olimex board
DESCRIPTION
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MSP430-5438STK development board Users Manual
All boards produced by Olimex are ROHS compliant
Rev.A, October 2009Copyright(c) 2009, OLIMEX Ltd, All rights reserved
Page 1
INTRODUCTION
MSP430-5438STK development board provides easy way for developing and prototyping with MSP430F5438 mixed signal microcontroller produced by Texas Instruments.This powerful microcontroller supports various serial interfaces such as USB Device, UART, SPI. In addition you will find also audio input and output, debug interface, LCD, UEXT, two Extensions, mini SD/MMC, User Joystick, User Leds, Reset button. All this allows you to build a diversity of powerful applications to be used in a wide range of situations.
BOARD FEATURES
- CPU: MSP430F5438 mixed signal microcontroller
- LCD NOKIA 3310 black/white 84x48 pixels
- JTAG connector
- JTAG Power_In and Power_Out jumpers
- Two extension connectors
- UEXT connector
- RS232 driver and connector
- Power plug-in jack for 9V DC power supply
- Voltage regulator +3.3V – VR1(3.3V)
- 2 status LEDs
- Power on Led
- Audio In
- Audio Out
- SD/MMC mini connector
- USB device connector
- Reset button
- User joystick
- PCB: FR-4, 1.5 mm (0,062"), solder mask, silkscreen component print
- Dimensions: 100x 98mm ( 3.94x 3.85")
Page 2
ELECTROSTATIC WARNING
The MSP430-5438STK board is shipped in protective anti-static packaging. The board must not be subject to high electrostatic potentials. General practice for working with static sensitive devices should be applied when working with this board.
BOARD USE REQUIREMENTS
Cables: The cable you will need depends on the programmer/debugger you use. If you use MSP430-JTAG, you will need LPT cable, if you use MSP430-JTAG-TINY or MSP-JTAG-ISO, you will need 1.8m A-B USB cable, if you use MSP430-JTAG-RF, you can connect it to the USB port of your computer, or via USB cable type A – female.
Hardware: Programmer/Debugger – one of our Programmers – MSP430-JTAG, MSP430-JTAG-TINY, MSP430-JTAG-ISO, or MSP430-JTAG-RF.
Software: MSP430 KickStart software.
PROCESSOR FEATURES
MSP430-5438STK board use ultralow-power consumption mixed signal microcontroller with these features:
– 256KB+512B Flash Memory
– 16KB RAM
– Four Universal Serial Communication Interfaces
– Low Supply Voltage Range
– 1.8 V to 3.6 V
– Ultralow Power Consumption
– Active Mode (AM): 165 mA/MHz at 8 MHz
– Standby Mode (LPM3 RTC Mode): 2.60 mA
– Off Mode (LPM4 RAM Retention): 1.69 mA
– Shutdown Mode (LPM5): 0.1 mA
– Wake-Up From Standby Mode in Less Than 5 ms
– 16-Bit RISC Architecture
– Extended Memory
– 18-MHz System Clock
– Flexible Power Management System
Page 3
– Fully Integrated LDO With Programmable Regulated Core Supply Voltage
– Supply Voltage Supervision, Monitoring, and Brownout
– Unified Clock System
– FLL Control Loop for Frequency Stabilization
– Low-Power/Low-Frequency Internal Clock Source (VLO)
– Low-Frequency Trimmed Internal Reference Source (REFO)
– 32-kHz Crystals
– High-Frequency Crystals up to 32 MHz
– 16-Bit Timer TA0, Timer_A With Five Capture/Compare Registers
– 16-Bit Timer TA1, Timer_A With Three Capture/Compare Registers
– 16-Bit Timer TB0, Timer_B With Seven Capture/Compare Shadow Registers
– Up to Four Universal Serial Communication Interfaces
– Enhanced UART Supporting Auto-Baudrate Detection
– IrDA Encoder and Decoder
– Synchronous SPI
– I2C™
– 12-Bit Analog-to-Digital (A/D) Converter
– Internal Reference
– Sample-and-Hold
– Autoscan Feature
– 12 External Channels, 4 Internal Channels
– Hardware Multiplier Supporting 32-Bit Operations
– Serial Onboard Programming, No External Programming Voltage Needed
– Three Channel Internal DMA
– Basic Timer With Real-Time Clock Feature
Page 4
BLOCK DIAGRAM
Page 5
MEMORY ORGANIZATION
Page 6
SCHEMATIC
Page 7
CLO
SE
CLO
SE
CLO
SE
100n
F
47uF
/6.3
V/TA
NT
100n
F
47pF
47pF
47pF
1uF
33nF
33nF
100n
F47
uF/6
.3V
/TA
NT
470p
F
2.2u
F
47uF
/6.3
V/T
AN
T
2.2u
F
100n
F10
0nF
100n
F10
0nF
2.2nF
470n
F
10uF
/6.3
V/T
AN
T
100n
F
39pF
39pF
10uF/6.3V/TANT
100nF
10pF
10pF
100n
F
100n
F10
0nF
100n
F
100n
F10
0nF
1uF/
16V
/TA
NT
47uF
/6.3
V/T
AN
T
47uF/6.3V/TANT
470u
F/16
VD
C10
0nF
100n
F
10uF/6.3V(NA)
100nF10uF/6.3V/TANT
100nF
100n
F10
uF/6
.3V/
TAN
T
NA
NA
10nF
1N4148
1N58
19S
IRLML6402
DB
104(
SM
D)
JOY
STI
CK
_MT5
_FB
H14
S
FB08
05/6
00R
/200
mA(
2012
09-6
01)
CL4
70nH
/080
5/1.
