CC1110DK/CC2510DK -- Development Kit User Manual
Contents
1. INSTRUMENTS d i TEXAS LL 13248 371v35 asnos E E 118 EV 3323H Div pue SESTARA Aud11no4Jr o 33 UD Jl uid A38 ON ma ON wasi 3ZzIS 3i16 IO ebrei a DECHE NMVHa S Isuuoasip oj J0 SIS J wyo g saAousy OMA divd S1vAOHddv VH WAS vd YAS SY NOZUdIHZ 25524 Bid Eld J0128uuoD2 Wo 8 Jul Jeu id SAVN Asa ON LOVYLNOI ier E 0079 pue atsaku 4 5 DECH 40 Fld Gld M A 2 gt S ol al l m O vH VIAS VH VIS 03 Joa ua lus A o Gld Za Sa SEI ros e e ut d Tt esL Jtr ecl Jtr eldr s ma NS C 40328uu02 WJ 4H J2W5 Zo Bret pn ats Ng E e Coe Cte o O a ET UIT f ut gt Tena nat EI SE OSIN 1049 05 4 1d pi cada a at f 7 1 ae gt 1 t D o du SE TT l1 5 He WESTER EZIH used SON 5 9 13 EE EU9u a Haz SH ie a ts E EUSU UH ez WASTE DEE o O o SEN I2. ee EWEN BY usx E Ke Tass TEMBS 063 IEJ E A y idsgu9ng3q njW gen ERE Z E8098 DICH 1 ZOEY Nid mm 7 f E8880 0 17u K Ki WEE S OC NOLLn8 HSfd ages ec mePasaJ Man asn ae ya 2 S EB388 34 7H qzazu Ed af a czan ET3T Eld eebe gt g Zd iz S19 7 d RED zd n b h Tm sve S Za el JANI dj vasse zd S 8 B Zdi PIU E 102 8 7 id d 4 E dL d 4 e za sl N 1353H lisnd A0r 812 8 8 id i E S lie e Zala ara LAO Wazia za id 48 i HSM NOLIRB I G E id E g Ela o Zala 2031 2713 Ad vy ld gm id snaa E ond 97 Id afg F Z009 2 Z if A3HA L Ad E d Wie 2d a HLSANI 9 Bd l de Luvn z ad BZ JOZI LAESSH TE TES 1uvr ad og e E E eM WA ee 3 E088 AECH 3 890 37H I E ana a EE GE i SON IS 9 lel za vix z Bd OSIR I0T9 057 7 1d aaah le us 3185 8 1d 7 NN LL gica u X7EB80 N 73 N1934 7 i Ages Se azesisaga agen AEE INSTRUMENTS d i TEXAS swru134a SmartRF 04EB schematic page 3 Page 26 of 31 Figure 20 CC EC 240 INSTRUMENTS d i TEXAS Z 3348 371v35 asnos EN EV qa3333H AJH ON ma oN WIS3 3zis auc T as WA ij D NM V
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4. Level converter Header ZX Wa External System Figure 14 SmartRF 04EB used as ICE If several SmartRF 04EB boards are connected to the PC USB ports simultaneously a selection window will display the connected SmartRF 04EBs and the user can select which device to load This is valid for all Chipcon PC software 9 2 Debug interface When designing PCBs with Chipcon SoC s it is recommended to include a pin header or test points to allow in circuit emulation or programming using SmartRF 04EB or other programming tools The pin out used on the SmartRF 04EB is explained in Table 4 The connector includes 4 SPI control signals These are currently not used but they are included for flexibility The SmartRF 04EB includes a voltage converter to support programming and debugging of external systems with different operating voltage than the SmartRF O4EB The debug connector P14 SoC debug flash includes two VDD connections on pin 2 and pin 9 The function is different for these connections Pin 2 VDD supplies voltage to the voltage converter This pin should be connected to VDD on the external board to assure that the correct supply voltage is used for the voltage converter This pin must always be connected The voltage on the target system must be above 2 7 V when debugged from SmartRF 04EB Pin 9 VDD supplies VDD 3 3 V from the SmartRF 04EB If the target application is pow
5. EWSOS1 EV Version 07 WIN Temporary license Licno xXxxx xxx xXxx xxxx valid 30 days after first use expires xxxx xx xx If vou prefer vau can have the License Mumber and Key sentto you by email for later reference The evaluation Software will he operational for a limited time only Please contact vour nearest IAR Systems office orl4R Systems distributor if vau wantta purchase the full version ofthe product contact link found below Hest regards LAR Systems Contact IAR Systems Figure 10 IAR registration confirmed web site example Page 18 of 31 swru134a me Texas s CCIIO CC2510 The license number and license key from the Registration confirmed web page are required during the installation Please note that you shall use the license number from the Registration confirmed web site even though the installation program states that the license number can be found on the CD cover IAR Systems Product Setup Enter pour name the name of pour company and your IAA Embedded Workbench for MIES bi license number Company The license number can be found on the CD cower Licensett Figure 11 IAR installation screen shot 8 3 Installation from the CD Its recommended to install the latest version as described above But if you anyhow prefere to install from the IAR CD delivered with the kit please follow the procedure below 1 Insert the CD 2 Click Install the IAR Embedded Workbench
6. ily A Coon 078 tH z WIRE amp gaby ME Es YA YA aC hi Hsrid NOLITIB T Bd ER EE NOLLIDn8 Hsngd 9 830 3 v H ya EECH pr Zi Ei ec 5Z7XTH X E090 NEETI E ape 9 ed d INS aaa S NNO3 ann AE Et GOU 8 99 1 _ d El vl Lem eoe e n e e e A 6 al f Za eld rom c N 13538 P DENGE E Mie id e DEDO ALTE d A 2 ET3T E Td ERIC Bary eee TI87r zd Na sj as 8 acer OOO uad e 0673 HZX EBIB NOII HERE wl si dakasi Wea X gui C Cor aan e qounasi 31 031 sons GE 10377013 qQ24A ATA 2 a 2 7 qagasiqa aaq 38niz si337d031 Se Sigra DEI X X X X ER H X Enga Neal e e e pS Cor LI DU DU DU HU dE RR RR RR wo sO 0 SO PUN PO Pl SC S J Q2 a Ee e M oe es 4 D 0 ux J es p p p u acer ances S Ager Agger S INSTRUMENTS d i TEXAS SmartRF 04EB schematic page 6 Page 29 of 31 Figure 23 CC EC 240
