C0603X7R500-103JNE [ATMEL]
AT90USB1287 (AVR) 64 QFN device (2.7V VCC 5.5V); AT90USB1287 ( AVR ) 64 QFN器件( 2.7V VCC 5.5V )
| 型号: | C0603X7R500-103JNE |
| 厂家: | 
ATMEL |
| 描述: | AT90USB1287 (AVR) 64 QFN device (2.7V VCC 5.5V) |
| 文件: | 总38页 (文件大小:857K) |
| 中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
AT88CK109STK3
Hardware User Guide
8557B—CRYPTO—04/09
Table of Contents
Section 1
Introduction....................................................................................................... 1-1
1.1
1.2
Overview.............................................................................................. 1-1
AT88CK109STK3 Starter Kit Features ................................................ 1-1
Section 2
Section 3
Getting Started ................................................................................................. 2-4
2.1
2.2
2.3
Unpacking the System......................................................................... 2-4
System Requirements ......................................................................... 2-4
Software Installation ............................................................................ 2-4
Using the AT88CK109STK3............................................................................. 3-5
3.1
3.2
3.3
3.4
3.5
3.6
3.7
3.8
Overview.............................................................................................. 3-5
Power Supply ...................................................................................... 3-6
RESET................................................................................................. 3-7
AT90USB1287 AVR Microcontroller .................................................... 3-8
Serial Links.......................................................................................... 3-8
On-board Resources ........................................................................... 3-9
AT88CK109BK3 CryptoAuthentication Daughter Board .................... 3-12
AT88CK109BK3 HOST and CLIENT Sockets Compatibility.............. 3-12
HOST and CLIENT Power Configuration........................................... 3-13
Devices Interconnect Header............................................................. 3-14
Mapping AT88CK109BK3 to AT88Microbase, STK500 and STK600 3-14
Interfacing a USART with CryptoAuthentication................................. 3-16
In-System Programming .................................................................... 3-16
Debugging ......................................................................................... 3-17
Test Points......................................................................................... 3-18
3.9
3.10
3.11
3.12
3.13
3.14
3.15
Section 4
Section 5
Section 6
Section 7
Troubleshooting Guide ..................................................................................... 4-1
Technical Specifications................................................................................... 5-1
Technical Support............................................................................................. 6-1
Complete Schematic ........................................................................................ 7-1
AT88CK109STK User Guide
i
8699A—CRYPTO—10/09
Section 1
Introduction
Congratulations on acquiring the AVR®-based AT88CK109BSTK3 CryptoAuthentication Starter
Kit. This kit is designed to give designers a quick start to develop code for the CryptoAuthentication
product family. All the necessary hardware is provided in the package. The AT88Microbase has
been pre-programmed for your convenience. Please be sure to visit WWW.Atmel.com/Javan for
the latest firmware image.
1.1
Overview
This document describes the AT88CK109STK3, which is a development kit for the AT88SA100,
AT88SA102, and ATSA8810HS CryptoAuthentication devices. This kit uses a modular approach.
The development kit includes the AT88Microbase board and the AT88CK109BK3
CryptoAuthentication daughter board. The AT88Microbase uses a convenient Type-A USB
interface allowing users to interface with a personal computer and experiment with
CryptoAuthentication. The small USB form factor of the AT88Microbase allows the board to
function as a demo as well as a development platform.
The AT88CK109BK3 daughter board has two SOT23-3 sockets for either client-host or multiple
client development. Together, these boards allow an easy evaluation of the CryptoAuthentication
products using demonstration software. This user guide acts as a general, getting started guide as
well as a complete technical reference for advanced users.
