AT89STK-11 Starter Kit Hardware User Guide ..............................................................................................

AT89STK-11 Starter Kit Hardware User Guide ..............................................................................................
AT89STK-11 Starter Kit
..............................................................................................
Hardware User Guide
Table of Contents
Section 1
Introduction ........................................................................................... 1-1
1.1
1.2
Features ....................................................................................................1-1
Supported Devices....................................................................................1-2
Section 2
Hardware Description ........................................................................... 2-4
2.1
2.2
2.3
2.4
2.5
2.6
2.7
Board Overview.........................................................................................2-4
Block Diagram...........................................................................................2-5
Power Supply ............................................................................................2-5
Reset.........................................................................................................2-6
Features ....................................................................................................2-7
Interfaces ..................................................................................................2-7
Board Settings ..........................................................................................2-9
Section 3
ISP Programming ............................................................................... 3-12
3.1
3.2
3.3
3.4
Manual ISP Mode ...................................................................................3-12
Auto ISP Mode ........................................................................................3-12
FLIP Software .........................................................................................3-13
Batchisp Software ...................................................................................3-13
Section 4
Appendix A: Board Layout .................................................................. 4-14
Appendix B: Bill of Materials ............................................................... 4-15
4.1
Bill of Materials Table..............................................................................4-15
Appendix C: Board Schematics .......................................................... 4-17
Appendix D: References/Acronyms .................................................... 4-22
4.2
4.3
AT89STK-11 Hardware User Guide
References..............................................................................................4-22
Acronyms ................................................................................................4-22
1
7676B–8051–08/07
Section 1
Introduction
This document describes the AT89STK-11 board dedicated to the standard C51 microcontrollers with in-system programming.
All of the microcontroller I/Os are made available in an expansion area with prototyping
facilities.
1.1
Features
Stand-alone Board
In-System Programmable (ISP) including ‘Auto ISP’ feature
On-board Voltage Regulator
Microcontroler on its sockets
–
PLCC44-pin package
On-board 3V or 5V power supply circuitry
–
from an external power connector
–
from an external battery
On-board RESET
Leds : Power, ALE, RS232 Rx and Tx
External MCU clock connector
External PCA clock connector
TWI, SPI and RS232 connectors
INT0 & INT1 Push-button
Expansion area with prototyping facilities
Commercial Temperature Range: 0 to +70°C Operating Temperature
Dimension: 95 mm x 120 mm
AT89STK-11 Hardware User Guide
1-1
7676B–8051–08/07
Introduction
1.2
Supported
Devices
AT89STK-11 Hardware User Guide
AT89C51RE2
AT89C51RB2
AT89C51RC2/IC2
AT89C51RD2/ID2/ED2
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7676B–8051–08/07
Section 2
Hardware Description
2.1
Board Overview
Figure 2-1 shows the AT89STK-11 board.
Figure 2-1. AT89STK-11
This photo is not contractual and may be modified without notification by Atmel.
AT89STK-11 Hardware User Guide
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7676B–8051–08/07
Hardware Description
2.2
Block Diagram
Figure 2-2 shows the functional block diagram of the AT89STK-11, with the I/O usage.
Figure 2-2. Block Diagram of AT89STK-11
PC Host
SPI
Full UART
TWI
P0
16MHz
Quartz
P1
C51
EA
RST
ISP
INT0
INT1
External
Power
Power Supply
3V or 5V
Expansion
Area
P2
PLCC44
P3
Leds:
PWR
ALE
User LEDs
User Push Buttons
2.3
Power Supply
The on-board power supply circuitry allows various power supply configurations. This
gives the user the capability to power the devices in the 3V and in the 5V voltage range.
2.3.1
Power Supply
Sources
The power supply source can come from two different and exclusive sources:
either from the JACK PWR connector
either from the 2-point sip EXT connector.
2.3.1.1
JACK PWR
Connector
The Jack power connector implemented on board is a female Jack connector with internal 2.1mm conductor. It requires a male JACK outlet with 2.1mm capability.
No specific polarization is mandatory as on-board diode rectifier gives a protection
against inadvertent polarization invertion.
When using the JACK power supply, the board is powered with a 5V voltage.
