SWRU125 - Texas Instruments
Contents
1. Perform actions Figure 9 Chipcon Flash programmer software 8 Schematics See the CC2430DB Reference Design for CC2430DB schematics The CC2430DB reference design can be downloaded from the product page for CC2430DB on TI s websites Re TEAS rs SWRU125 Page 14 C Chipcon Products from Texas Instruments 9 Bill of Materials BOM Pcs Part name unit Description Part number B1 2 1XAA_1_5V U500 24AA32A SN U401 AD8544 U501 ADXL321 D100 101 BAT254 Q300 BC846 U300 C8051F320 U1 CC2430 C 1U 0402 C71 X5R_K_6P3 C207 C281 C300 C400 C471 C500 C_100N 0402 C503 _X5R_K_10 C_100P_0402 C401 _NPO J 50 C101 C351 C_10N_ 0402 C501 502 _X7R_K_25 C_10U_ 0805 C102 _X5R_L_25 C_15P_0402 C431 C441 _NPO J 50 C_220N_ 0402 C231 C411 C421 _X5R_K_10 C_220N_0603 C241 _X7R_K_50 C_33P_0402 C191 C211 _NPO J 50 C 2U2 0603 C103 _X5R_K_10 C_33N_ 0402 C104 _X7R_K_25 C_4U7_0805 C100 _X5R_K_6 C_5P6 0402 C341 _NPO J 50 C_68P_0402 C251 C271 C381 _NPO J 50 P2 DC_JACK_2 5 U101 EM6353_ 1 8V D1 LED CL150GCD D2 LED CL150URCD U100 LP2985 3 3V L341 L 1N8 0402 S L331 L 22N 0402 J L321 L 6N8 0402 J RP1 NSL_19M51 P6 PINROW_ 2X10 TEXAS INSTRUMENTS Mounting clip for one AA battery cell 4 KB I2C EEPROM Rail to rail quad opamp 18 g peak X Y accelerometer Diode Si Schottkey BJT Si NPN small signal Silicon Labs 8051 USB Microcontroller Single chip transceiver and microcontroller Capacitor 1uF 0402 X5R 10 6 3V2. Capacitor 100n 0402 X5R 10 10V Capacitor 100p 0402 NPO 5 50V Capacitor 10n 0402 X7R 10 25V Capacitor 10u 0805 XR5 15 25V Capacitor 15p 0402 NPO 5 50V Capacitor 220n 0402 X5R 10 10V Capacitor 220n 0603 X7R 10 50V Capacitor 33p 0402 NPO 5 50V Capacitor 2u2 0603 X5R 10 10V Capacitor 33n 0402 X7R 10 25V Capacitor 4U7 0802 X5R 10 6 3V Capacitor 5p6 0402 NPO 5 50V Capacitor 68p 0402 NPO 5 50V DC jack 2 5mm center pin brown out detector 200ms delay SOT23 3 beta pinout 1 8V LED green 1206 LED red 1206 Voltage regulator low noise 3 3 V Inductor 1n8 0402 Monolithic type 0 3 nH Inductor 22n 0402 5 Inductor 6n8 0402 Monolithic type 5 Silonix CdS photoconductive cell 5 kOhm light to 20 M Ohm dark 2x10 pinrow 2 54mm pitch through hole SWRU125 Keystone Microchip Analog Devices Analog Devices Philips Philips Silicon Labs Chipcon Murata murata Murata EM Microelectronic Citizen Citizen National Semiconductor Murata Murata Murata Silonix AMP 24AA32A SN AD8544AR ADXL321 BAT254 BC846B C8051F320 CC2430 GRM155R60 J105KE19D GRM21BR61A106K GRM21 EM6353 CL150GCD CL150URCD LP2985AIM5 3 3 LQG15 series LQG15 series LQG15 series NSL 19M51 5 0826632 0 Page 15 C Spron Products gt from Texas Instruments P3 P5 P7 P4 P8 1 2
3. EEPROM J i SO OTT oS yY OON Accelerometer 049 Potentiometer 033 0 Lightsensor 0 001 0 015 0 _ woo a o o o Tota 9mA 54mA A Table 4 Current consumption summary To accurately measure the current consumption of the chip the jumpers listed in Table 5 should be removed Header Pin Description Low power setting current consumption of CC2430 a SW controlled power Can be removed i when performing current measurement to Not mounted reduce leakage current Connects RESET_N signal between USB MCU and CC2430 Can be removed when performing current measurement to reduce leakage current Not mounted Table 5 Jumper setting for low power measurements In order to achieve lowest possible current consumption the I O ports of the CC2430 should be configured as listed in Power down state in Table 6 below Schematic Active Paved 0Q ohm Description Name state DA te resistor PoowDR L s dependent resistor IN OUT Poo Po PO OLDR analog input ANALOG RODD PO_1 BUTTON Push button interrupt active i io 12 PO 1 PUSH low OU OUT PO 2 EE SDA EEPROM SDA HIGH R505 OUT OUT 15 PO 4 PO 4 ACC X Accelerometer x axis h oo R507 ANALOG LOW l IN OUT PO 5 ACC_Y Accelerometer y axis ANALOG R508 17 PO_6 JOY Joystick analog signal A OUT R4146 y g Sig ANALOG LOW l IN OUT PO_7 POT Potentiometer analog input ANALOG R430 OUT OUT OUT OUT Active state means that Software controlled VD
