参考设计
(41)
CC2530TDKBALUN-RD TDK Corporation balun optimized for CC253x | TI.com
CC2530TDKBALUN-RD: The CC2530EM reference design contains schematics and layout files for the CC2530 and contains one part from TDK Corporation interfacing the antenna (documented in AN104). The TDK Corporation part realizes the balun-, filter- an impedance matching-function and is custom made to be operated with CC253x. CC254x and the CC85xx PurePath wireless family. The reference design demonstrates good techniques for CC2530 decoupling and RF layout. For optimum RF performance, the reference design should be copied accurately. This is a 2-layer reference design with a SMA antenna connector allowing operation with single ended 50 ohm antenna for easy connection to instruments for measurements.
One-Phase Metrology with Enhanced ESD Protection Reference Design
TIDM-1PHMTR-ESD: This design implements an ANSI/IEC Class 0.2 one-phase energy meter with enhanced ESD protection. The design also features communications through ZigBee™ connectivity. The e-meter SoC is used to perform all metrology functions and sends active power results to the CC2530EM add-on board. Developers can use the companion In Home Display TI Design (TIDM-LOWEND-IHD) to display results remotely. This reference design uses the MSP430F6736A. This reference design can also be used with the MSP430F6736.
TIDM-3PH-ENERGY5-ESD Class 0.5 Three-Phase Energy Measurement System with Enhanced ESD Protection Reference Design | TI.com
TIDM-3PH-ENERGY5-ESD: The TIDM-3PH-ENERGY5-ESD implements an ANSI/IEC Class 0.5 three-phase energy measurement system with enhanced electrostatic discharge (ESD) protection. The design also features communications through ZigBee™ connectivity. The energy measurement system on chip (SoC) is used to perform all metrology functions and sends active power results to the CC2530EM add-on board. Developers can use the companion In-Home Display TI Design (TIDM-LOWEND-IHD) to display results remotely. This reference design uses the MSP430F67641A. This reference design can also be used with the MSP430F67641 .
CC2531 Zlight2 Reference Design
CC2531ZLIGHT2-RD: This reference design provides a complete ZigBee Light Link controlled color RGBW LED lamp. The lamp has four color LEDs (red, green, blue, white) and is powered over USB. The LEDs are controlled by the CC2531 device, which runs the ZigBee Light Link software stack. To save space and cost the board is equipped with a half wave dipole PCB antenna.
CC2530-SE2431L CC2530 with Skyworks' SE2431L range extender FEM | TI.com
CC2530-SE2431L: The CC2530-SE2431L Reference Design contains schematic and layout for the CC2530-SE2431 evaluation module. The reference design demonstrates how to integrate CC2530/CC2531 and SE2431L, and the application note shows the RF performance of the combo and suggests ways for RF layout. For optimum RF performance, the schematic and layout should be copied as closely as possible. This is a 4-layer reference design with both an SMA connector for RF output matched to 50 ohm and an inverted-F PCB antenna.
Smart Home and Energy Gateway Reference Design
TIEP-SMART-ENERGY-GATEWAY: The Smart Home and Energy Gateway Reference Design provides example implementation for measurement, management and communication of energy systems for smart homes and buildings. This example design is a bridge between different communication interfaces, such as WiFi, Ethernet, ZigBee or Bluetooth, that are commonly found in residential and commercial buildings. Since objects in the house and buildings are becoming more and more connected, the gateway design needs to be flexible to accommodate different RF standard, since no single RF standard is dominating the market. This example gateway addresses this problem by supporting existing legacy RF standards (WiFi, Bluetooth) and newer RF standards (ZigBee, BLE).
CC2530BALUN-REFDES CC2530EM Ref Des with optimized JTI chip balun | TI.com
CC2530BALUN-REFDES: The CC2530EM reference design contains schematics and layout files for the CC2530 and contains one part from Johanson Technology interfacing the antenna (documented in AN081). The Johanson Technology part realizes the balun-, filter- an impedance matching-function and is custom made to be operated with CC2530. The reference design demonstrates good techniques for CC2530 decoupling and RF layout. For optimum RF performance, the reference design should be copied accurately. This is a 2-layer reference design with a SMA antenna connector allowing operation with single ended 50 ohm antenna for easy connection to instruments for measurements.
