Datasheet - Mouser Electronics
Contents
1. AlddNS H3IMOd Japoy neg vv vxz 13M2OS o iva NOILN1OS AH34ILVS 26 26 IMPORTANT NOTICE Texas Instruments Incorporated and its subsidiaries TI 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 Tl s standard warranty Testing and other quality control techniques are used to the extent 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 patent right copyright mask w2. TEXAS INSTRUMENTS CC1110 amp CC2510 Mini Development Kit User s Guide SWRU236a TEXAS swru236a NSTRUMENTS Table of contents E ZNTRODUCIHIIGON CRAVE TIER QE VE vae EU ovs ae Cu Du a 3 2 ABOUT THIS MANUJX Fe oa va CE CE E 4 S ACRONYMS anu bs erede eee 5 4 MINI DEVELOPMENT KIT CONTENT wisccccssicicitecisescevescissdecsesccsedeesssecassseecosssessvostessecesvacsetes 6 SN 8 5 1 USA DU ASSERERE 8 6 USING THE HARDWARE E A GS 10 1 SOURCE et 10 1 1 TOW RS 10 1 2 Power 11 6 2 BUTTON eK M Manda 11 6 3 11 6 4 DEBUG CONNECIOR DEB UG 11 6 5 UO PIN CONNECTORS INTIO L5 12 6 6 ANTENNA OPTIONS Poet e Rita E MEM la d asia dis 12 6 7 HARDWARE DEVELOPMENT ibo E eaae tte Reeve bi etie datus E EON Vespa eT tu bep cds 13 7 USING SMARTRE STUDIO WITH SMARTRF CC1110 CC2510 TARGET BOARDS 14 7 1 TESTING LX PARAMETERS semet E NE 1
3. N 13S3H 20 LO Zd EJ 1531 0 Od A S ZOO ZNI 1 0 9 OdN Sdi 2 XEM Wwe 9 id vezo 0670 OdN ZOvO Odi 9 S 22 eee N a M 0 OdN ZOHO 4004 0 Ld gt 0S 9 OdN ZOO 8di 2 22 Q30 td s 3 b_ d z s z 05 400179 z 57200 ZNI 1 i z OLSZOO Z L 40 S1IS 941 yne q yews ped We Wiis d H 99 W 0121 9 E kD C_100N_0402_X5R_K_10 C_100N_0402_X5R_K_10 C 220P 0402 NPO J 50 C252 C222 C_100N_0402_X5R_K_10 C_100N_0402_X5R_K_10 C292 C22 _ Wi rs vivit YYW TIINA 00000000 Ovoo oco go i DO 2115 OS ZOPO NI o s 7 oer 5539519 1 2 0 qao 20724 0 1U 0402 X5R 6P3 3OV4dMHalNI N 13S3y OILNI Uno JON tSK id NOLLNG Ha p 2082749 _ _ O AYAS NOLLNE LS HSNd zoro 0 2 y a vH Rhe Q31 zoro Oz M JOAS L sorn an qan i n fd N33H9 2 1 Bumes 1eduunf WW S Z ZXZ iva GGA
4. 0 PKTCTALO 0x05 Packetformat PKT FORMAT 1 0 CRC operation gt EN Packet config gt LENGTH CONFIG 1 0 PKTCTRL1 0x04 Address check gt ADR 0 FIFO autoflush gt AUTOFLLISH Stop 435 Device ID 0 0601 Last executed command Figure 7 5 Control window for the SmartRF CC2510 target board from SmartRF Studio 16 26 Date 09 07 2009 Time 10 22 37 TEXAS swru236a NSTRUMENTS 71 Testing TX Parameters To investigate the TX performance of the CC1110 and CC2510 mini development kits with the SmartRF Studio the RF measurement equipment may be connected to the target board in three different ways e Connect an appropriate antenna to a spectrum analyzer and make sure that R1 on the SmartRF CC1110 target board or R2 on the SmartRF CC2510 target board is mounted in the PCB antenna direction Use the Simple TX test mode in SmartRF otudio and set the desired parameters Solder a semi rigid cable to test point T2 on the SmartRF CC1110 target board or on the SmartRF CC2510 target board and turn the R1 R2 resistor from the PCB antenna position to the test point position see more in section 6 6 Connect a 50 Ohm coaxial cable from the spectrum analyzer to the semi rigid cable and use the Simple TX test mode in SmartRF Studio to set the desired parameters This is illustrated in Figure 7 6 Turn the R1 R2 resistor SmartRF CC1110 SmartRF CC2510 target board resp
5. Chapter 9 mentions other software is available for the mini development kits A troubleshooting guide can be found in chapter 10 Chapter 11 provides a list of relevant documents and links Appendix A and B contain the schematics for the SmartRF CC1110 and SmartRF CC2510 target boards respectively The complete reference design for both the target boards are further available on the mini development kit web pages on the web site see 4 and 5 The CC1110 Mini Development Kit 868 915 MHz Quick Start Guide 1 and the CC2510 Mini Development Kit Quick Start Guide 2 are short tutorials on how to quickly and easy get started with the two mini development kits and how to use the preprogrammed link test on the kits The CC1110 amp CC2510 Mini DK Software Example User s Guide 3 describes the source code and has more detailed documentation on the preprogrammed link test that comes with the kit The CC Debugger User s Guide 6 covers all the details regarding the CC Debugger tool that comes with this kit The user s guides for the PC tools SmartRF Studio 7 and SmartRF Flash Programmer 9 give details on the use of these PC tools Relevant design notes and application notes for the CC1110 and CC2510 mini development kits and the CC1110 and CC2510 datasheet and errata note can be in the device product folders 14 and 15 Also visit the kit web pages 4 and 5 for additional information 4 26 TEXAS NSTRUMENTS Acr
6. connector marked Debug The boards further provide access to all the I O signals from the CC1110 CC2510 two LEDs and two push buttons 8 26 TEXAS swru236a NSTRUMENTS After assembling the hardware there are several options for working with the CC1110 and CC2510 devices e the link test application that is preprogrammed on the CC1110 s CC2510 s The CC1110 Mini Development Kit 868 915 MHz Quick Start Guide 1 or the CC2510 Mini Development Kit Quick Start Guide 2 included in the kits describes the necessary steps to run this application e Evaluate and explore the RF capabilities of the CC1110 CC2510 using SmartRF Studio 7 Chapter 7 provides the details how to do so e Develop your own software for the CC1110 CC2510 Install IAR Embedded Workbench for 8051 10 and set up your first software project Section 9 1 explains how e Develop your own hardware with the CC1110 CC2510 See section 6 7 9 26 TEXAS swru236a INSTRUMENTS 6 Using the hardware Figure 6 1 shows the main components of the board and outlines the main communication buses Please refer to Appendix A and B for the full schematics of the boards 2 LEDs 2 Push Buttons Batteries CC1110 CC2510 GDIOs SPI UART DEBUG connector Figure 6 1 The SmartRF CC1110 CC2510 target board architecture 6 1 Power S