4. 0 C to 85 C 5 2 USB Interface The USB interface is used to interface to a PC to run the In Circuit Emulator in the IAR Embedded Workbench IAR EW and using SmartRF Studio The IAR EW can also be used to reprogram the CC2430DB see the IAR EW manual for more details Furthermore it is also possible to reprogram the CC2430DB via the USB interface with the Chipcon programming software or to use the board for the Chipcon packet sniffer When connected to the USB port the CC2430DB is powered from the USB and no other voltage supplies are required Please refer to the Chipcon Flash Programmer User Manual installed with SmartRF Studio for a detailed description of how to reprogram the CC2430DB 5 3 User interface The CC2430DB includes a joystick and a push button as user input devices and two LEDs as user output devices 5 4 EEPROM A 32Kbit EEPROM is included for non volatile storage of data that is frequently updated The EEPROM has 1 Million guaranteed write cycles 5 5 Accelerometer The accelerometer can be used to measure movements in 2 axes It can also be used for tilt measurements by measuring the earth s gravitation The accelerometer has a 20 ms start up time after power on See the Analog Devices ADXL321 datasheet for details about the accelerometer 5 6 Potentiometer The potentiometer controls the voltage on the analog input pin PO_7 of the CC2430 The voltage and thus the potentiometer position can be meas
5. C Sipoon Products from Texas Instruments CC2430DB Demonstration Board User Manual 3UMENTS SWRU125 Page 1 C ore Products from Texas Instruments Table of content 1 WAM OC CUCM seesi R aa 3 2 BS STM ONG seara E E E E E 3 3 KI COO a E E E E eee ose pseegameneeeseetaeee 3 31 WANG ANG osised nE EEES E SEPEN EEE ESE RENSES ES 3 4 EERS o e E E EE E AE E E ETE 3 5 Hardware description CC2430DB ccccccccecceeeceeeeceeseeeeaeeeseeeseeeeseeeaeeseeeeseeseeeseesanes 4 5 1 Powering CC2430DB sssescenirriioinrorneinannnnn sanik sakrani nanana ak nkankan annaa akanan 4 a2 USENETI E aa r een ene 5 99 UVseriMerngcE seeren E E 5 A EEPE ON a E E T E E 5 5 5 Accelerometer cccccceccceccceeceeeceeceeeceeeceesueeceesueesauesensaeesueseesseeseesaeeseeeaeesaeesensaeesees 9 96 POLNUOMOTG osinean cacescucince on deisiees lsasieecnsemeeet eeacsiecamanesoutnceouee 5 S LOSON O eae a E A E A 6 96 S610 1 6 6 kamera een One nee E eee eee one en 6 5 9 Jumper SOCTLINGS c0cccceccceceeseesecerentesenscecnsseeseeeeeeesseensevensersesessscsseaesedenertesetsteensoerseeeses T S91 Po JUMPE S sne E ee ee T 992 MUMS sarai E secacioaassnesea at siasecctnanaecancsenacenmnteeneneced 8 5 10 O Seen eee ene ee eee tee ene nee ee cee eee ee eee ree 9 6 Using CO2430DB Tor Prototyping sessar a EK RN EEE 10 6 1 Debugging using the USB interface cc eccccccceseeeeceeeeeeeeeeeeeeeseeesaeeeseeseseeeeeseneess 10 6 2 Debugging CC2430DB
6. D is on this should only be enabled when required by an I O module Re TEAS rs SWRU125 Page 12 C oe Products from Texas Instruments sles ee eee a ee CTRL modules HIGH LOW es pooo em ey o u eS a o p a e oee e a a e e TB r a reo pe oor m SO a a e pes pemo omom w a efa aa omna p Co peser reser roe O O Table 6 Pinout CC2430 The joystick output is coded as an analog voltage This has been done in order to save the number of pins required on the MCU to interface with the joystick The push function of the joystick is connected to a digital input pin 6 4 Using the UART interface on the CC2430DB The CC2430 UART interface port is accessible on the header connectors as 3 3V signals An RS232 driver circuit is required to connect the UART interface on CC2430DB to a serial port on a PC The RS232 port on a SmartRFO4EB can be connected to the CC2430DB to allow applications to interface to a PC serial port Table 7 shows the connection between the CC2430DB and the SmartRFO4EB Both the P8 10 pin connector and the P6 20 pin connector on the CC2430DB can be used but only one of them should be connected at the same time Sianal Name SMartRF04EB CC2430DB CC2430DB g P10 P8 2430deb P6 I O A o 10 6 amp 6 RD 9 8 8 ee RS B 6 10 Table 7 CC2430ZDK to SmartRF04EB serial port connections A jumper must be placed between pin 7 and pin 9 on the USB MCU debug c
