MSP-EXPCC430RFx Experimenter Kit
ECCN 5A002A1A
User's Guide
Literature Number: SLAU460
January 2013
Contents
1
MSP-EXPCC430RFx Experimenter Kit Overview ...................................................................... 4
6
7
.................................................................................................................. 4
1.2
Kit Contents .............................................................................................................. 8
Getting Started With the MSP-EXPCC430RFx Experimenter Kit ................................................ 8
2.1
Hardware Preparation .................................................................................................. 8
2.2
Software Preparation ................................................................................................... 9
2.3
MSP-EXPCC430RFx User Experience ............................................................................. 10
2.4
MSP-EXPCC430RFx Firmware Applications ...................................................................... 10
2.5
CC430 Wireless Network GUI ........................................................................................ 11
MSP-EXPCC430RFx Experimenter Kit Hardware .................................................................... 12
3.1
MSP-EXP430F6137Rx Hardware Description ..................................................................... 12
3.2
MSP-EXP430F5137Rx Hardware Description ..................................................................... 13
3.3
Schematics ............................................................................................................. 13
3.4
PCB Layout ............................................................................................................. 17
MSP-EXPCC430RFx Experimenter Kit Firmware .................................................................... 19
4.1
Import Project in Code Composer Studio™ ........................................................................ 19
4.2
Open Project in IAR Embedded Workbench™ .................................................................... 19
4.3
SimpliciTI™ RF Protocol .............................................................................................. 19
4.4
SimpliciTI Configuration for the MSP-EXPCC430RFx User Experience ....................................... 19
4.5
5xx/6xx Core Libraries ................................................................................................ 20
MSP-EXPCC430RFx Experimenter Kit Software ..................................................................... 20
5.1
Requirements ........................................................................................................... 20
References ....................................................................................................................... 20
Bills of Materials (BOM) ...................................................................................................... 21
2
Table of Contents
1.1
2
3
4
5
Overview
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List of Figures
1
MSP-EXPCC430RFx Experimenter Kit – MSP-EXP430F6137Rx Base Board (Front)............................ 5
2
MSP-EXPCC430RFx Experimenter Kit – MSP-EXP430F6137Rx Base Board (Back) ............................ 6
3
MSP-EXPCC430RFx Experimenter Kit – MSP-EXP430F5137Rx Satellite Board (Front) ........................ 7
4
MSP-EXPCC430RFx Experimenter Kit – MSP-EXP430F5137Rx Satellite Board (Back)
5
MSP-EXP430F6137Rx Base Board Hardware ........................................................................ 12
6
MSP-EXP430F5137Rx Satellite Board Hardware
7
MSP-EXP430F6137Rx Base Board Schematic – Page 1 ........................................................... 13
8
MSP-EXP430F6137Rx Base Board Schematic – Page 2 ........................................................... 14
9
MSP-EXP430F6137Rx Base Board Schematic – Page 3 ........................................................... 15
10
MSP-EXP430F5137Rx Satellite Board Schematic.................................................................... 16
11
MSP-EXP430F6137Rx Base Board Layout
12
MSP-EXP430F5137Rx Satellite Board Layout ........................................................................ 18
........................
....................................................................
...........................................................................
7
13
17
List of Tables
1
MSP-EXP430F6137R9 Base Board (HW-V2.1) BOM ................................................................ 21
2
MSP-EXP430F5137R9T Satellite Board (HW-V2.0) BOM ........................................................... 25
3
MSP-EXP430F6137R4 Base Board (HW-V2.1) BOM ................................................................ 26
4
MSP-EXP430F5137R4T Satellite Board (HW-V2.0) BOM ........................................................... 30
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3
User's Guide
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MSP-EXPCC430RFx Experimenter Kit User’s Guide
1
MSP-EXPCC430RFx Experimenter Kit Overview
1.1
Overview
The MSP-EXPCC430RFx Experimenter Kit is the complete sub-GHz development platform for the CC430
devices from the MSP430™ family. The kit provides two sub-GHz wireless modules: the MSPEXP430F6137Rx Base Board with the CC430F6137, and the MSP-EXP430F5137Rx Satellite Board with
the CC430F5137. Out of the box, the two modules enable demonstration of a SimpliciTI™ wireless sensor
network and take full advantage of a highly-integrated LCD and PC connection. Additionally, the kit also
enables a complete development and prototyping environment to design a wireless application.
NOTE: The term MSP-EXP430F6137Rx throughout this user's guide refers to the full different
frequency derivatives of the product as follows:
•
MSP-EXP430F6137R4 for 433 MHz
•
MSP-EXP430F6137R9 for 868 MHz and 915 MHz
The term MSP-EXP430F5137Rx throughout this user's guide refers to the full different
frequency derivatives of the product as follows:
•
MSP-EXP430F5137R4T for 433 MHz
•
MSP-EXP430F5137R9T for 868 MHz 915 MHz
The MSP-EXPCC430RFx kits are available from the TI estore:
MSP-EXPCC430RF4 - CC430 Sub-GHz RF Experimenter’s Board for 433 MHz
MSP-EXPCC430RF9 - CC430 Sub-GHz RF Experimenter’s Board for 868 and 915 MHz
MSP430, SimpliciTI, Code Composer Studio are trademarks of Texas Instruments.
All other trademarks are the property of their respective owners.
4
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MSP-EXPCC430RFx Experimenter Kit Overview
Figure 1. MSP-EXPCC430RFx Experimenter Kit – MSP-EXP430F6137Rx Base Board (Front)
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MSP-EXPCC430RFx Experimenter Kit Overview
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Figure 2. MSP-EXPCC430RFx Experimenter Kit – MSP-EXP430F6137Rx Base Board (Back)
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MSP-EXPCC430RFx Experimenter Kit Overview
Figure 3. MSP-EXPCC430RFx Experimenter Kit – MSP-EXP430F5137Rx Satellite Board (Front)
Figure 4. MSP-EXPCC430RFx Experimenter Kit – MSP-EXP430F5137Rx Satellite Board (Back)
The MSP-EXPCC430RFx Experimenter Kit features the RF System-on-Chip CC430 devices,
CC430F6137 with LCD driver and CC430F5137. This combination of devices enables sub-GHz RF
communication on the ultra-low-power MCU platform. The CC430 devices allow for high-performance
radio with high sensitivity and excellent blocking, while minimizing the number of external components by
integrating the solution into a single-chip MCU platform.
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Getting Started With the MSP-EXPCC430RFx Experimenter Kit
1.2
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Kit Contents
The MSP-EXPCC430RFx Experimenter Kit includes two components:
• One MSP-EXP430F6137Rx Based Board with CC430F6137, RF front end with sub-GHz chip antenna
and options for wire antenna and SMA connector, 96-segment alphanumeric LCD, on-board integrated
debugging and programming emulator, four push buttons, four LEDs, and a light sensor.
• One MSP-EXP430F5137Rx Satellite Board with CC430F5137, RF front end with sub-GHz chip
antenna, one push button, and one LED.