7. O 9 PO 2 UART RD 10 N C No PO 3 UART TD 12 N C MG PO_4 RTS 14 N C NC PO 5 JOY PUSH N C Hn PO 6 OY 18 PO 7 POT Table 2 I O connector A P10 pin out Table 3 I O connector B P11 pin out see chapter 6 10 Page 13 of 31 swru134a me Texas s CCILIO C2510 6 8 EM connectors The EM connectors are used for connecting the EM to the SmartRF 04EB The connectors P1 and P2 are used as the main interface The EM should be used as an RF reference design with the Chipcon SoC decoupling and all required RF circuitry It is recommended to copy this reference design when designing applications with Chipcon RF devices in order to achieve best RF performance Note that while it is physically possible to plug an EM not belonging to the SmartRF 04 product range into the SmartRF 04EB the factory firmware and SmartRF Studio do not support the use of older devices The SmartRF 04EB can be used with custom firmware for prototyping using older Chipcon RF devices 6 9 Signal flow Silabs USB 0 ohm controller EM Connector Peripheral UO Connector Figure 7 Evaluation Board Signal flow The signal lines from the EM connectors run via 0 ohm resistors to the USB MCU and the various peripherals on the SmartRF O4EB This allows connecting an EM module to other applications The USB MCU can be disconnected from the signal p
8. included in PDF format More information is found on this web site http www iar com p89661 p89661 eng phpf ks Please choose the version for the 8051 processor family core not the version for the Texas Instruments MSP430 processor family core Page 20 of 31 swru134a me Texas s CCILIO C2510 9 Using SmartRF 04EB for prototyping SmartRF 04EB includes a debug and programming interface The debug interface is controlled by 2 communication pins On the SmartRF 04EB the interface is controlled by the USB MCU This allows both programming and an emulator interface using the USB port Table 1 on page 8 shows which pins on the MCU that are used for various peripheral functions P10 and P11 pin row connectors can be used to connect the SmartRF 04EB to another PCB or prototyping board 9 1 Using SmartRF 04EB as an In Circuit Emulator ICE The SmartRF 04EB can be used as ICE both for devices connected to the EM socket and for external systems with custom applications Figure 14 shows the main components on SmartRF 04EB when it s used as ICE Please notice that if the SmartRF 04EB is used to debug an external system the EM shall be removed and vice versa It is strongly recommended to use the SOC DEM in the EM connector slot when the SmartRF 04EB is used to debug an external system please see section 9 3 Silabs DC EH USB E DD controller Reset n EM YYY
9. 3 SC 3195 81d ZX MOHNId Engg o Hec e SH 2 E St S EA a Her egag 101 3904 et C zig I et 55 52 v ld E0800 Haz SU Em El 090 0 ez baga OMN Wdig O LO Z Iur i 30 2009 7 2d ji E dU U Her ezag Ze Ja E090 yz peal IMAN JIW ad ap clc Cat ix RK EUG UY yz IAE EN e eug H ez CES CI LUVIE ad c Ceg Z zaa zid CUYO Hec II e a Euge OH eZ ecu 0H IBVIZ Bd e c I 6 Se OW 1031 0814 coga UY y ala F t d UT Enga OH ez WISS Hong NOLITS T Od Olo o Dx E Ed31 1d coga a CS x a Uga g H taag SIu v d a 2 Z DEN cago o u z Paz 7 O D e HIER E wO gixz H3avaH dWs c o Ki Zd Id bad O o Ag I fan V 3 o lt E So BE ab o 0 T i o gdl dl T 70 C O lt NidLS3L NIdLS3L EES O 05 a a 1019 05 21 13 EN ch 3 d 3 o Q o HT UT al CN 15 9143 e ee rod mg N 13538 af de AMOS G 1d WS an ig tad 3 OTI OO 3 N ve SECH al PMA ENE ea Ke AER if ERE d on c Eco Nae d Cid N3 Dx s LLI O Oc Z009 7 INS gwa D EE ad ods i Zana wid Wa yn 2 J N N o o m Wd Na y e S N 2 Jan lxz MOHNId Bees o gt a BIXZTMOHNI d NE E BEN ord 0 o LL Cc O Id 0 cc o a H Url v 0 l mar clo o z i BC SE e E 01015 sg t 90 30 v u Slo 2 HI o Ti Cig had hoi 3348 ee os 2 b dinn IS er se E ES p w Aoa oi C o t Nasa se 22 8 ig S S Xug SidW3 giar Tra E E INS gt r ia UNI z usri 1 232 E EI E 7 ab gt NE a mja aza E
10. Figure 12 IAR installation from CD step 1 Page 19 of 31 swru134a me Texas s CCIIO CC2510 3 Click IAR online registration Figure 13 IAR installation from CD step 2 4 Follow the instructions given on screen The registration and licensing procedure is equal to the procedure explained in chapter 8 2 8 4 Obtaining 60 days additional license To obtain a license for additional 60 days evaluation please contact your local IAR sales representative For a list of sales offices and distributors in your country please see this site http www iar com contact 8 5 AR Embedded Workbench KickStart edition As an alternative to the time limited evaluation version IAR also offers a code size limited version that you can use as long as you want This is called the IAR Embedded Workbench KickStart edition The code size limitation for the KickStart edition for 8051 is currently 4 kB The kickstart edition of IAR Embedded Workbench is a code size limited but fully functional integrated development environment ideal for creating small applications or for getting started fast on a new project The kickstart eidition is completely free of charge and you may use it for as long as you want The only requirement is that you register to get a license key The kickstart edition of IAR Embedded Workbench includes project manager editor C C compiler assembler linker librarian and debugger tools A complete set of user guides is
11. ITAR Embedded Workbench An evaluation version of IAR Embedded Workbench is included in the CC1110 CC2510 development kit This chapter describes how to obtain an IAR license number how to install the IAR evaluation version and how to obtain a license for 60 days additional evaluation The 60 days additional evaluation time is provided to all TI Low Power Wireless development kit customers 8 1 Download the latest IAR software The latest evaluation version of IAR Embedded Workbench for 8051 can be downloaded from http supp iar com Download SW item EW8051 EVAL 8 2 Installation of downloaded evaluation version from web Run the downloaded installation program and follow the instructions You will have to register with IAR to get an e mail with a link to a Registration confirmed web site This is the web site that contains your license number and license key An example is shown in Figure 10 Registration Confirmed Thank you for your registration af the product IAR Embedded Workbench for 8051 v 7 306 Evaluation edition Download software EXE 68682 KE Alternate download FTP When installing the Software you willbe asked for a License Number and a License Key Please use these values License Number KAKA ROBO HORN HOA MH License Key AXXXEXXXEXXEXXEXXXXXXXXXAXXXXXXXXXXXXXXXNXAXXNIMAANAXA A NA NN ND 2 202020 2 2020 AAXXEXENXEXEXEXEXXXXEXXXXXXXXXXXXXXXXXXXXXXXXXXXXNXX XXXXXXXEXXXXEXXXXEXXXXEXXXXEXXEXXS Feature
