The ADS1232 and ADS1234 are precision 24-bit analog-to-digital converters (ADCs). With an onboard, low-noise programmable gain amplifier (PGA), precision delta-sigma ADC and internal oscillator, the ADS1232/4 provide a complete front-end solution for bridge sensor applications including weigh scales, strain gauges and pressure sensors. The input multiplexer accepts either two (ADS1232) or four (ADS1234) differential inputs. The ADS1232 also includes an onboard temperature sensor to monitor ambient temperature. The onboard, low-noise PGA has a selectable gain of 1, 2, 64, or 128 supporting a full-scale differential input of ±2.5V, ±1.25V, ±39mV, or ±19.5mV. The delta-sigma ADC has 23.5-bit effective resolution and is comprised of a 3rd-order modulator and 4th-order digital filter. Two data rates are supported: 10SPS (with both 50Hz and 60Hz rejection) and 80SPS. The ADS1232/4 can be clocked externally using an oscillator or a crystal. There is also an internal oscillator available that requires no external components. Offset calibration is performed on-demand and the ADS1232/4 can be put in a low-power standby mode or shut off completely in power-down mode. All of the features of the ADS1232/4 are operated through simple pin-driven control. There are no digital registers to program in order to simplify software development. Data are output over an easily-isolated serial interface that connects directly to the MSP430 and other microcontrollers. The ADS1232 is available in a TSSOP-24 package and the ADS1234 is in a TSSOP-28. Both are fully specified from -40°C to +105°C. Features Complete Front-End for Bridge Sensors Up to 23.5 Effective Bits Onboard, Low-Noise PGA RMS Noise: 17nV at 10SPS (PGA = 128) 44nV at 80SPS (PGA = 128) 19.2-Bit Noise-Free Resolution at Gain = 64 Over 100dB Simultaneous 50Hz and 60Hz Rejection Flexible Clocking: Low-Drift Onboard Oscillator (±3%) Optional External Crystal Selectable Gains of 1, 2, 64, and 128 Easy Ratiometric Measurements—External Voltage Reference up to 5V Selectable 10SPS or 80SPS Data Rates Two-Channel Differential Input with Built-In Temperature Sensor (ADS1232) Four-Channel Differential Input (ADS1234) Simple Serial Digital Interface Supply Range: 2.7V to 5.3V -40°C to +105°C Temperature Range Applications Weigh Scales Strain Gauges Pressure Sensors Industrial Process Control  

This advanced emulation BoosterPack is an accessory for the SimpleLink Wi-Fi® CC3100 BoosterPack. This accessory can be used for: Flashing updates to the CC3100BOOST Using the CC3100 radio tool for RF performance evaluation Using Simplelink Studio for CC3100 for MCU software development – PC tool, documents and example applications can be found in the CC3100 software development kit (SDK) This kit can be purchased in three configurations: CC3100BOOST + CC31XXEMUBOOST + MSP-EXP430F5529LP: run all software in the CC3100 SDK and develop on the MSP430F5529 MCU CC3100BOOST + CC31XXEMUBOOST:  used for any CC3100 development CC31XXEMUBOOST: standalone kit for development separate from the CC3100 BoosterPack With the SimpleLink Wi-Fi CC3100 solution, customers now have the flexibility to add Wi-Fi to any microcontroller (MCU). Features FTDI debug support Enables enumeration SPI & GPIO for SimpleLink Studio for CC3100 Enumerates COM port for flashing Enables network processor logger output (TX only) 2 USB ports BoosterPack headers  

LAUNCHXL-F28379D is a low cost evaluation and development tool for the F2837xD,  F2837xS, and F2807x series in the TI MCU LaunchPad ecosystem which is compatible with various plug-on BoosterPacks.  This extended version of the LaunchPad supports the connection of two BoosterPacks.  The LaunchPad provides a standardized and easy to use platform to use while developing your next application. Features Hardware features USB connected isolated XDS100v2 JTAG debug probe for real-time debug and flash programming 4x 20-pin headers/connectors Programmable buttons and LEDs TMS320F28379D: 200 MHz dual C28xCPUs and dual CLAs, 1 MB Flash, 16-bit/12-bit ADCs, comparators, 12-bit DACs, delta-sigma sinc filters, HRPWMs, eCAPs, eQEPs, CANs, and more C2000 Delfino Position Manager-ready TMS320F28379D MCU capable of interfacing to absolute encoders as well as resolvers and SINCOS transducers Supports two BoosterPacks Two encoder interface connectors Isolated CAN transceiver connector Hardware Files are in C2000Ware at boards\LaunchPads\LAUNCHXL_F28379D Software features Free download of Code Composer Studio IDE Free download of C2000Ware for device drivers and example projects DesignDRIVE platform support powerSUITE software support MathWorks Embedded Target Support solidThinking Embed Support Get started For DesignDRIVE controlSUITE BOOSTXL-DRV8305EVM or BOOSTXL-3PHGANINV Follow the documentation at: C:\ti\controlSUITE\libs\app_libs\motor_control\libs\FCL_SFRA\v01_00_00_00\Examples\FCL_SFRA_379DXL_v1\~Docs BOOSTXL-POSMGR Follow the documentation at: C:\ti\controlSUITE\development_kits\BOOSTXL_POSMGR For general device evaluation Install Code Composer Studio and C2000Ware Connect the LaunchPad using the included mini-USB cable to a computer Open a serial terminal program of your choice (Putty, HyperTerm, etc.) and configure it to access the LaunchPad virtual COM port with 115200 Baud, 8-bit data, No parity, and single stop Bit. The COM port number can be found by opening your computer’s Device Manager When connected to your computer, the LaunchPad will power up and flash the red and blue LEDs for approximately 3 seconds. After the LEDs complete flashing, the LaunchPad will enter an ADC sample mode The terminal will display the latest ADC sample reading based on ADCIN14 (Pin 23 of the BoosterPack header) at a one second interval If the sample is below mid-scale (1.5V/2048) the blue LED (D10) will light If the sample is above mid-scale the red LED (D9) will light Build and load other examples in C2000Ware View and run the 1-day On-Line Workshop View and run the Multi-day On-Line Workshop Ask questions on the TI C2000 e2e forum What's Included Delfino F28379D LaunchPad Mini USB Cable Quick Start Guide