The CC430 devices feature an ultralow-power 16-bit microcontroller with an integrated radio core, an
optional 96-segment LCD controller, 12-bit ADC, comparator, universal serial interface (supports UART,
SPI and I2C), 32KB flash memory, and 4KB RAM memory.
2
Getting Started With the MSP-EXPCC430RFx Experimenter Kit
The following sections describe the preparation necessary to run the user experience application demo
and to start developing applications with the MSP-EXPCC430RFx Experimenter Kit
2.1
Hardware Preparation
The MSP-EXPCC430RF9 (868 MHz or 915 MHz) version of the kit is preprogrammed with firmware
operating at the 868-MHz frequency band. To comply with local regulations, ensure that the 915-MHz
version of the firmware images are programmed onto both the MSP-EXP430F6137 Base Board and the
MSP-EXP430F5137 Satellite Board before using the kits in North America (USA or Canada).
Programming of the firmware can be done using the firmware loader or the IAR or CCS software projects
included in the MSP-EXPCC430RFx User Experience Software Package (MSP-EXPCC430RFx Software
Download).
2.1.1
Program the MSP-EXP430F6137Rx Base Board
Set the "Debug (SBW)" switch and the "UART" switch to the "Base Board" position.
Set the"SW PWR" (power selector) switch to the "USB" position.
Connect the USB cord from the PC to the MSP-EXP430F6137Rx.
On the PC, browse to the folder that contains the firmware:
C:\ti\msp430\MSP-EXPCC430_UE_1_00_00_01\bin\firmware
5. Double click on the appropriate .bat file for the version of the firmware that is required (433, 868, or
915 MHz). The MSP430 Flasher tool programs the device with this firmware.
1.
2.
3.
4.
2.1.2
Program the MSP-EXP430F5137Rx Satellite Board
Make sure that the MSP-EXP430F5137Rx Satellite Board is connected to the Base Board.
Set the "Debug (SBW)" switch and the "UART" switch to the "Satellite" position.
Set the"SW PWR" (power selector) switch to the "USB" position.
Connect the USB cord from the PC to the MSP-EXP430F6137Rx.
On the PC, browse to the folder that contains the firmware:
C:\ti\msp430\MSP-EXPCC430_UE_1_00_00_01\bin\firmware
6. Double click on the appropriate .bat file for the version of the firmware that is required (433, 868, or
915 MHz). The MSP430 Flasher tool programs the device with this firmware.
1.
2.
3.
4.
5.
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2.1.3
Prepare the MSP-EXPCC430RFx Experimenter Kit for Operation
2.1.3.1
Base Board MSP-EXP430F6137Rx
1. Select the power switch configuration to match the power supply in use (an external DC power supply,
batteries, or the USB connector).
2. If the batteries option is selected, insert the two AA batteries provided with the kit into the sockets on
the back on the MSP-EXP430F6137Rx base board. Observe the correct polarity (see the markings
inside the battery compartment).
3. If the USB power option is selected, connect the board to a PC using the included USB to mini-USB
cable. The USB connection also enables the PC GUI functionality.
2.1.3.2
Satellite Board MSP-EXP430F5137Rx
1. Insert the two AAA batteries that are provided with the kit into the provided battery pack. Observe the
correct polarity (see the markings inside the battery holder).
NOTE:
If the board is powered by batteries or through the DC connector, the emulator is not
powered and keeps the connected target device in RESET. Therefore, the Debug (SBW)
selector must be set to the "Satellite" board for the User Experience software to operate.
NOTE: The battery pack must be disconnected from the satellite board before connecting the
satellite board to the base board.
2. Connect the included battery pack to the MSP-EXP430F5137Rx via the 3-pin connector CON3.
2.2
Software Preparation
The steps described in the following sections are not required for the MSP-EXPCC430RFx Experimenter
Kit stand-alone demo. For all other purposes that require PC software interaction, proper installation of the
hardware driver and the software is required. To develop applications, it is also necessary to install one of
the IDEs shown in the Tools and Software section of the MSP430 landing page www.ti.com/msp430. More
information on how to start developing applications on the MSP-EXPCC430RFx platform or with the
CC430 RF SoC devices can be found on the www.ti.com/msp-expcc430rfx.
All of the MSP-EXPCC430RFx User Experience firmware and software that is described in the following
sections is provided in both binary (executable) and source code forms, along with drivers and supporting
documentation. An installation package can be downloaded from MSP-EXPCC430RFx Software
Download. The same software package link and updates can also be found in the MSP-EXPCC430RFx
tool folder, http://www.ti.com/tool/msp-expcc430rfx. When this package is installed, all user experience
application demos are stored in the Software folder in the selected installation directory (the default
directory is C:\ti\msp430\), and the source code for the projects is installed to the src folder.
2.2.1
USB Driver
The USB driver must be installed for the PC to communicate with the MSP-EXP430F6137Rx based board
through USB. If this is the first time the MSP-EXP430F6137Rx based board is connected to the PC, install
the USB serial COM port driver located at [INSTALL_PATH]\USB_Driver\USB_Driver.exe.
NOTE: The USB drivers are integrated into the installer packages for the Code Composer Studio™
IDE (version 5+) or IAR Embedded Workbench™ IDE (version 5.20+) and do not require a
second installation if one of these IDEs has already been installed.
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Getting Started With the MSP-EXPCC430RFx Experimenter Kit
2.2.2
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Software Package Installation
Open the MSP-EXPCC430RFx Software Package to start the installation (MSP-EXPCC430RFx Software
Download). Accept the license agreement and specify the install path (the default path is C:\ti\msp430).
The installer populates the folder with the source code and binaries for the kit's User Experience firmware
and the PC GUI, the hardware design files, and the USB driver files.
2.3
MSP-EXPCC430RFx User Experience
The MSP-EXPCC430RFx User Experience includes two projects:
1. Firmware applications that are pre-loaded on the MSP-EXP430F6137Rx Base Board and the MSPEXP430F5137Rx Satellite Board to demonstrate a stand-alone wireless network using the SimpliciTI
protocol.
2. When the Base Board is connected to the PC, the CC430 Wireless Network GUI program can be used
to enable visualization of the wireless sensor network.
2.4
MSP-EXPCC430RFx Firmware Applications
The MSP-EXPCC430RFx User Experience application forms a star network using the SimpliciTI protocol.
The Satellite Board acts as the End Device, and the Base Board acts as the Access Point. The Base
Board can connect to a PC via the USB cable and transmit information back to the CC430 Wireless
Network GUI running on the PC.
2.4.1
Access Point (AP or Hub)
The MSP-EXP430F6137Rx Base Board functions as the Access Point (also called the Hub), to create and
broadcast the star network using the SimpliciTI protocol. It allows compatible End Devices (EDs) to join
the network. The Base Board displays the status and sensor information of the devices on the network on
its LCD. The Base Board also provides its own status and sensor (temperature and light sensors)
information to the display. The Base Board captures more detailed network and device information and
provides that information to the PC GUI through the UART-USB bridge if the USB connection is enabled
between the board and the PC.
To start and operate the MSP-EXP430F6137Rx Base Board:
1. The MSP-EXP430F6137Rx Base Board displays "Access Point Up" on the LCD and starts accepting
connections from the Satellite Boards.