12. TI patent right copyright mask work right or other TI intellectual property right relating to any combination machine or process in which TI products or services are used Information published by TI regarding third party products or services does not constitute a license from TI to use such products or services or a warranty or endorsement thereof Use of such information may require a license from a third party under the patents or other intellectual property of the third party or a license from TI under the patents or other intellectual property of TI Reproduction of TI information in Tl data books or data sheets is permissible only if reproduction is without alteration and is accompanied by all associated warranties conditions limitations and notices Reproduction of this information with alteration is an unfair and deceptive business practice TI is not responsible or liable for such altered documentation Information of third parties may be subject to additional restrictions Resale of TI products or services with statements different from or beyond the parameters stated by TI for that product or service voids all express and any implied warranties for the associated TI product or service and is an unfair and deceptive business practice TI is not responsible or liable for any such statements TI products are not authorized for use in safety critical applications such as life support where a failure of the TI product would reasonably be e
13. i e MEER i CO e 10720097724 Wi 8 IIA 1 ee D ae Sek i ri 33 392A 2 aNg gt t aNg 38 EZ1S SE CH UN gt lt ANI J ES vf IZN N V J 5 m gt lt JIA 5 i IZN N3 V s aci ANO gt Soon 4 400 dHO menor E EE 4 S Ade T SZA H X EG80 NEE 2 NM iN ZS OSCH Ee ke aca mrs OI m t O oo aom ura 9 Res 1579 1d Wa Idd JJA gt e eener 1 E 9 19 BE e pes DIA ze Tarren We Em REVERE KS ANI S aaa gt 1d p O m ARE 5072000727303 We lt US37 1d W3 X 1939 J N INY gt E vy LV a Jm ae RU Zo W3 oio mm z IS gId N Z 7 B OIO IND 0NI aNg ee CO vut c vi len ver Y AAJA BIJA VOA e Reg Re PE AINE dl 31vW34 9N0J dl 3 1VW34 9N0J ec icie9le SPLIJATPZNS 2 a Ec Uld ld c ld DIE sn AE ge m ail NT S40 3 UuU0I yWw3a 0133 7Nazalo33 Wsazela23 5J10 28UU09 dga001233 J01298uuoo b5ngep 3og swru134a SmartRF 04EB change list Page 30 of 31 Table 5 me Texas e CCIIO CC2510 13 Evaluation Modules Gerber files and full documentation for the released evaluation modules can be downloaded from the Texas Instruments web site Figure 25 Evaluation Module 14 Document history Revision Date Description Changes a 2007 10 10 Updated information concerning the CC1110 CC1111DK Initial release This user manual previously covered CC1110 CC2510 and CC2430 swru039 It 2007 09 14 has now been separated into two documents one for CC1110 2510 and anothe
14. joystick is treated as a separate digital signal Page 8 of 31 swru134a Re Texas s OC11O 0C2510 6 Hardware description SmartRF 04EB Power connector Supply selection switch Connectors for evaluation module EM Ec e E SoC I 7 AM e debug flash KS pe connector GND Ge f S i fiy Tree L LCD de s F MOLIS i Chipeon p Smar tRF94EB A8 nu L SMA test e rur rl ETT IA Ru di E NE Evalue WI USB Cl Cnipeon AS connectors connector Jeff I Adm USB MCU reset USB MCU debug nr OT lt D 4 s connector i i NES MEM MEM NEN USB MCU ul eg X RS 232 Atc E Vol e T Potentio maS S J A a LE n F meter C382 lu uu Azp T bE Cat connector Mic input NEM WK EE EE ee ee ee UA B ret UE MA NEM A 7 0 95 e 7 ad EM EE A EM E M ID Button Si Joystick Voimme I O connector A VO connector B control Figure 3 SmartRFO4DK overview The figure above shows the major parts of the SmartRF 04EB The SmartRF 04EB serves as main platform in the development kit Page 9 of 31 swru134a me Texas s CCIIIQCC2510 6 1 Powering SmartRF 04EB If several power sources are connected to SmartRF 04EB the board will be powered from the supply that supplies the highest voltage Figure 4 Power switch setting The Power Switch S3 must be set according to what power source is used If 3 3V is applied using the power termina
15. 01p una o3 ZH YUNA EIA H Ze I 090707H E g4 d A c i y A pus pSZLVa LZ E HO VO f wscocuoceaga Neg 73 e m DE 09074 ra S0d AG NNOJ go SAYA ey C yng u SC A ld Idi ps 7 Se WEE ABI ug Doran ii Coon Ed THEN SEBA naa 2H c Pu Ze Z D ped s a t Ge sv y Sit H NvI ERE 3 Z Eeer I n SH 8 E GITA Baga NE GIATESXTEODOTZNMZTI V som e t ez cj THA e e tup lt En AE E 5B6Zd1 AE Ei f1 Ls 4 d T LA G c NIV Pod e hd A Y qd LOdS7HILIMS vez ya es Ge S NI I e E TET Lf10 I umani EA AGE de aNg s Wual1 43d38 GJANA Gd BldL Gdl d CYA NONE ILNI OAMENI Od EFE LNIOH LG31 e ei v e e sna SZLINB 488 HH Id lH abejjoO YsSseybry YIM indui wows UMeIDp Sl jusauun INSTRUMENTS d i TEXAS swru134a SmartRF 04EB schematic page 2 Page 25 of 31 Figure 19 Z 123248 33v358 asnos EN EV qa3333H AJH ON ma asa szisldc Hus HA NMYHT NIN 8sf OMA Siva SIVADBIIV JIdI Ho INVN_ANVINOI Saca ON LOVYLNOD CC EC 240 JO 3I39UUO0OJI onqeq MIN 8sn
