参考设计
(24)
TIDA-00757 Smart Lock Reference Design Enabling 5+ Years Battery Life on 4x AA Batteries | TI.com
TIDA-00757: With the increasing number of building and home owners looking to retrofit smart locks (or electronic locks) to their building or home, wireless battery powered smart locks are becoming increasingly popular in today’s market. In a smart lock application, the high current motor and radio often drains the battery quickly, causing battery life to suffer. Replacing multiple batteries can be a time consuming and costly issue, and thus lowering the average current consumption is often a key design consideration.
TIDA-01012 Wireless IoT, Bluetooth® Low Energy, 4½ Digit, 100kHz True RMS Digital Multimeter Reference Design | TI.com
TIDA-01012: Many products are now becoming connected through the Internet of Things (IoT), including test equipment such as digital multimeters (DMM). Enabled by Texas Instruments’ SimpleLink™ ultra-low power wireless microcontroller (MCU) platform, the TIDA-01012 reference design demonstrates a connected, 4½ Digit, 100kHz true RMS, DMM with Bluetooth® low energy connectivity, NFC Bluetooth pairing, and an Automatic Wake-Up feature enabled by TI’s CapTIvate™ technology.
CC2650EM-MURBAL-RD CC2650EM-MurBal Reference Design | TI.com
CC2650EM-MURBAL-RD: The CC2650EM-MurBal reference design contains schematics and layout files for the CC2650 evauation module with the 5x5 mm package and integrated 0603 balun from Murata. The reference design demonstrates good techniques for CC2650 decoupling and RF layout. For optimum RF performance, the reference design, both schematic and layout, should be copied accurately. There are several reference designs to choose from for the CC26xx device family, including designs with the various package types and also the different RF front-end options. All of the reference designs are with 2-layer PCB and has on-board PCB antenna.
CC2650EM-MurBal Reference Design
CC2650EM-MURBAL-RD: The CC2650EM-MurBal reference design contains schematics and layout files for the CC2650 evauation module with the 5x5 mm package and integrated 0603 balun from Murata. The reference design demonstrates good techniques for CC2650 decoupling and RF layout. For optimum RF performance, the reference design, both schematic and layout, should be copied accurately. There are several reference designs to choose from for the CC26xx device family, including designs with the various package types and also the different RF front-end options. All of the reference designs are with 2-layer PCB and has on-board PCB antenna.
CC2650EM-4XS Reference Design
CC2650EM-4XS-RD: The CC2650EM-4XS reference design contains schematics and layout files for the CC2650 Evauation Module with the 4x4 mm package and single-ended RF output with external biasing. The reference design demonstrates good techniques for CC2650 decoupling and RF layout. For optimum RF performance, the reference design, both schematic and layout, should be copied accurately. There are several reference designs to choose from for the CC26xx device family, including designs with the various package types and also the different RF front-end options. All of the reference designs are with 2-layer PCB and has on-board PCB antenna.
Humidity & Temp Sensor Node for Star Networks Enabling 10+ Year Coin Cell Battery Life Ref Design
TIDA-00374: This TI Design uses Texas Instruments nano-power system timer, SimpleLink™ ultra-low power wireless microcontroller (MCU) platform, and humidity sensing technologies to demonstrate an ultra-low power method to duty-cycle sensor end nodes. These technologies lead to an extremely long battery life: over 10 years with a standard CR2032 lithium ion coin cell battery. The TI Design includes techniques for system design, detailed test results, and information to get the design up and running quickly. This reference design uses the HDC1000. This reference design can also be used with the HDC1008, and HDC1050.
CC2650EM-4XS-EXT-REG-RD CC2650EM-4XS-EXT-REG Reference Design | TI.com
CC2650EM-4XS-EXT-REG-RD: The CC2650EM-4XS_Ext_Reg reference design contains schematics and layout files for the CC2650 configured for external regulator operation using the TPS62740 DCDC converter. The reference design demonstrates good techniques for CC2650 decoupling and RF layout. For optimum RF performance, the reference design, both schematic and layout, should be copied accurately. There are several reference designs to choose from for the CC26xx device family, including designs with the various package types and also the different RF front-end options. All of the reference designs are with 2-layer PCB and has on-board PCB antenna.
SimpleLink Multi-Standard CC2650 SensorTag Reference Design
TIDC-CC2650STK-SENSORTAG: The new SimpleLink Multi-Standard SensorTag IoT kit invites you to realize your cloud-connected product idea. Including 10 low-power MEMS sensors in a tiny package, the kit is expandable with DevPacks to make it easy to add your own sensors or actuators. Connect to the cloud with Bluetooth Smart® and get your sensor data online in three minutes. The SensorTag is ready to use out of the box with an iOS and Android app, with no programming experience required to get started. The new SensorTag is based on the CC2650 wireless MCU, offering 75% lower power consumption than previous Bluetooth Smart products. This allows the SensorTag to be battery powered, and offer years of battery lifetime from a single coin cell battery. The Bluetooth Smart SensorTag includes iBeacon technology. This allows your phone to launch applications and customize content based on SensorTag data and physical location. Additionally, the SensorTag can be enabled with ZigBee® and 6LoWPAN technology. Visit www.ti.com/sensortag for more information.