2. When a new ED successfully joins the network, the LCD briefly displays "Added New Device" and
resumes displaying network information.
3. When the network is active, the LCD displays the information of the AP and connected EDs. The first
digit on the LCD indicates the address of the device (a number for an ED, 'H' for the Hub or AP).
Subsequent digits show the temperature or RSSI value of the device.
4. The UP and DOWN buttons on the Base Board can be used to cycle through the device list.
5. The LEFT and DOWN buttons on the Base Board can be used to toggle the LCD to show the
temperature or the received signal strength indicator (RSSI) value from the EDs. If the AP (Hub) is
currently selected, the LCD switches between the temperature of the AP and the analog reading of the
light sensor.
10
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2.4.2
End Device (ED)
The MSP-EXP430F5137Rx Satellite Board functions as an End Device on the star network that is created
using the SimpliciTI protocol.
1. When supplied with power, the Satellite Board seeks out compatible network broadcasts from an AP
and attempts to join the network. During this phase, the on-board LED slowly toggles on and off to
indicate each attempt.
2. After it successfully joins the network, the Satellite Board periodically measures its temperature and
transmits its heartbeat message to the AP. Each transmission is indicated by the brief pulse of the
LED.
3. Additionally, the push button can be used to transmit an Alert message, which causes the AP to show
this ED's information on the LCD. The exclamation mark (!) on the LCD also briefly turns on, further
highlighting the Alert message to the user.
2.5
CC430 Wireless Network GUI
The included CC430 Wireless Network GUI is designed to provide more detailed information as well as
visual presentation of the network and device information. The GUI requires a PC USB connection from
the MSP-EXPF6137Rx Base Board. The Base Board captures all status and sensor information from the
devices (including the AP itself) and relays the prepared packets to the PC GUI. The GUI displays the
wireless network in the star topology, showing the connected and disconnected devices along with their
status information such as RSSI (relative distance from the AP), temperature, and remaining battery life.
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MSP-EXPCC430RFx Experimenter Kit Hardware
3
MSP-EXPCC430RFx Experimenter Kit Hardware
3.1
MSP-EXP430F6137Rx Hardware Description
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Figure 5. MSP-EXP430F6137Rx Base Board Hardware
NOTE:
1.
2.
12
The external voltage and current specifications for the DC connector are: 1.8 V to 3.6 V,
75 mA.
The PCBs shown in Figure 5 and Figure 6 are UL flammability rated 94V-0.
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3.2
MSP-EXP430F5137Rx Hardware Description
Figure 6. MSP-EXP430F5137Rx Satellite Board Hardware
3.3
Schematics
Figure 7. MSP-EXP430F6137Rx Base Board Schematic – Page 1
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MSP-EXPCC430RFx Experimenter Kit Hardware
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Figure 8. MSP-EXP430F6137Rx Base Board Schematic – Page 2
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Figure 9. MSP-EXP430F6137Rx Base Board Schematic – Page 3
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MSP-EXPCC430RFx Experimenter Kit Hardware
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Figure 10. MSP-EXP430F5137Rx Satellite Board Schematic
16
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3.4
MSP-EXPCC430RFx Experimenter Kit Hardware
PCB Layout
Figure 11. MSP-EXP430F6137Rx Base Board Layout
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MSP-EXPCC430RFx Experimenter Kit Hardware
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Figure 12. MSP-EXP430F5137Rx Satellite Board Layout
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4
MSP-EXPCC430RFx Experimenter Kit Firmware
This section describes the firmware applications provided with the project. Detailed information on the
project construction, the use of the 5xx/6xx Core Library, the use of the TI's SimpliciTI RF stack, and how
to set up and import the projects is included. Source code for the CC430F6137 and the CC430F5137
firmware application is installed to the [INSTALL_PATH]\src\ folder as described in Section 2.2.
4.1
Import Project in Code Composer Studio™
To
1.
2.
3.
4.
5.
import the project into CCS:
Open CCS.
Select a new project workspace outside of the project folder.
Select Project-->Import Existing Project.
Browse to the [PROJECT_ROOT]\CCS folder.
Click Finish
NOTE:
4.2
Open Project in IAR Embedded Workbench™
To
1.
2.
3.
4.
4.3
For CCS, while the project root is in the outer directory, the CCS project files are located
inside the CCS folder. To enable the portability of the project, the file macros.ini is created to
define the root. Additionally, all project code files (.c, .h) are added as linked resources with
their relative path to the project root.
open the project in IAR Embedded Workbench:
Open IAR.
Select Project → Add Existing Project
Browse to the [PROJECT_ROOT]\IAR folder
Select the project file *.ewp to open the project
SimpliciTI™ RF Protocol
The SimpliciTI protocol is a simple low-power RF network protocol designed for small RF networks. Such
networks typically contain battery-operated devices that require long battery life, low data rate, low duty
cycle, and have a limited number of nodes talking directly to each other or through an access point or
range extenders. Access point and range extenders are not required but provide extra functionality such
as store and forward messages. The SimpliciTI protocol requires minimal MCU resource requirements,
which results in low system cost.
The SimpliciTI protocol was designed for easy implementation and deployment out-of-the-box on several
TI RF platforms such as the MSP430 family of low-power MCUs and the CC1xxx, CC25xx, and CC430
transceivers and SoCs.
For more information on the SimpliciTI protocol, visit www.ti.com/simpliciti.
4.4
SimpliciTI Configuration for the MSP-EXPCC430RFx User Experience
The MSP-EXPCC430RFx User Experience application uses the SimpliciTI protocol in its star network
configuration to enable a sensor hub with the MSP-EXP430F6137Rx Base Board and multiple sensor
nodes (End Devices) with the MSP-EXP430F5137Rx Satellite Board. Minor configuration changes were
made to the stack to support CC430F6137 and CC430F5137 devices on SimpliciTI.
The SimpliciTI network is configured to accept up to 16 end devices. In the radio configuration, the
frequency settings are configured specifically for the frequency bands regulated by the geographical
locations. Specifically they are 915-MHz band for the US, 868-MHz band for Europe, and 433-MHz for
most other locations.
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On the MSP-EXP430F5137Rx Satellite Board, two types of packets, heartbeat and alert, are prepared for
SimpliciTI transmissions. The MSP-EXP430F6137Rx Base Board running the AP stack is configured to
expect and process these two types of packets accordingly.
4.5
5xx/6xx Core Libraries
The CC430 devices are a member of the MSP430 5xx/6xx family devices. The 5xx/6xx family architecture
introduces several new core peripherals to enhance the device performance, optimize power consumption,
and allow for high flexibility and fine control of various aspects of the device core. These peripherals
include the Power Management Module (PMM), Unified Clock System (UCS), Port Map (PMAP), and
Flash modules. The 5xx/6xx core libraries provide a simple and efficient way of configuring and handling
these modules. The MSP-EXPCC430RFx User Experience utilizes the 5xx/6xx core libraries to properly
configure and start the CC430 core peripherals in the right sequence. The 5xx/6xx Core Libraries are
incorporated into the MSP430Ware DriverLib. More information and download links for MSP430Ware and
DriverLib can be found at http://softwaredl.ti.com/msp430/msp430_public_sw/mcu/msp430/MSP430ware/latest/index_FDS.html.