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7676B–8051–08/07
AT89STK-11 Hardware User Guide
Hardware Description
Figure 2-3. Male JACK Outlet and Wires
2.3.1.2
External EXT
connector
Note:
Do not mount more than one power supply source on AT89STK-11 Board.
Note:
There is a diode voltage level between the negative output of the power supply
and the “GND”. This could introduce some voltage gap during measurement
and instrumentation.
The battery power connector implemented on board is a male two point SIP connector.
It requires an external power cable with a female 2 points connector.
When powered though this interface, polarization is mandatory as no protection is given
on board.
The EXT power supply circuitry support input supply from 2.7V up to 5.5V DC.
Figure 2-4. EXT PWR Female Connector / Cable
Note:
Do not mount more than one power supply source on board.
Note:
Keep SP1 closed when using the EXT input
2.4
Reset
To be compatible with Atmel microcontrollers which have (or not) its on-chip RESET circuitry (c.f.microcontroller datasheet), the board provides a RESET signal witch can
come from 2 different sources:
2.4.1
Power-on RESET
The on-board RC network acts as power-on RESET.
2.4.2
RESET Push Button
By pressing the RESET push button on the board, a warm RESET of the microcontroller
is performed.
AT89STK-11 Hardware User Guide
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7676B–8051–08/07
Hardware Description
2.5
Features
This section presents the various features such as leds, buttons, etc... available on the
board.
2.5.1
Push-Buttons
RESET can be used to apply warm reset to the MCU
ISP can be used with RESET to apply hardware conditions resulting in bootloader
start
INT0 push-button can be used to activate INT0 input
INT1 push-button can be used to activate INT1 input
2.5.2
User Push buttons
PB0, PB1, PB2 and PB3 are four push-buttons available for user application
They are made available on a 6 pins socket and in the expansion area so user can use
them according to the application needs.
2.5.3
Indicator LEDs
PWR led is driven by input of voltage regulator
Rx led is connected to Rx of UART MCU (SP3 jumper can be soldered or not)
Tx led is connected to Tx of UART MCU (SP4 jumper can be soldered or not)
ALE led is connected to ALE of MCU
2.5.4
User LEDs
LED0, LED1, ... LED7 are height leds available for user application
They are made available on a 10 pins socket and in the expansion area so user can use
them according to its application needs.
2.5.5
Ports
Port 0 and Port 2 are made available on two 10 pins sockets to ease user interconnection to the MCU.
The are also available on the expansion area.
2.5.6
Clocks
An external clock can be connected to the board to control externally XTAL1 input clock
of MCU by using the XTAL1 from the expansion area.
In the same way, another external clock can be connected to control externally the PCA
clock (P1.2/ECI).
2.6
Interfaces
2.6.1
TWI
The TWI connector is controlled by hardware TWI I/O of MCU (for Product including this
feature). The signals sda and scl are controlled by the TWI ports of MCU.
This TWI bus is also connected to the expansion area.
External TWI pull-ups are not provided on the AT89STK-11.
2.6.2
SPI
The SPI connector is directly connected to SPI I/O of the MCU.
2.6.3
RS-232
The DB9 connector is connected to on-chip UART peripheral through a standard RS232
driver/receiver. Two leds are provided to indicate activity on Rx and Tx lines (They can
be disconnected removing solder pad SP3 and SP4).
2.6.4
OCD
The On-Chip Debug interface (OCD) is provided on a 6-pin connector.
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7676B–8051–08/07
AT89STK-11 Hardware User Guide
Hardware Description
This interface enables the debug of the application through ATMEL OCD dongle for
AT89C51RE2/IE2/RD3/IE3 only.
2.6.5
Expansion Area
2.7
Board Settings
In addition to a 16x29 pad array, two rows of pads are given on the right side of the
board to offer all the MCU signals tu user application. Any application expansion can be
built on board through this interface.
The C51 Demo Board has the following settings:
Jumpers
Solder straps
Test points
2.7.1
Jumpers
The following table provides an overview of the jumpers, the solder straps and their
default configuration.