16. 4 tab Select the correct Development Kit several Development Kits can be connected to a PC at once it should be listed as CC2510 new device or CC1110 new device and click the Start button In the main SmartRF Studio window settings can be changed tests performed and registers adjusted RF measurement equipment may be connected to the SMA connector on the EM Please see the SmartRF Studio documentation for more information about the operation of SmartRF Studio 7 3 1 Output power testing EB EM RF carrier gt Spectrum analyser Figure 9 Output power measurement set up Plug an EM into the SmartRFO4DK and connect the Development Kit to a PC using USB Start SmartRF Studio Connect the antenna port of the EM board to a spectrum analyser using a 50 ohm RF coaxial cable Use the simple TX function in SmartRF Studio to set up the RF chip to emit a carrier at the desired frequency An accurate measure of the output power can now be made It is recommended to use a resolution bandwidth RBW of 3 MHz to ensure that all the RF energy is included in the measurement Using good quality RF cabling the loss in the cabling should be negligible However make sure that the spectrum analyser is calibrated If possible check it against a calibrated instrument such as an RF signal generator Uncalibrated spectrum analysers can display errors of several dBs Page 17 of 31 swru134a me Texas s CCHIIQ CC2510 8
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18. A oe A SZ F El E 6 4 gt g 7 EM el ab Sg 8 sl L site Coop gal d swru134a SmartRF 04EB schematic page 5 Page 28 of 31 Figure 22 e al 5 tera gt DEET DEE DEET r3 Cou J 0EbN g a Esn AS J N pi g 37H X S888 nl73 A QE J NE TAL e e e e el e o LMONITIW B Qd P t S ll LES sefrur gt S ta TER ECH a 2 9907074 S BETA A TERRA Tz ae EAR 35 35 y Z d g E890 3 78 b z IWER ZErY aaday o RE SZTJ HXT EBIB NEETI v 2EbN val HEN A IER 6d A Sdl l Nid SAL dg Eggg z u leva BNI st yas ANI fel ay 9 ads a Rd Niog BIO W X SOZI ZhZ72 if gino diay me oi e 1100 S E zd anas q a a angal 0i a d 8 z BRA z dE Z gb 2 STEI DU X W K gaz znz 3 SE Mb E 5 GE Hn 2g 3 Bex Paddy ES c se Avec aun RES e e A a eee ee rc D ES qaas las SEET E enz 3 z S23 y eg ITAd sl i Sz IWE TUI OC AN ZI AGES GE s en z ITAY 6uraga3j r
19. DN300 SmartRFO4EB Troubleshooting Page 23 of 31 swru134a CC EC 240 ZI 13388 aqvas qanssi NEW Cu q3323H A38 ON DMA ON wasi SAS ES HS IHS Haalt USR EES SENG OMA 3ivd S1vAOHddV PE Sy SEI 255728 3WYN ANY ON LOVHLNOZ e WS NOLLMS7HSNd zs eum Su swru134a 713938 E SS ud J 398 437 Ul ZEZ SY oy 128 d SE YUS E Zd SLITZEZSE Ja z009 7 Zd e 11 8019 1 Zd 3 038 2d GL 18VT E Bd Ee AE OU Lara Bd g Z OSIM 1019 05 4 ld 890 87H qu zezsu Z SON 1S 9 Id DEER SUugOori2suuoo wo E Si VEER 7 SLU S1H ZEZGH Ee EE ENEE caza a LMA 1007 Wd I id 46 ansa 131 09 ld e Bula LOd 20d S A0r 8 8d a Coop HSNd AOP SLI S Bd a S ZH S1H Bd 1 TLTLHYN E Bd i THT LHYN Z Bd HSfld NOLLAG I Bd LNdNI JIN Bd HYATT T N 1383H Frat eqdav
20. HG S983 Asu EE ama Siva SdvAOHddv Sy Odd HJ oc JAVN ANVANOS ON L2vHINO2 J18YNJ a3 2 DEBIO 375 H BUCH e c D DEBIO JLP H Z ZH Ager 513 ez x t gpy AE EF 8 of LNOSH NIL L Fr HCH q1 1HVD E d nova MS 51H ji 1noeg GEN gt LO Zu noel Fe qu 18vh Z Gd ge LNOld NOZL far SIT ZEZS8 af Ginazy L00 FE e i GLIVANI sure qu CC pe y uix egga nee T fee 2022803 Hier ai HsX eaga znz 3 vazi g N03J804 eure SIH ZE cSU ES r 3 WES 2 Ec so LR SIH ZEZSH g ANI NIIH Uy al ztzs et e SX HX E090 NOOO Ho 3 ISA gazi D d t Ze A SS i a p ac 13 MES AEC YYA anap c z23 EVCEXV gazi le SEKR EBSA A T SC 1023 T HG H X ENJA NGG I e 2024 HG HUK 498 Nal y aac SmartRF 04EB schematic page 4 Figure 21 swru134a Page 27 of 31 CC EC 240 K l NET 31v235 aanssi 118 ev d3AD3H A38 ON IMA on Wass SZIS 345 Hy DIE JLO Ur orpny LL qu HMR ma 31ya SIVAGUddy Sy OI HAY AAA SAVN ANY dNOS OH LIV IL NDI JamE B5bursegije rii1ue ssed moy HA Ul 057r709N 720307008179 Cr Cell Kc ne e
21. OC DEM board Please note that the SmartRF 04EB P14 SoC debug flash connector provides an SPI interface in addition to the Chipcon debug interface This SPI interface is NOT provided by the SOC DEM However it is neither needed for programming nor debugging of Chipcon System on Chip products Page 22 of 31 swru134a me Texas s CCHIYGC2510 10 Programming the SoC with a HEX file The SoC can be programmed from the USB interface using the Chipcon programming software Figure 17 shows the user interface of the Chipcon Flash Programmer For additional information regarding the Chipcon Flash Programmer please refer to the Chipcon Flash Programmer User Manual Chipcon SmartRFig 4 Flash Programmer aystem an Lhip EB application USB EB application serial ER bootloader C ChiNcon uus AU E 5300 LC2510 SmarAFO4EB 0400 0035 Interface Fast Flash image UA RE lA E Change H bytes at is ta Actions Flash lock effective after program append Erase and program Write protect No upper pages Erase program and verify Append and verify write protect boot block Verify against hes file Block debug commands incl read access Read flash inta hex file HB Cannot Append and verify when set Perform actions Figure 17 Chipcon Flash programmer software 11 SmartRF 04EB Troubleshooting Please refer to Texas Instruments Design Note DN300 for SmartRF 04EB troubleshooting
22. ccccnonccnoncnnoncnnononnononornonno no nooo nno nono rnonnononnnncnncnoncnnon 18 8 2 INSTALLATION OF DOWNLOADED EVALUATION VERSION FROM WER 18 8 3 INSTALLATION FROM THE CD ccccccscecccceccsceccscsccscscescscscscescscesescesescssescscescesescssescscasescesesees 19 8 4 OBTAINING 60 DAYS ADDITIONAL LICENSE noo noo nono nor nor nor ses restesseste sees t ee tuae 20 8 5 IAR EMBEDDED WORKBENCH KICKSTART EDITION ccsceccsceccececcececcececcecscescecescecesescesesees 20 9 USING SMARTRF 04EB FOR PROTOTYPING ccccccsccoscsosccosscsccscscsccssscssscscssccsccssssceees 21 9 1 USING SMARTRF 04EB AS AN IN CIRCUIT EMutLATOopOCE 21 9 2 DEBUG INDE REA Cm EE 21 9 3 SYSTEM ON CHIP DEBUG PLUG IN BOARD SOC DM 22 10 PROGRAMMING THE SOC WITH A HEX FILE s ss s ssseeeece 23 11 SMARTRF 04EB TROUBLESHOOTING cccsccscsssoccoccocsscesceccescescescsscecsacsacsacsacsecsececseces 23 12 SMARTRF04DK SCHEMATICS s sses0ssssee 24 13 EVALUATION MODULE neger eege Eed GERN 31 14 DOCUMENT HISTORY aAa E EE E O ARESE ES 31 Page 2 of 31 swru134a me Texas s CCHIIQ CC2510 1 Introduction Thank you for purchasing a SmartRF 04DK Development Kit Please note that Texas Instruments uses the term SmartRF 04DK as a collective term for all development kits on the Chipcon SmartRF 04 platform This development platform supports e