5
MSP-EXPCC430RFx Experimenter Kit Software
The MSP-EXPCC430RFx software package (MSP-EXPCC430RFx Software Download) includes the
CC430 Wireless Network GUI, which interfaces with the MSP-EXPCC430F6137Rx Base Board through
USB to display the wireless network based on the data received through the USB connection. In addition
to displaying the network topology, the GUI also offers vital information for the Access Point and the End
Devices including the supply voltage (VCC), temperature, and the End Devices' Received Signal Strength
Indicator (RSSI).
5.1
Requirements
When modifying the CC430 Wireless Network GUI source code, Microsoft Visual C++ and Qt package are
required.
• Microsoft Visual C++ is part of the Microsoft Visual Studio suite, which can be downloaded at
http://www.microsoft.com/visualstudio/en-us/products/2010-editions/express.
• Qt is a cross-platform application framework provided by Nokia, which can be downloaded at
http://qt.nokia.com/downloads/.
6
References
1.
2.
3.
4.
5.
6.
7.
8.
9.
20
MSP-EXPCC430RFx Experimenter Kit Product folder (www.ti.com/tool/msp-expcc430rfx)
MSP-EXPCC430RFx User Experience Software Package: MSP-EXPCC430RFx Software Download
CC430F6137 product folder: http://www.ti.com/product/cc430f6137
CC430F5137 product folder: http://www.ti.com/product/cc430f5137
CC430 User's Guide (SLAU259)
eZ430-Chronos Wiki: http://processors.wiki.ti.com/index.php/EZ430-Chronos
eZ430-Chronos product folder: http://www.ti.com/tool/ez430-chronos
MSP430 home page: http://www.ti.com/msp430
SimpliciTI product page folder: http://www.ti.com/simpliciti
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Bills of Materials (BOM)
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7
Bills of Materials (BOM)
Table 1. MSP-EXP430F6137R9 Base Board (HW-V2.1) BOM
Part
Value
Tolerance
Package
Manufacturer Details
Distributor
Part No.
Johanson
Technology
500R07S2R2BV4T
Johanson
Technology
500R07S2R2BV4T
Capacitors
C1
n.m.
C0402
C2
n.m.
C0402
C3
2.2pF
C0402
C4
100nF
10%
C0402
C5
1uF
10%
C0603
C6
10nF
10%
C0402
C7
33pF
±0,25pF
C0402
C8
33pF
±0,25pF
C0402
C9
22pF
±0,25pF
C0402
C10
22pF
±0,25pF
C0402
C11
1uF
10%
C0603
C12
100nF
10%
C0402
C13
100nF
10%
C0402
C14
1uF
10%
C0603
C15
100nF
10%
C0402
C16
100nF
10%
C0402
C17
100nF
10%
C0402
C18
1nF
10%
C0402
C19
n.m.
C0402
C20
n.m.
C0402
C21
n.m.
C22
100uF
20%
C-POLB/3528
C23
100nF
10%
C0603
C24
68pF
C25
10uF
20%
C0603
C26
2pF
±0,25pF
C0402
C27
2pF
±0,25pF
C0402
C28
2pF
±0,25pF
C0402
C29
470nF
10%
C0402
C30
27pF
±0,25pF
C0402
C31
27pF
±0,25pF
C0402
C32
10uF
10%
C0603
C33
100nF
10%
C0402
C34
10uF
20%
C0603
C35
100nF
10%
C0402
C36
10uF
20%
C0603
C37
100nF
10%
C0402
C38
100nF
10%
C0402
C39
2pF
±0,25pF
C0402
C40
100nF
10%
C0402
C41
2pF
±0,25pF
C0402
C42
100nF
10%
C0402
C43
100nF
10%
C0402
C44
100nF
10%
C0402
C45
1.5pF
C47
100nF
10%
C0402
C48
10uF
20%
C0603
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C0402
C0402
C0402
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Table 1. MSP-EXP430F6137R9 Base Board (HW-V2.1) BOM (continued)
Part
Value
Tolerance
Package
C49
2.2nF
±0,25pF
C0402
Manufacturer Details
Distributor
Part No.
C50
1pF
±0,25pF
C0402
C51
1.5pF
±0,25pF
C0402
C52
100pF
10%
C0402
C53
1.5pF
±0,25pF
C0402
C54
1.5pF
±0,25pF
C0402
C55
6.8pF
±0,25pF
C0402
C56
n.m.
C0402
D1
1N4148WT
SOD523
D2
n.m.
SOD523
L1
BLM15HG102SN1D
L0402
Murata
Ferrit, SMT, 250mA
BLM15HG102SN1D
L2
BLM15AX700SN1
L0402
Murata
Ferrit, SMT, 780mA
BLM15AX700SN1
L4
12nH
5%
L0402
Johanson
Technology
L-07W12NJV4S
L5
18nH
5%
L0402
Johanson
Technology
L-07W18NJV4S
L6
15nH
5%
L0402
Johanson
Technology
L-07W15NJV4S
L7
2,2nH
±0,2nH
L0402
Johanson
Technology
L-07W2N2JV4S
L8
15nH
5%
L0402
Johanson
Technology
L-07W15NJV4S
L9
12nH
5%
L0402
Johanson
Technology
L-07W12NJV4S
L10
18nH
5%
L0402
Johanson
Technology
L-07W18NJV4S
L11
15nH
L0402
Johanson
Technology
L-07C15NJV6T / L07W15NJV6T
Diodes
(PESD5V0U1UB)
Inductors
Resistors
22
R1
n.m.
1%
R0402
R2
n.m.
1%
R0402
R3
470R
1%
R0402
R4
750R
1%
R0402
R5
47kR
1%
R0402
R6
100R
1%
R0402
R7
100R
1%
R0402
R8
47kR
1%
R0402
R9
47kR
1%
R0402
R10
100R
1%
R0402
R11
100R
1%
R0402
R12
33kR
1%
R0402
R13
33R
1%
R0402
R14
33R
1%
R0402
R15
1.5kR
1%
R0402
R16
6.8kR
1%
R0402
R17
3.3kR
1%
R0402
R18
1.5kR
1%
R0402
R19
1.5kR
1%
R0402
R20
100R
1%
R0402
R21
15kR
1%
R0402
R22
47kR
1%
R0402
R23
47kR
1%
R0402
MSP-EXPCC430RFx Experimenter Kit User’s Guide
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Table 1. MSP-EXP430F6137R9 Base Board (HW-V2.1) BOM (continued)
Part
Value
Tolerance
Package
R24
3.3kR
1%
R0402
R25
3.3kR
1%
R0402
R26
100kR
1%
R0402
R27
100kR
1%
R0402
R28
33kR
1%
R0402
R29
10kR
1%
R0402
R30
47kR
1%
R0402
R31
100R
1%
R0402
R32
270R
1%
R0402
R33
56kR
1%
R0402
R34
0R
1%
R0402
R35
56kR
1%
R0402
R36
47kR
1%
R0402
R37
0R
1%
R0402
Manufacturer Details
Distributor
Part No.