Table 2-1. Jumpers and Switches Overview
Reference
PCB Label
Function
Default
Jumper J11
J11
RTS of RS232
OFF
Jumper J12
J12
DTR of RS232
OFF
Jumper J13
J13
OFF
Figure 2-5. Jumper Setting Definition
2.7.2
Solder Straps
Solder straps allow to modify the board configuration for specific usage.
Table 2-2. Solder Straps Overview
AT89STK-11 Hardware User Guide
Reference
PCB Label
Function
Default
Solder strap SP1
SP1
External Power Supply Isolation
Soldered
Solder strap SP2
ICC
Consumption measurement
Soldered
Solder strap SP3
SP3
Rx Led
Soldered
Solder strap SP4
SP4
Tx Led
Soldered
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7676B–8051–08/07
Hardware Description
Figure 2-6. Solder Strap Definition
2.7.3
Test Points
Test points are used to check the internal power supply of the microcontroller.
Table 2-3. Table of Test Points
2-9
7676B–8051–08/07
Reference
PCB Label
Function
TP1
VCC
Test point for Vcc
TP2,TP3
GND
Test point for GND
AT89STK-11 Hardware User Guide
Section 3
ISP Programming
The On-Chip memories and configuration bytes can be programmed using the ISP
mode of the device and Atmel's FLexible In-system Programmer Software (FLIP)
described below.
3.1
Manual ISP Mode
See Section “FLIP Software”, page 11.
3.1.1
Board Configuration
To use ISP mode, no specific configuration is necessary on the board. Only make sure
that the EA pin of the product is tied to Vcc (internal code execution only).
3.1.2
Operating Mode
To enter in ISP mode, press both the RESET and ISP buttons simultaneously.
First release the RESET button and then the ISP button. The device enters in
ISP mode.
3.2
Auto ISP Mode
It allows the host PC application (Atmel Flip software for example) to control the hardware conditions from the serial lines RTS and DTR.
Thus with the Auto ISP mode, the user does not need to push the ISP and RESET
buttons.
3.2.1
Board Configuration
To use Auto ISP mode, put the board in the same configuration as ISP mode and also:
Close RTS (J11) jumper
Close DTR (J12) jumper
AT89STK-11 Hardware User Guide
3-10
7676B–8051–08/07
ISP Programming
3.3
FLIP Software
FLIP software runs on Windows® and Linux® Operating Systems. FLIP supports in-system programming of Flash C51 devices through RS232. The latest version of FLIP
software can be downloaded from the Atmel web site, www.atmel.com.
3.4
Batchisp
Software
Batchisp is an In-System Programming application which can perform the same operations as FLIP but is designed to be launched from the DOS command window.
The main purpose of batchisp is to automate ISP operations on several parts. It may
also be launched from an IDE like Keil's uVision®2 one : you can compile and link your
embedded program, generate the HEX file and download it to the target hardware without leaving the Keil's IDE. This makes embedded software development and test faster.
Autoisp function is an operation which allows to enter in ISP mode without any hardware
handling.This is done thanks to DTR and RTS RS232 signals which can control on the
Board the RST and PSEN I/O of MCU.
3-11
7676B–8051–08/07
AT89STK-11 Hardware User Guide
Section 4
Appendix A: Board Layout
Figure 4-1. Board Components View Diagram
AT89STK-11 Hardware User Guide
4-12
7676B–8051–08/07
Appendix B: Bill of Materials
4.1
Bill of Materials
Table
Item
Q.ty Reference
1
Part
Tech. Caracteristics
Package
Manufacturer
100n
50V-10% Ceramic
CASE 0805
PHYCOMP
1µF
10Vmin ±10%
Case A
AVX
EIA/IECQ
3216
PHYCOMP
CD1,CD2,C2,CD3,C3,C4,
CD5,C5,CD6,C6,CD7,C7,C8,
29 C9,C10,C11,C12,C13,C16,
C17,C18,C19,C20,C21,C22,
C23,C24,C25,C26
2
1 C1
3
2 C14,C15
22pF
10Vmin ±10%
4
1 D1
Red Led
I=10 mA
Agilent®
5
11 D2,D3,D4,D5,D6,D7,D8,D9,
Green Led
I=10 mA
Agilent
D10,D11,D12
®
6
1 J1
SIP2 SOCKET
.