23. d agree that if they use any non designated products in automotive applications TI will not be responsible for any failure to meet such requirements Following are URLs where you can obtain information on other Texas Instruments products and application solutions Products Applications Amplifiers amplitier ti com Audio www ti com audio Data Converters dataconverter ti com Automotive www ti com automotive DSP dsp ti com Broadband www ti com broadband Interface interface ti com Digital Control www ti com digitalcontrol Logic logic ti com Military www ti com military Power Mgmt power ti com Optical Networking www ti com opticalnetwork Microcontrollers microcontroller ti com Security www ti com security RFID www ti rfid com Telephony www ti com telephony Low Power www ti com lpw Video amp Imaging www ti com video Wireless Wireless www ti com wireless Mailing Address Texas Instruments Post Office Box 655303 Dallas Texas 75265 Copyright 2007 Texas Instruments Incorporated
24. eld OU LYYN zZ Od l zaji aa Bd ies EE ji Ee 31ayNa dd 195 Zd 8 vasse za 1 SE vi P Aj ddns Jamoy Do TIONS p037 0 2d eda veld Ja 2005 2 zd 20371 Z 10 14 8009 1 Zd I133 814 9031 8 Zd oao2gejJesjup 4 5f SS UST Fld SNIA ISON IS 9 1d 1097 0d i OSIIIOT8 05 ld E A0r 8 Bd SE uv HSnd A0n 812 8 Bd HSNd NOLLAG I Bd aa d La awviandi 4 195 d vasreza MIN ES E EEN IN YYA TIVIN 318YN3 43 Lfd 10107 WA Ld y effet ER AO 9 Bd Po Jplarys goejJgjul OLON i HSfld N0 LLRB I Bd T j 5 pi LNANITIIN 8 Bd 1RdNI 3IN 8 Bd SE Te patys 10d Bd ang HSfld A0r 513 8 ad 1 518 Bd E is tod R K IER g asn aBed 617133979893 6 1 13337893961 taad aiao 133937803 12 SmartRFO4DK Schematics INSTRUMENTS d i TEXAS SmartRF 04EB schematic page 1 Page 24 of 31 Figure 18 K quas 31v35 R ISER 18 Ev I3333H AJH ON 9MG azis clu Ajddns samag E myad ma 3ivd SIYA0Hday IHJ INVN_ANVINOI Saca ON LOVYLNOD CCILIO CCZ510 payunow s saysiseyg UBPZLIT YM E ueuw JojejnbaJ1 AG 8jqeua 0 CH junouw pue gy Bursn 8 O0U8u 518392 yyy JO vv OM WOJ Aji2e8u p Buruuns usuw ugoridunsuaa Jamod unul ur ul JO J0 8e nb8J A E 8jqesp 0 YH junou pue GY a ousH SIU Ag 2862 04 YM 4Ju8i1ieqd e 3284002 ON OG 1ue1Jodu elle yyy J0 YY OM Wout A 08
25. ered from the SmartRF 04EB supply during programming and debugging this pin should be connected If the target voltage differs from 3 3V this pin should not be connected Page 21 of 31 swru134a me Texas s CCIIO CC2510 The pin out used on the SmartRF 04EB is explained in Table 4 and Figure 15 All signals in bold in the table are required Figure 15 shows the required signals for a minimum connector layout Pin Function Note 1 GND TI VDD Used to set correct voltage for the TI L oo 3 Debug Clock DC 4 Debug Data DD J 5 C8n AAA MO 9 3 3V VDD at NC Delivers VDD from SmartRF 04EB MISO y Table 4 P14 SoC debug connector pin out 1 GND 2 VDD 3 DC 4 DD 7 Reset N Figure 15 Recommended debug connector layout Top view 9 3 System on Chip Debug Plug In board SOC DEM The CC1110 CC2510 DK is equipped with a System on Chip Debug Plug in board SOC DEM as shown in Figure 16 The SOC DEM provides an additional physical SoC debug programming interface for the SmartRF O4EB The board is included because the original debug interface on the SmartRFO4 EB P14 is known to be unreliable in certain situations When programming and or debugging a target board using the SmartRF 04EB as In Circuit Emulator ICE it is recommended to always use the SOC DEM board in stead of the SmartRF 04EB P14 SoC debug flash connector Figure 16 S
26. face and peripherals of the chip Evaluate the SmartRF 04 products Right out of the box the kit can be used for range testing Use SmartRF Studio to perform RF measurements The radio can be easily configured to measure sensitivity output power and other RF parameters Prototype development The SmartRFO4DK includes a USB interface that can be used as emulator interface for the CC1110 CC2510 All CC1110 CC2510 I O ports are available on pin connectors on the edge of the board to allow external applications easy access to the CC1110 CC2510 These connectors are also compatible with logic analyser probes for easy debugging Page 5 of 31 swru134a me Texas s CCIIIQCC2510 5 SmartRF 04EB This chapter includes overall information that applies to SmartRF 04EB In the following SoC means Chipcon System on Chip i e CC1110 or CC2510 Silabs hiocon eset n C IPC USB cable us SoC controllei General 1 0 Peripheral UART LEDs LCD Button Figure 1 Main components Figure 1 shows the main components on the SmartRF 04EB A USB cable from a PC is connected directly to the USB controller When a SoC evaluation module is plugged into the SmartRF 04EB the only purpose of the USB controller is to translate USB signals to the SoC 2 wire debug interface This interface includes Debug Clock DC and Debug Data DD The USB controller also controls the Reset_n line connected to the SoC Most
27. ge 7 of 31 swru134a me Texas s CCIIIQCC2510 5 2 USB MCU signal names The USB MCU is a C8051F320 from Silicon Labs Please see the Silicon Labs web site for detailed information about this MCU The following table shows the usage of I O pins on the USB MCU Dr eme Di 0000 USB MCU SmartRF 04EB resistor transceiver transmitter SO GDO2 2 POO X J Pt5 SCLK Riis SPlSerialclock 10 Lon CF USBMCUDebugpin LEDS yellow active low 12 P26 PO4RTS R10 PT 13 P25 RS232 PONER Turns RS 232 level converter on off LED4 Blue active low 15 P2 3 RESET N LCD Power on reset signal SoC ee TT O E 16 P2 2 SOC_PRESENT Tells USB MCU whether a SoC is present 1 SoC voltage LED2 Red active low LED1 Green active low 2 P2 4 SCL R124 1128 clock for LCD P2 3 SDA R123 125 data for LCD debug signal Transceiver transmitter GDO1 SoC debug signal P0 2 UART RD R102 UART RD P0 3 UART TD R103 UART TD P0 3 XTAL2 P1 4 CSn SS R114 SPI slave select signal 32 PO 2 XTAL1 P1 6 MOSI R116 SPI MOSI signal Transceiver Transmitter SI Table 1 USB MCU pin out As mentioned in the table the joystick output is coded as an analogue voltage This has been done in order to save the number of pins required on the MCU to interface with the joystick The SoC software libraries contain functions to decode the ADC values and indicate in what direction the joystick is moved The push function of the
