MSP430-CCRFLCD User Manual
Contents
1. if i SS eee eee O i I l I I I 1 I I BUTTONS I l I I I I I I l I I Es I I I 3 3V 3 3V I I I I rar R20 a 47k A 7k ac I 100nF l ps x Ee LCD SDA H I H BUTI BUT2 H I L I I I i Las 1 1 I l LCD I I Jus R7 I I I I I 1 6 o 8 8 I I pe te I 1 a 2 gt gt I I ca C36 I AA BUTI BUT2 I I l I 4 A 100nF 4 E 100nF I 11157 T1157 I ABRA u AA PAR BAR AR A AR MAR I I I I l I I ood L i I LCD CL010 4042 01 I I I I l I I TR A ee eee E e estes al i I 1 I l I I EXT o LED I l I I 133V 3 3V 3 3V 3 3V I I 10 o O I I I i I I I l I I Les po I 33k ia Re I I LED1 LED2 I a ida BSLTYUCAODD I SS i I BSLRYUCAORXD I I I I I I 2 LED1 LED2 l AAA x 8 I UEXT 1 4 I Va VE I I UEXT2 I I E I I UEXTS A 5 5 p LEA SCL 3 z I usas E SDA I ras rie ea UCBO MISOSCL R9 NA RIO ORNA SW SCL US LE I UCBO MOSISDA R8 NA RAS ORNA SW SDA I g E I UEXT 8 I EEE a I Uext 10 I l I ee I I I I I I BHIOR I I aces a E O ee Sa eee ROETES J 3 3V u1 HRSTIS2. MSP430 CCRFLCD development board Users Manual Petree Geen All boards produced by Olimex are ROHS compliant Revision A November 2011 Copyright c 2011 OLIMEX Ltd All rights reserved Page 1 INTRODUCTION MSP430 CCRFLCD is development board with CC430F5137IRGZ microcontroller from Texas Instruments This ultra low power microcontroller has integrated CC1101 RF transceiver The board has also LCD two status leds two user buttons and UEXT which can be modified as device or host MSP430 CCRFLCD can communicate with other boards with integrated CC1101 RF transceiver via radio connection BOARD FEATURES e Microcontroller CC430F5137IRGZ JTAG UEXT e LCD 1x9 e LIPO_BAT connector for Lithium ion polymer battery which permits outdoor communication between two or more MSP430 CCRFLCD boards e on board voltage regulator e On bard pcb antenna e Supported radio frequencies bands 868 915 MHz software selectable By default 868 MHz e Maximal permissible distance between two MSP430 CCRFLCD boards depends on RF chip s output power data transfer rate and the selected radio frequency band For more information see the table below Results given there are taken via using 2 MSP430 CCRF boards but because of the slight difference between MSP430 CCRF and MSP430 CCRFLCD we are expecting results closer to this two user buttons e two status leds RTCcrystal extension pin holes for most of
3. X d OZI IdS 08 19sn ias wan Y 928 Luvn ov OSN Z AdNW SO I 9LXL Vd 99U919J0 y e6ey0A SO I 8XZ Zd Ld dad sHOd O I Xx Zd X bd gyn a9ejajul ovr gan J llonuoo i Buiddeyy o 9LOHO ap gize we ysel4 jnoumosg si9 siIb9y siaj sibay SASINAS 99 99G od LVL OVL JUIBIN JOMOd siajsi5oy 9L pul ZAXNdO 91607 gan HU sn avn 8 I8uueuO J lo uoo VINO MIOWS wajs s ZLOQW g duos H2019 H19Y paun HION ZHxXZ 1NOX NIX Page 5 MEMORY ORGANIZATION CC430F5137 1 Main Memory Total 32kB flash Size Main Interrupt OOFFFFh to OOFF80h vector Main code Bank 0 32kB memory OOFFFFh to 008000h RAM Ka 4kB ize Sect 1 2kB 002BFFh to 002400h Sect 0 2kB 0023FFh to 001C00h 128B Device 001AFFh to 001A80h Descriptor 128B 001A7Fh to 001A00h Info A 128 B 0019FFh to 001980h Info B 128 B Information 00197Fh to 001900h memory flash Info C 128B 0018FFh to 001880h Info D 128 B 00187Fh to 001800h BSL 3 512 B 0017FFh to 001600h BSL 2 512B Bootstrap loader 0015FFh to 001400h BSL memory flash BSL 1 512B 0013FFh to 001200h BSL 0 512B 0011FFh to 001000h 4 KB Penpherals 000FFFh to Oh 1 All memory regions not specified here are vacant memory and any access to them causes a Vacant Memory Interrupt Page 6 SCHEMATIC