7. the command line option ks version to the linker project gt options gt linker gt extra options In SimpliciTl mode the simulator will still have a 4kb code size limit so a development kit with CC2510Fx CC1110Fx or CC2430Fx is needed benefit from the extra code size Both the evaluation and the kick start edition of IAR Embedded Workbench include project manager editor compiler assembler linker librarian and debugger tools User manuals and additional information is found on the IAR web page www iar com Make sure to choose the version for the 8051 processor family core not the version for the Texas Instruments MSP430 processor family core 21 26 TEXAS swru236a INSTRUMENTS 10 Frequently Asked Questions Q1 What kind of coin cell batteries can use A1 Normal 3 V 2032 coin cell batteries may be used to power the SmartRF CC1110 CC2510 target boards Q2 Nothing happens when power up the board 2 Make sure that the jumper the P1 header on the SmartRF CC1110 CC2510 board is set in the correct position Please refer to section 6 1 for correct jumper setting Q3 How can measure the current consumption of the radio on the SmartRF CC1110 CC2510 boards The easiest way to measure current consumption of the chip in various modes is to connect the board directly to the CC Debugger and disconnect everything on the board that consumes power Replace the power source selection jumper on P1 with the a
8. with extension prs and the Sniffer will now be able to open this file and use these settings SmartRF Studio Code Export X Export format Output Help Template name Packet sniffer settings Save IOxDF07 0xO6 Frequency synthesizer control OxDFO8 OxOO0 Frequency synthesizer control Make chip specific OxDFO9 Ox21 Frequency control word high byt OxDFOA 0x65 Frequency control word middle Normal View summary Comment delimiters gt OxDFOB Ox6A Frequency control word low byte OxCA Modem configuration Header A OxDFOD Ox83 Modem configuration OxDFOE Ox13 Modem configuration 0x22 configuration OxDF10 OxF8 Modem configuration OxDFO6 O0xOO Channel number OxDF11 0x35 Modem deviation setting when FS RN m RD Rd rd AH vH vh vo OxDF1A 0x56 Front end RX configuration OxDF1B 0x10 Front end RX confi ation For each register 0 OxDF14 0x18 Main Radio piri ate Machine OxDF15 0x16 Frequency Offset Compensation Cc Footer OxDF16 0x6C Bit synchronization Configuratic OxDF17 0x43 AGC control OxDF18 0x40 AGC control LO OxDF19 0x91 AGC control OxDF1C OxE9 Frequency synthesizer calibratic Templates OxDF1D Ox2A Frequency synthesizer calibratic OxDF1E 0x00 Frequency synthesizer calibratic Refresh list Del
9. 16 FREQ1 0x65 RF Frequency gt FREQ 15 8 FREQO 0x64 RF Frequency gt FREQ 0 FSCTRL1 0x06 IF Frequency gt FREG_IF 4 0 gt 152 34 kHz FSCTRLO 0x00 Frequency offset gt FREQOFF 0 MDMCFG4 OxF5 Deviation 51 57471 kHz Manchester Rx filterbandwidth 58 035714 kHz RF frequency Channel Channel number 868 293858 MHz 99 951172 kHz 0 4 Preferred settings filterbandwidth 12 kBaud 5 2 kHz 58 kHz Sensitivity 1 2 kBaud 5 2 kHz 58 kHz Current 38 4kBaud 20 kHz 100 kHz Sensitivity Data rate exponent gt DRATE_E rine fore Lata e Channel bandwidth exponent gt CHANBW_E 500kBaud 0 kHz 12 kHz 5 Channel bandwidth mantissa gt CHANB w_M MDMCFG3 0x83 Reset CC1110 and write settings Data rate mantissa gt M Simple Rx Simple TX Packet Rx Packet TX MDMCFG2 0x03 Syne word 30 32 settings to Register View Packet count 200 Manual Init Address contig No addre v CRC Address MDMCFG1 0x20 Forward Error Correction gt FEC_EN MDMCFG2 003 Sync mode gt SYNC_MODE 2 0 PKTCTALO 0x05 Packetformat gt PKT FORMAT 1 0 CRC operation gt CAC_EN Packet config gt LENGTH_CONFIG 1 0 PKTCTAL1 0x04 Address check gt ADR_CHK 1 0 FIFO autoflush gt CRC_AUTOFLUSH Start buffered Rx Length config Packet length FIFO Autoflush View format Hex v CRCOK Sy
10. 7 1 2 TJDESTING S A PARAMETERS one SNR Rex e UNDAE REM Seis wee E DE E AUC 17 7 3 EINK AND RANGE TESTING cete neo verdes ven de auae TD E OE ELE E 17 8 USING SMARTRE PACKET SNIFFER WITH SMARTRF CC1110 CC2510 TARGET OA RUN 19 9 SOFTWARE APPLICATION EXAMPLES ccccccccccccccccccccccccccccccccccccccccccccccccccccccees 21 9 1 RUNNING AND DEVELOPING SOFTWARE APPLICATION EXAMPLES eee eene enne 21 10 FREQUENTLY ASKED OUESTIQONS gos beo eben va ET eaa Cn based era bani 22 11 ene rete ated PEER Ee SC eR RRR nT RE 23 12 DOCUMENT HISTORY E debra Waa tna vx reves 24 SMARTRE CC1110 TARGET BOARD x2 ccccccccccccccccccccccccccccccccccccccccccccccccccccccsceees 25 SMARTRE CC2510 TARGET BOARD x ccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccees 26 2 26 TEXAS swru236a NSTRUMENTS 1 Introduction Thank you for purchasing the CC1110 Mini Development Kit 868 915 MHz or the CC2510 Mini Development Kit The CC1110 and CC2510 are System on Chip SoC devices from Texas Instruments designed for low power wireless applications CC1110 operates in the sub 1 GHz unlicensed ISM bands while the CC2510 operates in the 2 4 GHz unlicensed ISM bands The CC1110 and CC2510 combine the excellent performance of the s