76R
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mA
FB
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0 O
HM
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06(
321
611
C-6
01)
AD
G84
48G
(FP
A-W
ZA-0
8-LF
)
GYX-SD-TC0805SGC(GREEN)
GYX-SD-TC0805SYC(YELLOW)
GYX-SD-TC0805SURK(RED)
YD
J-11
34 HN
1x2
HN
1x2
Q18
.000
MH
z/20
pF
QC
T327
68(2
x6)/6
pF
100k
560R
10k
560R
470k
NA
20k
100k
1k1k
20k
47k
27k
33k
33k
220R
33k
NA
0R(NA)
0R(NA)
560R
560R
4.7k
4.7k
33k
220R
33k
33k
33k
330R
560R
NA
NA
10k
1M
100k
100k
100k
33k
33k
33k
33k
33k
240R
/1%
330R
330R
560R
390R
/1%
1k
0R(N
A)
0R(N
A)
10k
NA
T110
7A(6
x3.8
x2.5
mm
)
DB
9-F
MIC
RO
MS
P43
0F54
38IP
Z
MC
P60
1-I/S
N
TS48
71(S
O-8
)
ST3
232(
SO
16)
FT23
2RL/
SSO
P28
BH
10S
BH
10S
BH
10S
BH
10S
BH
10S
BH10
S
BH
10S
BH
10S
BH
10S
BH1
0S
US
B_B
3.3V
A
3.3V
3.3V
A
3.3V
3.3V
A3.
3VA
3.3V
3.3V
AA
GN
D
AG
ND
3.3V
3.3V
AG
ND
3.3V
AG
ND
AG
ND
AG
ND
3.3V
AG
ND
AG
ND
AG
ND
AG
ND
AG
ND
AG
ND
AG
ND
3.3V
3.3V
AG
ND
3.3V
A
AG
NDAG
ND
3.3V
AG
ND
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
AG
ND
AG
ND
3.3V
A
AG
ND
AG
ND
CLO
SE
LM11
17IM
PX
-AD
J
BZV
55C
2V4
BZV
55C
2V4
TDI,T
DO
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S,T
CK
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UC
A1SO
MI,U
CA1
SIM
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A1C
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B1SC
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CA0
RXD
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A0TX
D,C
S_SD
UC
B0S
TE,U
CB
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O,U
CB
0CLK
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B0S
OM
I
UCB2CLK,UCB2SIMO,UCB2SOMI,UCB2STE,LCD_D/#C,#LCD_CS,#LCD_RES
#LC
D_R
ES
#LC
D_R
ES
#RS
T
#RS
T
#RS
T
+5V
_US
B
+5V
_US
B
A_I
N
A_I
N
A_O
UT
A_O
UT
BU
T(C
)
BU
T(C
)
BU
T(D
)
BU
T(D
)
BU
T(L)
BU
T(L)
BU
T(R
)
BU
T(R
)
BU
T(U
)
BU
T(U
)
LCD
_D/#
C
LCD
_D/#
C
LED
1
LED
1
LED
2
LED
2
PC
_CTS
PC
_DS
R
PC
_DTR
PC
_RTS
PC
_RX
DP
C_T
XD
PW
RE
N
TCK
TCK
TDI
TDI
TDO
TDO
TES
T
TES
T
TMS
