Renesas Devcon 2012 NFC Ecosystem And Solutions

Renesas Devcon 2012 NFC Ecosystem And Solutions Nick Mori, Marketing Manager Class ID: BC03B Renesas Electronics America Inc.

Nick Mori Product Marketing Manager Responsible for product marketing roles for Renesas NFC, Secure MCU Focused to promote NFC, Secure MCU segment applications Background: Product Marketing for Multimedia Application Processors Software Design Engineer for Embedded Computing Products System Software, Application Engineering Software project, team management experience Graduate in EE from Asahikawa National College of Technology Well acquainted with Software architecture/design in Embedded device 2

Renesas Technology & Solution Portfolio 3

8/16-bit 32-bit Microcontroller and Microprocessor Line-up 2010 2013 1200 DMIPS, Superscalar Automotive & Industrial, 65nm 600µA/MHz, 1.5µA standby 500 DMIPS, Low Power Automotive & Industrial, 90nm 600µA/MHz, 1.5µA standby 165 DMIPS, FPU, DSC Industrial, 90nm 242µA/MHz, 0.2µA standby 25 DMIPS, Low Power Industrial & Automotive, 150nm 190µA/MHz, 0.3µA standby 1200 DMIPS, Performance Automotive, 40nm 500µA/MHz, 35µA deep standby 165 DMIPS, FPU, DSC Industrial, 40nm 242µA/MHz, 0.2µA standby Embedded Security, ASSP Industrial, 90nm 1mA/MHz, 100µA standby 44 DMIPS, True Low Power 10 DMIPS, Capacitive Touch Industrial & Automotive, 130nm Wide Format LCDs 350µA/MHz, 1µA standby Industrial & Automotive, 130nm 144µA/MHz, 0.2µA standby 4

8/16-bit 32-bit Microcontroller and Microprocessor Line-up 2010 2013 1200 DMIPS, Superscalar Automotive & Industrial, 65nm 600µA/MHz, 1.5µA standby 500 DMIPS, Low Power True Embedded Security and Integration Automotive & Industrial, 90nm 165 DMIPS, FPU, DSC 1200 DMIPS, Performance Automotive, 40nm 500µA/MHz, 35µA deep standby 165 DMIPS, FPU, DSC 600µA/MHz, 1.5µA standby Industrial, 40nm 242µA/MHz, 0.2µA standby Industrial, 90nm 242µA/MHz, 0.2µA standby 25 DMIPS, Low Power Industrial & Automotive, 150nm 190µA/MHz, 0.3µA standby Embedded Security, ASSP Industrial, 90nm 1mA/MHz, 100µA standby 44 DMIPS, True Low Power 10 DMIPS, Capacitive Touch Industrial & Automotive, 130nm 144µA/MHz, 0.2µA standby Industrial & Automotive, 130nm Wide Format LCDs 350µA/MHz, 1µA standby 5

Enabling The Smart Society Challenge: Connectivity is the one of critical elements in the infrastructure of the Smart Society. Although there are many kinds of communication technologies, we need to manage usability and security in the application. The change approaching us potentially be significant magnitude, therefore we have many issues to solve. Solution: This session will discuss Near Field Communication, which will provide us many opportunities to implement new applications. NFC with Secure MCU will address the issues in payment, ticketing, advertisement, physical access control and medical applications. 6

Agenda Introduction of NFC applications NFC technologies Standards and implementations Challenges in technology domain Challenges in non-technology domain Hints for integration of NFC Renesas roadmap Ecosystem Conclusions 7

Mobile Phone With Near Field Communication ID Card Ticket Smart Phone NFC Smart Phone Credit Card 8

NFC Technology And Basic Functions Card Emulation Enables devices to act like contactless cards Works with existing contactless infrastructure Payment, Ticketing, Access control, Room Key Reader/Writer Enables devices to interact with RF tags E-Coupon, Price checker, Advertisement Peer to Peer Enables devices to communicate with one another Exchange Contacts, Pairing 9