Step 1: Buy the C2000 MCU F28027 LaunchPad Step 2: Step 2: Follow the get started section LAUNCHXL-F28027 is a low cost evaluation and development tool for the F2802x series in the TI MCU LaunchPad ecosystem which is compatible with various plug-on BoosterPacks. The LaunchPad provides a standardized and easy to use platform to use while developing your next application. Features Hardware features USB connected isolated XDS100 JTAG debug probe for real-time debug and flash programming 2x 20-pin headers/connectors with access to all device pins Programmable buttons and LEDs Superset TMS320F28027: 60 MHz C28x CPU, 64 KB Flash, 8 PWM Channels, 12-bit ADC, capture interface, UART, SPI, and more Hardware Files are in C2000Ware at boards\LaunchPads\LAUNCHXL_F28027  Software features Free download of Code Composer Studio IDE Free download of controlSUITE for device drivers and example projects MathWorks Embedded Target Support Get started Install Code Composer Studio IDE and controlSUITE Connect the LaunchPad using the included mini-USB cable to a computer Open a serial terminal program of your choice (Putty, HyperTerm, etc.) and configure it to access the LaunchPad virtual COM port with 115200 Baud, 8-bit data, No parity, and single stop Bit. The COM port number can be found by opening your computer’s Device Manager Ensure that the XDS200v2’s second port is a serial port. Refer to the XDS100 Wiki for the configuration details Ensure that S4 is in the UP position to enabled the USB<->UART channel When connected to your computer, the device’s internal temperature sensor is sampled to establish a reference temperature and GPIO3 LED is lit in the nibble wide LED display (8 in hexadecimal) Any increase or decrease in temperature is displayed as an increment or decrement of this binary display The serial terminal will display the latest temperature reading Build and load other examples in controlSUITE Ask questions on the TI C2000 e2e forum What's Included Piccolo F28027 LaunchPad Mini USB Cable Quick Start Guide

The Audio Capacitive Touch BoosterPack (430BOOST-C55AUDIO1) is a plug in board for the MSP430™ Value Line LaunchPad development kit (MSP-EXP430G2). The kit offers a complete reference design for capacitive touch solutions, using the capacitive touch I/O ports of select MSP430 Value Line microcontrollers. This reference design allows designers to easily control the C5000™ ultra-low-power DSP using TI’s MSP430 microcontroller for crystal clear playback and record of MP3 audio/voice files. Using the Audio BoosterPack, programmers realize the power and efficiency of the C5000™ DSP without having to learn how to program the DSP. And the combination of the lowest standby power microcontroller (MSP430) with the lowest total power DSP (C5000) allows manufacturers to deliver ultra-low-power devices with extremely long battery life. Features The Audio Capacitive Touch BoosterPack allows quick evaluation and simplified design of audio capacitive touch products and includes: BoosterPack board with ultra-low-power C5000 DSP for crystal clear playback and recording of MP3 audio and video files microSD card pre-programmed with the DSP function code -- MP3 playback, record and music storage (file storage) Mini-USB cable for connection with a computer to power up the system Stereo single-jack headset connector (supports stereo/mono headphones with built-in mic) Initial demo headset with integrated microphone MSP430G2553 Value Line Microcontroller pre-programmed with the ACTBP host demo application – this will replace the MSP430 on the separate LaunchPad (not included). Supported by a user interface for OLED display and MP3 playback/record application APIs Capacitive touch scroll wheel, proximity sensor and on-board LEDs Supported by a complete capacitive touch software library USB mass storage device capability for the microSD card with provided USB cable OLED display (monochrome, 96×16 pixels) Quick Start Guide included  

