INFINEON SLE66C162PC

Security & Chip Card ICs
SLE 66C162P
16-Bit Security Controller
with Memory Management and Protection Unit
in 0.25 µm CMOS Technology
72-Kbytes ROM, 2304 bytes RAM, 16-Kbytes EEPROM
Short Product Information 08.01
SLE 66C162P Short Product Information
Ref.: SPI_SLE66C162P_0801.doc
This document contains preliminary information on a new product under development.
Details are subject to change without notice.
Revision History: Current Version 08.01
Previous Releases:
Page
Subjects (changes since last revision)
Important: Further information is confidential and on request. Please contact:
Infineon Technologies AG in Munich, Germany,
Security & Chip Card ICs,
Tel +49 - (0)89 234-80000
Fax +49 - (0)89 234-81000
E-Mail: [email protected]
Edition 2001
Published by Infineon Technologies AG, CC Applications Group
St.-Martin-Strasse 53, D-81541 München
© Infineon Technologies AG 2001
All Rights Reserved.
Attention please!
The information herein is given to describe certain components and shall not be considered as warranted characteristics.
Terms of delivery and rights to technical change reserved.
We hereby disclaim any and all warranties, including but not limited to warranties of non-infringement, regarding circuits,
descriptions and charts stated herein.
Infineon Technologies is an approved CECC manufacturer.
Information
For further information on technology, delivery terms and conditions and prices please contact your nearest Infineon
Technologies Office in Germany or our Infineon Technologies Representatives world-wide (see address list).
Warnings
Due to technical requirements components may contain dangerous substances. For information on the types in question please
contact your nearest Infineon Technologies Office.
Infineon Technologies Components may only be used in life-support devices or systems with the express written approval of
Infineon Technologies, if a failure of such components can reasonably be expected to cause the failure of that life-support
device or system, or to affect the safety or effectiveness of that device or system. Life support devices or systems are intended
to be implanted in the human body, or to support and/or maintain and sustain and/or protect human life. If they fail, it is
reasonable to assume that the health of the user or other persons may be endangered.
SLE 66C162P
16-Bit Security Controller with MMU in 0.25µm CMOS Technology
72-Kbytes ROM, 2304 bytes RAM, 16-Kbytes EEPROM
Features
Slim-EEPROM
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16-bit microcomputer in 0.25 µm CMOS
technology
Instruction set opcode compatible with
standard SAB 8051 processor
Enhanced 16-bit arithmetic
Additional powerful instructions optimized
for chip card applications
Dedicated, non-standard architecture with
execution time 6 times faster (18 times
by PLLmax) than standard SAB 8051
processor at same external clock
70 Kbytes User ROM for application
programs
Additional 2 Kbytes reserved ROM for
Resource Management System (RMS+
light) with intelligent EEPROM write/erase
routines
16 Kbytes Slim-EEPROM
2 Kbytes XRAM, 256 Bytes IRAM
Memory Management and Protection
Unit (MMU)
CRC Module
Interrupt Module
Two 16-bit Autoreload Timer
PLL
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Data retention for a minimum of 10 years
EEPROM programming voltage generated on
chip
Memory Management and Protection Unit
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Addressable memory up to 1 Mbyte
Separates OS (system) and application
(user)
System routines called by traps
OS can restrict access to peripherals in
application mode
Code execution from XRAM possible
Security Features
Operation state monitoring mechanism
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Power saving sleep mode
External clock frequency 1 to 7.5 MHz
for internal clock ≤ 10 MHz
UART for handling serial interface in
accordance with ISO/IEC 7816 part 3
supporting transmission protocols T=1
and T=0
Low and high voltage sensors
Frequency sensors and filters
Memory Security
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I/O routines realized in software executable
Supply voltage range: 2.7 V to 5.5 V
Current consumption
< 10 mA @ 5.5 V
< 6 mA @ 3.3 V
• Temperature range: -25 to +85°C
• ESD protection larger than 6 kV
Short Product Information
Reading, erasing and writing byte by byte
Flexible page mode for 1 to 64 bytes
write/erase operation
32 bytes security area (OTP)
Erase + Write time < 4.5 ms
Minimum of 500.000 write/erase cycles at
25°C
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3/7
16 bytes security PROM, hardware
protected
Unique chip identification number for each
chip
MED - memory encryption/decryption device
for XRAM, ROM and EEPROM
True Random Number Generator with
Firmware test function
Security optimised layout and layout
scrambling
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SLE 66C162P
Testmode
Document References
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Irreversible Lock - Out of testmode
Anti Snooping
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HW-countermeasures against SPA/DPA-,
Timing- and DFA-attacks (differential fault
analysis – DFA)
CRC – Module
Non standard dedicated Smart Card CPU
– Core
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Development Tools Overview
Support
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HW-& SW-Tools (Emulator, ROM Monitor,
Card Emulator, Simulator, Softmasking)
Application notes
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Supported Standards
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ISO/IEC 7816
EMV 2000
GSM 11.1x
ETS I TS 102 221
Short Product Information
Confidential Data Book SLE 66CxxxP
Qualification report
Chip delivery specification for wafer with
chip-layout (die size, orientation,...)