Service Industries Usage of NFC Devices Area Use Scenes of NFC Devices STATION AIRPORT VEHICLE OFFICE STORE RESTAURANT HOSPITAL FACTORY Pass gate Get information from smart poster Get information from information kiosk Pay bus/taxi fare Personalize seat position Use to represent driver s license Pay parking fee Physical access control Exchange business cards Log in to PC Print using copier machine Pay by credit card Get loyalty points Get and use coupon Share information and coupon among users Identify patient Manage medical records Notify medication Authenticate operator Diagnostics Personalize machine setting Mass and Public Transport Advertising Drivers and Vehicle Services Security Banking Retail Credit Card Medical Healthcare Factory automation Building automation 10

NFC Specifications ISO/IEC 14443 is the standard of close proximity contactless card communication Defines the RF and the communications, anti-collision protocols. Operates at 13.56 MHz, within 10 cm (3.94 inches) 11

System Configurations in Mobile Handset * * * * *SE: Secure Element 12

Challenges - Technology Domain 700MHz~2600MHz bands ISO14443 13.56MHz 13

Challenges - Technology Domain 14

Challenges - Technology Domain 15

Challenges Non Technology Domain 3.6 Trillions in 2011 VS. 16

Challenges Non Technology Domain VS. 17

Hints For Integration of NFC 18

Characteristics of NFC Global Mobile Network 100km WiMAX 100m WiFi 10~20m Bluetooth 10cm NFC 3~10ms 19

NFC Ready Devices 2B 1B units units by by 2015 2015 PC/Tablet Consumer Electronics Mobile Phone 20

Applications - Payment Replacing ATM, credit cards Payment option for online shopping Ticketing for transportation 21

Applications Advertisement, e-coupon Grab e-coupons from posters Receive e-coupons via e-mail or text Use e-coupons at retail 22

Applications Check-in Receive the key via text Directly proceed to the room Open the door with the key 23

Applications Medical, Healthcare Identify patient Check in Medication details & history 24

Renesas NFC Solutions 25

Renesas Roadmap in NFC + Performance + ISO15693(R/W) RF21S + Bat. Less + MIFARE TM CLF+SE MP: 3Q/ 12 RF22S + Larger Memory + 15693 Tag NFC-RF1 (Sampling Only) 150nm RF20 CLF only MP: 1Q/ 13 + Performance + ISO15693(R/W) + Bat. Less RS48S + MIFARE TM ese only 2011 2012 2013 2014 90nm RF22 + ese I/F 2015 26

Benefits of Renesas NFC CLF RF2x series common benefits Powerful 16-bit CPU to handle complex NFC router & SE functionality Very thin WPP package (4.6mm x 4.0mm x 0.22mm ) Low power consumption ( ~100uA in Low power R/W mode) Connection to external SIM available (SWP) Battery-less mode supporting SWP-SIM operation Value added software support libraries, NFC stack and IDE RF21S Real One-chip NFC. RF, SE (RSA coprocessor (2624bits), AES, DES/3DES ) and HW True RNG are embedded in a single piece of silicon. Proven security design RS45C certified CC EAL 5+(VAN5) 27

Block Diagram of RF20 Series Android Host I/F SPI/I2C SCI RF I/F MIFARE TM RS-4 CPU 16-bit @27.12MHz Secure Logic Crypto Engine Other Peripherals Memory Ext. SE I/F SWP SWP- UICC PICCs Type-A AES RAM PCDs Type-B FeliCa TM * ISO15693** GPIOs DES RSA RNG ROM EEPROM RF20 series Common RF21S specific 28

WPP:Wafer Process Package A-A Cut Section Solder ball Metal Layer A Polyamide A' Si A A' Metal Layer Polyamide Solder ball Aluminum Internal Pin Aluminum Internal Pin Passivation 29