Pitch 2.54mm Molex
7
1 J2
CONNECTOR JACK PWR
Int.Diam=2.1mm
Int. Diam.
2.1mm
8
1 J3
HEADER 31x2/SM
9
2 J4,J8
HEADER 3X2
BARRETTE SECABLE Pitch 2.54mm Tyco Elec. / AMP
10
3 J5,J6,J10
HEADER 5X2
BARRETTE SECABLE Pitch 2.54mm Tyco Elec. / AMP
®
Cliff
11
1 J7
CONNECTOR SIP6 RA
.
.
.
12
1 J9
SIP4
.
.
.
13
3 J11,J12,J13
JUMPER
13bis
Pitch 2.54mm Tyco™ Elec. / AMP
3
JUMPER shunt
14
1 P1
SUB-D9 FEMALE
90° with harpoons
15
1 R1
270
1/16W-5% SMD
Case 0603
Multicomp
1K
0.06W, 5%
Case 0603
Multicomp
820
1/16W-5% SMD
Case 0603
Multicomp
10k
0.06W, 5%
Case 0603
Multicomp
SMD, rectangular
See DS
ITT Canon®
16
Pitch 2.54mm Arwin
Tyco Elec. / AMP
R2,R5,R14,R15,R16,R17,
14 R18,R19,R20,R21,R22,R23,
R24
17
1 R3
18
8 R4,R6,R8,R9,R10,R11,R12,
R13
19
SP1,SP2,SP3,SP4,SP5, SP6,
4 SP7, SP8, SP9, SP10, SP11,
SP12
20
8 SW1,SW2,SW3,SW4,SW5,SW6,
SW7,SW8
AT89STK-11 Hardware User Guide
SolderPad
PUSH-BUTTON
4-13
7676B–8051–08/07
Appendix B: Bill of Materials
Item
Part
Tech. Caracteristics
Package
Manufacturer
21
Q.ty Reference
3 TP1,TP2,TP3
TEST POINT
Through Hole Pad
Hole 1.1mm
Vero
22
1 U1
DF005S
TO269AA
Vishay
23
1 U2
LM317
SOT-223
National
25
1 U6
AT8xC51_PLCC44
25bis
1 U6
AT8xC51_PLCC44
26
2 U7,U8
SIPEX-SP3232ECA
SSOP16
Maxim®
27
1 U9
74HC125/SO
SOIC
texas
28
1 Y1
CRYSTAL
.
.
28bis
2 Y1
CRYSTAL tulip
.
.
Case 0603
Multicomp
29
8
R100, R101, R102, R103,
R104, R105, R106, R107
AT89STK-11 Hardware User Guide
4,7K
®
®
Socket
Ref=SP3232ECA
HC49
0.06W, 5%
4-14
7676B–8051–08/07
Appendix C: Board Schematics
AT89STK-11 Hardware User Guide
4-15
7676B–8051–08/07
CONNECTOR JACK PWR
Power Supply
3
2
1
Vcc
-
/EA
R4
10K
4
+
DF005S
U1
3
100n
CD1
SIP2 SOCKET
Alternate Power Supply
2
J2
1
1
2
R3
820
SOT223
Vin
/ALE
Vcc
D2
ALE
R5
1K
Vout
U2
LM317EMP/SOT223
ADJ
AT89STK-11 Hardware User Guide
R1
270
C1
1µF
Power
D1
CD3
100n
R2 Default State : Closed
1K
SP1
TP1
1
J1
R8
10K
SW2
INT0
P3.2/INT0 P3_2/INT0
Vcc
Vcc
Vcc TP
TP2
1
100n
CD5
1
GND TP
Vcc
TP3
SW3
INT1
P3.3/INT1 P3_3/INT1
R9
10K
Appendix C: Board Schematics
Figure 4-2. AT89STK-11 Schematics (1 of 4)
4-16
7676B–8051–08/07
TWI_hard_sda
TWI_hard_scl
C11
P1.1/T2EX/SS
P1.5/CEX2/MISO
P1.6/CEX3/SCK
P1.7/CEX4/MOSI
Vcc
100n
Vcc
100n
C5