Module specification containing description
of package, etc.
Qualification report module
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Short
Product
Information
Software
Development Kit SDK CC
Short Product Information Card Emulator
CE66P
Short Product Information ROM Monitor
RM66P
Short Product Information Emulator ET66P
Hitex or ET66P KSC
Short Product Information Smart Mask
Package
08.01
SLE 66C162P
Ordering Information
Type
Package 1 Voltage
Range
SLE 66C162P M5
M5
SLE 66C162P C
die
SLE 66C162P-T85 M5
M5
SLE 66C162P-T85 C
die
SLE 66C162P-F7 M5
M5
SLE 66C162P-F7 C
Die
Temperature
Range
Frequency Range
(ext. clock frequency)
2.7 V - 5.5 V – 25°C to + 70°C 1 MHz - 5 MHz
2.7 V - 5.5 V – 25°C to + 85°C 1 MHz - 5 MHz
2.7 V - 5.5 V – 25°C to + 70°C 1 MHz – 7.5 MHz
Production sites:
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Dresden SLE 66CxxxP
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UMC Taiwan SLE 66CxxxPU
1
available as wire-bonded module (M5) for embedding in plastic cards or as die (C) for customer packaging
Short Product Information
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08.01
SLE 66C162P
Pin Configuration
VCC
GND
CLK
RST
SLE
66C162P
I/O
Figure 1: Pin Configuration
Pin Definitions and Functions
Symbol
Function
VCC
Operating voltage
RST
Reset input
CLK
Processor clock input
GND
Ground
I/O
Bi-directional data port
Short Product Information
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08.01
SLE 66C162P
General Description
SLE 66C162P is another member of Infineon Technologies high-end security controller family in
advanced 0.25 µm CMOS technology. The CPU provides the high efficiency of the SAB 8051instruction set extended by additional powerful instructions together with enhanced performance,
memory sizes and security features. The internal clock frequency can be adjusted up to 15 MHz
independent of the clock rate of the terminal with the help of the PLL.
The controller IC offers 70 Kbytes of User-ROM, 256 bytes internal RAM, 2048 bytes XRAM and
16 Kbytes Slim-EEPROM. The Memory Management and Protection Unit allows a secure
separation of the operating system and the applications. Furthermore the MMU makes a secure
downloading of applications possible after the personalization of a card. These new features suit
the requirements of the next generation of multi application operating systems. For code
compatibility to the SLE 66CxxS family, a transparent mode for the MMU is established which
allows to keep the memory mapping of the SLE 66CxxS products.
Voltage
Clock
Reset
ROM
72 Kbyte
16-Bit CPU with
MMU
&
ECO 2000
Instruction Set
Sleep Mode Logic
Sensors/Filters
XRAM
2 Kbyte
EEPROM
16 Kbyte
UART
Address-/Data Bus
Interrupt
Voltage Regulator
two
16-bit
Timer
CRC
RNG
PLL
Figure 2: Block Diagram SLE 66C162P
The CRC module allows the easy generation of checksums according to ISO/IEC 3309 (16-BitCRC). To minimize the overall power consumption, the chip card controller IC offers a sleep mode.
The UART supports the half-duplex transmission protocols T=0 and T=1 according to ISO/IEC
7816-3. All relevant transmission parameters can be adjusted by software, as e.g. the clock
division factor, direct/inverse convention and the number of stop bits. Additionally, the I/O port can
be driven by communication routines realized in software.
The random number generator (RNG) is able to supply the CPU with true random numbers on all
conditions.
As an important feature, the chip provides a new and enhanced level of on-chip security.
In conclusion, the SLE 66C162P fulfills the requirements of today's chip card applications, as
GSM, and offers a powerful platform for future multi application cards. The SLE 66C162P
integrates outstanding memory sizes, additional peripherals in combination with enhanced
performance and optimized power consumption on a minimized die size. Therefore, the SLE
66C162P offers the basis for a generation of new chip card applications.
Short Product Information
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08.01