The Capacitive Touch BoosterPack (430BOOST-SENSE1) is a plug in board for the MSP430 Value Line LaunchPad development kit (MSP-EXP430G2). This BoosterPack features several capacitive touch elements including a scroll wheel, button and proximity sensor. Also, on- board are 9 LEDs that provide instant feedback as users interact with the capacitive touch elements. In addition, a timer-based UART enables communication to a PC for feedback via GUI or hyperterminal. This BoosterPack also includes a pre-programmed MSP430G2452IN20 Value Line device. When paired with the LaunchPad kit, the Capacitive Touch BoosterPack provides a complete hardware and software reference design to enable developers to quickly and easily replace any physical button with a capacitive touch element. This is the simplest, most cost effective solution for adding capacitive touch differentiation in many applications such as consumer electronics, point of sales machines and other devices with a physical button. What's Included: Capacitive Touch BoosterPack plug in board w/ female headers MSP-EXP430G2 LaunchPad kit sold separately MSP430G2452IN20 device that is pre-loaded with demo code Quick Start Guide The ECCN (Export Control Classification Number) classification for this tool will be the same as the included microcontrollers. To find ECCN information for a microcontroller, see the datasheet for that device. Any use made of Texas Instruments (TI) classifications, whether it be ECCNs or HTS, is without recourse to TI and at the user’s risk. HTS and export classifications are subject to change. Your company, as the exporter of record, is responsible for determining the correct classification of any item at the time of export. Any HTS or export classification by TI is for TI’s internal use only and shall not be construed as a representation or warranty regarding the proper export classification nor relied upon to make licensing determinations. http://www.ti.com/lit/ug/slau337b/slau337b.pdf Features Capacitive touch elements including scroll wheel, button and proximity sensor 9 on-board LEDs for instant feedback Timer-based UART communication enables interface to PC Open source graphical user interface (GUI) available Includes a pre-programmed MSP430G2452IN20 with demo application Fully supported by the MSP430 Capacitive Touch Sense Library  

The MSP CapTIvate™ MCU Development Kit is a comprehensive, easy-to-use platform to evaluate MSP430FR2633 microcontroller with capacitive touch technology. The kit contains the MSP430FR2633-based processor board, a programmer/debugger board with EnergyTrace™ technology to measure energy consumption with the Code Composer Studio™ IDE, and sensor boards for evaluating self-capacitance, mutual capacitance, gesture and proximity sensing. MSP MCUs with CapTIvate technology are the industry’s lowest power capacitive touch MCUs with 10 V rms noise immunity and support for dirt-proof, glove-friendly designs. Features Easily evaluate self-capacitance, mutual capacitance, gesture and proximity sensing capabilities of the MSP430FR2633 microcontroller with CapTIvate technology Isolate the touch module from the USB power supply for EMI testing and while tuning sensors  

The CC110L RF BoosterPack is a low-power wireless transceiver extension kit for use with the Texas Instruments MSP-EXP430G2 LaunchPad development kit. Based on the CC110L device, the on-board Anaren Integrated Radio (AIR) A110LR09A radio module with integrated antenna operates in the European 868-870MHz and US 902-928MHz ISM bands. The included software application, called AIR BoosterStack, demonstrates an example sensor network as well as network status reporting. Download updated and additional documentation and software from Anaren. NB! Note that you will need two MSP430 LaunchPad kits in addition to this kit in order to use the hardware as described in the Quick Start Guide. Features CC110L RF BoosterPack Hardware Features: 1.8 to 3.6 V operation Low power consumption SPI interface between RF module and MSP430 Prototyping area Footprints for adding a microcontroller, pushbutton switch, and LED for standalone operation ROHS and REACH compliant Module is ETSI compliant and FCC/IC certified See A110LR09x Users Manual and CC110L datasheet for radio specific features AIR BoosterStack Software Features: Low-power temperature sensor application Star network topology with one hub node and up to four sensor nodes Graphical User Interface provides network control and displays key radio parameters Ability to change radio settings locally and/or remotely Remote control feature to turn on/off LaunchPad green LED Node ID, operating state, and radio settings restored at power-up Kit Contents Two CC110L RF BoosterPack boards Two MSP430G2553 devices (preloaded with a sample program) Quick Start Guide CD with software and documentation  

The SimpleLink™ CC1350 wireless microcontroller (MCU) LaunchPad™ development kit combines a 433 MHz with a Bluetooth® low energy radio for the ultimate combination of easy mobile phone integration with long-range connectivity including a 32-bit ARM® Cortex®-M3 processor on a single chip. To get started on your project visit dev.ti.com/launchxl-cc1350 Features: LaunchPad kit with a 433 MHz and Bluetooth low energy radio for wireless applications with integrated PCB trace antenna Access all I/O signals with the BoosterPack™ plug-in module connectors On-board emulator to get started with instant code development in CCS Cloud Can be used with both LaunchPad kit and SmartRF™ Studio evaluation board applications Compatible with LCD BoosterPack module Included: Micro USB Cable (CNT-USB-AM+MICRO-USB-500 from Connector Elec) CC1350 Dualband Launchpad for 433MHz/2.4GHz Applications

The CC2540 USB Evaluation Module Kit contains one CC2540 Bluetooth low energy USB Dongle. The dongle can be used to enable Bluetooth low energy on your PC. It can also be used as a packet sniffer for analyzing the BLE protocol and for software and system level debugging (use the free tool SmartRF Packet Sniffer). The dongle comes preprogrammed as a packet sniffer. To program and debug software running on the dongle, you need the CC Debugger (not included in the kit). The kit contains: 1 x CC2540 USB Dongle Quick Start Guide