1.2
AT88CK109STK3 Starter Kit Features
AT88Microbase provides the following features:
AT90USB1287 (AVR) 64 QFN device (2.7V < VCC < 5.5V)
– 128K Bytes of In-System Self-Programmable Flash
– 4K Bytes EEPROM
– 8K Bytes Internal SRAM
AT88SC018 CryptoCompanion IC
USB software interface for Device Firmware Upgrade (DFU boot loader)(2)
Power supply LED
– from the USB interface (USB device bus powered application)
– from an external power supply
JTAG Connector:
– for on-chip ISP
– for on-chip debugging using JTAG ICE
AT88SCK109STK3
Serial interfaces:
– 1 USB full / low speed device interface
– USART
On-board resources:
– 3 User defined LEDS
– 10 Pins I/O header (2x5, 0.1” pitch)
. Supports SPI, TWI, and UART
– 1 Buzzer
On-board RESET button
On-board HWB button to force AVR into DFU mode at reset
16 MHz crystal for system clock
The AT88SC19BK3 provided the following features:
2 SOT23-3 CryptoAuthentication Sockets
– HOST and CLIENT
– Software PWR control
AVR Studio® software interface(1)
Notes: 1. AT88Microbase is supported by AVR Studio®, version 4.17 (build 666) or
higher. For up-to-date information on this and other AVR tool products, please
consult our web site. The newest version of AVR Studio®, AVR tools and this
User Guide can be found in the AVR section of the Atmel web site,
http://www.atmel.com.
2. ATMEL Flip®, In System Programming Version 3.2.2 or higher shall be used for
Device Firmware Upgrade. Please consult Atmel web site to retrieve the latest
version of Flip and the DFU bootloader Hex file if needed
1-2
AT88CK109STK3 User Guide
8699A—CRYPTO—10/09
Figure 1. AT88CK109STK3 Kit
1.2.1 Device Support
AT88CK109BK3 (daughter board) currently supports the following CryptoAuthentication devices:
ATSA88100
ATSA88102
ATSA8810HS
Locate the latest information about Crypto Authentication at www.atmel.com/Javan .
AT88SCK109STK3
Section 2
Getting Started
2.1
Unpacking the System
Package content:
AT88Microbase Controller
AT88CK109BK3, CryptoAuthentication daughter board
Atmel CryptoAuthentication product assortment
1 USB cable, 6 inches
2.2
System Requirements
The minimum hardware and software requirements are:
200 MB free hard disk space (AVR Studio, FLIP and ATMEL’s Crypto Evaluation Studio)
Windows® XP, X86 processor
Available USB Port
2.3
Software Installation
Install CryptoAuthentication Demonstration Utility available from WWW.Atmel.com/Javan
Launch software and follow the online help.
Note: The CryptoAuthentication IC’s that are included with your kit have Development Secrets,
not Production secrets. See the .xml file that is included with the CryptoAuthentication
utility. Please be aware of this during your development.
2-4
AT88CK109STK3 User Guide
8699A—CRYPTO—10/09
Section 3
Using the AT88CK109STK3
This chapter describes the features of the AT88Microbase and the AT88CK109BK3 boards.
3.1
Overview
Figure 2. AT88Microbase Components (front side)
Hardware
Boot (HWB)
PWR
LED
JTAG
USB Type-A
TWI / SPI
Selector
switch
10-Pin
Interface
Header
(J1)
Buzzer
Reset
LED
Bank
AT88SCK109STK3
Figure 3. AT88Microbase Components (back side)
AT90USB1287
AVR
Main board
Supply Voltage
*see section 3.2.1
AT88SC108
CryptoCompanion
16MHz
Crystal
3.2
Power Supply
3.2.1 USB powered
The on-board power supply circuitry allows two possible configurations for the main supply voltage.
Main Board
Mounted Resistor
Comments
Supply Voltage
3.3V
R1
R2
5.0V ( USB )
Default Setting
3.3V
3.3V
Regulator
CryptoCompanion
5.0 ( USB )
R1
Main board
Supply Voltage
0
VCC
R2
* Default
The CryptoCompanion supply voltage is always 3.3V, regardless of R1and R2 configuration.
3-6
AT88CK109STK3 User Guide
8699A—CRYPTO—10/09
Note 1:
Note 2:
For the AT88SA100, AT88SA102, and the AT88SA10HS devices, 5.0V is
required to burn the fuses.
The AT88Microbase is shipped with a 16MHz crystal, which allows the
AT90USB1287 on-chip USART to obtain the 230.4K baud rate (-3.5%
error) required to communicate with a CryptoAuthentication device. The
16MHz crystal requires that 4.5 VCC 5.5 . To operate the
AT88Microbase below 4.5V, the 16MHz crystal must be replaced with an
8MHz crystal. The ABM3B-8.000MHZ-B2-T 8MHz crystal is a drop-in
replacement.
3.2.2 Power LED, “LEDP”
The blue LED (LEDP) is always lit when power is applied to the AT88Microbase regardless of the
voltage supply.