IC
IC1
CC430F6137IRGC
S-PQFP-N64
TI
CC430F6137
IC2
TUSB3410VF
VF32
TI
TUSB3410VF
IC3
AT24C12810-TU
TSSOP8
Atmel
AT24C12810-TU
IC4
TPS77301DGK
MSO8
TI
TPS77301DGK
IC5
TPD2E001DRL
SOT533-5
TI
TPD2E001DRL
IC6
SN74CBTLV3384D
BQR
24-SSOP
TI
SN74CBTLV3384
IC7
SFH5711
SFH5711
Osram
SFH5711
IC8
MSP430F1612IPM
PM/PAG64
TI
MSP430F16x
SW1
JS203011CQN
JS203011CQN
C&K
Components
JS203011CQN
SW2
J202011CQN
JS202011CQN
C&K
Components
JS203011CQN
SW3
J202011CQN
JS202011CQN
C&K
Components
JS203011CQN
SW4
J202011CQN
JS202011CQN
C&K
Components
JS203011CQN
SW_D
FSM2JSMA
B3FS-1002P
Omron
B3FS-1002P
SW_L
FSM2JSMA
B3FS-1002P
Omron
B3FS-1002P
SW_R
FSM2JSMA
B3FS-1002P
Omron
B3FS-1002P
SW_RES
FSM2JSMA
B3FS-1002P
Omron
B3FS-1002P
SW_U
FSM2JSMA
B3FS-1002P
Omron
ANT1
0920AT50A080
Johanson
Technology
868/915MHz
0920AT50A080
ANT2
n.m.
Johanson
Technology
433MHz
0433AT62A0020
BAT1
1028_KEYSTONE
Keystone
1028
BAT2
1028_KEYSTONE
Keystone
1028
LCD1
FH-1138H
TI
LED1
APT1608QBC/D(blu
e)
LED0603
Kingbright
blue
APT1608QBC/D
LED2
APT1608MGC(gree
n)
LED0603
Kingbright
green
APT1608MGC
LED3
APT1608SYCK(yell
ow)
LED0603
Kingbright
yellow
APT1608SYCK
LED4
APT1608SRCPRV(r
ed)
LED0603
Kingbright
red
APT1608SRCPRV
Q1
FT10A-12,0/16-3030/27
5032-4PIN
Coftech
Miscellaneous
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B3FS-1002P
FH-1138H
12MHz, 16pF,
30ppm
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Bills of Materials (BOM)
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Table 1. MSP-EXP430F6137R9 Base Board (HW-V2.1) BOM (continued)
Part
Value
Q2
CTA531-26.000-1610/10/A
Q3
CC7VT1A_32,768kHz_12
,5pF
T1
Tolerance
Package
Manufacturer Details
NX5032
Compotek
hf crystal
CTA531-26.000-1610/10/A
3216
Micro Crystal
watch crystal
CC7VT1A_32,768kHz_12
,5pF
SI2323DS
SOT23-3
Vishay
P-Channel 20-V
MOSFET
T2
SI2323DS
SOT23-3
Vishay
P-Channel 20-V
MOSFET
P1
n.m.
1X16
provided separately
by EMS
P2
n.m.
1X16
provided separately
by EMS
P3
n.m.
1X16
provided separately
by EMS
P4
n.m.
1X3
provided separately
by EMS
P5
n.m.
1X3
provided separately
by EMS
P6
PINHD-1X3
1X3
or identical in
construction
MPE Garry
0871-1-003-0-Txso-1260
P7
PINHD-1X3
1X3
or identical in
construction
MPE Garry
0871-1-003-0-Txso-1260
P8
PINHD-1X2
1X2
or identical in
construction
MPE Garry
0871-1-002-0-Txso-1260
P9
PINHD-1X2
1X2
or identical in
construction
MPE Garry
0871-1-002-0-Txso-1260
P10
PINHD-1X2
1X2
or identical in
construction
MPE Garry
0871-1-002-0-Txso-1260
P11
PINHD-1X3
1X3
or identical in
construction
MPE Garry
0871-1-003-0-Txso-1260
P12
PINHD-1X2
1X2
or identical in
construction
MPE Garry
0871-1-002-0-Txso-1260
P13
PINHD-2X4
2X4
or identical in
construction
MPE Garry
0871-2-004-0-Txso-1260
P14
PINHD-1X2
1X2
or identical in
construction
MPE Garry
0871-1-002-0-Txso-1260
CON1
n.m.
BU-SMA-V
SMA Female
Connector
CON2
USB-MINI_2486_01
USB-MINI_2486_01
LUMBERG
2486 01
CON3
NEB21R
DC_BUCHSE_2,
1MM
LUMBERG
NEB 21 R
CON4
TFM-110-02-S-D-AK
10X2_SAMTEC_M
SAMTEC
TFM-110-02-S-D-AK
CON5
TFM-110-02-S-D-AK
10X2_SAMTEC_M
SAMTEC
TFM-110-02-S-D-AK
CON6
n.m.
STL_31-06 SGU
MPE
STL_31-06 SGU
±20ppm
Distributor
Part No.
PCB
1,283mm x 100mm
x 120mm
24
FR4, TG150, see
CC-EXP4306137RF9-HWV1-PCB.pdf
MSP-EXPCC430RFx Experimenter Kit User’s Guide
Copyright © 2013, Texas Instruments Incorporated
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Table 2. MSP-EXP430F5137R9T Satellite Board (HW-V2.0) BOM
Part
Value
Tolerance
Package
Manufactur
er
Details
Distributor
Part No.
Capacitors
C1
100uF
C1210
C2
n.m.
C0402
C3
n.m.
C0402
C4
n.m.
C0402
470
R0402
Resistors
R1
Miscellaneous
SW1
B3U-1000P
B3U-1000P
Omron
SW2
B3U-1000P
B3U-1000P
Omron
M66210110
MODUL1
A85200101
CON1
10X2_SAMTEC_F
Samtec
10x2, female
SFM-110-02-S-DA-K
CON2
10X2_SAMTEC_F
Samtec
10x2, female
SFM-110-02-S-DA-K
CON3
22-03-5035
1x3, 2.5mm
Molex
male
22-03-5035
CON4
n.m.
2x9, 2.54mm
CON5
BL31-006U
1x6, 1.27mm
MPE
LED1
APT1608SRCPRV
0603
Kingbright
red
ANT1
n.m.
Johanson
433MHz, SMD
M66210110
AMBER wireless
AMB8520 ungeprüft
Pinhead
MPE
BL31-006U
Johanson
0433AT62A0020
PCB
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Table 3. MSP-EXP430F6137R4 Base Board (HW-V2.1) BOM
Part
Value
Tol.
Package
Manufacturer or Comments
Distributor
Part No.
C1
2.2pF
±0, 25pF
C0402
Johanson
Technology
specific for 433MHz
var ***R4
500R07S2R2BV4T
C2
n.m.