TMS
UC
A0R
XD
UC
A0R
XD
UC
A0T
XD
UC
A0T
XD
UC
A1C
LK
UC
A1C
LK
UC
A1S
IMO
UC
A1S
IMO
UC
A1S
OM
I
UC
A1S
OM
I
UC
A1S
TE
UC
A1S
TE
UC
A2R
XD
UC
A2R
XD
UC
A2T
XD
UC
A2T
XD
UC
A3R
XD
UC
A3R
XD
UC
A3T
XD
UC
A3T
XD
UC
B0C
LK
UC
B0C
LK
UC
B0C
LKU
CB
0SIM
O
UC
B0S
IMO
UC
B0S
IMO
UC
B0S
OM
I
UC
B0S
OM
I
UC
B0S
OM
I
UC
B0S
TE
UC
B0S
TE
UC
B0S
TE
UC
B1S
CL
UC
B1S
CL
UC
B1S
DA
UC
B1S
DA
UC
B2C
LK
UC
B2C
LK
UC
B2S
IMO
UC
B2S
IMO
UC
B2S
OM
I
UC
B2S
TE
UC
B2S
TE
12
3.3V
A_E
12
3.3V
_E
12
AG
ND
_E
C1
C2
C3
C4
C5
C6
C7
C8
C9
C10
C11
C12
C13
C14
C15
C16
C17
C18
C19
C20
C21
C22
C23
C24
C25
C26
C27
C28
C29
C30
C31
C32
C33
C34
C35
C36
C37
C38
C39
C40
C41
C42
C43
C44
C45
C46
C47
C48
C49
C50
D1
D2
EX
T1-1
EX
T1-2
EXT1-3
EX
T1-4
EX
T1-5
EX
T1-6
EX
T1-7
EX
T1-8
EX
T1-9
EX
T1-1
0
EX
T1-1
1E
XT1
-12
EX
T1-1
3E
XT1
-14
EX
T1-1
5E
XT1
-16
EX
T1-1
7E
XT1
-18
EX
T1-1
9E
XT1
-20
EX
T1-2
1
EX
T1-2
2E
XT1
-23
EX
T1-2
4E
XT1
-25
EX
T1-2
6E
XT1
-27
EX
T1-2
8
EX
T1-2
9E
XT1
-30
EX
T1-3
1E
XT1
-32
EX
T1-3
3E
XT1
-34
EX
T2-1
EX
T2-2
EX
T2-3
EX
T2-4
EX
T2-5
EX
T2-6
EX
T2-7
EX
T2-8
EX
T2-9
EX
T2-1
0E
XT2
-11
EX
T2-1
2E
XT2
-13
EX
T2-1
4E
XT2
-15
EX
T2-1
6E
XT2
-17
EX
T2-1
8E
XT2
-19
EX
T2-2
0E
XT2
-21
EX
T2-2
2E
XT2
-23
EX
T2-2
4E
XT2
-25
EX
T2-2
6E
XT2
-27
EX
T2-2
8E
XT2
-29
EX
T2-3
0E
XT2
-31
EX
T2-3
2
EX
T2-3
3E
XT2
-34
FET
G1
GND
HE
AD
PH
ON
ES
SC
J325
P00
XG
0B02
G
LEFT
CE
NTE
R
DO
WN
UP
CO
MM
ON
RIG
HT
J11
23
45
67
89
1011
1213
14JT
AG
L1
L2
L3
#RE
S8
#SC
E5
D/#
C4
GN
D6
SC
K2
SD
IN3
VD
D1
VO
UT
7
LCD
LED
1LE
D2
MIC
RO
PH
ON
E
SC
J325
P00
XG
0B02
G
PW
R
PW
R_J
AC
K
12P
_IN
12P
_OU
T
Q1
Q2
R1
R2
R3
R4
R5
R6
R7
R8
R9
R10
R11
R12
R13
R14
R15
R16
R17
R18
R19
R20
R21
R22
R23
R24
R25
R26
R27
R28
R29
R30
R31
R32
R33
R34
R35
R36
R37
R38
R39
R40
R41
R42
R43
R44
R45
R46
R47
R48
R49
R50
R51
R52
R53
RE
SE
T1 2 3 4 5
6 7 8 9G1
G2
RS
232
CD
/DA
T3/C
S2
CLK
/SC
LK5
CM
D/D
I3
DA
T0/D
O7
DA
T1/R
ES
8
DA
T2/R
ES
1
VD
D4
VS
S6
SD
/MM
C#R
ST/
NM
I/SB
W/T
DIO
96
AV
CC
11
AV
SS
12
DV
CC
116
DV
CC
264
DV
CC
338
DV
CC
487
DV
SS
115
DV
SS
263
DV
SS
337
DV
SS
488
P1.