11. C1110 CC2510 target boards follow the directions given in the CC1110 Mini Development Kit 868 915 MHz Quick Start Guide 1 or the CC2510 Mini Development Kit Quick Start Guide 2 Note that several parameters like the antenna register settings and the environment will affect the range For more information regarding range testing please refer to DNO18 18 and section 6 6 18 26 TEXAS INSTRUMENTS swru236a 8 Using SmartRF Packet Sniffer with SmartRF CC1110 CC2510 Target Boards You can use the SmartRF CC1110 CC2510 target boards to capture radio packets with the SmartRF Packet Sniffer 8 When the board is connected to the CC Debugger as depicted in Figure 5 2 you can start the Packet Sniffer Texas Instuments Packet Sniffer 8 Packet Sniffer INSTRUMENTS Select Protocol and chip type Generic v Possible capturing devices SmartRFO4EB CC2430EM CC2530EM CC2510EM CC 1110EM SmartRFOSEB CC2430EM CC2520EM CC2530EM CC2510EM CC 1110EM CC1111Dongle Click Start button to launch Packet Sniffer Figure 8 1 Start up window of the SmartRF Packet Sniffer Select and appropriate software protocol Generic or SimpliciTI and click the Start button A Texas Instruments SmartRF Packet Sniffer Generic x Heb ego fields Packet details Address book Display filter Time line Radio Settings Select connected device Sniffer communicat
12. Development When designing new hardware using the CC1110 CC2510 it is recommended to use either the CC1110EM CC2510EM or the SmartRF CC1110 CC2510 target boards as reference designs The full CC1110EM CC2510EM or the SmartRF CC1110 CC2510 target board reference design files can be downloaded from the CC1110 CC2510 product folder on the web 14 15 or the CC1110 CC2510 Mini Development Kit website 4 5 13 26 TEXAS swru236a INSTRUMENTS 7 Using SmartRF Studio with SmartRF CC1110 CC2510 Target Boards RF testing on the mini development kit is best performed by using the PC tool SmartRF Studio 7 SmartRF Studio can be downloaded from www ti com smartrfstudio Follow the instructions given in the SmartRF Studio User s Guide 11 to install this tool The installation also installs the necessary drivers for the CC Debugger To use SmartRF Studio the SmartRF CC1110 CC2510 target board must be connected to the CC Debugger as shown in Figure 7 1 Decide which power source to use with the jumper on P1 see section 6 1 Connect the CC Debugger to the PC via USB Figure 7 1 SmartRF CC2510 target board connected to CC Debugger After starting SmartRF Studio and plugging the CC Debugger to the PC via USB the window shown in Figure 7 2 or Figure 7 3 will appear depending on which board you have Make sure you select the tab called SmartRF amp 05DK in the top part of the window The connected omartRF CC1110 or SmartRF CC2510 ta
13. F CC2510 target boards e 1x CC Debugger including the necessary cables and connector convertors e 4x AAA batteries e CD with Evaluation version of the IAR EW8051 e Documentation Figure 4 2 CC2510 Mini Development Kit Content 6 26 TEXAS swru236a INSTRUMENTS SmartRF CC1110 Target Board The SmartRF CC1110 target board contains the RF IC necessary external components battery holders LEDs and a PCB antenna The module is pre programmed with a link test for easy use The board further includes user I Os and access to CC1110 peripherals CC1110 DEBUG interface CC1110 SPI CC1110 UART 2 Buttons 2 LEDs General purpose l Os SmartRF CC2510 Target Board The SmartRF CC2510 target board contains the RF IC necessary external components battery holders LEDs and a PCB antenna The module is pre programmed with a link test for easy use The board further includes user I Os and access to CC2510 peripherals CC2510 DEBUG interface CC2510 SPI CC2510 UART 2 Buttons 2 LEDs General purpose l Os CC Debugger The CC Debugger enables programming and debugging the flash of the CC1110 CC2510 It connects to the PC via USB and uses the DEBUG interface to communicate with the radio The PC Tools available for these purposes are SmartRHF Flash Programmer 9 from Texas Instruments and IAR Embedded Workbench for 8051 10 from IAR Systems The CC Debugger also allows the user to control and run tests on the
14. G O DF15 0x76 Preferred settings 24 38 kHz 2 FSK 203 kHz Sensitivity 24kBaud 38 kHz 2 FSK 203 kHz Current 1OkBaud 38 kHz 2 FSK 232 kHz Sensitivity 1OkBaud 38 kHz 2 FSK 232 kHz Current Reset CC2510 and write settings Copy settings to Register View RF Frequency gt FREQ 0 FSCTRL1 004 IF Frequency gt FREG_IF 4 0 gt 253 91 kHz FSCTRLO 0x00 RF Frequency offset gt FREQOFF 0 MDMCFG4 0x86 Data rate exponent gt DRATE_E Channel bandwidth exponent gt E Channel bandwidth mantissa gt M MDMCFG3 083 Data rate mantissa gt DRATE_M MDMCFG2 0x03 BSCFG 0xDF16 0x6C AGCCTRL2 DOxDF17 0x03 AGCCTRL1 DOxDF18 0240 AGCCTRLO DOxDF19 0x91 FREND1 D DF1 0x56 FRENDO 0xDF1B 0x10 Simple RX Simple TX Packet RX Packet Syne word 30 32 Packet count 200 Length config Variable Packet length 1255 Address config No addre CRC Address Manual Init FIFO Autoflush FSCAL3 0xDF1C 0x49 ac FOCAL 2 rn E1nT NNA MARCSTATE H 1 IDLE IDLE CRCOK Syne RX Lock View format Frequency offset 0 0 kHz RSSI DBw 93 6 kHz Sync word High Byte File dump Start buffered Rx MDMCFG1 0x20 Forward Error Correction gt FEC_EN MDMCFG2 0203 Sync mode gt SYNC_MODE 2
