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TPS2052BDRBR

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TPS2052BDRBR
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Texas Instruments

2-ch, 0.5A loading, 2.7-5.5V, 70mΩ USB power switch, active-high 8-SON -40 to 125

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(11)
TIDM-TM4C129XBLE BLE Enabled IoT Node With High Performance MCU Reference Design | TI.com
TIDM-TM4C129XBLE: A system example to show how to build a BLE Node by integrating a TM4C1294 MCU from the TM4C product family and a CC2650 device. This reference design demostatrates the capability of remotely controlling MCU operation via the internet.
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.
Wi-Fi Enabled IoT Node With NFC Connection Handover Reference Design
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.
BLE Enabled IoT Node With High Performance MCU Reference Design
TIDM-TM4C129XBLE: A system example to show how to build a BLE Node by integrating a TM4C1294 MCU from the TM4C product family and a CC2650 device. This reference design demostatrates the capability of remotely controlling MCU operation via the internet.
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.
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.
TIDM-TM4CFLASHSRAM Concurrent Parallel XIP Flash and SRAM Design for code download & execution on High Performance MCUs | TI.com
TIDM-TM4CFLASHSRAM: This reference design demonstrates how to implement and interface Asynchronous Parallel Flash and SRAM Memories to the performance microcontroller TM4C129. The implementation is made possible by using the EPI Interface in Host Bus 16 Mode with mutliple Chip Selects to interface a 1Gbit-8Mbit range 16-bit Parallel Flash and 16Mbit 16-bit Parallel SRAM allowing developers to expand code and data space above the maximum Internal Memory of the TM4C1294 microcontroller.
TIDM-MINI-DC Data Concentrator Reference Design for Smaller AMI Networks Reduces Infrastructure Cost | TI.com
TIDM-MINI-DC: The TIDM-MINI-DC reference design implements a light-weight powerline communication (PLC) data concentrator (DC) solution integrated with an Ethernet Repeater feature. A power grid network is static, which means that once end-nodes are installed the number of nodes to be supported by a DC is fixed. Electric utilities often have many feeder lines with only a small number of end consumers. It is not cost-effective to install a high-performance DC solution capable of supporting a large number of end nodes for these feeders. This design offers a low-cost PLC DC solution to support smaller networks with an Ethernet Repeater (or Edge Router) feature to interconnect the local PLC network to an Ethernet-based backbone network so that a control center can control the PLC end-nodes directly.
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-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.
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