7. RT 1 R303 304 R311 312 R100 R305 R306 307 R308 R416 R430 R504 508 R405 R410 412 R413 415 R300 302 R403 404 R407 R501 R409 R400 R440 441 R502 503 R241 R406 R101 R261 R310 R401 R420 R402 R102 R309 R509 R221 Q100 S3 P1 X1 X2 U400 PINROW_2X3 PINROW_2X5 PUSH_BUTTON R_0 10K_TRIM R_0603 R_0_0603 R_100K_0402 F R_10K_0402 F R_1KO_0402 J R_200K_0402 F R_220K 0402 F R_270 0402 F R_2K2 0402 G R 2 0402 F R_330K_0402_F R_43K_0402_ F R_470K_0402_F R_4K7_0402_ G R 56K 0402 F S19424DY SWITCH_6PIN USB _B X_32 000 10 15 30 16 X_32 768 20 50 40 12 skrhab_ e010 TEXAS INSTRUMENTS 2x3 pinrow 2 54mm pitch through hole 2x5 pinrow 2 54mm pitch through hole Momentary push button SMD 10k trimming pot with knob Resistor general 0603 Do not mount Resistor 0 ohms 0603 Resistor 100k 0402 1 Resistor 10k 0402 1 Resistor 1k 0402 5 Resistor 200k 0402 1 Resistor 220k 0402 1 Resistor 270 ohm 0402 1 Resistor 2k2 0402 2 Resistor 2 ohm 0402 1 Resistor 330k 0402 1 Resistor 43K 0402 1 Resistor 470k 0402 1 Resistor 4 7k 0402 2 Resistor 56K 0402 1 MOS FET p channel Double switch ALPS SSSS 222700 USB B style PCB mount socket Crystal 32 000MHz NX3225DA 10 15ppm 16 pF Temp range 30 85 deg C Crystal 32 768 kHz 12 5pF 20 50 ppm SMD package 4 directional switch wi
8. as rs SWRU125 Page 9 C Chipcon Products from Texas Instruments 6 Using CC2430DB for prototyping The CC2430DB can be used for prototyping by programming the CC2430 with custom applications All I O ports on the CC2430 are available on pin row header at the edge of the board and the USB interface can be used as In Circuit Emulator ICE interface allowing real time in circuit emulation of the CC2430 Table 6 on page 13 shows what pins on the MCU are used for various functions P6 and P7 pin row connectors can be used to connect the CC2430DB to other PCB or prototyping boards See page 6 for the pin out of these connectors OQ resistors are included to isolate the CC2430 from the external components on the CC2430DB By removing these resistors signals can be accessed on the pin headers Refer to section 5 10 and Table 6 for information about which pin corresponds to which resistor 6 1 Debugging using the USB interface The most common way to use the CC2430DB for development is to use the USB interface to control the CC2430 on chip In Circuit Emulator The USB interface supplies power to the board so there is no need for additional DC power or batteries The USB interface can also be used to program the CC2430 in circuit using the Chipcon programming software 6 2 Debugging CC2430DB with the CC2430 debug connector The CC2430DB can be used with the Chipcon packet sniffer or other applications that require USB interface for communicatio
9. be removed when Mounted performing current measurement to reduce leakage current P3 5 6 Accelerometer self test Mount to perform Not mounted accelerometer self test function See also section 5 9 1 Manual reset of USB MCU Not mounted boot loader P5 1 2 Connects DD Debug Data between USB MCU Mounted and CC2430 Should be removed when connecting ICE to P8 2430deb connector P5 3 4 Connects DC Debug Clock between USB MCU Mounted and CC2430 Should be removed when connecting ICE to P8 2430deb connector PS 5 6 Connects RESET_N signal between USB MCU Mounted and CC2430 Can be removed when performing current measurement to reduce leakage current Table 3 Jumper settings summary 5 9 1 P3 Jumpers The jumper between pin 1 2 on P3 can be replaced with an ampere meter to measure current consumption of CC2430 The jumper must be mounted for normal operation Re TEAS rs SWRU125 Page 7 C Chipcon Products from Texas Instruments The jumper between pin 3 4 can be removed when performing current measurement to reduce leakage current of the peripheral devices connected to the CC2430 The jumper must be mounted for normal operation The jumper between pin 5 6 can be mounted to perform accelerometer self test function By mounting this jumper a voltage is applied to the accelerometer outputs See the Analog Devices ADXL321 datasheet for details about the accelerometer self test The jumper must be removed for