1
2
3
4
SIP4
J9
TWI
SPI Male
1
2
3
4
5
6
J7
Vcc
Vcc
SW4
R10
10k
Vcc
2
4
6
8
10
SW5
R11
10k
C7
100n
PB_1
C3 HEADER 5X2
100n
1
3
5
7
9
Vcc
SW6
R12
10k
1K 1K 1K 1K 1K 1K 1K 1K
R14 R19 R15 R20 R16 R17 R18 R21
D3 D4 D5 D6 D7 D8 D9 D10
Vcc Vcc Vcc Vcc Vcc Vcc Vcc Vcc
C6
100n
PB_0
LED_0
HEADER 3X2
C2
100n
P2_0
P2_2
P2_4
P2_6
Vcc
LED_1
RST
Vss
Vcc
LED_2
5
3
1
LED_3
6
4
2
LED_4
OCD_Rx
OCD_Tx
/PSEN
J5
Port P0
LED_5
7676B–8051–08/07
LED_6
4-17
LED_7
J4
OCD
C8
100n
PB_2
P2_1
P2_3
P2_5
P2_7
Vcc
SW7
R13
10k
C9
100n
PB_3
LED_0
LED_2
LED_4
LED_6
Vcc
PB_0
PB_2
Vcc
P0_0
P0_2
P0_4
P0_6
Vcc
2
4
6
C12HEADER 5X2
100n
1
3
5
7
9
J10
LEDs
C10
HEADER 3X2
100n
1
3
5
J8
Buttons
2
4
6
8
10
2
4
6
8
10
C4 HEADER 5X2
100n
1
3
5
7
9
J6
Port P2
LED_1
LED_3
LED_5
LED_7
PB_1
PB_3
P0_1
P0_3
P0_5
P0_7
Appendix C: Board Schematics
Figure 4-3. AT89STK-11 Schematics (2 of 4)
AT89STK-11 Hardware User Guide
XTAL1
P0_0
P0_1
P0_2
P0_3
P0_4
P0_5
P0_6
P0_7
C14
22pF
Y1
XTAL2
C15
22pF
/EA
RST
SP7
SP5
35
10
21
20
SP9
SP10
SP11
SP12
SP8
SP6
XTAL1
XTAL2
ALE/PROG
PSEN
P3.0/RXD
P3.1/TXD
P3.2/INT0
P3.3/INT1
P3.4/T0
P3.5/T1
P3.6/WR
P3.7/RD
P2.0/A8
P2.1/A9
P2.2/A10
P2.3/A11
P2.4/A12
P2.5/A13
P2.6/A14
P2.7/A15
EA/VPP RxD_1/SDA
RST
TxD_1/SCL
XTAL1
XTAL2
P0.0/AD0
P0.1/AD1
P0.2/AD2
P0.3/AD3
P0.4/AD4
P0.5/AD5
P0.6/AD6
P0.7/AD7
Rx_OCD
P1.0
P1.1
P1.2
P1.3
P1.4
P1.5
P1.6
P1.7
R100
R101
R102
R103
R104
R105
R106
R107
4.7K
4.7K
4.7K
4.7K
4.7K
4.7K
4.7K
4.7K
Vcc
AT8xC51_PLCC44
GND
22
43
42
41
40
39
38
37
36
1
2
3
4
5
6
7
8
9
Tx_OCD
AT89STK-11 Hardware User Guide
23
P0_0
P0_1
P0_2
P0_3
P0_4
P0_5
P0_6
P0_7
OCD_Rx
P1.0/T2
P1.1/T2EX/SS
P1.2/ECI
P1.3/CEX0
P1.4/CEX1
P1.5/CEX2/MISO
P1.6/CEX3/SCK
P1.7/CEX4/MOSI
Vcc_cpu
44
VCC
U6
P3_0/RxD
P3_1/TxD
P3_2/INT0
P3_3/INT1
P3_4
P3_5
P3_6
P3_7
/ALE
/PSEN
TWI_hard_sda
TWI_hard_scl
11
13
14
15
16
17
18
19
33
32
12
34
C13
100n
Vcc_cpu
OCD_Tx
P2_0
P2_1
P2_2
P2_3
P2_4
P2_5
P2_6
P2_7
Vcc
24
25
26
27
28
29
30
31
SP2
P2_0
P2_1
P2_2
P2_3
P2_4
P2_5
P2_6
P2_7
LED_0
LED_1
LED_2
LED_3
LED_4
LED_5
LED_6
LED_7
Vcc
/EA
P0_0
P0_1
P0_2
P0_3
P0_4
P0_5
P0_6
P0_7
XTAL1
XTAL2
OCD_Rx
OCD_Tx
P3_0/RxD
P3_1/TxD
P3_2/INT0
P3_3/INT1
P3_4
P3_5
P3_6
P3_7
PB_0
PB_1
PB_2
PB_3
CD6
100n
Vcc
P1.0/T2
