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Sensors for Agricultural Equipment

Описание:

TIDA-00524 предоставляет полноценную разработку для отслеживания перемещений грузов и записи цепочек данных с более чем 5-летним сроком службы батареи и простым NFC интерфейсом для настройки и считывания. Для максимальной гибкости система предлагает выбор нескольких конфигураций датчиков для отслеживания температуры (TMP112), освещенности (OPT3001), и/или влажности (HDC1000). NFC предоставляется TIRF430CL331H, микроконтроллеру MSP430FR5969 доступно до 64 КБ энергонезависимой памяти FRAM.

Возможности:

  • Более 5 лет работы от одной батареи CR2032;
  • Совместим с RF430 NFC Dynamic Tag тип 4 B;
  • NFC конфигурация и считывание данных;
  • Несколько опциональных датчиков – температуры, освещенности, влажности/температуры;
  • До 64 КБ энергонезависимой памяти FRAM;
  • Данные даты/ времени прописаны при использовании RTC. 

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Описание:
The TIDA-00800 reference design entails 4 temperature sensors along a daisy chain in a cabling environment. The sensors connect to the SensorTag development platform via the UART interface where the information can be transmitted wirelessly. The Bluetooth low energy wireless technology makes testing and demonstration easier due to its integration in most modern equipment. The form factor and electrical connections are compatible with TI SensorTag 2.0 ecosystem, allowing easy prototyping with other wireless technology (Zigbee, Wifi, sub 1GHz…), while the selected sensor allows industrial grade accuracy and resolution.

Возможности:

• Daisy-chained temperature sensors (TMP107) • Bluetooth Low Energy™ link from SensorTag platform • SMAART WIRE™ Interface: Allows up To 32 Daisy-Chained devices using UART interface • Temperature range: -55°C to +125°C • Accuracy: ±0.4°C from -20°C to +70°C • Resolution: 14 bits (0.015625°C) • Daisy-chained temperature sensors (TMP107) • Bluetooth Low Energy™ link from SensorTag platform • SMAART WIRE™ Interface: Allows up To 32 Daisy-Chained devices using UART interface • Temperature range: -55°C to +125°C • Accuracy: ±0.4°C from -20°C to +70°C • Resolution: 14 bits (0.015625°C)

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TI Design TIDEP-0094provides a foundation to evaluate object detection using the IWR1642 evaluation module (EVM).This designintegrates a complete radar processing chain onto the IWR1642 device to enable the estimation of the position (in the azimuthal plane) and the velocity of objects in its field of view up to 84 m. The software example is integrated and provided with the TI mmWave software development kit (SDK) for a cohesive software experience including APIs, libraries, and tools for evaluation, development, and data visualization.

Возможности:

Detect objects up to 84 m with range resolution of 37 cm Antenna field of view ±60° with angular resolution of approximately 15° Source code for fast Fourier transform (FFT) processing and detection provided by mmWave software development kit (SDK) IWR1642 EVM demonstrates the design Radar front-end and detection configuration fully explained

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Описание:
This design, featuring an ultra-low-power MSP MCU paired with a TMS37157 Passive Low Frequency RFID device can enable a ultra-low power wireless temperature & humidity sensor (SHT21). With RFID, applications can benefit from hermetically sealed enclosures by leveraging RFID to provide power and data transmission wirelessly through an enclosure. This design provides complete hardware, software & PC-side software to get you up and running.

Возможности:

Passive Low Frequency RFID application with an ultra-low power microcontroller Humidity & temperature sensing with SHT21 sensor(I2C interface to MCU) An RF field of 134.2 kHz can be used to charge the wireless temperature node &serve as the communication interface. Hardware is available for order (eZ430-TMS37157) Hardware design files, software & PC side GUI are also provided

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This bridge sensor conditioner module delivers a well-regulated current output to a ground-referenced load. The first stage uses a mixed-signal programmable gain amplifier (PGA) to provide linearization and temperature compensation to a differential bridge sensor voltage. The second stage converts the PGA output voltage into current and transmits the current over a standard 4mA to 20mA current loop. Additional circuitry protects the module against electrostatic discharge (ESD), electrical fast transients (EFT), radiated and conducted electromagnetic interference (EMI), and lightning surge. See more TI Precision Designs

Возможности:

EMC Tested According to IEC 61000-4 and FCC Standards Digitally Calibrated 4-20mA Output 0.1% Accuracy This CerTIfied Design Includes: Theory Component Selection & Calculation TINA-TI Simulation Schematics and PCB Layout Measurement Results EMC Test Results

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This TI Precision Verified Design provides the theory, component selection, simulation, PCB design, and measured results for a dual-supply precision full-wave rectifier. The design functions over a wide power supply range (up to +/-18V) allowing full-wave rectification of a wide range of input signals. This implementation operates with limited distortion for 20 Vpp input signals at frequencies up to 50 kHz and for signals as small as 50 mVpp at frequencies up to 1 kHz. The circuit can be used in applications that need to quantify the absolute value of input signals which have both positive and negative polarities. The OPA2211 provides excellent noise and distortion performance making it ideal for precision applications.

Возможности:

Creates a Full-Wave Rectified Output Over a Wide Input Range Utilizes OPA2211 Precision Amplifier for Low-Noise Output Dual-Supply Solution

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