4. I I 100nF Sa I I I I ps a I LAN i MSP430 CCRFLCD LIPO_BAT MCP1700T 3302E MB Lat VIN asv 2 3 3V ik T Rev B I VOUT I DWOZR c2 ae Llap COPYRIGHT C 2011 OLIMEX LTd I a T T 100nF I I GND 100nF 1OUF 6 3V 10uF 6 3V nf I ENS ee R14 pr OR NA http www olimex com dev I I 1 I I A pss Sed I BOARD LAYOUT JTAG cal a tal Ph ou i WWHW OLIMEX COM DEU MSP43 CCAFLCD y Mo a I inate gt gt Pin holes u s am Es POWER SUPPLY CIRCUIT MSP430 CCRFLCD can take power from External power supply via LIPO_BAT connector 3 7 VDC from Lithium ion polymer battery JTAG The programmed board power consumption is about 20 mA with all peripherals enabled RESET CIRCUTT MSP430 CCRFLCD reset circuit includes R1 33k R2 1kQ C1 2 2nF JTAG pin 11 and CC430F5137IRGZ pin 40 RST NMI SBWTDIO CLOCK CIRCUIT Quartz crystal Q1 32 768 kHz is connected to CC430F5137IRGZ pin 44 P5 0 XIN and pin 43 P5 1 XOUT Quartz crystal Q3 26 MHz is connected to CC430F5137IRGZ pin 25 RF_XIN and pin 26 RF_XOUT Page 8 JUMPER DESCRIPTION Power In jumper P_IN jumper connects power supply from JTAG connector You have to ensure that your circuit doesn t draw more than few milliamperes 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 Note
5. P_OUT jumper connects power from MSP430 CCRFLCD 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 P_IN and P_OUT jumper caps should not be placed at the same time This jumper when is in position 1 2 UEXT pin 3 signal TX is connected to CC430F5137IRGZ pin 5 signal BBLTX UCAOTXD when the jumper is in position 2 3 UEXT pin 3 signal TX is connected to CC430F5137IRGZ pin 6 signal BSLRX UCAORXD Default state is shorted in position 2 3 This jumper when is in position 1 2 UEXT pin 4 signal RX is connected to CC430F5137IRGZ pin 6 signal BBLRX UCAORXD when the jumper is in position 2 3 UEXT pin 4 signal RX is connected to CC430F5137IRGZ pin 5 signal BSLTX UCAOTXD Default state is shorted in position 2 3 When jumpers J1 and J2 are shorted in position 1 2 the board is configured as host and can be used as host for some of our module boards When these jumpers are shorted in position 2 3 the board is configured as device and can be used as module board INPUT OUTPUT Status Led with name LEDI red connected to CC430F5137IRGZ pin 13 P1 0 PM_RFGDOO Status Led with name LED2 green connected to CC430F5137IRGZ pin 24 P2 6 PM ACLK User button with name BUT1 connected to CC430F5137IRGZ pin 12 P1 1 PM REGDO User button with name BUT2 connected to CC430F
6. the microcontroller pins e F R 4 1 00 mm soldermask component print e Dimensions 84 84 x 63 50mm 3 34 x 2 50 RF Frequency Output Power Data Rate Measured Distance 868MHz 10dBm 1 2kBaud 155m 868MHz 10dBm 38 4kBaud 110m 868MHz 10dBm 250kBaud 85m 915MHz 10dBm 1 2kBaud 140m 915MHz 10dBm 38 4kBaud 100m 915MHz 10dBm 250kBaud 60m This measurements were taken via using RF Connection_toggle LED demo software loaded at two alike MSP430 CCRF boards Page 2 ELECTROSTATIC WARNING The MSP430 CCRFLCD 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 MSP JTAG TINY MSP JTAG TINY V2 or MSP JTAG ISO you will need USB A B cable If you use MSP JTAG you will need LPT cable Hardware Programmer Debugger MSP JTAG TINY MSP JTAG TINY V2 MSP JTAG ISO MSP JTAG MSP JTAG RE or other compatible programming debugging tool You can also use other Olimex s board MSP CCRFLCD or MSP CCRF for radio communication PROCESSOR FEATURES MSP430 CCRFLCD board use microcontroller CC430F5137IRGZFBD100 with these features True System on Chip SoC for Low Power Wireless Communication Applications Wide Supply Voltage R