C0402
C3
n.m.
C0402
Johanson
Technology
specific for 433MHz
var ***R4
500R07S2R2BV4T
C4
100nF
10%
C0402
C5
1uF
10%
C0603
C6
10nF
10%
C0402
C7
33pF
5%
C0402
C8
33pF
5%
C0402
C9
22pF
5%
C0402
C10
22pF
5%
C0402
C11
1uF
10%
C0603
C12
100nF
10%
C0402
C13
100nF
10%
C0402
C14
1uF
10%
C0603
C15
100nF
10%
C0402
C16
100nF
10%
C0402
C17
100nF
10%
C0402
C18
1nF
10%
C0402
C19
220pF
10%
C0402
C20
n.m.
C21
n.m.
C22
100uF
20%
C-POLB/3528
C23
100nF
10%
C0603
C24
n.m.
C25
10uF
20%
C0603
C26
2pF
±0, 25pF
C0402
C27
2pF
±0, 25pF
C0402
C28
2pF
±0, 25pF
C0402
C29
470nF
10%
C0402
C30
27pF
5%
C0402
C31
27pF
5%
C0402
C32
10uF
10%
C0603
C33
100nF
10%
C0402
C34
10uF
20%
C0603
C35
100nF
10%
C0402
C36
10uF
20%
C0603
C37
100nF
10%
C0402
C38
100nF
10%
C0402
C39
2pF
±0, 25pF
C0402
C40
100nF
10%
C0402
C41
2pF
±0, 25pF
C0402
C42
100nF
10%
C0402
C43
100nF
10%
C0402
C44
100nF
10%
C0402
C45
220pF
10%
C0402
C47
100nF
10%
C0402
C48
10uF
20%
C0603
Capacitors
26
specific for 433MHz
var ***R4
C0402
C0402
C0402
MSP-EXPCC430RFx Experimenter Kit User’s Guide
Copyright © 2013, Texas Instruments Incorporated
specific for 433MHz
var ***R4
specific for 433MHz
var ***R4
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Table 3. MSP-EXP430F6137R4 Base Board (HW-V2.1) BOM (continued)
Part
Value
Tol.
Package
Manufacturer or Comments
Distributor
Part No.
C49
2.2nF
10%
C0402
C50
2.7pF
±0,25pF
C0402
specific for 433MHz
var ***R4
C51
3.9pF
±0,25pF
C0402
specific for 433MHz
var ***R4
C52
220pF
10%
C0402
specific for 433MHz
var ***R4
C53
3.9pF
±0,25pF
C0402
specific for 433MHz
var ***R4
C54
220pF
10%
C0402
specific for 433MHz
var ***R4
C55
4.7pF
±0,25pF
C0402
specific for 433MHz
var ***R4
C56
n.m.
C0402
D1
1N4148WT
SOD523
D2
n.m.
SOD523
L1
BLM15HG102SN1D
L0402
Murata
Ferrit, SMT, 250mA
BLM15HG102SN1D
L2
BLM15AX700SN1
L0402
Murata
Ferrit, SMT, 780mA
BLM15AX700SN1
L4
16nH
5%
L0402
Johanson
Technology
specific for 433MHz
var ***R4
L-07W16NJV4S
L5
27nH
5%
L0402
Johanson
Technology
specific for 433MHz
var ***R4
L-07W27NJV4S
L6
47nH
5%
L0402
Johanson
Technology
specific for 433MHz
var ***R4
L-07W47NJV4S
L7
n.m.
L0402
Johanson
Technology
specific for 433MHz
var ***R4
L8
51nH
5%
L0402
Johanson
Technology
specific for 433MHz
var ***R4
L-07W51NJV4S
L9
16nH
5%
L0402
Johanson
Technology
specific for 433MHz
var ***R4
L-07W16NJV4S
L10
27nH
5%
L0402
Johanson
Technology
specific for 433MHz
var ***R4
L-07W27NJV4S
L11
n.m.
L0402
Johanson
Technology
specific for 433MHz
var ***R4
Diodes
(PESD5V0U1UB)
Inductors
Resistors
R1
n.m.
1%
R0402
R2
n.m.
1%
R0402
R3
470R
1%
R0402
R4
750R
1%
R0402
R5
47kR
1%
R0402
R6
100R
1%
R0402
R7
100R
1%
R0402
R8
47kR
1%
R0402
R9
47kR
1%
R0402
R10
100R
1%
R0402
R11
100R
1%
R0402
R12
33kR
1%
R0402
R13
33R
1%
R0402
R14
33R
1%
R0402
R15
1.5kR
1%
R0402
R16
6.8kR
1%
R0402
R17
3.3kR
1%
R0402
R18
1.5kR
1%
R0402
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Bills of Materials (BOM)
www.ti.com
Table 3. MSP-EXP430F6137R4 Base Board (HW-V2.1) BOM (continued)
Part
Value
Tol.
Package
R19
1.5kR
1%
R0402
R20
100R
1%
R0402
R21
15kR
1%
R0402
R22
47kR
1%
R0402
R23
47kR
1%
R0402
R24
3.3kR
1%
R0402
R25
3.3kR
1%
R0402
R26
100kR
1%
R0402
R27
100kR
1%
R0402
R28
33kR
1%
R0402
R29
10kR
1%
R0402
R30
47kR
1%
R0402
R31
100R
1%
R0402
R32
270R
1%
R0402
R33
56kR
1%
R0402
R34
0R
1%
R0402
R35
56kR
1%
R0402
R36
47kR
1%
R0402
R37
0R
1%
R0402
Manufacturer or Comments
Distributor
Part No.
IC
IC1
CC430F6137IRGC
S-PQFP-N64
TI
CC430F6137
IC2
TUSB3410VF
VF32
TI
TUSB3410VF
IC3
AT24C12810-TU
TSSOP8
Atmel
AT24C12810-TU
IC4
TPS77301DGK
MSO8
TI
TPS77301DGK
IC5
TPD2E001DRL
SOT533-5
TI
TPD2E001DRL
IC6
SN74CBTLV3384DBQ
R
24-SSOP
TI
SN74CBTLV3384
IC7
SFH5711
SFH5711
Osram
SFH5711
IC8
MSP430F1612IPM
PM/PAG64
TI
MSP430F16x
SW1
JS203011CQN
JS203011CQN
C&K
Components
JS203011CQN
SW2
J202011CQN
JS202011CQN
C&K
Components
JS203011CQN
SW3
J202011CQN
JS202011CQN
C&K
Components
JS203011CQN
SW4
J202011CQN
JS202011CQN
C&K
Components
JS203011CQN
SW_D
FSM2JSMA
B3FS-1002P
Omron
B3FS-1002P
SW_L
FSM2JSMA
B3FS-1002P
Omron
B3FS-1002P
SW_R
FSM2JSMA
B3FS-1002P
Omron
B3FS-1002P
SW_RES
FSM2JSMA
B3FS-1002P
Omron
B3FS-1002P
SW_U
FSM2JSMA
B3FS-1002P
Omron
ANT1
n.m.