RS48S SWP SE* Overview Secure RS-4 core 25MHz with Int-OSC On-chip memory ROM: 512KB, RAM: 24KB, EEP: 288KB Co-processor for fast crypto calculation MMC: Max. 25MHz SWP I/F (Slave) High speed 1.695Mbps UART ISO7816 (T=0/1) Security features Various detectors, disturb function, data encryption Operation voltage 1.62~1.98V / 2.7~3.3V / 4.5~5.5V Javacard OS JC3.0.2 / GP V2.2 Device certification CC EAL5+ / EMVCo RS-4 CPU (Max. 25MHz) DNG 3DES CRC TMR x3 IO port ROM (512KB) RAM (24KB) EEPROM (288KB) Preliminary RNG AES MMC UART SWP *SE: Secure Element 30

Embedded Secure Element Solution RS-48S SWP SE supports multi operation: ese & esim NFC-eSE Terminal host (BB/AP) eusim Terminal host (BB/AP) NFC-eSE/eUSIM Terminal host (BB/AP) Host I/F ISO7816 ISO7816 ISO7816 ISO7816 Host I/F ISO7816 (or I2C) (or I2C) RS-4 SWP SE SWP RS-4 SE SWP RS-4 SWP SE NFC CLF NFC CLF 31

Java Card OS For SE Java Card OS is the most popular OS for secure element Renesas provide Java Card OS on RS-4 series Java Card v3.0.1 Classic TCK Compliant Support Global Platform v2.2 Most crypto algorithms supported Card I/O Transport protocol ISO 7816, T=0 & T=1, PPS supported Transport protocol single wire protocol 32

Renesas Java Card OS (JCOS) Internals Post issuance applets in EEPROM GovID Applets in ROM Applet-A in ROM Applet-B in ROM Applet-D Applet-C Multiple Security Domains GICS Government ID Toolkit acceleration package Customer specific acceleration package(s) JC3.0 API JC3.0 VM Card Manager Security Domain SD1 SD2 SD3 SCP-01 SCP-02 SCP-03 GP v2.2 Conf card APIs Content Mgt GP v2.2 GP Runtime Lifecycle Java card v3.0 Runtime Environment CAC PIV2 com.govid.jnet com.user.jnet CC EAL5+ FIPS 140-2 Level2 CC Protection Profile Diagnostics, countermeasures, Security Policy implementation Smart Card Kernel HW Abstraction Layer EAL5+ Crypto Lib Dual I/O Lib Biometric Lib RS-48S SWP ISO7816 33

Ecosystem 34

Mobeewave, a Global EMV Software Provider EMV experts certification experts Mobeewave provides software solution for payment processing: EMV electronic payment & secure transactions Turnkey and certified solutions Managing all customer certification Acceptance acquiring architecture design Services Antenna design EMV certification management: Hardware EMVCo Level 1 Functional MasterCard and VISA Level 2 System integration for MasterCard and VISA Security certification support: PCI DSS PCI PTS 35

Mobeewave Payment Demo Mobeewave EMV payment demo runs on RF21S Behaves as front end of EMV card payment process 36

Demo NFC-RF1 PDEMO SWP-UICC (Payment demo app installed) NFC NFC Type 2 Tag NFC Type 3 Tag Type-A/B/FeliCa cards Android demo mobile handset (Renesas SHG4 base) NFC-RF1 module (by DNP, module provider) Contactless terminal (ViVoPay 5000) 37

Conclusions NFC ecosystem is complicated but it is moving forward Huge opportunities, potentials and benefits for both consumers and providers Renesas offers NFC solutions based on Secure MCU background Renesas supports Java Card OS for Secure Programming. To get more details of Java Card, please attend BL01A - Security solutions lab1 Renesas will work with 3 rd party partners to build the ecosystem 38

Questions? 39

Enabling The Smart Society in Review Challenge: Connectivity is the one of critical elements in the infrastructure of the Smart Society. Although there are many kinds of communication technologies, we need to manage usability and security in the application. The change approaching us potentially be significant magnitude, therefore we have many issues to solve. Solution: This session will discuss Near Field Communication, which will provide us many opportunities to implement new applications. NFC with Secure MCU will address the issues in payment, ticketing, advertisement, physical access control and medical applications. Do you agree that we accomplished the above statement? 40

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