P1.1/T2EX/SS
P1.2/ECI
P1.3/CEX0
P1.4/CEX1
P1.5/CEX2/MISO
P1.6/CEX3/SCK
P1.7/CEX4/MOSI
TWI_hard_sda
TWI_hard_scl
RST
/PSEN
/ALE
HEADER 31x2/SM
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
42
44
46
48
50
52
54
56
58
60
62
Expansion Connector
100n
CD7
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
31
33
35
37
39
41
43
45
47
49
51
53
55
57
59
61
J3
Appendix C: Board Schematics
Figure 4-4. AT89STK-11 Schematics (3 of 4)
4-18
7676B–8051–08/07
DSR
CTS
1
J13
SUB-D9 FEMALE
RS232
1
6
2
7
3
8
4
9
5
1
2
DTR
J12
RTS
RTS
DTR 1
Rx_PC
RTS
Tx_PC
CTS
J11
2
2
C23
100n
C21
100n
C1+
C1C2+
C2-
R1IN
R2IN
T1OUT
T2OUT
V-
V+
R1OUT
R2OUT
T1IN
T2IN
SIPEX-SP3232ECA
U8
1
3
4
5
13
8
14
7
Vcc
C18
100n
C16
100n
1
3
4
5
13
8
14
7
6
2
12
9
11
10
C1+
C1C2+
C2-
R1IN
R2IN
T1OUT
T2OUT
T1IN
T2IN
6
2
12
9
11
10
Vcc
C24
100n
Vcc
C25
100n
Vcc
SIPEX-SP3232ECA
U7
V-
V+
R1OUT
R2OUT
VCC
16
GND
15
P1
VCC
16
GND
15
Vcc
C19
100n
C17
100n
Vcc
C22
100n
Vcc
5
CD2
100n
C26
100n
2
C20
100n
14
1
3
U9A
Rx_MCU
Tx_MCU
Vcc
R6
10K
SW1
RESET
74HC125/SO_5
6
U9B
74HC125/SO_5
7
7676B–8051–08/07
14
4
4-19
7
Vcc
D11
Green Led
Rx LED
R22
1K
SP3
"grain de café"
ISP
SW8
RST
Vcc
1K
R24
/PSEN
D12
Green Led
Tx LED
R23
1K
SP4
"grain de café"
P3_0/RxD
P3_1/TxD
Appendix C: Board Schematics
Figure 4-5. AT89STK-11 Schematics (4 of 4)
AT89STK-11 Hardware User Guide
Appendix D: References/Acronyms
4.2
References
AT89C51RD2/ID2/ED2/RB2/RC2/IC2/RE2/IE2 and AT89C51RD3/IE3 Product
Datasheet.
4.3
Acronyms
FLIP: FLexible In-system Programming
ISP: In-System programming
AT89STK-11 Hardware User Guide
4-20
7676B–8051–08/07
Appendix D: References/Acronyms
Document Revision
History
Changes from 7676A to
7676B
1. Section 1.2, page 1-2 : AT89C51RE3/ID3/IE2 not supported.
2. Section 2.3.1.2, page 2-5 : SP1 must be kept closed.
3. Section 3.1.1, page 3-11 : SW1 switch and EA jumper do not exist.
4. Appendix A, page 4-13 : the given board layout was wrong. Replaced by the
right one.
5. Appendix C, page 4-19 : there was an error on page 4 of the schematic.
Pin5 of U9B is now connected to Vcc instead of GND.
4-21
7676B–8051–08/07
AT89STK-11 Hardware User Guide
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