.1 Card (PICC)
1.2.2 Reader (PCD)
1.3 ISO/IEC 14443 application example
1.3.1 Public transport ticketing
1.3.2 Employee identification cards
1.3.3 Electronic passports and identity cards
1.3.4 Other applications
1.4 Physical fundamentals
1.4.1 Energy transmission
1.4.2 Data transmission from PCD to PICC
1.4.2.1 Amplitude modulation
1.4.2.2 Standard data rate (106Kb/s)
1.4.2.3 Higher data rates (up to 848Kb/s)
1.4.3 Data transmission from PICC to PCD
1.4.3.1 Load modulation
1.4.3.2 Subcarrier modulation:Manchester encoding using ASK
1.4.3.3 Subcarrier modulation:NRZ encoding with BPSK
2 Overview of the Relevant Standards
2.1 ISO/IEC 14443
2.1.1 Part 1: physical properties
2.1.2 Part 2: RF properties and signals
2.1.3 Part 3: Card selection and activation
2.1.3.1 Type A: UIDs
2.1.3.2 Type A: card activation
2.1.3.3 Type A: SAK encoding
2.1.3.4 Type A: collision-detection and conflict resolution
2.1.3.5 Type B card activation
2.1.3.6 T ype B: Card activation parameters
2.1.4 Part 4: communication protocol
2.1.4.1 Protocol activation
2.1.4.2 T=CL protocol block structure
2.1.5 Information Block (I Block)
2.1.5.1 Receive-ready Blocks (R Blocks)
2.1.5.2 Supervisory Blocks (S Blocks)
2.1.6 Electromagnetic disturbance (EMD)
2.1.6.1 Rest period
2.1.6.2 Rest level
2.1.6.3 Distinction between invalid card response and EMD
2.1.6.4 The MFRC522 reader IC and EMD
2.2 ISO/IEC 10373-6 test methods
2.2.1 Test equipment
2.2.1.1 Calibration coil
2.2.1.2 Test PCD assembly
2.2.1.3 ReferencePICC
2.2.2 Tuning and calibration
2.2.2.1 Tuning
2.2.2.2 Calibration
2.2.3 Measurements at the reader
2.2.3.1 Range measurement
2.2.3.2 Measurement effort
2.2.4 Tests for Layer 3 and 4
2.3 Near Field Communication (NFC)
2.3.1 Introduction
2.3.2 NFC air interface
2.3.2.1 NFC device as card
2.3.2.2 NFC device as a reader
2.3.2.3 NFC device in 'active' mode
3 REID Antenna Design
3.1 Theoretical Fundamentals
3.1.1 Antenna as Resonant Circuit
3.1.2 Transformer Model
3.1.3 The Biot-Savart Law
3.1.4 Optimal Antenna Size
3.2 Reader Antennas
3.2.1 Antenna Quality
3.2.1.1 Data Transmission Bandwidth
3.2.1.2 Stability Against Detuning
3.2.2 Electrically Conductive Surfaces in the Vicinity of the Antenna
3.2.2.1 Ferrites
3.2.3 Balanced and Unbalanced Antennas
3.2.3.1 Balanced Antenna
3.2.3.2 Unbalanced Antenna
4 Security and Cryptography
5 Introduction to Cards and Tags
6 Reader Antenna Design
7 The Elekter RFID Reader
8 Cards and Tags in Application
9 Elektor RFID Projects
10 Smart Card Reader API Standards.
11 PC/SC Readers
12 List of Abbreviations
13 Bibliography
14 Index
前言/序言
射频识别:应用中的MIFARE和非接触式智能卡(影印版 英文版) 电子书 下载 mobi epub pdf txt