15. S INSTRUMENTS A SmartRF CC1110 Target Board EE v BSB Based eS we JON SPUBWNIAPSUT sexaj j ANYWHO ON 13 1 9 I aws canssi v E L 5P 8482 NPD J 50 C171 27 10402 NP 9482 50 C 27P BAB2 1 5 CIBI C201 l 1 k Q Btr Bs BC BSZ CE X ZX 91 01 01 Bl Bae BZ7 X Ix BS 1 Sdl 3 rca _ MERE NOT MOT IZBO B5 Ede SE 1 E E Z J0318srsaJ z _ _ BST AN Za Z 1 09 20907079 N wer Y IEZI i z amaaa samah rc 4 05 ZBO ddD 2 5 8 3d INY LX 18V BIE BSINY HN XL Jj 5 n x 2 g T T 5 5 2 2 BU ii _ Wd AUYA AINT Ed9W 45X7AIZI NBATI zhNd Ae 90ND 4 qe MAI Ae WIND d 9271 C191 F B402 m 1 a 1 um io 2 1 vu 1 ZxXc MOHNId DILNI J3JYJ3 H3LNI O I CMM TE a pasudxz INS 1959 4 cU JS8UX 107 950 2 0 2 ID ZEJ5UX E Ud 15317 C IBBN 9482 X5R E21 1 OSN 2 Bde 5M E Od 3415 8 B
16. SmartRF CC1110 CC2510 target boards using SmartRF Studio 7 7 26 TEXAS swru236a INSTRUMENTS 5 Getting Started 5 1 Setup The SmartRF CC1110 CC2510 target board is a complete standalone RF reference platform with user interfaces and connections needed for development with the CC1110 CC2510 It can be used both standalone powered from batteries or together with the CC Debugger for testing and debugging purposes as shown in Figure 5 1 and Figure 5 2 respectively Figure 5 1 SmartRF CC2510 target board standalone Figure 5 2 SmartRF CC2510 target board connected to the CC Debugger The two SmartRF CC1110 CC2510 target boards in the mini development kit are identical and come pre programmed with a link test application When running the out of the box link test the boards can be used standalone The boards can then be powered from either the 2 x 1 5V AAA batteries that are included in this kit or an external regulated power source not included in this kit The power source can be selected with the jumper on the power selection connector P1 on the boards Read more about this in section 6 1 When not using the out of the box link test i e the preprogrammed application e g for RF evaluation or software development the SmartRF CC1110 CC2510 target board can be connected to the CC Debugger The SmartRF CC1110 CC2510 target board includes interfaces for programming and debugging CC1110 CC2510 via the small
17. SmartRF CC2510 target board when starting SmartRF Studio 15 26 TEXAS swru236a INSTRUMENTS 2 0x1 988 CC1110 SmartRF Studio File Settings Help Dj Current chip values SY NCI OxDFOO SYNCO D DFOT1 0x91 PKTLEN 0 0 02 0xDF03 0x04 PKTCTRLO 0sDFD04 0x45 ADDR 0 0 05 0x00 CHANNA 0xDFO6 0x00 FSCTRL1 0xDFO 0 FSCTRLO 0 0 08 0x00 FREQ2 0 0 09 1E FREQ OxDFOA O C4 FREQO D DFOB MDMCFG4 0xDFOC 0x8C MDMCFG3 OxDFOD 0x22 MDMCFG2 0xDFOE 0x02 OxDFOF 0x22 0xDF10 O F8 DEVIATN DxDF11 0x47 MCSM2 0 12 0x07 MCSM1 0xDF13 0x30 MCSMO D DF14 0x04 FOCCFG DOsDF15 0x76 BSCFG 0xDF16 0x6C AGCCTRL2 OxDF1 0x03 AGCCTRL1 D DF18 0 40 AGCCTRLO 0xDF1 9 0x91 FREND1 0xDF1A 0x56 FRENDO 0x10 FSCAL3 O DF1C 0249 a FOCAL 2 fno EAN MARCSTATE 1 IDLE IDLE Frequency offset 0 0 kHz RSSI OBW 13 7 kHz Normal View Register View Notes Chip revision D VERSION 0x03 Correlation X tal frequency RF output power 26 000000 m o dBm Datarate Modulation 199494 kBaud 2 F5K X Register Components ramping value 0x50 RF output power PATABLE FREQ2 0x21 RF Frequency gt FREQ 23
18. be performed or other antenna solutions can be tested This is explained in more details in section 7 1 The antenna on the SmartRF CC1110 target board is highly directive see more in 03024 19 For optimal range when using these boards it is crucial to place the boards so that the arrow in the silk print next to the antenna points upwards towards the sky or roof as seen in Figure 6 4 below Figure 6 4 Correct placement of the SmartRF CC1110 target boards for optimal PCB antenna performance Note that the PCB antenna lengths on the SmartRF CC1110 and SmartRF CC2510 target boards are tuned for optimal performance with two AAA batteries present in the battery holder The SmartRF CC1110 target board is tuned for optimal performance in the 868 MHz band while the SmartRF CC2510 target board is tuned for optimal performance in the 2 4 GHz band The optimal antenna length for 915 MHz operation still with the two AAA batteries in the battery holder is shown in the silk print on the SmartRF CC1110 target boards Removing the two AAA batteries from the battery holder on the board encapsulating the board etc detunes the PCB antenna and thus alters the antenna performance The detuning can be compensated for by changing the length of the antenna or adding tuning components just before the antenna This is explained in more details in DNO24 19 for the SmartRF CC1110 target board and 4 20 for the SmartRF CC2510 target board 6 7 Hardware
19. de ON 9153 4 41 plus 1 5 Edt ater 5 1 6 15 323v d4H3 LNI SNOLLNE HSfld d cOFrH De L d 5335 6 5N5S h Bd 1 Bd esd 1 Ed e 1971 8714 z i en 13538 29512 61197037 3 Zare ALZ H ia tH 13741719 aad E 3 7060 7 131 11705791531 Fa 2159 2 19 ve 913 1 1d 9 cd edit SB 291 Z 9 3j neja WAFS z zxz 5 SIXT TOA Iur 9 LIB TTA 5 a AdddNS u se 2 ldl C_IGBN_B4G2_xSA_K _1B HAC IDH llvB8 vvvxz 1382105 zeBzHdd IB t L vB TTA NDIL IDOS AHallvH 25 26 swru236a win EXAS INSTRUMENTS B SmartRF CC2510 Target Board OlSZOOSULYVWS oma aval swAoudav SjueuunJijsu n vVLLSZO ON LOVYHLNOS ANYdINOO tem aaaeee td 4 OLLNI 3OV4JMWH3 LNI 0402 NPO J 50 C172 C 15P 0402 J 50 0402 J 50 l 1 1 2x zc x t 1 b OL 01 01 000 92 X