Figure 4. Power on LED “LEDP”
3.3
RESET
Although the AT90USB1287 has its on-chip RESET circuitry, (c.f. AT90USB1287 Datasheet,
section “System Control and Reset”), the AT88Microbase provides two additional means to reset
the AT90USB1287.
3.3.1 Power-on Reset
The on-board RC network acts as power-on RESET.
3.3.2 RESET Push Button
By pressing the RESET push button on the AT88Microbase, a warm RESET of the AT90USB1287
AVR is performed.
Figure 5. RESET Push Button (AVR RESET) Implementation
AT88SCK109STK3
3.4
AT90USB1287 AVR Microcontroller
To use the USB interface of the AT90USB1287, the clock source should always be a crystal or an
external clock oscillator (the internal 8MHz RC oscillator cannot be used to operate the USB
interface). Only the following crystal frequencies allow proper USB operations: 2MHz, 4MHz,
6MHz, 8MHz, 12MHz, and 16MHz. The AT88Microbase comes with a default 16MHz crystal
oscillator, which is required to obtain the 230.4K USART baud rate needed for
CryptoAuthentication communication.
3.5
Serial Links
3.5.1 USB
The AT88Microbase is supplied with a standard USB Type-A receptacle. The AT88Microbase only
operates as an “USB device”.
Figure 6. USB Type-A Receptacle
3.5.2 USART
The AT90USB1287 AVR comes with an on-chip USART peripheral (USART1). Only the
asynchronous mode is supported. See section 3.6.3 for pinout details.
3.5.3 SPI / TWI Selector Switch
The SPI – TWI selector switch (K1) allows either the SPI pins (MOSI and SCLK) or the TWI pins
(SDA and SCL) to be routed to the 10 pin Interface header, J1. See section 3.6.3 for pinout details.
Figure 7. TWI – SPI Selector Switch
3-8
AT88CK109STK3 User Guide
8699A—CRYPTO—10/09
K1
K1
TWI Position
SPI Position
TWI
SPI
TWI
SPI
3.6
On-board Resources
3.6.1 Description of LED Bank
The AT88Microbase includes 3 general purpose red LEDs, which are connected to PD6, PD5 and
PD4. To light an LED, the corresponding port pin must be driven high. To turn off an LED, the
corresponding port pin must be driven low.
Figure 8. LEDs Implementation Schematic
Note: AVR can source or sink enough current to drive an LED directly.
3.6.2 Buzzer
The small onboard buzzer adds audio capability to the AT88Microbase board. The buzzer requires
that PD7 be driven with a square wave at 4.0 0.5KHz to achieve a maximum decibel of 78dB.
AT88SCK109STK3
Figure 9. Buzzer Implementation Schematic
Brief Spec:
Input Signal:
Resonant frequency:
Square Wave
4.0 0.5KHz
Sound Pressure Level: 78dB
3.6.3 Description of the Interface Header
The 10-Pin header (J1) of the AT88Microbase provides interfacing for daughter boards.
Figure 10. 10-Pin Interface Header
3-10
AT88CK109STK3 User Guide
8699A—CRYPTO—10/09
Figure 11. 10-Pin Interface header (J1) Orientation
HWB
JTAG
GND
VCC_D
PB5
PB4
USB
PB0
PB6
PB3 / PD2
PB7 / PD3
PB2/ PD1
PB1/
RESET
PD0
J1
3.6.4 CryptoCompanion Chip
The AT88Microbase has one CryptoCompanion device (AT88SC108), which is located on the back
side of board. The AT88SC018 is designed as the mate to Atmel’s CryptoRF® (CRF) and
CryptoMemory® (CM) chips. The SCL and SDA pins are connected to PD0 and PD1, respectively.
The RST and PDN pins are connected to PF2 and PF3, respectively.
Figure 12. System CryptoCompanion Schematic
Datasheet can be found on the Atmel web site, http://www.atmel.com/products/securemem.
Note: The CryptoCompanion chip cannot be used with the CryptoAuthentication family of devices.
AT88SCK109STK3
The following sections 3.7 – 3.11 describe the AT88CK109BK3 CryptoAuthentication
daughter board.
