参考设计
(26)
DLP Ultra-mobile NIR Spectrometer for Portable Chemical Analysis with Bluetooth Connectivity
TIDA-00554: The ultra-mobile near-infrared (NIR) spectrometer reference design utilizes Texas Instruments' DLP technology in conjunction with a single-element InGaAs detector to deliver high performance measurements in a portable form factor that is more affordable than architectures using an expensive InGaAs array detector or fragile rotating grating architectures. The reference design supports Bluetooth low energy to enable mobile lab measurements for hand-held spectrometers for applications including food, agriculture, pharmaceuticals, petrochemicals, and more. Using a TI Tiva processor, databases in the cloud can be leveraged through cellular networks for real-time lab equivalent analytics, which allow food or skin analysis and wearable health monitor solutions. Developers can also create their own data collection and analysis through innovative iOS and Android applications.
TIDA-00554 DLP Ultra-mobile NIR Spectrometer for Portable Chemical Analysis with Bluetooth Connectivity | TI.com
TIDA-00554: The ultra-mobile near-infrared (NIR) spectrometer reference design utilizes Texas Instruments' DLP technology in conjunction with a single-element InGaAs detector to deliver high performance measurements in a portable form factor that is more affordable than architectures using an expensive InGaAs array detector or fragile rotating grating architectures. The reference design supports Bluetooth low energy to enable mobile lab measurements for hand-held spectrometers for applications including food, agriculture, pharmaceuticals, petrochemicals, and more. Using a TI Tiva processor, databases in the cloud can be leveraged through cellular networks for real-time lab equivalent analytics, which allow food or skin analysis and wearable health monitor solutions. Developers can also create their own data collection and analysis through innovative iOS and Android applications.
32-bit ARM® Cortex™-M4F MCU based Small form factor Serial-to-Ethernet Converter
TIDA-00226: Serial communications have been widely used in grid infrastructure equipments. But the limitation of transmission distance and bandwidth of serial communication leads to demand for a more flexible and high-speed method to meet modern smart grid network migration. Ethernet has been accepted as an efficient communications method across industries in the last decade. This design demonstrates bi-directional switching and transmission between serial ports and Ethernet ports, which can enable legacy equipment that has only serial communication in their power grid to communicate with modern, Ethernet-based equipment without any changes to the existing hardware or software.
TIDA-00203 Compact CAN-to-Ethernet Converter using 32-bit ARM Cortex-M4F MCU Reference Design | TI.com
TIDA-00203: This reference design demonstrates a small form-factor Controller Access Network (CAN)-to-Ethernet converter using the TM4C129XNCZAD 32-bit ARM® Cortex™-M4F MCU. Supporting 10/100 Base-T compliant with IEEE 802.3 standard, this reference design is useful for industrial drives monitoring and control, as well as Supervisory Control and Data Acquisition (SCADA) systems. The same hardware can be used as a CAN-to-Ethernet gateway or bridge with simple changes in the firmware. The gateway application is useful for monitoring remote CAN networks over Ethernet, while the bridge application is useful for coupling CAN networks via the the internet or local area netowork (LAN).
TIDA-00226 32-bit ARM® Cortex™-M4F MCU based Small form factor Serial-to-Ethernet Converter | TI.com
TIDA-00226: Serial communications have been widely used in grid infrastructure equipments. But the limitation of transmission distance and bandwidth of serial communication leads to demand for a more flexible and high-speed method to meet modern smart grid network migration. Ethernet has been accepted as an efficient communications method across industries in the last decade. This design demonstrates bi-directional switching and transmission between serial ports and Ethernet ports, which can enable legacy equipment that has only serial communication in their power grid to communicate with modern, Ethernet-based equipment without any changes to the existing hardware or software.