  The CC2541DK-MINI development kit provides a working reference design for software development of single-mode Bluetooth low energy (BLE) applications based on the Texas Instruments CC2541. The included "keyfob" board operates as a BLE peripheral device, and contains modifiable software that can be tailored towards different applications. Using BTool (Windows PC application) along with the included CC2540 USB Dongle, the Texas Instruments BLE stack can be tested and verified while developing custom applications. Features The kit contains the following hardware components: 1 x CC2540 USB Dongle: This is the device that will be acting as the BLE Master. It connects to a Windows PC’s USB port, and is pre-loaded with the master demo application software. 1 x CC2541 Keyfob: This is the device that will be acting as the BLE Slave. The keyfob can be mounted inside the included plastic enclosure. It operates on a single CR2032 coin cell battery, and contains a two-colored LED, a buzzer, an accelerometer, and two buttons. 1 x CC Debugger with accessories: This is used to flash the software onto both the USB dongle as well as the keyfob. It can also be used for debugging software using IAR Embedded Workbench.  

The CC3000 BoosterPack showcases the SimpleLink™ Wi-Fi CC3000 module, a self-contained wireless network processor that simplifies the process of implementing Internet connectivity. SimpleLink Wi-Fi minimizes host microcontroller (MCU) software requirements making it the ideal solution for embedded applications using any low-cost and low-power MCU. This BoosterPack aids in the evaluation and development of CC3000 solutions and contains the CC3000 module, power supply, and standard BoosterPack headers to connect to MSP430™, Tiva™ C Series, and future TI MCU LaunchPad evaluations kits. Additionally, this complete platform solution includes software drivers, sample applications, API guide, user documentation and a world-class support community. Features Wireless Network Processor IEEE 802.11 b/g Embedded IPv4 TCP/IP Stack Best-in-class Radio Performance: Tx Power: +18dBm at 11Mbps, CCK Rx Sensitivity: -86dBm, 8% PER, 11Mbps Works with low MIPS, Low Cost Microcontrollers with Compact Memory Footprint: FCC/IC/CE certified reference design with dipole or chip antenna HW Design Files and Design Guide Available from TI Integrated Crystal and Power Management Small Form Factor: 16.3mm × 13.5mm × 2mm Operating Temperature Range: -20°C to 70°C Based in TI's 7th Generation of Proven Wi-Fi Solutions Complete Platform Solution Including User and Porting Guides, API Guide, Sample Applications, and Support Community

The SimpleLink™ Wi-Fi® CC3200 SensorTag development kit is one of the quickest and easiest ways to connect sensors directly to the cloud! The new Wi-Fi SensorTag kit is based on the low-power SimpleLink Wi-Fi CC3200 wireless MCU, the industry’s first Wi-Fi CERTIFIED™ single-chip microcontroller unit (MCU) with built-in Wi-Fi connectivity. This allows the SensorTag kit to be battery powered from AAA batteries/ The Wi-Fi SensorTag kit includes 9 low-power MEMS sensors. Connect directly to the cloud with Wi-Fi and get sensor data online in just a few minutes. The SensorTag kit configures the Wi-Fi connection out-of-the-box with the SensorTag iOS and Android™ app. No programming experience is required to get started. Features Connect sensors directly to the cloud with WiFi Cloud connectivity lets you access and control your SensorTag from anywhere Get connected quickly, set up and connect in 3 minutes! Upgrade the SensorTag firmware over-the-air from the SensorTag smartphone app What's Included SensorTagQuick Start Guide  

The IMETER-BOOST is a BoosterPack that can be added to LaunchPads to allow customers to evaluate their actual power consumption figures, which can help users debug and analyze their software. Utilizing the CC3200 HTTP Server abilities, the IMETER-BOOST when connected to a CC3200-LAUNCHXL Launchpad allows the user to graphically view current and voltage measurements, adjust sampling rate, send this data to the cloud, and also export it in csv format. This tool also supports the ability to be triggered and measure from up to 4 GPIOs. Features Remote data acquisition Cloud connectivity Big data collection for use-case analysis Power profile generation and comparison Usage of standard presentation and charting tools (e.g Plot.ly, excel) Included IMETER-BOOST board

The DLP-RF430BP BoosterPack is add-on module compatible with TI’s low-cost LaunchPad rapid prototyping ecosystem. Dynamic Dual Interface NFC Transponder BoosterPack is built with RF430CL330H – ISO14443B compatible Dual Interface Dynamic NFC Transponder. Using a combination of this BoosterPack and one of the many TI MCU based LaunchPads, developers can evaluate the functionality and develop NFC applications that require a simple, easy to add NFC transponder to embedded applications. MSP-EXP430G2 Launchpad  and MSP-EXPF5529 LaunchPad are examples of the compatible MCU LaunchPads that can work with the DLP-RF430BP BoosterPack. The DLP-RF430BP is designed and developed by a third party DLP Design. Features Onboard antenna and connection for optional external antenna Operational power supplied by the LaunchPad (Purchased Separately) Standard 20-pin BoosterPack header Texas Instruments RF430CL330H, Rev D Silicon NFC Type 4B Tag Platform / IEC/ISO14443B Compliant 13.56MHz RF Interface (supports up to 848kbps data rate) 3k SRAM Bytes Available for NDEF Message Storage Automatic Checking of NDEF Structure Interrupt to Indicate End of Read or End of Write  What's Included Populated BoosterPack PCB with onboard antenna  