3.7
AT88CK109BK3 CryptoAuthentication Daughter Board
Figure 13. AT88CK109BK3 Components (top side)
HOST
PWR LED
CLIENT
PWR LED
SOT23-3
Socket
INTERCONNECT
Header
10-Pin
Interface Header
AT88CK109BK3 has two SOT23-3 sockets that support the AT88SA100, AT88SA102, and the
AT88SA10HS 3-leads devices.
Figure 14. Chip-in-Socket Placement (Live bug)
3.8
AT88CK109BK3 HOST and CLIENT Sockets Compatibility
AT88CK109BK3 is supplied with two SOT23-3 sockets titled HOST and CLIENT. Since both
sockets have identical pinout’s, the AT88Microbase can physically accept a host or a client device
in either socket. Therefore, the AT88CK109BK3 can be configured for either a host-client or client-
client development.
3-12
AT88CK109STK3 User Guide
8699A—CRYPTO—10/09
Note: When using the demonstration software, the host (AT88SA10HS) and client (AT88SA100 or
AT88SA102) devices must be in their respective sockets according to the “HOST” and “CLIENT”
texts on the board.
3.9
HOST and CLIENT Power Configuration
The AT88CK109BK3 provides the user with the capability to independently power cycle each
socket with software or place the sockets in a constant power-on state, assuming power is applied
to the board.
Figure 15. HOST and CLIENT Power Headers
Figure 16. Schematic Implementation for Software Power Control, HOST-side
Table 1.
HOST and CLIENT sockets Power Configuration
Jumpers Position
Comments
View
With all 4 jumpers mounted, the HOST and CLIENT
sockets are placed into a constant power–on state.
Hardware Power
Configuration
*Default setting
H1, H2, H3 and H4
Mounted
AT88SCK109STK3
HOST
Software Power
Configuration
This configuration allows the user to power cycle the
HOST socket via software. See Table 2 and 3 for
pinout details
H1 Mounted
H2 Not - mounted
CLIENT
Software Power
Configuration
This configuration allows the user to power cycle the
CLIENT socket via software. See Table 2 and 3 for
pinout details
H3 Mounted
H4 Not - mounted
3.10 Device Interconnect Header
The “INTERCONNECT” header provides a single-wire bus between the signal pins of the HOST
and CLIENT devices. The header can also serve as test points.
Figure 17. Interconnect Header
CLEINT
HOST
SIGNAL
SIGNAL
INTERCONNECT
Px3
Px4
Maps to
AT88Microbase PB7
Maps to
AT88Microbase PB6
3.11 Mapping AT88CK109BK3 to AT88Microbase, STK500 and STK600
The AT88CK109BK3 maps to the 10-pin header of the AT88Microbase as follow:
Table 2.
Mapping the AT88CK109BK3 to the AT88Microbase
AT88Microbase
Header ( J1 )
AT88CK109BK3
Comments
PB0
Software Power Control
HOST Socket
3-14
AT88CK109STK3 User Guide
8699A—CRYPTO—10/09
PB1
PB2
PB3
PB4
PB5
PB6
PB7
GND
VCC
NC
Not Connected
NC
Tied to PB7 with R11
Software Power Control
NC
USART (Receive)1
CLIENT Socket
HOST Signal Pin
CLIENT Signal Pin
GND
Bit-banging
Bit-banging / USART (Transmit )1
GND
VCC
VCC
Table 3.
Mapping AT88CK109BK3 to the STK500 and STK600
STK500 / STK600
AT88CK109BK3
Comments
Px0
Px1
Px2
Px3
Px4
Px5
Px6
Px7
GND
VTG
NC
-
NC
-
Tied to Px3 with R111
CLIENT Signal Pin
HOST Signal Pin
Software Power Control
Software Power Control
NC
USART (Receive)1
Bit-banging / USART (Transmit )1
Bit-banging
HOST Socket
CLIENT Socket
-
GND
GND
VCC
VCC
Figure 18. AT88CK109BK3 Mounted to the STK500
1 See section 3.12
Note 3:
“x” in Table 3 denotes any port on the STK500 and STK600
AT88SCK109STK3
3.12 Interfacing a USART with CryptoAuthentication
A microcontroller’s USART requires a minimum of two signals (RXD and TXD) to communicate.
The AT88SA100, AT88SA102, and AT88SA10HS devices have a 1-wire communication interface.