20. ectively from the PCB antenna position to the test point position and connect the test point to the desired antenna Connect an appropriate antenna to the spectrum analyzer Use the Simple TX test mode in SmartRF Studio and set the desired parameters 50 Ohm coax cable OOO Q SmartRF CC1110 Spectrum Analyser CC2510 Target Board With a Semi Rigid Cable mounted Debug CC Interface Debugger is USP MAT Figure 7 6 Output power measurement When testing RF performance make sure that the spectrum analyzer is calibrated If possible check it against a calibrated instrument such as an RF signal generator Un calibrated spectrum analyzers can display errors of several dBs Also be aware of the Resolution Band Width RBW setting on the spectrum analyzer By using good quality RF cabling the loss in the cabling should be negligible When antennas are used in the measurements the Max Hold option on the spectrum analyzer should be used 7 2 Testing RX Parameters For information regarding sensitivity measurement refer to DNOO2 17 For conducted measurements the kit should be set up with a semi rigid cable as explained in section 7 1 By adding a jammer a third node that generates either noise on the same channel or a strong signal on an adjacent channel it is also possible to evaluate co channel rejection and selectivity block
21. ersonal 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 Further Buyers must fully indemnify 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 products are specifically designated by as military grade or enhanced plastic Only products designated by 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 products designated by as compliant with ISO TS 16949 requirements Buyers acknowledge and agree t
22. es VDD 3 3 V from the CC Debugger or from an external power supply 11 26 TEXAS swru236a INSTRUMENTS Signainame Pin Pin Signainame eos e pown ___ popeo 4 _ CSn RT 6 SCLK CT 7 s wove o 10 _ Table 1 DEBUG connector pin out 6 5 I O Pin Connectors INTIO The INTIO connector brings out the remaining signals from the SoC see Table 2 for pin out The I O signals are available through separate test points to provide easy access for debugging or for connection to external devices Signainame Pn Pin Signalname por SSC PSS es 7 ei foo Table 2 I O connector IOPIN pin out 6 6 Antenna Options The SmartRF CC1110 and the SmartRF CC2510 target boards both contain PCB antennas for transmitting receiving the RF signals 49 INSTRL JMENTS F 1 868 Tn N FN i Fi D amp E ete Figure 6 3 The antennas on the SmartRF CC1110 and SmartRF CC2510 target boards The PCB antenna can optionally be disconnected by turning the R1 resistor on SmartRF CC1110 target board or the R2 resistor on the SmartRF CC2510 target board 90 degrees from the PCB antenna position to a test point By turning the R1 R2 resistor to the test point 12 26 TEXAS swru236a NSTRUMENTS position debugging of the RF signal can
23. ete 0 1 0 1 Frequency synthesizer calibratic 4 settings OxDF23 0x81 Various test settings OxDF24 0x35 Various test settings OxDF25 0x09 Various test settings TABLEO OxDF2E Ox50 PA output power setting mg PKICIRL1 0xDF03 0x04 Packet automation control settings SoC PKTCTRLO 0xDF04 0x05 Packet automation control gt settings struct typedef Write to file Filename SimpliciT settings Figure 8 4 Exporting register settings from SmartRF Studio to the Packet Sniffer B Packet sniffer settings Copy to clipboard You can now start to capture packets by pressing the Play button in the sniffer Please refer to the SmartRF Packet Sniffer User Manual 13 for further details 20 26 TEXAS swru236a NSTRUMENTS 9 Software Application Examples The SmartRF CC1110 CC2510 target boards come pre programmed with a link test application which makes it possible to e g perform simple range testing out of the box For more details regarding how to run the pre programmed link test see the CC1110 Mini Development Kit 868 915 MHz Quick Start Guide 1 the CC2510 Mini Development Kit Quick Start Guide 2 and the CC1110 amp CC2510 Mini DK Software Example User s Guide 3 Refer to the CC Debugger 6 and SmartRF Flash Programmer 12 User s Guides for more information regarding these tools 9 1 Running and Developing Software Application E
24. hat 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 amplifier ti com Audio www ti com audio Data Converters dataconverter ti com Automotive www ti com automotive DLP Products www dlp com Broadband www ti com broadband DSP dsp ti com Digital Control www ti com digitalcontrol Clocks and Timers www ti com clocks Medical www ti com medical Interface interface ti com Military www ti com military Logic logic ti com Optical Networking www ti com opticalnetwork Power Mgmt power ti com Security www ti com security Microcontrollers microcontroller ti com Telephony www ti com telephony RFID www ti rfid com Video amp Imaging www ti com video and ZigBee Solutions www ti com lprt Wireless www ti com wireless Mailing Address Texas Instruments Post Office Box 655303 Dallas Texas 75265 Copyright 2009 Texas Instruments Incorporated Mouser Electronics Authorized Distributor Click to View Pricing Inventory Delivery amp Lifecycle Information Texas Instruments CC2510DK MINI