DLP® LightCrafter™ Display 230NP is an easy to use, compact, plug and play evaluation platform for a wide array of ultramobile and ultraportable display applications in consumer, industrial, medical and Internet of Things (IoT) markets. The evaluation module (EVM) features the DLP230NP chipset comprised of the DLP230NP .23 1080p DMD, DLPC3436 display controller and the DLPA2005 PMIC/LED driver. Learn how to get started viewing this video. This EVM comes equipped with a production-ready optical engine and processor interface supporting 18-bit RGB parallel video interface in a small form factor. Visit DLPDLCR2000EVM for a more affordable EVM option that features nHD resolution, 20lm, and Beagle Bone Black compatibility out of the box. Features: 81 mm x 87 mm compact form factor (EVM is the size of a business card) Affordable way for developers to evaluate high-performing DLP display technology Plug and play DLP 1080p optical engine that supports up to 100 lumens I²C and 18-bit parallel RGB video interfaces to support virtually any low-cost host processor Raspberry PI 4 compatibility out of the box Included: Included: EVM (assembled with mechanicals and Young Optics engine), Raspberry PI 4 cable Not included: External 5V, 4A power supply and FPD-Link header

The Educational BoosterPack MKII offers a high level of integration for developers to quickly prototype complete solutions. Various analog and digital inputs/outputs are at your disposal including an analog joystick, environmental and motion sensors, RGB LED, microphone, buzzer, color LCD display, and more. This BoosterPack was developed with Energia in mind. Energia is an open source, community developed coding environment, which is supported by a robust framework of intuitive APIs and easy-to-use software libraries for rapid firmware development. We recommend Energia v12 or later. Learn more about Energia at www.energia.nu. Features TI OPT3001 Light Sensor TI TMP006 Temperature Sensor Servo Motor Connector 3-Axis Accelerometer User Push Buttons RGB Multi-color LED Buzzer 40-pin Stackable BoosterPack Connector Color TFT LCD Display Microphone 2-Axis Joystick with Pushbutton What's Included 1 x BOOSTXL-EDUMKII Educational BoosterPack MKII 1 x Quick Start Guide  

For the class, you will need 1) a TM4C123 or MSP432 LaunchPad, 2) I/O booster pack, and 3) a CC2650 module. LaunchPad: EK-TM4C123GXL or MSP-EXP432P401R [Please choose which board you want] MK-II I/O booster: BOOSTXL-EDUMKII CC2650 Bluetooth module: LAUNCHXL-CC2650 You will need either a TM4C123 LaunchPad or a MSP432 LaunchPad. All the projects we will develop in this course will run on either of these microcontroller boards. TM4C123 MSP432 Cortex M4F Cortex M4F 43 I/O pins 84 I/O pins Runs at 80 MHz Runs at 48 MHz 256k ROM, 32k RAM                   256k ROM, 64k RAM CAN, USB no CAN, no USB Two 12-bit ADCs 14-bit ADC More 32-bit timers Low power features Next you will need is MK-II I/O booster The embedded systems in this class combine input/output devices with the Cortex M microcontroller running your RTOS. In order to place the focus of this class on the RTOS and away from the hardware/software interface,you will be using the MK-II Educational BoosterPack that contains a rich set of I/O devices. This course deals with creating a real-time operating system for embedded systems. One of the important resources the OS must manage is I/O. It is good design practices to provide an abstraction for the I/O layer. Three equivalent names for this abstraction are hardware abstraction layer (HAL), device driver, and board support package (BSP). From an operating system perspective, the goal is the make it easier to port the system from one hardware platform to another. The system becomes more portable if we create a BSP for our hardware devices. In this class we provide a BSP for the MKII BoosterPack that encapsulates the following: Button input, 2 switches Joystick input, two channel analog and one button LED output, 3-color Buzzer output, PWM controls loudness Acceleration input, three channel analog Microphone input, one channel analog LCD graphics output, 128 by 128, 16-bit color Light sensor input, I2C Temperature sensor input, I2 Third and last product ypu will need is LAUNCHXL-CC2650 LaunchPad. This is the most flexible solution, because there are multiple ways with which this module can be reprogrammed. In particular, if you wish to create a single microcontroller system with Bluetooth connectivity you could implement the entire application, RTOS, and Bluetooth stack on the CC2650 LaunchPad. Creating this one-chip solution will be beyond the scope of this class, and will require learning TI's Code Composer Studio, TI's RTOS, and the CC2650 I/O devices. However for this class you could use the CC2650 in BoosterPack mode and be able to plug the CC2650 LaunchPad directly onto the TM4C123/MSP432 LaunchPad creating a three board stack with the MSP432/TM4C123 LaunchPad + MK-II I/O boosterpack + CC2650 LaunchPad (in boosterpack mode). The software you write on the TM4C123/MSP432 LaunchPad will be the same regardless of whether you implement Bluetooth with the CC2650 BoosterPack or the CC2650 LaunchPad.  This Kit Includes LaunchPad: EK-TM4C123GXL or MSP-EXP432P401R [Please choose which board you want] MK-II I/O booster: BOOSTXL-EDUMKII CC2650 Bluetooth module: LAUNCHXL-CC2650  