The make the USART compatible with a 1-wire CryptoAuthentication device, the USART’s pins (TX
and Rx) are tied together.
Figure 19. USART TXD and RXD pins configured for 1-wire Interfacing
On the AT88CK109BK3, Px2 and Px3 are tied together with a zero ohm resistor (R11). When
mounted to the AT88Microbase, pins Px2 and Px3 align with pins (PB3/PD2) and (PB7/PD3). The
USART pins, PD2 (RXD) and PD3 (TXD), are effectively tied together with R11allowing the USART
to be compatible with the CryptoAuthentication 1-wire interface.
3.13 In-System Programming
3.13.1 Programming with USB bootloader: DFU (Device Firmware Upgrade)
AT90USB1287 AVR comes with a default factory pre-programmed USB bootloader located in the
on-chip boot section of the AT90USB1287. This is the easiest and fastest way to reprogram the
device directly over the USB interface. The “Flip” PC side application, available for free on Atmel
website, offers a flexible and user friendly interface for reprogramming the application over the USB
bus.
The “HWB” push button is used to place the AVR into DFU mode after reset (Refer to
AT90USB1287 datasheet section “boot loader support”).
The following steps enable the DFU mode:
1. Press and hold “HWB” button
2. Press the “RESET” button
3. Release the “RESETT” button.
4. Release the “HWB” button.
For more information about the USB bootloader and FLIP software, please refer to the ‘USB
bootloader datasheet’ document and ‘FLIP User Manual’.
Note: HWBE fuse must be enabled to support DFU.
3-16
AT88CK109STK3 User Guide
8699A—CRYPTO—10/09
3.13.2 Programming with AVR JTAG ICE
The AT90USB1287 can be programmed using specific the JTAG link. This sub-section will explain
how to connect and use the AVR JTAG ICE.
Note: When the JTAGEN fuse is disabled, the four TAP pins are normal port pins, and the TAP
controller is in reset. When the JTAGEN fuse is enabled, the input TAP signals are
internally pulled high. This enables the JTAG for Boundary-scan and programming. The
AT90USB1287 device is shipped with this fuse programmed.
Figure 20. Connecting AVR JTAGICE mkII to the AT88Microbase
The Flash, EEPROM and all Fuse and Lock Bit options ISP-programmable, can be programmed
individually or with the sequential automatic programming option.
Note: See AVR Studio® on-line Help for information.
3.14 Debugging
3.14.1 Debugging with AVR JTAG ICE mkII
Every AT88CK109STK3 can be used for debugging with JTAG ICE MK II.
Connect the JTAG ICE mkII as shown in Figure 20, for debugging help; please refer to AVR
Studio® Help information.
AT88SCK109STK3
When using JTAG ICE MK II for debugging, and as AT90USB1287 parts are factory configured
with the higher security level set, a chip erase operation will be performed on the part before
debugging. Thus the on-chip flash bootloader will be erased. It can be restored after the debug
session using the bootloader hex file available from ATMEL website.
3.15 Test Points
There are 4 test points implemented, these test points are referenced in the full schematics section.
.
.
.
.
VCC,
AT88CK109BK3
AT88CK109BK3
AT88CK109BK3
AT88CK109BK3
GND
HOST signal pin
CLIENT signal pin
INTERCONNECT Header
INTERCONNECT Header
3-18
AT88CK109STK3 User Guide
8699A—CRYPTO—10/09
Section 4
Troubleshooting Guide
Table 4.
Troubleshooting Guide
Problem
Reason
Solution
The blue Power LED is not on.
USB Port of AT88Microbase is not
connected to PC.
Connect AT88Microbase USB port
to PC's USB port.
The AVR device cannot be
programmed.
The JTAG header is not connected
to JTAG programmer.
Connect the JTAG header to the
JTAG programmer.
The memory lock bits are
programmed.
Erase the memory before
programmed.
Reset disable fuse is set.
Check reset disable fuse.
Programming too fast with ISP SPI
Check oscillator settings and make
sure it is not set higher than SPI
clock
USB Port of AT88Microbase is not
connected to PC (programmed
through USB).
Connect AT88Microbase USB port
to PC's USB port.
AT88Microbase is not in DFU mode.
― Press and hold the “HWB” push
button.
― Press the “RESET” push button.