Johanson
Technology
868/915MHz Antenna
0920AT50A080
ANT2
0433AT62A0020
Johanson
Technology
433MHz Antenna
0433AT62A0020
BAT1
1028_KEYSTONE
Keystone
1028
BAT2
1028_KEYSTONE
Keystone
1028
LCD1
FH-1138H
TI
LED1
APT1608QBC/D(blue)
LED0603
Kingbright
blue
APT1608QBC/D
LED2
APT1608MGC(green)
LED0603
Kingbright
green
APT1608MGC
LED3
APT1608SYCK(yellow)
LED0603
Kingbright
yellow
APT1608SYCK
Miscellaneous
28
MSP-EXPCC430RFx Experimenter Kit User’s Guide
Copyright © 2013, Texas Instruments Incorporated
B3FS-1002P
FH-1138H
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Bills of Materials (BOM)
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Table 3. MSP-EXP430F6137R4 Base Board (HW-V2.1) BOM (continued)
Part
Value
LED4
Tol.
Package
Manufacturer or Comments
Distributor
Part No.
APT1608SRCPRV(red
)
LED0603
Kingbright
APT1608SRCPRV
Q1
FT10A-12,0/16-3030/27
5032-4PIN
Coftech
Q2
CTA531-26.000-1610/10/A
NX5032
Compotek
hf crystal
CTA531-26.000-1610/10/A
Q3
CC7VT1A_32,768kHz_12,5p
F
3216
Micro Crystal
watch crystal
CC7VT1A_32,768kHz_12,5p
F
T1
SI2323DS
SOT23-3
Vishay
P-Channel 20-V
MOSFET
T2
SI2323DS
SOT23-3
Vishay
P-Channel 20-V
MOSFET
P1
n.m.
1X16
provided separately by
EMS
P2
n.m.
1X16
provided separately by
EMS
P3
n.m.
1X16
provided separately by
EMS
P4
n.m.
1X3
provided separately by
EMS
P5
n.m.
1X3
provided separately by
EMS
P6
PINHD-1X3
1X3
MPE Garry
or identical in
construction
0871-1-003-0-T-xso1260
P7
PINHD-1X3
1X3
MPE Garry
or identical in
construction
0871-1-003-0-T-xso1260
P8
PINHD-1X2
1X2
MPE Garry
or identical in
construction
0871-1-002-0-T-xso1260
P9
PINHD-1X2
1X2
MPE Garry
or identical in
construction
0871-1-002-0-T-xso1260
P10
PINHD-1X2
1X2
MPE Garry
or identical in
construction
0871-1-002-0-T-xso1260
P11
PINHD-1X3
1X3
MPE Garry
or identical in
construction
0871-1-003-0-T-xso1260
P12
PINHD-1X2
1X2
MPE Garry
or identical in
construction
0871-1-002-0-T-xso1260
P13
PINHD-2X4
2X4
MPE Garry
or identical in
construction
0871-2-004-0-T-xso1260
P14
PINHD-1X2
1X2
MPE Garry
or identical in
construction
0871-1-002-0-T-xso1260
CON1
n.m.
BU-SMA-V
CON2
USB-MINI_2486_01
USB-MINI_2486_01
LUMBERG
2486 01
CON3
NEB21R
DC_BUCHSE_2, 1MM
LUMBERG
NEB 21 R
RF1
TFM-110-02-S-D-A-K
10X2_SAMTEC_M
SAMTEC
TFM-110-02-S-D-A-K
RF2
TFM-110-02-S-D-A-K
10X2_SAMTEC_M
SAMTEC
TFM-110-02-S-D-A-K
CON6
n.m.
STL_31-06 SGU
MPE
STL_31-06 SGU
±20ppm
red
12MHz, 16pF, 30ppm
SMA Female
Connector
PCB
1,283 mm x 100mm x
120mm,
SLAU460 – January 2013
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MSP-EXPCC430RFx Experimenter Kit User’s Guide
Copyright © 2013, Texas Instruments Incorporated
29
Bills of Materials (BOM)
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Table 4. MSP-EXP430F5137R4T Satellite Board (HW-V2.0) BOM
Part
Value
Tol.
Package
Manufacturer
Details
Distributor
Part No.
Capacitors
C1
100uF
C1210
C2
3,3pF
C0402
C3
n.m.
C0402
C4
n.m.
C0402
470
R0402
SW1
B3U-1000P
B3U-1000P
Omron
SW2
B3U-1000P
B3U-1000P
Omron
MODUL1
A45201101
CON1
10X2_SAMTEC_F
Samtec
10x2, female
SFM-110-02-S-D-AK
CON2
10X2_SAMTEC_F
Samtec
10x2, female
SFM-110-02-S-D-AK
CON3
22-03-5035
1x3, 2.5mm
Molex
male
22-03-5035
CON4
n.m.
2x9, 2.54mm
CON5
BL31-006U
1x6, 1.27mm
MPE
LED1
APT1608SRCPRV
0603
Kingbright
red
ANT1
0433AT62A0020
Johanson
433MHz, SMD
Resistors
R1
Miscellaneous
M66210110
M66210110
AMBER
wireless
AMB4520-1,
ungeprüft
Pinhead
MPE
BL31-006U
Johanson
0433AT62A0020
PCB
30
MSP-EXPCC430RFx Experimenter Kit User’s Guide
Copyright © 2013, Texas Instruments Incorporated
SLAU460 – January 2013
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EVALUATION BOARD/KIT/MODULE (EVM) ADDITIONAL TERMS
Texas Instruments (TI) provides the enclosed Evaluation Board/Kit/Module (EVM) under the following conditions:
The user assumes all responsibility and liability for proper and safe handling of the goods. Further, the user indemnifies TI from all claims
arising from the handling or use of the goods.
Should this evaluation board/kit not meet the specifications indicated in the User’s Guide, the board/kit may be returned within 30 days from
the date of delivery for a full refund. THE FOREGOING LIMITED WARRANTY IS THE EXCLUSIVE WARRANTY MADE BY SELLER TO
BUYER AND IS IN LIEU OF ALL OTHER WARRANTIES, EXPRESSED, IMPLIED, OR STATUTORY, INCLUDING ANY WARRANTY OF
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ABOVE, NEITHER PARTY SHALL BE LIABLE TO THE OTHER FOR ANY INDIRECT, SPECIAL, INCIDENTAL, OR CONSEQUENTIAL
DAMAGES.
Please read the User's Guide and, specifically, the Warnings and Restrictions notice in the User's Guide prior to handling the product. This
notice contains important safety information about temperatures and voltages. For additional information on TI's environmental and/or safety
programs, please visit www.ti.com/esh or contact TI.
No license is granted under any patent right or other intellectual property right of TI covering or relating to any machine, process, or
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software performance, or infringement of patents or services described herein.
REGULATORY COMPLIANCE INFORMATION
As noted in the EVM User’s Guide and/or EVM itself, this EVM and/or accompanying hardware may or may not be subject to the Federal
Communications Commission (FCC) and Industry Canada (IC) rules.
