参考设计
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TIDA-00848 Reference Design for Segment LCD Control Using GPIO Pins to Increase System Flexibility | TI.com
TIDA-00848: The TIDA-00848 reference design provides an innovative solution for adding LCD functionality to any Smart Grid or IoT application, where seven-segment LCD operation is required but the LCD dsiplay does not have to be always on. Using a few resistors and optimized GPIO control software on a CC1310 SimpleLinkTM Wireless MCU, a seven-segment LCD support is implemented. This design approach can be used with any TI microcontrollers without an on-chip LCD controller module.
TIDC-HYBRID-RF-PLC Hybrid RF and PLC Reference Design Extends Network Coverage and Reliability | TI.com
TIDC-HYBRID-RF-PLC: The importance of on-time response and monitoring in Advanced Metering Infrastructure (AMI) and distribution automation networks increases demands on reliable communications. This TI Design addresses this issue by implementing a solution with both RF and Power Line Communication (PLC). This design can help improve network performance, reliability, capacity, and scalability. The CC13xx wireless MCU acts as both the RF protocol processor and the host for the PLC processor, resulting in additional cost-saving for the system design. This design is based on a proprietary RF solution to provide a reference for choosing various RF protocols and frequency bands as required in different markets. The Hybrid Wireless M-Bus and G3-PLC Reference Design implements a specific version of the hybrid RF+PLC concept.
TIDA-00646 Matched Precision Temperature Sensing Reference Design for Heat Cost Allocators | TI.com
TIDA-00646: The TIDA-00646 reference design demonstrates techniques for precision temperature sensing as required by heat cost llocators and other Internet of Things (IoT) applications. Heat cost allocators use the temperature differential between Room and Heater body to assign a share of the total cost of a central heating system among multiple users. TIDA-00646 achieves better than 0.5 degrees Celsius accuracy across a range of +20 to +85°C. The LMT70A CMOS sensors used in the design are available as matched pairs to eliminate the need for calibration during manufacturing, lowering OEM system cost. The design is compliant to the EN834 standard using the “two-sensor measurement method”.
TIDA-00489 Low Power Wireless PIR Motion Detector Reference Design Enabling 10 Year Coin Cell Battery Life | TI.com
TIDA-00489: The TIDA-00489 TI Design uses nano-power operational amplifiers, comparators, and the SimpleLink™ ultra-low power sub-1GHz wireless microcontroller (MCU) platform to demonstrate a low power wireless motion detector implementation. These technologies lead to an extremely long battery life, over 10 years with a standard CR2032 lithium ion coin cell battery, which could be used for applications including motion detection or lighting control through occupancy detection. The PIR sensor has sensitivity of up to 30-feet with standby current of 1.65-µA. The design guide includes techniques for system design, detailed test results, and information to get the design up and running quickly.
Humidity & Temp Sensor Node for Sub-1GHz Star Networks Enabling 10+ Year Coin Cell Battery Life
TIDA-00484: The TIDA-00484 TI Design uses Texas Instruments' nano-power system timer, boost converter, SimpleLink™ ultra-low power Sub-1 GHz wireless microcontroller (MCU) platform, and humidity sensing technologies to demonstrate an ultra-low power method to duty-cycle sensor end nodes leading to extremely long battery life. The TI Design includes techniques for system design, detailed test results, and information to get the design up and running quickly.
TIDEP0084 Sub-1 GHz Sensor to Cloud Industrial IoT Gateway Reference Design | TI.com
TIDEP0084: The TIDEP0084 reference design demonstrates how to connect sensors to the cloud over a long-range Sub-1 GHz wireless network, suitable for industrial settings such as building control and asset tracking. It is powered by a TI Sitara™ AM335x processor and the SimpleLink™ Sub-1 GHz CC1310/CC1350 devices. The reference design pre-integrates the TI 15.4-Stack software development kit (SDK) for Sub-1 GHz star network connectivity and the Linux® TI Processor software development kit (SDK). TI Design Network partner stackArmor supports the cloud application services for cloud connectivity and visualization of the sensor node data.
TIDA-00758 Interrupt-based environmental sensor node with ambient light for Sub-1 GHz networks reference design | TI.com
TIDA-00758: The TIDA-00758 TI Design demonstrates a low-power method of wireless environmental sensing enabling up to 10 years of coin cell battery life. The ambient light sensor enables lighting control for applications such as automatic window blinds or daylight harvesting. This design uses Texas Instruments’ SimpleLink™ ultra-low power sub-1 GHz wireless microcontroller (MCU) platform, and ambient light, humidity, and temperature sensing technologies to achieve interrupt-based sensor monitoring when running from the backup battery.