28. ins by removing the 0 ohm resistors The I O connectors are located on the outside of the 0 ohm resistors so they are still connected to the EM connectors even if the 0 ohm resistors are removed Please refer to Table 1 on page 8 for a list of O ohm resistors and corresponding signals The SmartRF 04EB may not work with In Circuit Emulator ICE SmartRF Studio or the SW examples when the 0 ohm resistors are removed Page 14 of 31 swru134a me Texas s CCILIO C2510 6 10 EMLCD connection Please note that the I O pins P2 3 and 2 4 on the SoC are connected to a 32 kHz X oscillator on the CC1110EM and CC2510EM boards The LCD display is therefore internally on the EM swapped from P1_2 to P2_3 and P2_0 to P2_4 as shown in Figure 8 Therefore there is no access to LED2 red and LED4 blue from the SoC CC 1110 25 10EM SmanRFMeEBR Mot connected to CC1110 2510EM et O ul A LI mal Figure 8 EM LCD connection Page 15 of 31 swru134a me Texas s CCILIO C2510 7 Application examples and RF testing This section identifies what example software comes with the CC1110 CC2510 development kit and also describes how to use the kit for fundamental RF testing 7 1 Setup 1 Plug two Evaluation Modules into the two Evaluation Boards 2 Connect antennas to both EM boards 3 Apply power to the Development Kits See chapter 6 1 for more information about various ways of powering the Development Kit 4 Turn on power b
29. isions Note that the SmartRF 04EB revision is stated on a stick on label located on the backside of the board A standard PC type headset with separate microphone and headphone mini jacks can be connected directly to the audio interface Page 11 of 31 swru134a me Texas s CCHIIQ CC2510 6 6 SPI interface swap jumpers on SmartRF 04EB The SPI swap jumpers at P3 shall be set according to Figure 6 NITILNOTIAE E AB ABI A O Hi PB FM3 H2 Pz Le PIB ehipeon c TP7 Smar tRF 4EB 1 9 gt ee Smar tRF 84 Evaluation Board IC Chipcon AS PIS o P1824 PIBBz Pig23 P3088 DTEST Pi2 USB MCU Reset iB a fare Pi4SoC debug flash us E op Oca 3 DTESTI 5308 co m AS 232 1 e gt i P200 c38a 14 Po t P381 SEH ATI AJ GERS E R38 n Nooo as D WNN ELE fun USB MCU debug f4 GUIES Es Fa l R28 C283 LEDs HH USB CI Uapg rr Hs E32 Fe Gas 622 m E PORT CSA SCLE SI 50 Figure 6 SPI jumper setting Page 12 of 31 swru134a me Texas s CCIIIQCC2510 6 7 1 0 connectors The I O connectors bring out all the signals from the EM connectors These connectors are compatible with Agilent logic analyser probes The connectors allow easy access to I O signals and to connect prototyping boards Pin Function 6 P21 DD 8 P22 DO O 9 P1 2 LED2 9 PNG PO 1 BUTTON PUSH N C 8 NC
30. l block the switch should be set to the left position In all other cases the switch should be set to the right position for power to be applied to the SmartRF 04EB This switch can be used to turn off the SmartRF 04EB by switching it to the opposite position of that used to turn it on d 4 i8v 6yvV 3 3Vi 0U Li MX Figure 5 Power connector The SmartRF 04EB can be powered in several different ways e DC jack connector with standard DC jack power connectors with a 2 5mm centre pin The centre pin is used for the positive voltage A 4 10V DC power supply should be used The onboard voltage regulator supplies 3 3V to the board e Laboratory power supply Ground should be connected to the OV terminal on the power connector see Figure 5 A 4 10V supply can be connected to the 4 10V terminal or a 3 3V supply can be connected to the 3 3V terminal The on board voltage regulators will be bypassed when using the 3 3V terminal Therefore it is important that the voltage level is within these limits o 2 V 3 6V when the USB interface is not active o 3 0V 3 6V when the USB interface is active e USB power If the SmartRF 04EB is connected to a USB socket on a PC it will draw power from the USB bus The onboard voltage regulator supplies 3 3V to the board e Battery power The evaluation board includes a 9V type battery connector on the bottom side of the PCB A 9V battery or a battery pack that uses a 9V type connecto
31. manual SmartRF 04DK USB MCU Factory firmware PER SoC ICE A collective term used for all development kits for the SmartRF 04 platform i e SmartRF 04EB EM The Silicon Labs C8051F320 MCU used to provide a USB interface on the SmartRFO4DK The firmware that is supplied programmed into the USB MCU from the factory This firmware supports SmartRF Studio operation as well as a stand alone PER tester Packet Error Rate Counts the number of lost and or faulty packets and displays the ratio lost faulty packets number of packets sent System on a Chip A collective term used to refer to Texas Instruments ICs with on chip MCU and RF transceiver Used in this document to reference the CC1110 CC2510 In Circuit Emulator Page 4 of 31 swru134a EXAS INSTRUMENTS 4 Kit content 4 1 Hardware The development kit contains the following 2 x SmartRF 04EB 2 x CC2510EM evaluation modules in the CC2510 CC2511DK 2 X CC1110EM433 and 2 X CC1110EM868 915 evaluation modules in the CC1110 CC1111DK Antennas for the appropriate frequency range 1 x USB dongle 2 x USB cables 1 x USB extension cable 1 x 10 wire flat cable for using SmartRF 04EB as emulator for external target systems 1x SOC DEM System on Chip debug plug in board Quick start guide CCLHO CC25I0 SmartRF 04EB with EM The SmartRFO4DK Development Kit includes a number of functions and applications that allows quick testing of the RF inter