7. 5137IRGZ pin 23 P2 7 PM_MODCLK LCD 1x9 9 segments LCD without font generator Page 9 EXTERNAL CONNECTORS DESCRIPTION JTAG 2 4 6 8 10 12 14 fe co _ gt Pe sss eee e fo fm CCS CO ee ES DC CES oa BSLTX UCAOTXD LIPO BAT Page 10 UEXT DSC 7 UCB0_MISO SC L JE UCBO MOSI SD A Page 11 Pin holes Signal Name Signal Name TEST TEST SBWTCK RST SBWTDIO he LCD_SDA LED1 BUT1 UCBO MISO SCL 194010 UCBO MOSI SDA NA 0 UCBO CLK BSLRX UCAORXD efe LCD SCL h YD Page 12 MECHANICAL DIMENSIONS 2 54 mm 6 10 mm 8 64 mm 13 72 mm 16 26 mm 44 20 mm 58 42 mm O 2000000000000000 Page 13 AVAILABLE DEMO SOFTWARE Blinking Leds sourced by DCO leads MSP430 CCRFLCD s on board LED1 and LED2 to blink with frequency 1Hz When LED1 is on LED2 is off and vice versa Clock source gt DCO Blinking Leds sourced by RTC leads MSP430 CCRFLCD s on board LED1 and LED2 to blink with frequency 1Hz When LED1 is on LED2 is off and vice versa Clock source gt crystal 32 768kHz Blinking Leds sourced by RTC and USART Echo MSP430 CCRFLCD s on board LED1 and LED2 are blinking again with frequency 1Hz by RTC and USART Echo If USART has received a character then it returns echo Toggle LEDx when BUTx is pressed When BUT1 is pressed then LED1 is switched over When BUT2 is pre
8. BWIDIO ad RST NM SBWTDIO AVCC O 3 3v TESTISBWICK ewe PJ 3 TCK PJ 2 TMS AVSS PJ 1 TDVTCLK P5 0 XIN PJ 0 TDO P5 1 XOUT P1 0 PM_RFGDOO P1 1 PM REGDOZ Dec O 3 3v P1 2 PM UCBOSOM PM UCBOSCL DVCC g PISIPM UCBOSIMO PM UCBOSDA DCC BSLRNUCAORID El P1 4 PM_UCBOCLK PM_UCAOSTE BSLTXUCAIDO PISIPM UCAORXDIPM UCA0SOMI vss UCBO STE 4 P1 6 PM_UCAOTXD PM_UCAOSIMO P1 7 PM_UCAOCLK PM_UCBOSTE ROSC L2 O GUARD 3 34 POUT P2 0 ees P2 0 PM_CBOUT1 PM_TA 1CLK CBO AO AVOC RE 8080516002200 2601 HN1x2 Open P21 P2 1 PM_TA1CCROA CB1 A1 AVOC RE ia re P2 P2 2 PM_TA1CCRIA CB2 A2 AVCC RE n ots of p23 P2 3 PM_TA1CCR2A CB3 A3 AVCC_RF Ee c26 P24 P2 4 PM_RTCCLK CB4 A4 VREF VEREF See P2 P2 5 PM_SVMOUT CB5 A 5 VREF VEREF 1 SpF 0 25pF COG P2 P2 6 PM_ACLK RF_ATEST 8 les PIN P2 P2 7 PM_MODCLK PM_DMAED L3 L6 HN1x2 Close REN bg ERE ADA camer P3 0 P3 0 PM_CBOUTO PM_TAOCLK REP TZ P31 P3 1 PM_TAOCCROA IK OF P3 P3 2 PM_TAOCCR A bo ED 1pF 0 25pF COG c29 P33 P3 3 PM_TAOCCR2A RE xour Ea Q3 ay 1 L4 c27 P34 SEREM TNOCRAN RE XIN C23 r lI 3 3pF 0 25pF CA P3 5 LCD SCL rares re ser Ier 1 5pF 0 25pF COG P3 LCD SDA E RBAS E C24 L5 P3 P3 7 PM SMCLK VCORE 470nF NN 21 100pF 5 COG CCASOFS1971RGZ TSX 3225 26MHOPPMOpF 322 Smm SMD a iS OS See eg ee AAA AR ANT I P W E R P P LY I Monopole PCB Antenna I I I I so L8 R13 ORINA II I ES c32 c31 BAT es R25 SENS E 1 N N 56k 1 I I C37 R24 1 147k 1
9. ange 1 8 V to 3 6 V Ultra Low Power Consumption CPU Active Mode AM 160 pA MHz Standby Mode LPM3 RTC Mode 2 0 pA Off Mode LPM4 RAM Retention 1 0 pA Radio in RX 15 mA 250 kbps 915 MHz MSP430 System and Peripherals 16 Bit RISC Architecture Extended Memory up to 20 MHz System Clock Wake Up From Standby Mode in Less Than 6 us Flexible Power Management System with SVS and Brownout Unified Clock System with FLL 16 Bit Timer TAO Timer A with Five Capture Compare Registers 16 Bit Timer TA1 Timer A with Three Capture Compare Registers Hardware Real Time Clock Two Universal Serial Communication Interfaces USCI_AO supporting