Wi-Fi Enabled IoT Node with High Performance MCU Reference Design
TIDM-TM4C129XWIFI: A system example to show how to build a Wi-Fi Node by integrating the TM4C1294 MCU from the TM4C product family and the CC3100 network processor. This reference design demonstrates the capability of remotely controlling MCU operation via the internet.
TIDM-TM4C129SDRAMNVM Execute from SDRAM with code storage in NVM for high performance MCU | TI.com
TIDM-TM4C129SDRAMNVM: This reference design demonstrates how to implement and interface Non Volatile Memory and SDRAM to the performance microcontroller TM4C1294NCPDT in TM4C product family. The implementation is made possible by using the EPI Interface of the Microcontroller to interface a 256Mbit SDRAM at 60MHz and QSSI Interface at 60MHz for Non Volatile Memory's like SD Card and Quad Serial Flash which allows developers to expand code and data space above the maximum Internal Memory of the TM4C1294 microcontroller.
Interfacing SDRAM Memory on High Performance Microcontrollers
TIDM-TM4C129XSDRAM: This reference design demonstrates how to implement and interface SDRAM Memory to the performance microcontroller TM4C129XNCZAD. The implementation is made possible by using the EPI Interface of the Microcontroller to interface a 256Mbit SDRAM at 60MHz which allows developers to implement additional memory for code and data when interfacing with High Speed LCD Panels.
Comprehensive Sensor Hub Solution with Seven On-Board Sensors
TIDM-LPBP-SENSORHUB: This Sensor Hub design uses a Tiva platform for evaluating the use of ARM® Cortex™-M4-based TM4C devices in sensor fusion applications, demonstrating the mathematical and algorithm computation features of the M4 architecture. This design features seven on-board sensor functions including an InvenSense MPU-9150 9-axis MEMS motion tracking (3-axis gyro, accelerometer, and compass), Bosch Sensortec BMP180 pressure sensor, Sensirion SHT21 humidity and ambient temperature sensor, Intersil ISL29023 ambient and infrared light sensor, and TI's TMP006 non-contact infrared temperature sensor.
RTOS-Based Configurable Serial-to-Ethernet Converter on High Performance MCUs Reference Design
TIDM-TM4C129XS2E: Legacy products may only contain a serial port and accessing such end equipments (EEs) is increasingly becoming a challenge due to the inability to add them to a shared network and access them over long distances (like remote control stations). A Serial-to-Ethernet (S2E) converter provides a simple solution to solve the challenges posed by such EE's. This TI Design leverages an Ethernet-based TM4C129x (formerly known as Tiva) microcontroller to implement an S2E converter that allows quicker time-to-market and cost savings.
TIDM-LPBP-SENSORHUB Comprehensive Sensor Hub Solution with Seven On-Board Sensors | TI.com
TIDM-LPBP-SENSORHUB: This Sensor Hub design uses a Tiva platform for evaluating the use of ARM® Cortex™-M4-based TM4C devices in sensor fusion applications, demonstrating the mathematical and algorithm computation features of the M4 architecture. This design features seven on-board sensor functions including an InvenSense MPU-9150 9-axis MEMS motion tracking (3-axis gyro, accelerometer, and compass), Bosch Sensortec BMP180 pressure sensor, Sensirion SHT21 humidity and ambient temperature sensor, Intersil ISL29023 ambient and infrared light sensor, and TI's TMP006 non-contact infrared temperature sensor.
TIDM-TM4C129XSDRAM Interfacing SDRAM Memory on High Performance Microcontrollers | TI.com
TIDM-TM4C129XSDRAM: This reference design demonstrates how to implement and interface SDRAM Memory to the performance microcontroller TM4C129XNCZAD. The implementation is made possible by using the EPI Interface of the Microcontroller to interface a 256Mbit SDRAM at 60MHz which allows developers to implement additional memory for code and data when interfacing with High Speed LCD Panels.
Evaluation Module (EM) Adaptor
TIDM-LPBP-EMADAPTER: 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 vide 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.