32. me Texas s CCIIIQCC2510 CC1110 CC1111DK CC2510 CC2511DK Development Kit User Manual me Texas s CCILIO C2510 Table of contents 1 iOa id OD E DA D O IB 3 2 ABOUT THIS MANUAL See 3 3 DEFINITIONS EES 4 4 KIT CONTENT j i ee 5 4 1 ER ag EE ea do o o le AA de ll EEN 5 5 SMAR TRE UJEB Lud o AAA a ee ee te 6 5 1 SO A O A WAA YA MENA eat NATA hated oe de utc MEMA 7 Sap d bootloadera EE 7 5 1 2 POL FUMMUNDEWS BACONI EE 7 3 2 USB MCLU SIGNAT EN EG 8 6 HARDWARE DESCRIPTION SMARTRE O4EB ccsccscoscessesssscsscsoscescescecssscsacsacsacsnceaceace 9 6 1 POWERING SMARTRE OAER cono nono nono n non nn nn anna rette nana nana 10 6 2 IS N T E A O II ESE Ma D E EP Ld 11 6 3 Ra ase ig OG Wid i e EE 11 6 4 NG TNE RAC EE 11 6 5 JSEDIO TN DER AC ee 11 6 6 SPI INTERFACE SWAP JUMPERS ON SMARTRF OABEB onoooooonoocnoccnonoconcnonononnnonn nono conan cnn nconanannnons 12 6 7 VOC ONNECTOR A O A EE Kn MRE A A O 13 6 8 ENLCONNEGEIORS oou cedes du cuu Eur Du dn I Mr cd cM EUM AE 14 6 9 SIGNAL DEE EE EE 14 0 50 SE CTD CONNECTION a eA eshte Sa lg aa Oe eal Sette sg a O a 15 7 APPLICATION EXAMPLES AND RE TESTING w ccccccsccccccccccccccccccccccccccccccces 16 7 1 SI De ae aR PT eae eR Pee Se eS nT Se 16 TA EE ee Ee 16 7 3 BR DR dE 17 7 3 1 EIERE eege Eeer kw Mai wawa 17 8 IAR EMBEDDED WORKBENCH sses00ssee 18 8 1 DOWNLOAD THE LATEST IAR SOFTWARE ooccn
33. of the peripherals on the SmartRF 04EB are connected to both the USB controller and to the SoC This means that I O ports on both controllers can drive the same pin When the USB controller detects that a SoC is connected it will therefore set all the I O in three state high impedance mode The connection to the USB controller may anyhow somewhat influence these I O lines Page 6 of 31 swru134a me Texas s CCILIO C2510 5 1 USB MCU 5 1 1 Bootloader The USB controller is programmed with a bootloader when it is shipped from the factory The bootloader allows programming of new code into the USB MCU without the Silicon Labs serial adapter The bootloader communicates with SmartRF Studio or a custom program via USB 5 1 2 Programming USB controller If it is required to update the firmware of the USB MCU this can be done using the SmartRF 04 programming software Chipcon Flash Programmer or SmartRF Studio For use of Chipcon Flash Programmer please refer to Chipcon Flash Programmer user manual for instructions The USB controller can only be updated via USB when no EM is connected to the SmartRF 04EB To download firmware to the USB MCU without using the bootloader or to download the bootloader in the first place a Silicon Labs EC2 serial adapter Figure 2 is required This adapter should be connected to P301 marked USB MCU debug on the SmartRF O4EB Sorial Adapter aca Figure 2 EC2 serial adapter Pa
34. r can be connected to this battery connector The onboard voltage regulator supplies 3 3V to the board Page 10 of 31 swru134a me Texas s CCILIO C2510 Please note that while the SmartRF 04 devices have a wide supply range the components on the SmartRF 04EB limit the total voltage supply range to 2 7V 3 6V 3 0V 3 6V while the USB is active The SmartRF 04EB has been designed for a temperature range of 40 C to 85 C excluding the LCD display The EM is designed for a temperature range of 40 C to 85 C 6 2 USB Interface The USB interface is used to interface to a PC to run SmartRF Studio and for programming and debugging using the PC debugging tools and programmers If SmartRF Studio connects to the SmartRF 04EB and detects an old version of the USB MCU firmware the USB MCU will be upgraded via this interface The SmartRF 04EB can be bus powered from the USB interface 6 3 RS 232 interface The RS 232 can be used by custom applications for communication with other devices The RS 232 interface utilises a voltage translation device so that the RS 232 port is compatible with bipolar RS 232 levels Note that this RS 232 level converter contains a charge pump power supply that generates electrical noise The RS 232 voltage converter can be disabled by driving pin P2 5 on the USB MCU low the same pin is used to disable the headphone amplifier 6 4 User interface The SmartRF 04EB includes a joystick and a p
35. r for CC2430 The main technical update in this document revision concerns the debug interface audio interface and software examples Page 31 of 31 swru134a IMPORTANT NOTICE Texas Instruments Incorporated and its subsidiaries Tl reserve the right to make corrections modifications enhancements improvements and other changes to its products and services at any time and to discontinue any product or service without notice Customers should obtain the latest relevant information before placing orders and should verify that such information is current and complete All products are sold subject to Tl s terms and conditions of sale supplied at the time of order acknowledgment TI warrants performance of its hardware products to the specifications applicable at the time of sale in accordance with TI s standard warranty Testing and other quality control techniques are used to the extent TI deems necessary to support this warranty Except where mandated by government requirements testing of all parameters of each product is not necessarily performed Tl assumes no liability for applications assistance or customer product design Customers are responsible for their products and applications using Tl components To minimize the risks associated with customer products and applications customers should provide adequate design and operating safeguards TI does not warrant or represent that any license either express or implied is granted under any