This Kit is designed to help complete edX - Electronic Interfaces: Bridging the Physical and Digital Worlds course  by UC BerkeleyX with Course Code:EE40LX Classes Start:20 Jan 2015 Course Length:12 weeks Estimated effort:6 - 10 hours/week The Items included in the Kit are -  BASE MSP430 LaunchPad x1 Breadboard x1 Breadboard jumper wire 65Pcs(Male to Male) x1 Breadboard jumper wire(Male to Female) x10 Hookup Wires 2m Project Box x1 SUPPORT OPA4344 Quad Amp x1 OPA2344 Dual Amp x1 Duracell 9V Battery x1 9V snap connector x1 LM1086 3.3V Regulator x1 STANDARD DIODE, 1N4001 x5 BC547 (NPN transistor) x2 Metal Film 1/4W resistor, 5%, 300 x5 Carbon 1/4W resistor, 5%, 1.0k x10 Carbon 1/4W resistor, 5%, 2.7k x10 Carbon 1/4W resistor, 5%, 10k x10 Carbon 1/4W resistor, 5%, 100k x10 Capacitor 10UF, 50V - 5 Capacitor 1UF, 25V -5 Burg Strip x1 INPUT Photocell x2 Electret mic x1 Push Button Switch 12mm With Round Cap x4   OUTPUT Green LED 5mm x5 Red LED 5mm x5 Yellow LED 5mm x5 RGB Led 5mm x1 DC Motor x2 Piezo Buzzer x1     Here's wishing you a good luck for the course. Hope you do well!   And do let us know your scores we might throw in some surprise freebies!   The First Batch of this Kit Starts shipping Now! Limited stock.

 This Kit is designed to help complete edX - Embedded Systems - Shape The World by UTAustinX course with Course Code:UT.6.03xClasses Start:20 Jan 2016Course Length:16 weeksEstimated Effort:10 hours per week The items included in the kit are -  BASE Tiva C Series - TM4C123GXL x1 Breadboard x1 Breadboard jumper wire  x65 Project Box x1 SUPPORT Carbon 1/4W resistor, 5%, 470 x10 Carbon 1/4W resistor, 5%, 1.0k x10 Carbon 1/4W resistor, 5%, 1.5k x10 Carbon 1/4W resistor, 5%, 12k x10 Carbon 1/4W resistor, 5%, 10k x10 Burg Strip x1 INPUT   Push Button Switch 12mm With Round Capx4 Stereo Headphone Jack x1 Slide Potentiometer (5-50K) (1-5cm) x1 OUTPUT Green LED 5mm x5 Red LED 5mm x5 Yellow LED 5mm x5 RGB Led 5mm x1 Nokia 5110 lcd module x1  This kit includes the optional Nokia 5110 lcd module required to complete the last project in this course Here's wishing you a good luck for the course. Hope you do well!  

This BoosterPack kit contains one "EM Adapter BoosterPack". The purpose of the EM adapter board is to provide an-easy-to-use bridge between any of the TI MCU LaunchPads and the wide variety of TI RF evaluation modules (EM), for instance the CCxxxx Low-Power RF evaluation modules. No specific software is provided, so it is up to the user to write the appropriate code to interconnect the MCU with the RF device. Features Evaluation Module (EM) connectors supporting all EMs from Texas Instruments Dual-row LaunchPad (LP) connectors, allowing stacking of XL BoosterPacks USB power supply to support assemblies drawing more current than the LaunchPad is able to source alone Buck/boost voltage regulator, allowing any power source from dual AA alkaline batteries to USB Easy access to all GPIO, both from EM and LP Possibility to mount 32.768 kHz oscillator for EMs that require an external clock What's Included One EM Adapter BoosterPack  

The LDC1000EVM (Evaluation Module) demonstrates the use of inductive sensing technology to sense and measure the presence, position or composition of a conductive target object. The module includes an example of a PCB sensor coil. An MSP430 microcontroller is used to interface the LDC to a host computer. This module is designed to provide the user with maximum flexibility for system prototyping. It is perforated at two locations: one, between the PCB sensor coil (LC tank) and the LDC1000 IC, and another, between the LDC1000 IC and the MSP430 interface. The first perforation gives the user the option to snap off the PCB coil from the module and experiment with custom sensor coils. The second perforation allows the user to connect the LDC1000+Sensor to a different microcontroller system or use multiple such sensors in one system. An accompanying GUI allows for maximum flexibility and experimentation but the EVM also indicates basic conductor detection with an on-board LED. Features Two board perforations: provide maximum evaluation and system design flexibility Includes an example of a PCB sensor coil Operates standalone or via PC Accompanying GUI for quick concept demonstration and data capture EVM design accelerates prototyping of end application  

