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EVBUM2595/D
DVK-AXM0F243-xxx-x-GEVK
Evaluation Kit
User's Manual
Introduction
T h e
DVK−AXM0F243−915−x−GEVK kits are designed as quick start
solution for the development of applications with the AXM0F243 RF
System On Chip (SoC). This SoC combines an ARM Cortex M0+
ultra−low power microcontroller with the AX5043 ultra−low power
R F
t r a n s c e i v e r
DVK−AXM0F243−868−x−GEVK is optimized for 868 MHz
frequency, and the DVK−AXM0F243−915−x−GEVK development
k i t
i s
DVK −A X M 0 F 2 4 3 −x x x −x −G E V K 's a r e c o m p a t i b l e w i t h
AX−RadioLab and AxCode::Blocks development software for the PC.
1
6
7
© Semiconductor Components Industries, LLC, 2018
November, 2018 − Rev. 1
Arrow.com.
Downloaded from
D V K −A X M 0 F 2 4 3 −8 6 8 −x −G E V K
i n
a
s i n g l e
I C
e n h a n c e d
f o r
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2
Figure 1. DVK−AXM0F243−868−x−GEVK Kit
a n d
p a c k a g e .
T h e
M H z .
T h e
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5
1
www.onsemi.com
EVAL BOARD USER'S MANUAL
4
Publication Order Number:
EVBUM2595/D
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Summary of Contents for ON Semiconductor DVK-AXM0F243-GEVK Series
- Page 1 EVBUM2595/D DVK-AXM0F243-xxx-x-GEVK Evaluation Kit User's Manual Introduction www.onsemi.com T h e D V K −A X M 0 F 2 4 3 −8 6 8 −x −G E V K a n d DVK−AXM0F243−915−x−GEVK kits are designed as quick start EVAL BOARD USER’S MANUAL solution for the development of applications with the AXM0F243 RF System On Chip (SoC).
- Page 2 EVBUM2595/D The development kits DVK−AXM0F243−868−x−GEVK and DVK−AXM0F243−915−x−GEVK come with: Designator DVK−AXM0F243−868−x−GEVK DVK−AXM0F243−915−x−GEVK Quantity AXDBG Debug adapter 1 piece DVK−AXM0F243−868−x−SMA−GEVB DVK−AXM0F243−915−x−SMA−GEVB 1 piece (SMA connector) (SMA connector) DVK−AXM0F243−868−x−ANT−GEVB (chip DVK−AXM0F243−915−x−ANT−GEVB 1 piece antenna, LR44 button cell battery holder) (chip antenna, LR44 button cell battery holder) Mini USB cable 1 piece...
- Page 3 EVBUM2595/D DVK−AXM0F243−XXX−x−ANT−GEVB Overview Similarly the DVK−AXM0F243−915−x−ANT−GEVB The DVK−AXM0F243−868−x−ANT−GEVB mainboard is mainboard first boards second boards DVK−AXM0F243−915−x−GEVK kit. DVK−AXM0F243−868−x−GEVK kit. It features the AXM0F243 ultra−low power SoC, as well as a LED, a button, battery, and chip antenna. Figure 3. DVK−AXM0F243−xxx−x−ANT−GEVB Designator DVK−AXM0F243−868−x−ANT−GEVB DVK−AXM0F243−915−x−ANT−GEVB...
- Page 4 EVBUM2595/D AXDBG Debug Adapter Overview interface, which is then used by AX−RadioLab and The AXDBG debug adapter is the interface between the AxCode::Blocks development software for the PC. The PC and the mainboards. It can be used for programming and AXSDB can also be used in mass production with the debugging the AXM0F243 microcontroller.
- Page 5 EVBUM2595/D • Out of the Box RF Functionality Set the DVK−AXM0F243−XXX−x−ANT−GEVB RF functionality are already programmed on both Power supply switch in position 1 for battery powered mainboards. It’s possible to make the first RF experience operation. Position 2 is for debug link connector sending data packages...
- Page 6 EVBUM2595/D Required Software It can be used to further customize the AX−RadioLAB To build applications and configure the AXM0F243 is generated code, or it can be used to create new projects (such necessary to install the AX−IDE Development tool for as those that do not involve a radio link).
- Page 7 EVBUM2595/D Figure 7. Development System Architecture www.onsemi.com Arrow.com. Arrow.com. Arrow.com. Arrow.com. Arrow.com. Arrow.com. Arrow.com. Downloaded from Downloaded from Downloaded from Downloaded from Downloaded from Downloaded from Downloaded from...
- Page 8 EVBUM2595/D Installing AX−IDE Getting Started The AX−IDE installer contains everything you need: the Before building the first application is necessary to set the SDCC compiler, GNU GCC Compiler for ARM, AxCode::Blocks compiler. AxCode::Blocks, AX−RadioLab, debug adapter drivers, the This operation has to be executed only once. •...
- Page 9 EVBUM2595/D Connection More connection details are visible in Figure 11: • Connect one of the DVK−AXM0F243−XXX−x−SMA−GEVB connection DVK−AXM0F243−XXX−x−ANT−GEVB or AXDBG Debug Adapter Figure DVK−AXM0F243−XXX−x−SMA−GEVB mainboards to DVK−AXM0F243−XXX−x−ANT−GEVB connection the AXDBG Debug adapter board with the Flat Debug AXDBG Debug Adapter. cable •...
- Page 10 EVBUM2595/D Working with AX−RadioLab Additionally, AX−RadioLab allows the user to configure AX−RadioLab is the most advanced development tool for the packet format, as well as Physical (PHY) parameters. Software Defined Radio (SDR) applications. Since AX−RadioLab is a source code generator, the It offers a variety of transmitter and receiver options such developer can use the generated C code example project as a robust foundation upon which to build the end application.
- Page 11 EVBUM2595/D • Working With AxCode::Blocks Start −> All Programs −> AxCodeBlocks −> AxCode::Blocks is the graphical IDE for code CodeBlocksDoc development on AX micro−controllers. It enables the developer to access all the debugging features of the AX microcontrollers, in particular: •...
- Page 12 EVBUM2595/D UART Communication Typical received data are for example packages data, Debug link data are transmitted and received on the PC via RSSI, frequency offset values UART communication. Any serial terminal software is suitable utilizing the following settings: • baud rate 9600 bit/s •...
- Page 13 EVBUM2595/D Glossary Integrated Development AxCode::Blocks: Environment AXM0F243 SoC. (IDE) for AX−RadioLab: advanced development tool for Software Defined Radio (SDR) applications. Is a source code and settings generator. Debug link: the interface between AXDBG debug adapter and AXM0F243 SoC microcontroller. AXSDB: Symbolic command line Debugger. www.onsemi.com Arrow.com.
- Page 14 LIMITATIONS OF LIABILITY: ON Semiconductor shall not be liable for any special, consequential, incidental, indirect or punitive damages, including, but not limited to the costs of requalification, delay, loss of profits or goodwill, arising out of or in connection with the board, even if ON Semiconductor is advised of the possibility of such damages. In no event shall ON Semiconductor’s aggregate liability from any obligation arising out of or in connection with the board, under any theory of liability, exceed the purchase price paid for the board, if any.
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