10. igure 1 CC2430DB overview O z 5 1 Powering CC2430DB The CC2430DB can be powered in three different ways e 2 5 mm DC jack connector This connector is placed under the board 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 USB power If the CC2430DB 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 CC2430DB includes a battery clip for two AA type batteries If several power sources are connected the CC2430DB will be powered from the supply that supplies the highest voltage The USB MCU is only powered when USB or DC jack power is used We Texas rs SWRU125 Page 4 C Spron Products from Texas Instruments IUIS Figure 2 Power switch setting The Power Switch S3 must be set according to what power source is used If DC jack or USB power is applied the switch should be set to the USB position If the board is powered from batteries the switch should be set to the BATT position as shown in Figure 2 When either DC power or batteries are used to power the board the switch can be used as an on off switch When powering the CC2430DB from batteries the CC2430 will work down to 1 8V Please note that when using USB the voltage range is limited to 3 0V 3 6V The CC2430DB has been designed for a temperature range of 4
11. mer product design Customers are responsible for their products and applications using TI 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 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 information in TI 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 Tl is not responsible or liable for such altered documentation 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 o
12. n with PC and debugging with an emulator simultaneously In these cases the SoC debug connector can be used for connecting the ICE The SmartRFO4EB can be used as emulator interface with a cable from P14 SoC debug flash on SmartRFO4EB to P8 2430deb on CC2430DB See Figure 7 below The jumpers between pin 1 2 3 4 and 4 5 on header P5 must be removed CC2430DB must be powered from battery USB or DC jack when debugged from SmartRFO4EB We Texas rs SWRU125 Page 10 C ore Products from Texas Instruments 6 3 Low power operation CC2430DB is designed for low power operation when running from batteries Only the CC2430 is powered in this mode the USB MCU is not powered The voltage to the peripheral functions connected to the CC2430 is controlled by an I O pin P1 2 VDD_SW_CTRL on the CC2430 Table 4 lists the current consumption for each of the peripherals To obtain minimum current consumption with the CC2430DB the VDD_SW_CTRL P1 2 output must be configured as output USB DC Power 2 X AA Yvy batteries y Silabs USB CC2430 controller VDD_SW_CTRL Peripheral Power Control Figure 8 Voltage supply distribution Table 4 below shows the current consumption for all modules and operation modes with 3 3V supply voltage T TEAS rs SWRU125 Page 11 C ore Products from Texas Instruments Active mode mA Power down mode yA Typical Max 32KHz Sleep