Execute from SDRAM with code storage in NVM for high performance MCU
TIDM-TM4C129SDRAMNVM: This reference design demonstrates how to implement and interface Non Volatile Memory and SDRAM to the performance microcontroller TM4C1294NCPDT in TM4C product family. The implementation is made possible by using the EPI Interface of the Microcontroller to interface a 256Mbit SDRAM at 60MHz and QSSI Interface at 60MHz for Non Volatile Memory's like SD Card and Quad Serial Flash which allows developers to expand code and data space above the maximum Internal Memory of the TM4C1294 microcontroller.
Connected Ethernet, USB, and LCD Reference Design
TIDM-CONNECTED-ETHERNET: This TI Design will demonstrate several ethernet- and LCD-enabled applications such as remote sensor monitoring, ethernet configuration via web-based and LCD dashboards and aware applications that interface with weather websites.
TIDM-TM4C129XNFC Wi-Fi Enabled IoT Node With NFC Connection Handover Reference Design | TI.com
TIDM-TM4C129XNFC: Configuring Wi-Fi network connection parameters in embedded applications can be completed with a simple tap using NFC technology. This reference design illustrates NFC connection handover (pairing) and URL sharing with a Wi-Fi node using a TM4C1294 high-performance microcontroller, CC3100 network processor and TRF7970A NFC Transceiver or RF430CL330H NFC Transponder.
TIDM-LPBP-EMADAPTER Evaluation Module (EM) Adaptor | TI.com
TIDM-LPBP-EMADAPTER: 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 vide 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.
TIDC-ZNP-HOST-SW3 Portable ZigBee Plug-In Software Framework for any OS | TI.com
TIDC-ZNP-HOST-SW3: A portable host software framework that allows ZigBee to be “bolted on” to existing products in the market, quickly enabling Internet of Things (IoT) system applications. This design can be used with any microcontrollers or processors, offering flexibility in the solution. This software framework design allows easy integration of applications on any operating system. Combined with the richness of intuitive application examples and a complete and simple API set, it allows easy integration as well as fast prototyping and product development.
TIDM-TM4C129XS2E RTOS-Based Configurable Serial-to-Ethernet Converter on High Performance MCUs Reference Design | TI.com
TIDM-TM4C129XS2E: Legacy products may only contain a serial port and accessing such end equipments (EEs) is increasingly becoming a challenge due to the inability to add them to a shared network and access them over long distances (like remote control stations). A Serial-to-Ethernet (S2E) converter provides a simple solution to solve the challenges posed by such EE's. This TI Design leverages an Ethernet-based TM4C129x (formerly known as Tiva) microcontroller to implement an S2E converter that allows quicker time-to-market and cost savings.
Portable ZigBee Plug-In Software Framework for any OS
TIDC-ZNP-HOST-SW3: A portable host software framework that allows ZigBee to be “bolted on” to existing products in the market, quickly enabling Internet of Things (IoT) system applications. This design can be used with any microcontrollers or processors, offering flexibility in the solution. This software framework design allows easy integration of applications on any operating system. Combined with the richness of intuitive application examples and a complete and simple API set, it allows easy integration as well as fast prototyping and product development.
Compact CAN-to-Ethernet Converter using 32-bit ARM Cortex-M4F MCU Reference Design
TIDA-00203: This reference design demonstrates a small form-factor Controller Access Network (CAN)-to-Ethernet converter using the TM4C129XNCZAD 32-bit ARM® Cortex™-M4F MCU. Supporting 10/100 Base-T compliant with IEEE 802.3 standard, this reference design is useful for industrial drives monitoring and control, as well as Supervisory Control and Data Acquisition (SCADA) systems. The same hardware can be used as a CAN-to-Ethernet gateway or bridge with simple changes in the firmware. The gateway application is useful for monitoring remote CAN networks over Ethernet, while the bridge application is useful for coupling CAN networks via the the internet or local area netowork (LAN).