UART IrDA SPI USCI_B0 supporting PC SPI 12 Bit A D Converter With Internal Reference Sample and Hold and Autoscan Features Page 3 Comparator 128 bit AES Security Encryption Decryption Coprocessor 32 Bit Hardware Multiplier Three Chamnel Internal DMA Serial Onboard Programming No External Programming Voltage Needed Embedded Emulation Module EEM High Performance Sub 1 GHz RF Transceiver Core Wide Supply Voltage Range 2 0 V to 3 6 V Frequency Bands 300 MHz to 348 MHz 389 MHz to 464 MHz and 779 MHz to 928 MHz Programmable Data Rate From 0 6 kBaud to 500 kBaud High Sensitivity 117 dBm at 0 6 kBaud 111 dBm at 1 2 kBaud 315 MHz 1 Packet Error Rate Excellent Receiver Selectivity and Blocking Performance P
10. imer 2011 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 Page 16
11. rogrammable Output Power Up to 12 dBm for All Supported Frequencies 2 FSK 2 GFSK and MSK Supported as well as OOK and Flexible ASK Shaping Flexible Support for Packet Oriented Systems On Chip Support for Sync Word Detection Address Check Flexible Packet Length and Automatic CRC Handling Support for Automatic Clear Channel Assessment CCA Before Transmitting for Listen Before Talk Systems Digital RSSI Output Suited for Systems Targeting Compliance With EN 300 220 Europe and FCC CFR Part 15 US Suited for Systems Targeting Compliance With Wireless M Bus Standard EN 13757 4 2005 Support for Asynchronous and Synchronous Serial Receive Transmit Mode for Backward Compatibility With Existing Radio Communication Protocols USCI Program SRAM Timer A Channel Channel ADC12 A 1 A B Comp_B I O KB KB UART LIN SPI 1 C IrDA SPI 6 ext 32 4 5 3 1 1 een 6 ch 30 1 5 3 represents two instantiations of Timer_A the first instantiation having 5 and the second instantiation having 3 capture compare registers and PWM output generators respectively Page 4 BLOCK DIAGRAM Nas das X4 8 XL 9OTVNVY 14 J9zISayju s Aouanbaly aveau NdO 101199 oipey ZHOL ans Voo 107 10d asuas 181129 Issa Rubia JojpueH JODE Y ZHIN9Z 1NOX 38 NIX 44 uondA19 9Q ua Aunses 8cLSAV SO I CXL Sd SHOd O I Gd SO 8XL d SHOd O I
12. ssed then LED2 is switched over Buttons and LCD Visualize at LCD which one button you have pressed RF Connection_ press BUT This example realize simple RF connection between 2 MSP430 CCRFLCD boards Pressing BUT1 at the first board will toggle LED1 at the second board and vice versa RF Connection_toggle LED This example again realize simple RF connection between 2 MSP430 CCRFLCD boards Both boards are sending 4 packets per second with length 10 bytes Whenever any board has received a valid packet it switches over its LED1 Packet sending can be enabled disabled individually for everyone board by pressing its button BUTI Page 14 ORDER CODE MSP430 CCRELCD assembled and tested board 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 Board s revision Manual s revision Rev B May 2011 Rev Initial September 2011 Rev A November 2011 BOARD FEATURES added is table which describes maximal permissible distance between two MSP430 CCRF boards versus different RF settings MSP430 CCRFLCD is slightly different from MSP430 CCRF so we are expecting closer results SCHEMATIC is updated to last version with changed C22 and C23 values from 15pF to 10pF AVAILABLE DEMO SOFTWARE RF Connection is changed to RF Connection_ press BUT RF Connection_toggle LED was added Page 15 Discla
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