36. ush button as user input devices and four LEDs and a 2x16 character LCD display as user output devices The display and user interface is by default controlled by the factory firmware in the SoC 6 5 Audio interface The SmartRF 04EB includes a microphone input and headphone output The audio output section consists of a volume control followed by a 4 order Chebychev filter This filter serves to attenuate frequencies above 6 kHz and so converts the PWM signal to an analogue audio signal A headphone amplifier IC TPA4411 from Texas Instruments is used to drive the headphones Note that the headphone amplifier IC uses switch mode power supply techniques to generate negative voltages and this may cause electrical noise The headphone amplifier can be disabled by driving pin P2 5 on the USB MCU low the same pin is used to disable the RS 232 voltage converter The audio input section consists of a microphone amplifier that also includes a low pass anti aliasing filter In order to use the audio microphone input a resistor preferably 0 Ohm has to be mounted at position R104 on the backside of the SmartRF 04EB The R104 resistor connects the audio microphone input an analogue signal to an associated EM pin When a SoC EM is used together with a SmartRF 04EB the audio microphone input may generate interrupts and e g wake the SoC up from Power Mode 2 Therefore the R104 resistor is not mounted on SmartRF 04EB rev 2 0 1 and newer rev
37. valuation development and prototyping using the Chipcon SmartRF 04 products from Texas Instruments Make sure to subscribe to the Low Power RF eNewsletter to receive information about updates to documentation new product releases and more Sign up on the Texas Instruments RF IF Components web site 2 About this manual This manual contains both tutorial and reference information and covers both the hardware and software components of the development kit Note that the RF USB dongle HW CC1111 or CC2511 and application examples are covered in a separate document Both SmartRF Studio and the Chipcon Flash Programmer have their own user manual Further background information can be found in the device datasheets Page 3 of 31 swru134a d i TEXAS INSTRUMENTS 3 Definitions SmartRF04EB COLUDYCC25 10 CC1110EM or CC2510EM Evaluation Board Main board with LCD USB CC1110 CC2510 Evaluation Module a interface LEDs pot meter etc Platform for the small plug in module for CC1110 Evaluation Modules EM CC1111DK CC2510 CC2511DK should be RF USB Dongle i 8 lt b tee poma 1 A i 3 RA e j AP f used as reference design for antenna and HF layout F uL a ON wr e gt E 1 n bi be e D Reference design for a CC1111 or CC2511 based USB dongle with RF interface Should be used as reference design for antenna and RF layout Note that the USB dongle is covered ina separate user
38. xpected to cause severe personal injury or death unless officers of the parties have executed an agreement specifically governing such use Buyers represent that they have all necessary expertise in the safety and regulatory ramifications of their applications and acknowledge and agree that they are solely responsible for all legal regulatory and safety related requirements concerning their products and any use of TI products in such safety critical applications notwithstanding any applications related information or support that may be provided by TI Further Buyers must fully indemnify TI and its representatives against any damages arising out of the use of TI products in such safety critical applications TI products are neither designed nor intended for use in military aerospace applications or environments unless the TI products are specifically designated by TI as military grade or enhanced plastic Only products designated by TI as military grade meet military specifications Buyers acknowledge and agree that any such use of TI products which TI has not designated as military grade is solely at the Buyer s risk and that they are solely responsible for compliance with all legal and regulatory requirements in connection with such use TI products are neither designed nor intended for use in automotive applications or environments unless the specific Tl products are designated by TI as compliant with ISO TS 16949 requirements Buyers acknowledge an
39. y setting the power switch correctly For a more detailed explanation see the Quick Start Instructions for the development kit 7 2 Examples The CC1110 CC2510 development kit is accompanied by a Packet Error Rate PER software example This together with a corresponding document can be downloaded from the Texas Instruments web site The software example is provided as source code It is written for the IAR Embedded Workbench for 8051 It is necessary to have the Embedded Workbench installed to be able to compile or debug the source code or build binary files for download to the CC1110 or CC2510 Please see chapter 8 for installation and licensing details The Packet Error Rate PER is one way of describing the quality of a radio channel A high PER indicates many lost or damaged packets in other words bad transmission conditions This example makes it possible to test the CC2510 and the CC1110 against the specifications in the data sheet in different transmission conditions and with various radio frequencies chosen from a menu When starting the example the Chipcon logo chip used and revision will be shown on the LCD The application will start when button S1 is pushed Page 16 of 31 swru134a me Texas s CCILIO C2510 7 3 RF testing RF testing is best performed by using SmartRF Studio together with the Development Kit Connect the SmartRFO4DK to a PC using the USB interface Start SmartRF Studio and select the SmartRF 0
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