― Release the “RESET” push
button.
― Release the “HWB” push button.
The communication medium in FLIP From the FLIP menu, select
hasn't been selected
“Settings > Communication > USB”.
AVR Studio does not detect
JTAG or ISP programmer.
JTAG or ISP programmer is not
connected or power is off.
Connect JTAG programmer to
JTAG header or ISP programmer to
ISP header and check power
connections.
FLIP program not working.
AT88Microbase is not in DFU mode. JTAG to load the bootloader and set
(check) the HWBE fuse.
Correct fuse settings:
Reading fuses address 0 to 2..
0xDE, 0x99, 0xF3
AT88CK109STK User Guide
4-1
8699A—CRYPTO—10/09
Section 5
Technical Specifications
System Unit
― AT88Microbase
o Physical Dimensions
o Weight
L=58 x W=25 x H=12 mm
9.0g
― AT88CK109BK3
o Physical Dimensions
o Weight
L=74 x W=35 x H=23 mm
17.5g
― Assembled Module
o Physical Dimensions
o Weight
L=100 x W=35 x H=26 mm
26.5g
Operating Conditions
― USB
4.4V - 5V.25 (100mA)
3.3V
*See Section 3.2
― Supply Current
50mA
Connections
― USB Connector
― USB Communications
Type-A receptacle
Full speed 2.0
AT88CK109STK User Guide
5-1
8699A—CRYPTO—10/09
Section 6
Technical Support
For technical support, please contact securerf@atmel.com. When emailing or contacting tech
support, please do not include any proprietary information you may have input into the device.
When requesting technical support, please include the following information:
. Which target AVR device is used (complete part number)
. Target voltage and speed
. Clock source and fuse setting of the AVR
. Programming method (ISP, JTAG or specific Boot-Loader)
. Hardware revisions of the AVR tools, found on the PCB
. Version number of AVR Studio. This can be found in the AVR Studio help menu.
. PC operating system and version/build
. PC processor type and speed
. A detailed description of the problem
AT88CK109STK User Guide
6-1
8699A—CRYPTO—10/09
Section 7
Complete Schematic
On the next pages, the following documents of the AT88CK109STK3 are shown:
.
AT88Microbase, revision 2.0
. Complete Schematic
. Assembly Drawing
. Bill of Material
. Default configuration summary
AT88CK109BK3, revision 1.0
. Complete Schematic
. Assembly Drawing
.
. Bill of Material
. Default configuration summary
8699A—CRYPTO—10/09
AT88CK109STK3
Figure 1. AT88Microbase Schematic, 1 of 4
7-2
AT88CK109STK3 User Guide
8699A—CRYPTO—10/09
Figure 2.
AT88Microbase Schematic, 2 of 4
AT88CK109STK3
Figure 3.
AT88Microbase Schematic, 3 of 4
7-4
AT88CK109STK3 User Guide
8699A—CRYPTO—10/09
Figure 4.
AT88Microbase Schematic, 4 of 4
AT88CK109STK3
Figure 5.
AT88Microbase Assembly Drawing, 1 of 2 ( Top side )
7-6
AT88CK109STK3 User Guide
8699A—CRYPTO—10/09
Figure 6.