The eZ430-Chronos is a highly integrated, wearable wireless development system based for the CC430 in a sports watch. It may be used as a reference platform for watch systems, a personal display for personal area networks, or as a wireless sensor node for remote data collection. Based on the CC430F6137 <1 GHz RF SoC, the eZ430-Chronos is a complete CC430-based development system contained in a watch. This tool features a 96 segment LCD display and provides an integrated pressure sensor and 3-axis accelerometer for motion sensitive control. The integrated wireless feature allows the Chronos to act as a central hub for nearby wireless sensors such as pedometers and heart rate monitors. The eZ430-Chronos offers temperature and battery voltage measurement and is complete with a USB-based CC1111 wireless interface to a PC. The eZ430-Chronos watch may be disassembled to be reprogrammed with a custom application and includes an eZ430 USB programming interface. For more information on other TI wireless solutions, please see the CC430 Wireless Microcontrollershome page.   The ECCN (Export Control Classification Number) classification for this tool will be the same as the included microcontrollers. To find ECCN information for a microcontroller, see the datasheet for that device. Any use made of Texas Instruments (TI) classifications, whether it be ECCNs or HTS, is without recourse to TI and at the user’s risk. HTS and export classifications are subject to change. Your company, as the exporter of record, is responsible for determining the correct classification of any item at the time of export. Any HTS or export classification by TI is for TI’s internal use only and shall not be construed as a representation or warranty regarding the proper export classification nor relied upon to make licensing determinations. Features eZ430-Chronos Options Part Number eZ430-Chronos-433 eZ430-Chronos-868 eZ430-Chronos-915 RF Operating Frequency 433 MHz 868 MHz 915 MHz Acceptable Operating Region Acceptable worldwide Europe and India N. & S. America Availability Stockable Stockable Not Stockable Fully functional sports watch based on the CC430F6137, MSP430 with integrated <1GHz wireless transceiver Watch reprogrammable for custom wireless applications Highly integrated watch includes on-board 3-axis accelerometer, pressure sensor, temperature sensor, battery voltage sensor 96-Segment LCD display driven directly by CC430 Can be paired wirelessly with heart rate monitors, pedometers or other devices based RF transceivers like the CC1101 or SoCs such as the CC430 or CC111x Includes an eZ430 USB emulator that connects the Chronos to a PC for real-time, in-system programming and debugging Includes IAR Kickstart and Code Composer Studio integrated development environments which includes an assembler, linker, simulator, source-level debugger, and code limited C-compiler Supports development with some 2xx Spy Bi-Wire devices (refer to Table 1-1 in MSP430 Hardware Tools User's Guide for complete compatibility list) What's Included 2 spare screws CC1101/MSP430F5509 USB RF access point Mini screwdriver USB programmer eZ430-Chronos wireless watch  

The Fuel Tank BoosterPack from element14 and Texas Instruments allows Texas Instruments LaunchPads to be powered from a rechargeable lithium polymer battery BoosterPack, further enabling mobile application development and evaluation. The Fuel Tank BoosterPack works with TI LaunchPads and includes an onboard lithium polymer battery charger and gas gauge that can output the critical parameters of the battery, including temperature, charging state, capacity, and more. The BoosterPack comes with a lithium polymer battery cell, which is charged through an onboard USB connector.  Features Onboard BQ24210 lithium polymer charger Onboard BQ27510-G2 gas gauge Low battery indicator USB charging Battery state outputs: battery temperature, voltage, average current, charge state, and remaining capacity  

The GPIO Breakout Booster Pack is a low-cost IO breakout board for Tiva™ C Series Launch Pad Booster Pack XL pin out. Every available signal is connected to a 0.1-inch header position in addition to the majority being connected to 3.5-mm screw terminals for easy access when prototyping. Every digital signal is ESD protected and every analog signal is routed through a unity-gain amplifier to simplify development with a Tiva C Series Launchpad. Features 3.5-mm screw terminal for all unused I/O 8 analog 22 digital 2 3.3-V terminals 4 ground terminals Analog channels equipped with unity-gain amplifiers ESD protection on every I/O signal and power rail 3-position user DIP switch Plated through-holes on a 0.1-inch grid for each I/O signal Six 0.125"-diameter mounting holes Dual HID gamepad demo

The Hercules™ RM42 LaunchPad™ is an inexpensive evaluation platform designed to help users evaluate and get started on development with Hercules microcontroller platform. The Launchpad Development Kit is based on the IEC 61508 SIL 3 certified RM42L432, which is a dual core lock-step ARM® Cortex®-R4 based MCU with features like 12-bit ADC, HET with programmable timer pins, eQEP, MibSPI and serial communication interfaces. Hercules RM MCUs can help reduce the development effort of IEC 61508 functional safety applications.The LaunchPad comes pre-programmed with Hercules Safety MCU Demo enabling users to easily learn about the key safety, data acquisition and control features of the Hercules MCU platform.The LaunchPad features on-board emulation for programming and debugging, on-board buttons, LEDs and ambient light sensor & the standard 40 pin BoosterPack-compatible expansion header to support a wide range of plug-in modules for added functionality such as displays & more. Features USB powered On board USB XDS100v2 JTAG debug On board SCI to PC serial communication Two LEDs Reset switches Ambient light sensor 40 pin BoosterPack XL Header Footprint for an expansion header (not populated) to bring out all MCU Pins External high-speed emulation via 14-pin TI-JTAG header (not populated) What's Included RM42L432 LaunchPad Evaluation board USB micro cable Quick Start Guide  