0/TA
0CLK
/AC
LK17
P1.
1/TA
0.0
18P
1.2/
TA0.
119
P1.
3/TA
0.2
20P
1.4/
TA0.
321
P1.
5/TA
0.4
22P
1.6/
SM
CLK
23P
1.7
24
P2.
0/TA
1CLK
/MC
LK25
P2.
1/TA
1.0
26P
2.2/
TA1.
127
P2.
3/TA
1.2
28P
2.4/
RTC
CLK
29P
2.5
30P
2.6/
AC
LK31
P2.
7/A
DC
12C
LK/D
MA
E0
32
P3.
0/U
CB
0STE
/UC
A0C
LK33
P3.
1/U
CB
0SIM
O/U
CB
0SD
A34
P3.
2/U
CB
0SO
MI/U
CB
0SC
L35
P3.
3/U
CB
0CLK
/UC
A0S
TE36
P3.
4/U
CA
0TX
D/U
CA
0SIM
O39
P3.
5/U
CA
0RX
D/U
CA
0SO
MI
40P
3.6/
UC
B1S
TE/U
CA
1CLK
41P
3.7/
UC
B1S
IMO
/UC
B1S
DA
42
P4.
0/TB
0.0
43P
4.1/
TB0.
144
P4.
2/TB
0.2
45P
4.3/
TB0.
346
P4.
4/TB
0.4
47P
4.5/
TB0.
548
P4.
6/TB
0.6
49P
4.7/
TB0C
LK/S
MC
LK50
P5.
0/V
RE
F+/V
ER
EF+
9P
5.1/
VR
EF-
/VE
RE
F-10
P5.
2/X
T2IN
89P
5.3/
XT2
OU
T90
P5.
4/U
CB
1SO
MI/U
CB
1SC
L51
P5.
5/U
CB
1CLK
/UC
A1S
TE52
P5.
6/U
CA
1TX
D/U
CA
1SIM
O53
P5.
7/U
CA
1RX
D/U
CA
1SO
MI
54
P6.
0/A
097
P6.
1/A
198
P6.
2/A
299
P6.
3/A
310
0P
6.4/
A4
1P
6.5/
A5
2P
6.6/
A6
3P
6.7/
A7
4
P7.
0/X
IN13
P7.
1/X
OU
T14
P7.
2/TB
0OU
TH/S
VM
OU
T55
P7.
3/TA
1.2
56P
7.4/
A12
5P
7.5/
A13
6P
7.6/
A14
7P
7.7/
A15
8
P8.
0/TA
0.0
57P
8.1/
TA0.
158
P8.
2/TA
0.2
59P
8.3/
TA0.
360
P8.
4/TA
0.4
61P
8.5/
TA1.
065
P8.
6/TA
1.1
66P
8.7
67
P9.
0/U
CB
2STE
/UC
A2C
LK68
P9.
1/U
CB
2SIM
O/U
CB
2SD
A69
P9.
2/U
CB
2SO
MI/U
CB
2SC
L70
P9.
3/U
CB
2CLK
/UC
A2S
TE71
P9.
4/U
CA
2TX
D/U
CA
2SIM
O72
P9.
5/U
CA
2RX
D/U
CA
2SO
MI
73P
9.6
74P
9.7
75
P10
.0/U
CB
3STE
/UC
A3C
LK76
P10
.1/U
CB
3SIM
O/U
CB
3SD
A77
P10
.2/U
CB
3SO
MI/U
CB
3SC
L78
P10
.3/U
CB
3CLK
/UC
A3S
TE79
P10
.4/U
CA
3TX
D/U
CA
3SIM
O80
P10
.5/U
CA
3RX
D/U
CA
3SO
MI
81P
10.6
82P
10.7
83
P11
.0/A
CLK
84P
11.1
/MC
LK85
P11
.2/S
MC
LK86
PJ.