For EVMs not subject to the above rules, this evaluation board/kit/module is intended for use for ENGINEERING DEVELOPMENT,
DEMONSTRATION OR EVALUATION PURPOSES ONLY and is not considered by TI to be a finished end product fit for general consumer
use. It generates, uses, and can radiate radio frequency energy and has not been tested for compliance with the limits of computing
devices pursuant to part 15 of FCC or ICES-003 rules, which are designed to provide reasonable protection against radio frequency
interference. Operation of the equipment may cause interference with radio communications, in which case the user at his own expense will
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General Statement for EVMs including a radio
User Power/Frequency Use Obligations: This radio is intended for development/professional use only in legally allocated frequency and
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unauthorized by Texas Instruments unless user has obtained appropriate experimental/development licenses from local regulatory
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For EVMs annotated as FCC – FEDERAL COMMUNICATIONS COMMISSION Part 15 Compliant
Caution
This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) This device may not cause
harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation.
Changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate the
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FCC Interference Statement for Class A EVM devices
This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to part 15 of the FCC Rules.
These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial
environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the
instruction manual, may cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to
cause harmful interference in which case the user will be required to correct the interference at his own expense.
FCC Interference Statement for Class B EVM devices
This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC Rules.
These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment
generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause
harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If
this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and
on, the user is encouraged to try to correct the interference by one or more of the following measures:
• Reorient or relocate the receiving antenna.
• Increase the separation between the equipment and receiver.
• Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.
• Consult the dealer or an experienced radio/TV technician for help.
For EVMs annotated as IC – INDUSTRY CANADA Compliant
This Class A or B digital apparatus complies with Canadian ICES-003.
Changes or modifications not expressly approved by the party responsible for compliance could void the user’s authority to operate the
equipment.
Concerning EVMs including radio transmitters
This device complies with Industry Canada licence-exempt RSS standard(s). Operation is subject to the following two conditions: (1) this
device may not cause interference, and (2) this device must accept any interference, including interference that may cause undesired
operation of the device.
Concerning EVMs including detachable antennas
Under Industry Canada regulations, this radio transmitter may only operate using an antenna of a type and maximum (or lesser) gain
approved for the transmitter by Industry Canada. To reduce potential radio interference to other users, the antenna type and its gain should
be so chosen that the equivalent isotropically radiated power (e.i.r.p.) is not more than that necessary for successful communication.
This radio transmitter has been approved by Industry Canada to operate with the antenna types listed in the user guide with the maximum
permissible gain and required antenna impedance for each antenna type indicated. Antenna types not included in this list, having a gain
greater than the maximum gain indicated for that type, are strictly prohibited for use with this device.
Cet appareil numérique de la classe A ou B est conforme à la norme NMB-003 du Canada.
Les changements ou les modifications pas expressément approuvés par la partie responsable de la conformité ont pu vider l’autorité de
l'utilisateur pour actionner l'équipement.
Concernant les EVMs avec appareils radio
Le présent appareil est conforme aux CNR d'Industrie Canada applicables aux appareils radio exempts de licence. L'exploitation est
autorisée aux deux conditions suivantes : (1) l'appareil ne doit pas produire de brouillage, et (2) l'utilisateur de l'appareil doit accepter tout
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Conformément à la réglementation d'Industrie Canada, le présent émetteur radio peut fonctionner avec une antenne d'un type et d'un gain
maximal (ou inférieur) approuvé pour l'émetteur par Industrie Canada. Dans le but de réduire les risques de brouillage radioélectrique à
l'intention des autres utilisateurs, il faut choisir le type d'antenne et son gain de sorte que la puissance isotrope rayonnée équivalente
(p.i.r.e.) ne dépasse pas l'intensité nécessaire à l'établissement d'une communication satisfaisante.
Le présent émetteur radio a été approuvé par Industrie Canada pour fonctionner avec les types d'antenne énumérés dans le manuel
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SPACER
SPACER
SPACER
SPACER
SPACER
SPACER
SPACER
SPACER
【Important Notice for Users of this Product in Japan】
】
This development kit is NOT certified as Confirming to Technical Regulations of Radio Law of Japan
If you use this product in Japan, you are required by Radio Law of Japan to follow the instructions below with respect to this product:
1.
2.
3.
Use this product in a shielded room or any other test facility as defined in the notification #173 issued by Ministry of Internal Affairs and
Communications on March 28, 2006, based on Sub-section 1.1 of Article 6 of the Ministry’s Rule for Enforcement of Radio Law of
Japan,
Use this product only after you obtained the license of Test Radio Station as provided in Radio Law of Japan with respect to this
product, or
Use of this product only after you obtained the Technical Regulations Conformity Certification as provided in Radio Law of Japan with
respect to this product. Also, please do not transfer this product, unless you give the same notice above to the transferee. Please note
that if you could not follow the instructions above, you will be subject to penalties of Radio Law of Japan.
Texas Instruments Japan Limited
(address) 24-1, Nishi-Shinjuku 6 chome, Shinjuku-ku, Tokyo, Japan
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【ご使用にあたっての注】
本開発キットは技術基準適合証明を受けておりません。
本製品のご使用に際しては、電波法遵守のため、以下のいずれかの措置を取っていただく必要がありますのでご注意ください。
1.
2.
3.
電波法施行規則第6条第1項第1号に基づく平成18年3月28日総務省告示第173号で定められた電波暗室等の試験設備でご使用いただく。
実験局の免許を取得後ご使用いただく。
技術基準適合証明を取得後ご使用いただく。
なお、本製品は、上記の「ご使用にあたっての注意」を譲渡先、移転先に通知しない限り、譲渡、移転できないものとします。
上記を遵守頂けない場合は、電波法の罰則が適用される可能性があることをご留意ください。
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西新宿三井ビル
http://www.tij.co.jp
SPACER
SPACER
SPACER
SPACER
SPACER
SPACER
SPACER
SPACER
SPACER
SPACER
SPACER
SPACER
SPACER
SPACER
SPACER
SPACER
EVALUATION BOARD/KIT/MODULE (EVM)
WARNINGS, RESTRICTIONS AND DISCLAIMERS
For Feasibility Evaluation Only, in Laboratory/Development Environments. Unless otherwise indicated, this EVM is not a finished
electrical equipment and not intended for consumer use. It is intended solely for use for preliminary feasibility evaluation in
laboratory/development environments by technically qualified electronics experts who are familiar with the dangers and application risks
associated with handling electrical mechanical components, systems and subsystems. It should not be used as all or part of a finished end
product.
Your Sole Responsibility and Risk. You acknowledge, represent and agree that:
1.
2.
3.
4.
You have unique knowledge concerning Federal, State and local regulatory requirements (including but not limited to Food and Drug
Administration regulations, if applicable) which relate to your products and which relate to your use (and/or that of your employees,
affiliates, contractors or designees) of the EVM for evaluation, testing and other purposes.
You have full and exclusive responsibility to assure the safety and compliance of your products with all such laws and other applicable
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You will take care of proper disposal and recycling of the EVM’s electronic components and packing materials.
Certain Instructions. It is important to operate this EVM within TI’s recommended specifications and environmental considerations per the
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