AT88Microbase Assembly Drawing, 2 of 2 ( Bottom side )
AT88Microbase BOM
Qty
Reference
Value
Description
Case
Manufacturer PN
CAPACITOR
Ceramic
Ceramic
Ceramic
Ceramic
Ceramic
Ceramic
Ceramic
Ceramic
Ceramic
Ceramic
Ceramic
Ceramic
2
1
1
1
1
1
5
C125-126
C164
C151
C102
C163
C184
C117 C119
C121
C123-124
C101 C103
C120 C172
C118
20pF
150pF
1nF
10nF
15nF
220nF
0.1uF
0603
0603
0603
0603
0603
0603
0603
0603
0603
0603
0603
0805
GRM1885C1H200JA01D
C1608C0G1H151J
C0603X7R500-102KNE
C0603X7R500-103JNE
ECJ1VB1H153K
GRM188R71A224KA01D
C0603Y5V250-104ZNE
4
1
1uF
C0603Y5V250-105ZNE
C0805X5R6R3-106KNE
10uF
RESISTOR
1/16 W
1/16 W
1/16 W
1/16 W
1/16 W
1/16 W
1/16 W
1/16 W
1/16 W
1/16 W
1
2
3
4
1
1
1
2
1
2
R1
R180-181
R3 R6-R7
R103-105, R171
R183
0
22
0603
0603
0603
0603
0603
0603
0603
0603
0603
0402
CR0603-16W-000T
CR0603-16W-220JT
CR0603-16W-181JT
CRCW0603825RFKEA
CR0603-16W-152JT
CR0603-16W-472JT
ERJ3EKF3921V
180
825
1.5K
4.7K
3.92K
47K
DNI
0
R144
R172
CRCW060347K0FKEA
R151 R184
R2
R4, R5
CR0402-16W-000T
IC
1
IC2
-
ATMEL AVR
64 PIN QFN
AT90USB1287-64QFN
1
1
1
Y121
U1
U6
16MHz
3.3V
-
Crystal
Regulator
ATMEL CryptoCompanion
SMD
SOT-23-5
8ld SOIC
ABM3B-16.000MHZ-B2-T
MIC5219-3.3YM5 TR
ATSC018-SU-CM
DIODE
LED
LED
1
3
2
1
1
LEDP
LED1-3
D181-182
D1
BLUE
RED
0603
0603
0603
SOD-323
SOD-123
MB1111C-TR
BR1111C-TR
PGB1010603MR
NSR1020MW2T1G
MBR0520L
-
ESD Suppressor
Schotkky
Schotkky
DIODE
DIODE
D2
MISC
1
USB
WM17117-ND
TYPE A
USB RT ANG.
48037-0001
1
1
L161
Q1
-
Ferrit Bead
Transistor
0603
MI0603J601R-10
MMBTA42LT1G
NPN
SOT23-3
1
1
H2
J1
0.1" Pitch
0.1" Pitch
JTAG
PORT-D Interface
2x5 Male Header RA
2x5 Male Header
TSW-105-16-L-D-RA
PBC05DAAN
1
2
1
B121
B151
K1
-
-
-
Buzzer
Push Button
DPDT switch
SMD
SMD
SMD
SMT-0540-S-R
PTS635SL25SMTR LFS
CAS-220TA
7-8
AT88CK109STK3 User Guide
8699A—CRYPTO—10/09
Figure 7.
AT88CK109BK3 Schematic, 1 of 3
AT88CK109STK3
Figure 8.
AT88CK109BK3 Schematic, 2 of 3
7-10
AT88CK109STK3 User Guide
8699A—CRYPTO—10/09
Figure 9.
AT88CK109BK3 Schematic, 3 of 3
AT88CK109STK3
AT88CK109BK3 Assembly Drawing, 1 of 2 ( Top side )
7-12
AT88CK109STK3 User Guide
8699A—CRYPTO—10/09
Figure 10. AT88CK109BK3 Assembly Drawing, 2 of 2 ( Bottom side )
AT88CK109STK3
AT88CK109BK3 BOM
Qty Reference
Value
Description
Case
Manufacturer PN
CAPACITOR
2
C1-2
0.1uF
402
C0402X7R160-104KNE
RESISTOR
1/16W
1
2
4
2
2
R11
0
180
1K
1M
825
0603
0603
0603
0603
0603
CR0603-16W-000T
CR0603-16W-181JT
CR0603-16W-1001FT
CR0603-16W-105JT
CRCW0603825RFKEA
R9-10
R1-3, R5
R7-8
1/16W
1/16W
1/16W
1/16W
R4 R6
DIODE
LED
MOSFET
2
2
1
LED1-2
Q1-2
D1
RED
N-CHANNEL
Diode
0603
SC-75
DO-214AC, SMA
BR1111C-TR
NTA4001NT1G
SMA6J5.0A-TR
Unidirectional TVS
MISC
2
6
S1-2
CryptoAuthentication
2PIN HEADER
Socket
SOT23-3
499-P36-20
H1-5,
Interconnect
VERT
2POS .100 TIN
PBC02DAAN
1
2
PORT-D
K1-2
10 Pin 2x5
Switch
VERT
DPDT
.100 10POS Fem
Surface Mount
SSW-105-01-G-D
CAS-220TA
7-14
AT88CK109STK3 User Guide
8699A—CRYPTO—10/09
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8699A—CRYPTO—10/09
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