0/TD
O92
PJ.
1/TD
I/TC
LK93
PJ.
2/TM
S94
PJ.
3/TC
K95
TES
T/S
BW
TCK
91
VC
OR
E62
U1
3 26
7 4
U2
34
27
5 8
16
U3
C1+
1
C1-
3
C2+
4
C2-
5
R1I
N13
R1O
UT
12
R2I
N8
R2O
UT
9
T1IN
11T1
OU
T14
T2IN
10T2
OU
T7
V+
2
V-
6
U4
1516
GND
VCCU4P
WR
#RE
SE
T19
3V3O
UT
17
AGND25
CB
US
023
CB
US
122
CB
US
213
CB
US
314
CB
US
412
CTS
#11
DC
D#
10D
SR
#9
DTR
#2
GND17
GND218
GND321
NC
18
NC
224
OS
CI
27
OS
CO
28
RI#
6
RTS
#3
RX
D5
TEST26
TXD
1
US
BD
M16
US
BD
P15
VC
C20
VC
CIO
4U5
UE
XT-
1U
EX
T-2
UE
XT-
3U
EX
T-4
UE
XT-
5U
EX
T-6
UE
XT-
7U
EX
T-8
UE
XT-
9U
EX
T-10
1 2 3 4
US
B
1 2
VD
D_E
AD
J/G
ND
INO
UT
VR
1(3.
3V)
Z1 Z2
6VA
C9V
DC
MSP
430-
5438
STK
Rev
. A
CO
PY
RIG
HT(
C),
200
9
http
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ev
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DO
WN
1-L
2 3-R
GND
0R
0R
0R 0R
VCC GND
FT232RL
USB
SH
IELD
DEB
UG
INTE
RFA
CE:
POW
ER S
UPP
LYA
UD
IOR
S232
SD/M
MC
UEX
T
USE
R J
OYS
TIC
KU
SER
LED
S
RES
ET C
IRC
UIT
LCD
USB
to R
S23
2
BOARD LAYOUT
POWER SUPPLY CIRCUITMSP430-5438STK can take power from three sources:
– PWR connector where 9 V DC or 6 V AC is applied by external power source.
– +5V_USB from USB DEV
– JTAG, when P_IN jumper is closed. Note that the JTAG has current limitations.
The board power consumption is: about 20 mA with all peripherals and microcontroller running at full speed.
RESET CIRCUITMSP430-5438STK reset circuit includes JTAG connector pin 11, EXT1 pin 3, MSP430F5438 pin 96 and Reset button.
CLOCK CIRCUITQuartz crystal 32768 MHz is connected to MSP430F5438 pin 13(P7.0/XIN) and pin 14 (P7.1/XOUT).
Quartz crystal 18 MHz is connected to MSP430F5438 pin 89 (P5.2/XT2IN) and pin 90 (P5.3/XT2OUT).
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JUMPER DESCRIPTIONPower In jumper:
P_IN jumper connects power supply from JTAG connector. You have to ensure that your circuit doesn't draw more than few milliampers current or the power supply may decrease due to the JTAG port current limitations. P_IN is useful and must be used mostly to program the microcontroller.
Power Out jumper:P_OUT jumper connects power from MSP430-5438STK to JTAG connector.
When this jumper cap is placed, the power supply of JTAG connector will follow the power supply of the board. This is useful when your board works at lower than +3,3V power supply.
Note:P_IN and P_OUT jumper caps should not be placed at the same time.
VDD_EEnable MSP430F5438 3.3 V power supply.
Default state is closed.3.3V_E
Enable 3.3V board power supply.Default state is closed.
3.3VA_EEnable 3.3V board analog power supply.Default state is closed.
AGND_EEnable board analog ground.Default state is closed.
Input/Output
User joystick with name J1 – this is 4 directions plus center button, in the schematic the joystick four directions switches are connected: UP, DOWN, LEFT, RIGHT - through 33k resistors and CENTER through serial connected 330 and 33k resistors to 3.3V.
Status LED (green) with name LED1 connected to MSP430F5438 pin 83 (P10.7).
Status LED (yellow) with name LED2 connected to MSP430F5438 pin 82 (P10.6).
Power supply LED (red) with name PWR – indicates that external power source is applied and board power supply is applied.