TIDC-BLUETOOTH-LOW-ENERGY-BEACONS Bluetooth® low energy Beacons Reference Design | TI.com
TIDC-BLUETOOTH-LOW-ENERGY-BEACONS: This reference design discusses Bluetooth® low energy beacons and provides sample projects for three different beacon broadcasting formats: iBeacon™ location and proximity detection technology, Eddystone™ and a proprietary protocol. With the flexibility of the TI BLE-Stack 2.2 software running on TI SimpleLink™ Bluetooth low energy wireless microcontrollers (MCUs), it allows the customer to choose the format that will best fit their design regarding connectable vs. non-connectable advertisements and what information should be included in those packets. There are many formats that are being used for beacon applications today, so having three possibilities allows developers to create beacons which are compatible with more products. Applications include micro-location services and asset tracking, as well as other Internet of Things (IoT) applications. This design is very low power and easy-to-use, and provides sample projects that can easily be modified and extended for various applications, for both connectable and non-connectable beacons.
CC2650EM-4XD-RD CC2650EM-4XD Reference Design | TI.com
CC2650EM-4XD-RD: The CC2650EM-4XD reference design contains schematics and layout files for the CC2650 evauation module with the 4x4 mm package and differential RF output with external biasing. The reference design demonstrates good techniques for CC2650 decoupling and RF layout. For optimum RF performance, the reference design, both schematic and layout, should be copied accurately. There are several reference designs to choose from for the CC26xx device family, including designs with the various package types and also the different RF front-end options. All of the reference designs are with 2-layer PCB and has on-board PCB antenna.
TIDA-00374 Humidity & Temp Sensor Node for Star Networks Enabling 10+ Year Coin Cell Battery Life Ref Design | TI.com
TIDA-00374: This TI Design uses Texas Instruments nano-power system timer, SimpleLink™ ultra-low power wireless microcontroller (MCU) platform, and humidity sensing technologies to demonstrate an ultra-low power method to duty-cycle sensor end nodes. These technologies lead to an extremely long battery life: over 10 years with a standard CR2032 lithium ion coin cell battery. The TI Design includes techniques for system design, detailed test results, and information to get the design up and running quickly.
TIDC-SPPBLE-SW-RD UART to Bluetooth® Low Energy (BLE) Bridge Reference Design | TI.com
TIDC-SPPBLE-SW-RD: This is a reference software solution to demonstrate how to implement a UART to BLE bridge and to communicate serial data wirelessly bidirectionally between wired UART to a device supporting BLE protocol. This will accelerate the software design process by just dropping modular code into existing and new products to enable Internet of Things (IoT) applications that connects wired serial protocols such as RS232 to BLE. The solution also includes an RS232 to UART hardware reference design.
CC2650EM-5XD Reference Design
CC2650EM-5XD-RD: The CC2650EM-5XD reference design contains schematics and layout files for the CC2650 evauation module with the 5x5 mm package and differential RF output with external biasing. The reference design demonstrates good techniques for CC2650 decoupling and RF layout. For optimum RF performance, the reference design, both schematic and layout, should be copied accurately. There are several reference designs to choose from for the CC26xx device family, including designs with the various package types and also the different RF front-end options. All of the reference designs are with 2-layer PCB and has on-board PCB antenna.
CC2650EM-4XD Reference Design
CC2650EM-4XD-RD: The CC2650EM-4XD reference design contains schematics and layout files for the CC2650 evauation module with the 4x4 mm package and differential RF output with external biasing. The reference design demonstrates good techniques for CC2650 decoupling and RF layout. For optimum RF performance, the reference design, both schematic and layout, should be copied accurately. There are several reference designs to choose from for the CC26xx device family, including designs with the various package types and also the different RF front-end options. All of the reference designs are with 2-layer PCB and has on-board PCB antenna.
TIDC-01012 Industry 4.0 NFC and Bluetooth® Low Energy User Interface Reference Design for IoT Metering | TI.com
TIDC-01012: The TIDC-01012 reference design highlights the capabilities of TI’s CC2640 Wireless MCU and RF430 NFC transponder in enabling the Internet of Things (IoT) for Industrial test equipment. It demonstrates Bluetooth® low energy connectivity between the CC2640 and an Android™ device, as well as automated pairing using NFC. This design enables Android devices to interface with the TIDA-01012 wireless DMM (WDMM) reference design and illustrates how the human-machine interface can be easily enhanced, adding meaningful features and significantly lowering product costs associated with metering using TI’s wireless connectivity solutions.