13. normal operation Figure 4 Default P3 jumper settings 5 9 2 P5 Jumpers All jumpers on header P5 must be mounted for normal operation The jumper between pin 1 2 on P5 connects DD Debug Data between USB MCU and CC2430 The jumper between pin 3 4 on P5 connects DC Debug Clock between USB MCU and CC2430DB When the CC2430DB is used with emulator connected to the USB port both the DD and DC jumpers must be mounted They should only be removed if an external emulator is used Chapter 6 2 gives instructions on how to connect the external emulator to the CC2430DB The jumper between pin 5 6 on P5 connects RESET_N signal between USB MCU and CC2430 The jumper can be removed when performing current measurement to reduce leakage current for the circuits connected to the RESET pin The jumper must be mounted for normal operation Chipcon IC Chipcon AS Figure 5 P5 default jumper settings We Texas rs SWRU125 Page 8 C Spron Products from Texas Instruments 5 10 Signal flow The signal lines from the I O connectors and the CC2430 run via OO resistors to the various peripherals on the CC2430DB The peripherals can be disconnected from the CC2430 signal pins by removing the OQ resistors Please refer to Table 6 for a list of what resistors correspond to which signals CC2430 wyo 0 Peripheral I O Connector Figure 6 CC2430DB Signal flow T Tex
14. onnector P301 on the SmartRF04EB board This will ensure that the Silabs USB controller does not force any pins to erroneous levels To use the serial port on CC2430DB USART1 must be used on alternative location 2 in the CC2430 Please see the CC2430 datasheet for instructions how to select serial port and location Using the SmartRFO4EB will only work if the Silabs USB controller on the CC2430DB is powered i e the CC2430DB must be powered from a USB or DC jack Re TEAS rs SWRU125 Page 13 C Chipcon Products from Texas Instruments 7 Programming CC2430 with a HEX file The CC2430 can be programmed from the USB interface using the Chipcon programming software Figure 9 shows the flash programming interface For additional information regarding Chipcon Flash Programmer please refer to Chipcon Flash Programmer User Manual Chipcon SmartRF o4 Flash Programmer EB ID Chip type EB type EB firmware ID 0004 CC2431 SmartAFOSEB 0400 niai Flash image JEASWN_WORK Projects 02576_CC2431_Location_Engine 3 El Read IEEE oy Tite JEGE F 1 28 adr 0x1 FFFS IEEE O Retain IEEE address when reprogramming the chip Actions Flash lock effective after program append Erase and program write protect No Upper pages 0 Erase program and verify Append and verity Write protect boot block Verify against hex file Block debug commands incl read access Read flash into hex file NB Cannot Append and very when set
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16. rface for the CC2430 Additionally all I O ports are available on pin connector on the board to allow easy access for external applications 2 Definitions CC2430DB CC2430 Demonstration Board described in this user manual USB MCU The Silicon Labs C8051F320 MCU used to provide a USB interface on the CC2430DB Factory firmware The firmware that is supplied programmed into the USB MCU from the factory This firmware supports SmartRF Studio operation SoC system on a Chip A collective term used to refer to Chipcon ICs with on chip MCU and RF transceiver ICE In Circuit Emulator 3 Kit content 3 1 Hardware The CC2430DB kit contains the following 1CC2430DB demonstration board 1 USB cable Quick start guide This document 4 Getting started Make sure to install SmartRF Studio before connecting the CC2430DB to a PC as it installs the required hardware drivers on the PC SmartRF Studio can be downloaded from the TI web pages http focus ti com docs toolsw folders print smartrftm studio html We Texas rs SWRU125 Page 3 C Chipcon Products from Texas Instruments 5 Hardware description CC2430DB Joystick I O connector A CC2430 Reset CC2430 Button S1 CC2430 PCB Antenna 8dBerZI95 DC jack tate Reverse gt 2 om Je gt oe ee gt connector o c3 Battery clip Reverse Sy vosodys J seeeteee USB MCU debug Low current jumpers connector F