25. ing performance 73 Link and Range testing To test the link quality and range using the CC1110 CC250 mini development kit you have several options You can run Packet TX and Packet RX tests from SmartRF Studio or you can use the SmartRF CC1110 CC2510 target boards stand alone using the preprogrammed link test 17 26 TEXAS swru236a NSTRUMENTS When using the Packet TX and Packet RX tests from SmartRF Studio the two target boards must be connected to the PC through separate CC Debuggers Note that the kit only includes one CC Debugger To test the link follow the procedure given below e Double click on both of the devices in the device list in SmartRF Studio Figure 7 2 or Figure 7 3 opening two windows and giving control of the two radios at the same time e Select one device to be the transmitter by selecting the Packet TX tab shown in the lower middle of Figure 7 4 and Figure 7 5 e other device the receiver select the Packet RX tab Setup basic test parameters and press the Start packet RX button e Now you can start transmission by pressing the Start packet TX button for the transmitter e The status window in the lower right corner of the device control panel will show the number of packets sent on the transmitter side and the number of received on the receiver side To perform practical range testing with the preprogrammed link test application on the SmartRF C
26. ion interface Select packet buffer size 20 MB Select channel 0x00 Clock multiplier 1 USARTO USARTI Packet count 0 Error count 0 iter OF Figure 8 2 Packet Sniffer Setup Panel In the setup panel of the sniffer you will see the CC Debugger connected to in this case the CC1110 on the SmartRF CC1110 target board Also note the Sniffer communication interface radio button in the lower right corner of the window Please make sure USARTO is selected 19 26 TEXAS swru236a INSTRUMENTS A Texas Instruments SmartRF Packet Sniffer Generic N inl xl Help D ejua nels S Setup Select fields Packet details Address book Display filter Time Radio Settings Select File r Registers Register Update cc1110 smartrf ccdk Register cc2511 250kbps 2455MHz Browse directories to find required register setting files Packet count 0 Error count 0 Figure 8 3 Packet Sniffer Radio Settings Before starting it is necessary to select the radio settings to use for correct packet capturing These are the register settings which will be written to the CC1110 before it starts to receive packets The register settings can be exported from SmartRF Studio in a format that the SmartRF Packet Sniffer is capable of understanding Use the Code export option in SmartRF Studio and select the Packet Sniffer Template Save the exported settings in a file
27. mpere meter Use SmartRF Studio to set the radio in different modes RX TX Q4 The two boards will not establish a link are loosing packets even though the boards are not far apart 4 Make sure that the boards are not saturated Place the boards a couple of meters apart and try again Take care when moving the boards closer together to avoid saturation Q5 The two LEDs on the SmartRF CC1110 CC2510 boards do not come on after reset of the board when re adding the power selection jumper and running the pre programmed link test 5 Reset the board once more and be sure to press one of the buttons while the power selection jumper is disconnected This will ensure that the large capacitor on the power line is discharged 22 26 TEXAS swru236a NSTRUMENTS 11 References 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 CC1110 Mini Development Kit 868 915 MHz Quick Start Guide http www ti com lit swru234 CC2510 Mini Development Kit Quick Start Guide http www ti com lit swru235 CC1110 2510 Mini DK Software Example User s Guide http www ti com lit swru237 CC1110 Mini Development Kit 868 915 MHz website http focus ti com docs toolsw folders print cc1 110dk mini 868 html CC2510 Mini Development Kit website http focus ti com docs toolsw folders print cc2510dk mini html CC Debugger User s Guide http www ti c
28. ne Lock Sync word High Byte File dump ts Device 10 0 1988 Last executed command Date 05 05 2009 Time 19 34 36 Figure 7 4 Control window for the SmartRF CC1110 target board from SmartRF Studio 4 0x0601 CC2510 SmartRF Studio File Settings Help Current chip values SYNC1 D DFOD OxD3 1 SYNCO DOxDF01 0 91 PKTLEN 0 0 02 OxFF PKTCTRL1 DOxDF03 0x04 PKTCTRLO 0xDFO4 0x45 ADDR 0 0x00 CHANNA 0 0 06 0x00 FSCTRL1 DFO 0 FSCTRLO 0 0 08 0x00 FREG2 0 0 09 Dx5E Normal View Register View Notes Chip revision E VERSION 0x04 Correlation frequency RF output power 26 000000 m o dBm Datarate Modulation 2 398968 kBaud 2 FSK X Register Components PA ramping PA value OxFE output power gt PATABLE FREQ2 0 50 RF Frequency gt 23 16 FREQ1 0x93 RF Frequency gt FREQ 15 8 FREGO O B1 E 6 Deviation 38 085338 kHz Manchester filterbandwidth 203 125000 kHz Channel number RF frequency Channel 2432 999908 MHz 199 951172 kHz 0 FREQ1 0xDFO4 OxC4 FREQO MDMCFG4 O DFOC 08C MDMCFG3 OxDFOD 0x22 MDMCFG2 D DFOE 0x02 MDMCFG1 O DFOF 0x22 MDMCFGO O DF10 OxF8 DEVIATN O DF11 0547 1 MCSM2 0xDF 12 0x07 MCSM1 O0xDF13 0x30 1 MCSMO 0 0 14 0x04 FOCCF
29. om lit swru197 SmartRF Studio http www ti com smartrfstudio SmartRF Packet Sniffer http focus ti com docs toolsw folders print packet sniffer html SmartRF Flash Programmer http focus ti com docs toolsw folders print flash programmer html IAR Embedded Workbench for 8051 http www iar com ew8051 SmartRF Studio User s Guide http www ti com lit pdf swru070 SmartRF Flash Programmer User s Guide http www ti com lit pdf swru069 SmartRF Packet Sniffer User Manual http www ti com lit pdf swru1987 CC1110 Product Folder http focus ti com docs prod folders print cc1 1 10f32 html CC2510 Product Folder http focus ti com docs prod folders print cc2510f32 html CC1110 CC2510 Basic Software Examples http www ti com lit zip swrc1 17 DNOO Practical Sensitivity Testing http www ti com lit swra097 DNO018 Range Measurements an Open Field Environment http www ti com lit swra169 0 024 868 MHz 915 MHz and 955 MHz Monopole PCB Antenna http www ti com lit swra227 20 AN043 Small Size 2 4 GHz PCB Antenna http www ti com lit swra1 17 23 26 TEXAS swru236a NSTRUMENTS 12 Document history Revision Date Description Changes Updated links added information regarding how to extend the code size limited IAR swru236a 2009 11 17 Embedded Workbench for 8051 version 7 51A and above so that it can be used with SimpliciTl 2009 07 17 24 26 swru236a X5 TEXA