UART to Bluetooth® Low Energy (BLE) Bridge Reference Design
TIDC-SPPBLE-SW-RD: This is a reference software solution to demonstrate how to implement a UART to BLE bridge and to communicate serial data wirelessly bidirectionally between wired UART to a device supporting BLE protocol. This will accelerate the software design process by just dropping modular code into existing and new products to enable IoT applications that connects wired serial protocols such as RS232 to BLE. The solution also includes an RS232 to UART hardware reference design.
CC2650EM-4XS-RD CC2650EM-4XS Reference Design | TI.com
CC2650EM-4XS-RD: The CC2650EM-4XS reference design contains schematics and layout files for the CC2650 Evauation Module with the 4x4 mm package and single-ended RF output with external biasing. The reference design demonstrates good techniques for CC2650 decoupling and RF layout. For optimum RF performance, the reference design, both schematic and layout, should be copied accurately. There are several reference designs to choose from for the CC26xx device family, including designs with the various package types and also the different RF front-end options. All of the reference designs are with 2-layer PCB and has on-board PCB antenna.
CC2650EM-4XS-EXT-REG Reference Design
CC2650EM-4XS-EXT-REG-RD: The CC2650EM-4XS_Ext_Reg reference design contains schematics and layout files for the CC2650 configured for external regulator operation using the TPS62740 DCDC converter. The reference design demonstrates good techniques for CC2650 decoupling and RF layout. For optimum RF performance, the reference design, both schematic and layout, should be copied accurately. There are several reference designs to choose from for the CC26xx device family, including designs with the various package types and also the different RF front-end options. All of the reference designs are with 2-layer PCB and has on-board PCB antenna.
CC2650EM-5XD-RD CC2650EM-5XD Reference Design | TI.com
CC2650EM-5XD-RD: The CC2650EM-5XD reference design contains schematics and layout files for the CC2650 evauation module with the 5x5 mm package and differential RF output with external biasing. The reference design demonstrates good techniques for CC2650 decoupling and RF layout. For optimum RF performance, the reference design, both schematic and layout, should be copied accurately. There are several reference designs to choose from for the CC26xx device family, including designs with the various package types and also the different RF front-end options. All of the reference designs are with 2-layer PCB and has on-board PCB antenna.
CC2650EM-7ID-RD CC2650EM-7ID Reference Design | TI.com
CC2650EM-7ID-RD: The CC2650EM-7ID reference design contains schematics and layout files for the CC2650 evauation module with the 7x7 mm package and differential RF output. The reference design demonstrates good techniques for CC2650 decoupling and RF layout. For optimum RF performance, the reference design, both schematic and layout, should be copied accurately. There are several reference designs to choose from for the CC26xx device family, including designs with the various package types and also the different RF front-end options. All of the reference designs are with 2-layer PCB and has on-board PCB antenna.
TIDC-CC2650STK-SENSORTAG SimpleLink™ multi-standard CC2650 SensorTag™ kit reference design | TI.com
TIDC-CC2650STK-SENSORTAG: The new SimpleLink™ multi-standard SensorTag kit invites you to realize your Internet of Things (IoT) product idea. Including 10 low-power MEMS sensors in a tiny package, the kit is expandable with DevPacks to make it easy to add your own sensors or actuators. Connect to the cloud with Bluetooth® and get your sensor data online in three minutes. The SensorTag is ready to use out of the box with an iOS and Android app, with no programming experience required to get started. The new SensorTag is based on the CC2650 wireless microcontroller (MCU), offering 75% lower power consumption than previous Bluetooth products. This allows the SensorTag kit to be battery powered, and offer years of battery life from a single coin cell battery. The Bluetooth SensorTag includes iBeacon technology. This allows your phone to launch applications and customize content based on SensorTag data and physical location. Additionally, the SensorTag kit can be enabled with ZigBee® and 6LoWPAN technology. Visit www.ti.com/sensortag for more information.
TIDC-CC2650RC Voice Remote Control Reference Design | TI.com
TIDC-CC2650RC: The SimpleLink™ multi-standard CC2650 remote control reference design is an all-in-one solution for development of voice-based Bluetooth® low energy, ZigBee® RF4CE™ or multi-standard remote controls. The reference design demonstrates the recommended layout for decoupling and RF in order to achieve the best RF performance. The design uses discrete components for the balun and filter and an inverted F PCB antenna which gives good performance at a low cost.
CC2650EM-7ID Reference Design
CC2650EM-7ID-RD: The CC2650EM-7ID reference design contains schematics and layout files for the CC2650 evauation module with the 7x7 mm package and differential RF output. The reference design demonstrates good techniques for CC2650 decoupling and RF layout. For optimum RF performance, the reference design, both schematic and layout, should be copied accurately. There are several reference designs to choose from for the CC26xx device family, including designs with the various package types and also the different RF front-end options. All of the reference designs are with 2-layer PCB and has on-board PCB antenna.