The Hercules™ TMS570LS04 LaunchPad™ Development Kit is an inexpensive evaluation platform designed to help users evaluate and get started on development with Hercules microcontroller platform. The LaunchPad Development Kit is based on the IEC 61508 SIL 3 and ISO 26262 ASIL D certified TMS570LS0432, which is a dual core lock-step ARM® Cortex®-R4 based MCU with features like 12-bit ADC, N2HET with programmable timer pins, eQEP, MibSPI and serial communication interfaces. Hercules TMS570 MCUs can help reduce the development effort of IEC 61508 and ISO 26262 functional safety applications.The LaunchPad comes pre-programmed with Hercules Safety MCU Demo enabling users to easily learn about the key safety, data acquisition and control features of the Hercules MCU platform.The LauchPad features on-board emulation for programming and debugging, on-board buttons, LEDs and ambient light sensor & the standard 40 pin BoosterPack-compatible expansion header to support a wide range of plug-in modules for added functionality such as displays & more. Features USB powered On board USB XDS100v2 JTAG debug On board SCI to PC serial communication Two LEDs Reset switches Ambient light sensor 40 pin BoosterPack XL Header Footprint for an expansion header (not populated) to bring out all MCU Pins External high-speed emulation via 14-pin TI-JTAG header (not populated) What's Included TMS570LS0432 LaunchPad Evaluation board USB micro cable Quick Start Guide  

  The BOOST-IR BoosterPack™ Plug-in Module can be plugged into a LaunchPad™ Development Kit for simple integration of Infrared (IR) transceiver functionality. LaunchPad developers can use this BoosterPack to start developing remote control applications using the on-board keypad, IR LED transmitter, and IR receiver + demodulator.  Infrared modulation can be simplified by using on-chip IR Modulation Logic, which can be found on select MSP430 ultra-low-power microcontrollers within the MSP430FRxx MCU series.  TI Designs are also available to help accelerate development using IR transceiver capabilities. These designs contain documentation, design files and test data to minimize design overhead. Features IR LED transmitter IR receiver + demodulator 4x4 membrane keypad 20-pin BoosterPack standard for use with any LaunchPad Compatibility with different IR signal generation methods What's Included Kit Contents: 1 x BOOST-IR BoosterPack Plug-in Module 1 x Quick Start Guide  

The InstaSPIN™-FOC enabled C2000™ Piccolo LaunchPad is an inexpensive evaluation platform designed to help you leap right into the world of sensorless motor control using the InstaSPIN-FOC solution. The LaunchPad is based on the Piccolo TMS320F28027F with unique features such as 64KB of on board flash, 8 PWM channels, eCAP, 12bit ADC, I2C, SPI, UART, and InstaSPIN-FOC in on-chip execute only ROM memory. The LaunchPad includes many board hardware features such as an integrated isolated XDS100v2 JTAG emulator for easy programming and debugging, 40 PCB pins for easy access to the pins of the F28027F processor, reset button and programmable button, etc. Works with various BoosterPacks. Features C2000 Piccolo F28027F MCU with InstaSPIN™-FOC technology Built in isolated XDS100v2 JTAG Emulator enables real-time in-system programming and debugging via USB CPU reset button and programmable push button Free unrestricted version of Code Composer Studio integrated development environment (IDE) v5 Free download of MotorWare™ software with drivers, modules, and InstaSPIN-FOC projects that work with various BoosterPacks Free GUI to instrument software built in Motorware™ GUI  What's Included InstaSPIN™-FOC enabled C2000 Piccolo LaunchPad Evaluation Board (LAUNCHXL-F28027F) Mini USB Cable Quick Start Guide  

Use the SensorTag for lighting applications with the LED Audio DevPack. Plug it into the SensorTag DevPack expansion header and expand your design with four high-power LEDs from Osram. The LED Audio DevPack makes it easy to create LED lighting applications controlled from a mobile phone with the Bluetooth® Smart SensorTag or connect to ZigBee® lighting system using ZigBee. An additional SensorTag outer rubber sleeve is included if you want to cut an opening in the rubber to fit the LEDs or a lens. The DevPack includes mounting holes for the F12237_OSLO-CLUSTER-W lens from Ledil (not included). The LED Audio DevPack is powered from a micro-USB connector. Note that at full intensity, the LEDs can draw up to 2A current, which will require a high-power USB power supply. Visit www.ti.com/sensortag for more information and download software and design files here. Features Quick prototyping of LED lighting applications Bluetooth Smart-controlled using smartphone apps Connect to ZigBee lighting applications 4 multi-colored Osram LEDs (Red, Green, Amber and White)