Reset button with name RESET, connected to MSP430F5438 pin 96.
LCD black/white 84x48 pixels
CONNECTOR DESCRIPTIONSJTAG
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Pin # Signal Name Pin # Signal Name
1 TDO 2 VCC_IN
3 TDI 4 VCC_OUT
5 TMS 6 NC
7 TCK 8 TEST
9 GND 10 NC
11 #RST 12 NC
13 NC 14 NC
RS232
Pin # Signal Name
1 NC
2 PC_RXD
3 PC_TXD
4 PC_DTR
5 GND
6 PC_DSR
7 PC_RTS
8 PC_CTS
9 NC
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USB DEV
Pin # Signal Name
1 +5V_USB
2 USBDM
3 USBDP
4 GND
PWR_JACK
Pin # Signal Name
1 Power Input
2 GND
UEXT
Pin # Signal Name
1 3.3V
2 GND
3 UCA0TXD
4 UCA0RXD
5 UCB1SCL
6 UCB1SDA
7 UCA1SOMI
8 UCA1SIMO
9 UCA1CLK
10 UCA1STE
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EXT1
Pin # Signal Name Pin # Signal Name
1 3.3V 2 GND
3 #RST 4 TCK
5 TMS 6 TDI
7 TDO 8 P11.2
9 P11.1 10 P11.0
11 LED1 12 LED2
13 UCA3RXD 14 UCA3TXD
15 P10.3 16 P10.2
17 P10.1 18 P10.0
19 UCB2CLK 20 UCB2SOMI
21 UCB2SIMO 22 P8.7
23 P8.6 24 P8.5
25 P8.4 26 P8.3
27 P8.2 28 P8.0
29 P7.2 30 P7.3
31 P7.4 32 P7.5
33 P7.6 34 P7.7
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EXT2
Pin # Signal Name Pin # Signal Name
1 3.3VA 2 AGND
3 P1.7 4 P1.1
5 P1.0 6 P2.7
7 P2.6 8 P2.5
9 P2.4 10 P2.3
11 P2.2 12 P2.1
13 P2.0 14 UCB1SDA
15 UCA1CLK 16 UCA0RXD
17 UCA0TXD 18 P4.7
19 P4.6 20 P4.5
21 P4.4 22 P4.3
23 P4.2 24 P4.1
25 P4.0 26 P6.6
27 P6.5 28 P6.4
29 P6.3 30 P6.2
31 P6.1 32 P6.0
33 P5.0 34 P5.1
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SD/MMC
Pin # Signal Name
1 Pull-up
2 UCB0STE
3 UCB0SIMO
4 VDD (power supply)
5 UCB0CLK
6 GND
7 UCB0SOMI
8 Pull-up
9 Not connected
10 Not connected
11 Not connected
12 Not connected
Microphone
Pin # Signal Name
1 AGND
2 NC
3 MIC
Headphone
Pin # Signal Name
1 AGND
2 IN1=IN2
3 IN2=IN1
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MECHANICAL DIMENSIONS
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AVAILABLE DEMO SOFTWARE
– Display demo
– LEDs and Buttons demo
– SD/MMC demo
– UART demo
– USB UART demo
– ADC and DAC demo
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ORDER CODEMSP430-5438STK – assembled and tested (no kit, no soldering required)
How to order? You can order to us directly or by any of our distributors. Check our web www.olimex.com/dev for more info.
Revision history:
REV.A - create October 2009
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Disclaimer
© 2009 Olimex Ltd. All rights reserved. Olimex®, logo and combinations thereof, are registered trademarks of Olimex Ltd. Other terms and product names may be trademarks of others.
The information in this document is provided in connection with Olimex products. No license, express or implied or otherwise, to any intellectual property right is granted by this document or in connection with the sale of Olimex products.
Neither the whole nor any part of the information contained in or the product described in this document may be adapted or reproduced in any material from except with the prior written permission of the copyright holder.
The product described in this document is subject to continuous development and improvements. All particulars of the product and its use contained in this document are given by OLIMEX in good faith. However all warranties implied or expressed including but not limited to implied warranties of merchantability or fitness for purpose are excluded.
This document is intended only to assist the reader in the use of the product. OLIMEX Ltd. shall not be liable for any loss or damage arising from the use of any information in this document or any error or omission in such information or any incorrect use of the product.
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