30. onyms DK IC ISM LPRF MCU PCB RAM RF RX SoC swru236a Development Kit Integrated Circuit Industrial Scientific and Medical Input Output Kilo Byte 1024 byte Light Emitting Diode Low Power RF Micro Controller Printed Circuit Board Random Access Memory Radio Frequency Receive System on Chip Serial Peripheral Interface Short Range Device Texas Instruments Transmit Universal Asynchronous Receive Transmit Universal Serial Bus Printed Circuit Board 5 26 TEXAS swru236a INSTRUMENTS 4 Mini Development Kit Content The CC1110 and CC2510 mini Development Kits include the necessary hardware and software tools to allow quick testing of the CC1110 or CC2510 performance They further offer a complete platform to develop prototype RF systems e Evaluate the CC1110 CC2510 right out of the box The kits can be used for range testing using the pre programmed link test e Prototype development All I Os from the CC1110 and CC2510 are available on pin connectors and or through holes on the PCB allowing easy interconnection to other devices or controllers and also easy debugging e Together with the CC Debugger the SmartRF CC1110 CC2510 target board be configured through SmartRF Studio 7 or programmed using SmartRF Flash Programmer 9 Debugging can be done using the IAR Embedded Workbench 10 The CC1110 and CC2510 mini development kits contain e 2x SmartRF CC1110 or SmartR
31. ork right or other TI intellectual property right relating to any combination machine or process in which 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 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 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 Tl is not responsible or liable for any such statements products are not authorized for use in safety critical applications such as life support where a failure of the product would reasonably be expected to cause severe p
32. ources There are several solutions for applying power to the SmartRF CC1110 CC2510 target boards batteries external power or power from the CC Debugger The desired power source is selected with a jumper on the power selection connector P1 Figure 6 2 The power selection connector on the SmartRF CC1110 and the SmartRF CC2510 target boards All power sources are disconnected when no jumper short either pin 1 2 or 3 4 on the power selection connector The SmartRF CC1110 CC2510 target boards are reset by disconnecting the power selection jumper pressing either of the buttons and then reconnecting the power selection jumper The button must be pushed to ensure that the large capacitor on the power line gets completely discharged otherwise this could take minutes depending on the current drawn by the board 6 1 1 Battery Power The SmartRF CC1110 CC2510 target boards include two battery solutions They have battery holders for both two AAA batteries normal 1 5 V AAA can be used and for a 3 V 2032 coin cell battery on the reverse side of the PCB The power selection jumper shall short circuit pin 10 26 TEXAS swru236a NSTRUMENTS 1 and 2 of the power selection connector P1 when using battery power The jumper can optionally be replaced with an Ampere meter for current measurements Note that only one of the battery sources AAA or coin cell should be present in the battery holders at the same time to avoid damaging the batte
33. rget board will be listed as CC1110 new device or CC2510 new device respectively Double click on the new device item and the window shown in Figure 7 4 and Figure 7 5 will appear This is the main control panel for the CC1 110 CC2510 In this window settings can be changed tests performed and registers adjusted It is highly recommended to use SmartRF Studio actively when finding the optimal RF and register settings The following paragraphs will describe how to use SmartRF Studio for testing TX and RX performance and how to use the tool to send and receive packets 14 26 TEXAS swru236a INSTRUMENTS 2 SmartRF Studio 4 SmartRF 01 DK SmartRF 02 DK SmartRFe 03 DE SmatRFe 04 05 DK Ww TEXAS Curent usBDID ID INSTRUM ENTS CC1110 new device 050601 Os0SCC 00008 TREE 2531 Calculation Window 2 0 Calculation Window CC 2521 Productinfo SmartHF amp praductline Load USB Firmware Figure 7 2 Start window for the SmartRF CC1110 target board when starting SmartRF Studio 4L SmartRF Studio dis SmatRF 01 Dk FE 02 DK SmatRF 03 DK SmathF 04 DE 05 TEXAS INSTRUM ENTS LL251 new device 050601 05 00008 SIT LITTLE T Ply 31 Calculation Window CC2530 Calculation Window CC 2521 Fraductinfo praductline Load USE Firmware Figure 7 3 Start window for the