TIDC-HYBRID-WMBUS-PLC Extending Network Coverage and Reliability with Standards-based Protocols Reference Design | TI.com
TIDC-HYBRID-WMBUS-PLC: The importance of on-time response and monitoring in Advanced Metering Infrastructure (AMI) and distribution automation networks increases demands on reliable communications. Standards-based communications are becoming a requirement in most smart grid deployments as service operators and regulators take advantage of interoperability. This TI Design addresses these issues by implementing a solution with standard-based Wireless M-Bus and G3-PLC Power Line Communication (PLC). This design can help improve network performance, reliability, capacity, and scalability. The CC13xx wireless MCU acts as both the RF protocol processor and the host for the PLC processor, resulting in additional cost-saving for the system design. This design is based on wireless M-Bus RF solution with G3-PLC and, to see TI proprietary RF solution-based version, view the Hybrid RF and PLC Reference Design.
TIDA-01212 Single Bidirectional Infrared LED Communication Port Reference Design | TI.com
TIDA-01212: The TIDA-01212 reference design provides a ultra-low power yet simple and low-cost solution for adding a bi-directional IrDA PHY link at 9600 bps to any Smart Metering or sub-metering device. Using a single IR LED, a resistor and internal 1.27 V reference, controlled by an optimized software inside the Sensor Controller engine, both transmitter and receiver for IrDA PHY @ 9600 bps is implemented. This design approach can be used with the TI CC13xx and CC26xx SimpleLink™ Wireless MCUs to reduce cost by replacing legacy optical IrDA PHY modules with two separate LEDs.
Interrupt-Based Ambient Light and Environment Sensor Node for Sub-1GHz Networks Reference Design
TIDA-00758: The TIDA-00758 TI Design demonstrates a low-power method of wireless environmental sensing enabling up to 10 years of battery life. This design uses Texas Instruments’ SimpleLink™ ultra-low power sub-1 GHz wireless microcontroller (MCU) platform, and ambient light, humidity, and temperature sensing technologies to achieve interrupt-based sensor monitoring when running from the backup battery.
Energy Harvesting Ambient Light and Environment Sensor Node for Sub-1GHz Networks Reference Design
TIDA-00488: The TIDA-00488 TI Design demonstrates an ultra-low power and a renewable method of wireless environmental sensing using daylight energy harvesting with an extremely long backup battery life. This design uses Texas Instruments’ ultra-low power harvester power management; SimpleLink™ ultra-low power sub-1 GHz wireless microcontroller (MCU) platform; and ambient light, humidity, and temperature sensing technologies to achieve continuous monitoring while the energy harvesting circuit is active and interrupt monitoring when running from the backup battery
TIDA-00488 Energy Harvesting Ambient Light and Environment Sensor Node for Sub-1GHz Networks Reference Design | TI.com
TIDA-00488: The TIDA-00488 TI Design demonstrates an ultra-low power and a renewable method of wireless environmental sensing using daylight energy harvesting with an extremely long backup battery life. This design uses Texas Instruments’ ultra-low power harvester power management; SimpleLink™ ultra-low power sub-1 GHz wireless microcontroller (MCU) platform; and ambient light, humidity, and temperature sensing technologies to achieve continuous monitoring while the energy harvesting circuit is active and interrupt monitoring when running from the backup battery
TIDA-00484 Humidity & Temp Sensor Node for Sub-1GHz Star Networks Enabling 10+ Year Coin Cell Battery Life | TI.com
TIDA-00484: The TIDA-00484 TI Design uses Texas Instruments' nano-power system timer, boost converter, SimpleLink™ ultra-low power Sub-1 GHz wireless microcontroller (MCU) platform, and humidity sensing technologies to demonstrate an ultra-low power method to duty-cycle sensor end nodes leading to extremely long battery life. The TI Design includes techniques for system design, detailed test results, and information to get the design up and running quickly.
TIDA-00838 Heat Cost Allocator with wM-Bus at 868 MHz Reference Design | TI.com
TIDA-00838: The TIDA-00838 reference design implements a heat cost allocator system following the EN834 standard with the “two-sensor measurement method". The solution achieves better than 0.5 degrees Celsius accuracy across a range of +20 to +85°C. Two analog temperature sensors are available as matched pairs to eliminate the need for calibration during manufacturing and lowering OEM system cost. Wireless MCU offers wM-Bus support for S-, T- and C-modes (Meter device) at 868MHz and controls the two temperature sensors.