17. th a centre push SWRU125 AMP AMP Alps BI Technologies Koa Koa Koa Koa Koa Koa Koa Koa Koa Koa Koa Koa Koa Koa Siliconix ALPS AMP NDK Epson Alps 0 0826632 3 0 0826632 5 SKHUAF 72PTR10K SI9424DY SSSS222700 787780 1 NX3225DA MC 306 skrhab_ e010 Page 16 C C Chipcon Products from Texas Instruments 10 Document History Revision Date Description Changes 2007 04 16 Initial release Re TEAS rs SWRU125 Page 17 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 Tl 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 custo
18. ulatory requirements in connection with such use TI products are neither designed nor intended for use in automotive applications or environments unless the specific TI products are designated by TI as compliant with ISO TS 16949 requirements Buyers acknowledge and 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 amplifier ticom 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 icom Optical Networking www ti com opticalnetwork Microcontrollers microcontroller ti com Security www ti com security Low Power www ti com lpw Telephony www ti com telephony Wireless Video amp Imaging www ti com video Wireless www ti com wireless Mailing Address Texas Instruments Post Office Box 655303 Dallas Texas 75265 Copyright 2007 Texas Instruments Incorporated
19. ured with the CC2430 A D converter We Texas rs SWRU125 Page 5 C Spaun Products from Texas Instruments 5 7 Light sensor A light dependent resistor LDR measures light level and gives an analog signal that is measured by the CC2430 A D converter The light sensor resistance ranges from 5KQ light to 20MQ dark 5 8 VO connectors The I O connectors bring out all the signals from CC2430 These connectors allow easy access to all CC2430 I O pins External circuitry can be connected to these connectors for prototyping Pin Function S O 6 P1_7 SO MISO UART_RD 8 P1_6 SIMOSI UART_TD 9 POSEE SCL Table 1 I O connector A P6 pin out Pin Function O S P1_3 GPIO DC_JACK_PWR PO_4 ACC_X PO_5 ACC_Y 6 GND S O Table 2 I O connector B P7 pin out 1VDD_SW_CONTROLLED is controlled by the signal named VDD_SW_CTRL T Texas rs SWRU125 Page 6 C Chipcon Products from Texas Instruments 5 9 Jumper settings aaqve z32 yg J uod S uood BRA ae W eee A w E z dta y gt 2 S otis 2 B 7 P5 pin 1 2 Connects DD Debug Data P5 pin 3 4 Connects DC Debug Clock P3 pin 1 2 Replace with ampere P5 pin 5 6 Connects RESET N meter to measure current consumption of CC2430 Figure 3 CC2430DB Jumper settings Default setting 1 2 Replace with ampere meter to measure current Mounted consumption of CC2430 P3 3 4 SW controlled power Can
20. with the CC2430 debug connector cccccceececeeeeeeeeee ees 10 6 3 LOW power operation csser kenouenn irae EAEE AR EaR 11 6 4 Using the UART interface on the CC2430DB sssnssnnesrssrrrerrrerrrsrrrsrrrsrrrerrrsrrrsrrent 13 T Programming CC2430 with a HEX fil cece cecccseeeeceeeeeeeeecaeeeseeeeeeeeeseeeeseeesaeneeseeeens 14 8 EEE eae e E E E ET ee ee ee A AE eee ee 14 9 Bill of Materials BOM cccccccceececeeeeneeeeseeeeceeeeeeueeseeeseneeeaeeeseeeesseeesaeeeegeeessenesaeneess 15 0 Doc UMEN HISO serria E E siemens nein 17 T TEAS rs SWRU125 Page 2 C ore Products from Texas Instruments 1 Introduction This manual contains reference information for the CC2430 DB hardware The following tools which can be used with the kit have their own user manual that can be downloaded from the TI website SmartRF Studio Chipcon general packet sniffer IAR EW8051 C compiler and C Spy debugger www lAR se The CC2430DB demonstration board includes a number of functions and applications that allows quick testing of the RF interface and peripherals of the CC2430 It can for example be used for e Evaluation of SmartRF 04 products e Measurement of current consumption The kit is designed for low power operation and with an ampere meter the current consumption can be measured for all operating modes e Prototype development The CC2430DB includes a USB interface that can be used as emulator inte
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