34. ries The pre programmed link test is optimized for making a robust link and is thus not power optimized see more in the CC1110 amp CC2510 Mini DK Software Example User s Guide 3 For this reason due to limitations of coin cell batteries it is not recommended to run the preprogrammed link test SW on a coin cell battery 6 1 2 External Power Supply The SmartRF CC1110 CC2510 target board can optionally be powered from the CC Debugger or an external power supply To power the board from the CC Debugger the CC Debugger must be connected to the DEBUG connector on the SmartRF CC1110 CC2520 target board and the jumper must be placed between pin 3 and 4 on the power selection connector P1 The board will be powered with 3 3 V when powered from the CC Debugger To power the board using an external power source a voltage in the range from 2 0 V to 3 6 V must be applied to pin 3 on the power selection connector P1 or to pin 9 on the DEBUG connector Ground from the power supply must be connected to any of the GND pads on the board The jumper must be placed between pin 3 and 4 on the power selection connector P1 The jumper can optionally be replaced with an Ampere meter for current measurements Make sure to only have one power source connected at the same time Note that the voltage from the external power supply must never exceed the maximum ratings for the CC1110 CC2510 0 3 V to 3 9 V to avoid damaging the chip 6 2 Buttons There are t
35. tate of the art CC1101 and CC2500 HF transceivers respectively with an industry standard enhanced 8051 MCU up to 32 kB of in system programmable flash memory and up to 4 kB of RAM and many other powerful features The CC1110 and CC2510 are highly suited for systems where very low power consumption is required This is ensured by several advanced low power operating modes The small 6x6 mm package further makes it suited for applications with size limitations The CC1110 and CC2510 mini development kits include all the necessary hardware in order to evaluate demonstrate prototype and develop software targeting proprietary applications requiring a sub 1 GHz or 2 4 GHz radio Make sure to subscribe to Low Power eNewsletter to receive information about updates to documentation new product releases and more Sign up on the Texas Instruments Low Power RF web site www ti com lprf 3 26 TEXAS swru236a NSTRUMENTS 2 About this Manual This manual contains both tutorial and reference information regarding the hardware components of both the CC1110 Mini Development Kit and the CC2510 Mini Development Kit Chapter 4 briefly describes the content of this development kit and chapter 5 and 6 gives a quick introduction to how to set up and use the hardware Chapter 7 describes how to use the kit with SmartRF Studio 7 and chapter 8 briefly shows how to use the kit hardware as capture devices with the SmartRF Packet sniffer 8
36. wo buttons MASTER 51 and SLAVE S2 on the SmartRF CC1110 CC2510 target boards The two buttons are connected to the SoC at pin P1 2 and P1 3 respectively Both the buttons are connected to I O ports without any filtering On the SmartRF CC1110 target boards the signals from P1 2 and P1 3 are also available through the test points TP3 and TP6 6 3 LEDs There are 2 LEDs on the target boards D1 red and D2 green The two LEDs are controlled from the SoC through pin P1 1 and P1 0 respectively as these have LED driving capabilities On the SmartRF CC1110 target boards these signals are also available through the test points TP4 and TP5 6 4 DEBUG Connector DEBUG The SmartRF CC1110 CC2510 target boards contain a debug interface for easy programming and debugging of the modules The debug interface connector DEBUG pin out is shown in Table 1 Note that this connector also provides an SPI or UART interface to the CC1110 CC2510 connected to USARTO alternative 1 on the chip in addition to the DEBUG interface The DEBUG connector includes two VDD connections one on pin 2 and one on pin 9 The functions for these connections are different Pin 2 VDD supplies voltage from the target board to the signal level converter on the CC Debugger making it possible to operate at separate voltages internally on the Debugger and on the SmartRF CC1110 CC2510 target board This pin must always be connected when using the CC Debugger Pin 9 VDD suppli
37. xamples In order to program and debug the SmartRF CC1110 CC2510 target board with proprietary application software connect the CC Debugger to the DEBUG interface on the SmartRF CC1110 CC2510 target board Use SmartRF Flash Programmer 9 to program the CC1110 CC2510 or use IAR Embedded Workbench 10 to download and debug All the kit software examples available from Tl are provided as source code and are 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 An evaluation version of IAR Embedded Workbench is included in this CC1110 CC2510 Mini Development Kit CD To ensure that you get the newest version of the IAR Embedded Workbench Evaluation Edition we recommend that you download it from the IAR web page www iar com ew8051 From the IAR web site a free kick start edition of the IAR Embedded Workbench is also available The kick start edition of IAR Embedded Workbench is code size limited but it is still a fully functional and integrated development environment and it is ideal for creating small applications or for getting started fast on a new project The only requirement is that you register to get a license key The CC1110 Mini Development Kit 868 915 MHz and CC2510 Mini Development Kit benefit from an extended code size limit in the IAR Embedded Workbench for 8051 version 7 51A and above A 16kb SimpliciTI mode will be activated by passing
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