TIDA-00600 Power and Battery Management Reference Design for CC2530 ZigBee Wireless MCU | TI.com
TIDA-00600: The main focus of the TIDA-00600 is to provide a small size and cost optimized power management solution for ZigBee systems that requires both a rechargable battery and DC connector power supply. TIDA-00600 design provides test data, design guide and Gerber files for the power management segment. This reference design features the LP5907 an ultra small LDO with high PSRR and low noise and the BQ24230 a stand alone battery charger.
SimpleLink™ ZigBee® Network Range Extender Reference Design
CC2530-CC2592EM-RD: ZigBee applications such as home and industrial automation, lighting, metering, and sensor networks could need longer RF transmission range and better sensitivity than the stand-alone CC2530 can offer. TI's new SimpleLink CC2530-CC2592 reference design pairs the cost-effective SimpleLink ZigBee CC2530 wireless MCU with SimpleLink CC2592 range extender improving the receiver sensitivity by 2-3 dB and increasing the total link budget to 120 dB, enabling significant improvements in the range of each node in the ZigBee network.
TIDM-LOWEND-IHD Segment LCD-Based Low-End In-Home Display with Wireless RF Communication | TI.com
TIDM-LOWEND-IHD: An in-home display (IHD) allows utility customers to track their energy usage information such as total energy consumption, pricing, and kilowatt hours in real time. The display can communicate with utility meters and other enabled appliance typically using Low Power RF communication. In entry line IHD, often a segment LCD based solution is enough. It is typically battery operated, needs some intelligence to deal with the various messages and connectivity. The TI low end IHD is featuring a full design articulated around the low power MSP430 micrcontroller. This microcontroller is driving the LCD segment display in very economical way thanks to its intergrated driver and is offering various ultra-low power modes to optimize the battery life-time. The MSP430 also offers standard serial port (SPI, RS232) to interface with the TI Low Power RF solution to address the most popular standard ranging from sub 1GHz to 2.4GHz ZigBee. Hardware and software package enables developer to come up very quickly with a cost optimized and simple IHD that can quickly interact with other smart appliances.
RF6505-CC2530 Reference Design
RF6505-CC2530RD: The RF6505-CC2530 Reference Design contains schematics and layout files for the RF6505-CC2530 evaluation module. The reference design demonstrates how to integrate CC2530/CC2531 and with RF6505 from RF Micro Devices, and shows good techniques for decoupling and RF layout. For optimum RF performance, these parts should be copied accurately. The RF6505-CC2530 reference design is a range extender design for the 2.4GHz ISM Bands with two ports on the output for connecting a diversity solution or a test port. It increases the link budget by providing a power amplifier (PA) for increased output power, and a low-noise amplifier (LNA) with low noise figure for improved receiver sensitivity. In addition to these features it provides switches and integrated RF matching for design and high performance wireless systems.
Class 0.5 Three-Phase Energy Measurement System with Enhanced ESD Protection Reference Design
TIDM-3PH-ENERGY5-ESD: The TIDM-3PH-ENERGY5-ESD implements an ANSI/IEC Class 0.5 three-phase energy measurement system with enhanced electrostatic discharge (ESD) protection. The design also features communications through ZigBee™ connectivity. The energy measurement system on chip (SoC) is used to perform all metrology functions and sends active power results to the CC2530EM add-on board. Developers can use the companion In-Home Display TI Design (TIDM-LOWEND-IHD) to display results remotely. This reference design uses the MSP430F67641A. This reference design can also be used with the MSP430F67641 .
CC2530-CC2591EM-RD CC2530-CC2591EM Reference Design | TI.com
CC2530-CC2591EM-RD: The CC2530-CC2591EM Reference Design contains schematics and layout files for the CC2530-CC2591EM evaluation module used in the CC2530-CC2591EMK Evaluation Module Kit. The reference design demonstrates how to integrate CC2530/CC2531 and CC2591, and shows good techniques for decoupling and RF layout. For optimum RF performance, these parts should be copied accurately. This is a 4-layer reference design with both an SMA antenna connector for RF output matched to 50 ohm and an inverted-F PCB antenna.
TIDM-1PHMTR-ESD One-Phase Metrology with Enhanced ESD Protection Reference Design | TI.com
TIDM-1PHMTR-ESD: This design implements an ANSI/IEC Class 0.2 one-phase energy meter with enhanced ESD protection. The design also features communications through ZigBee™ connectivity. The e-meter SoC is used to perform all metrology functions and sends active power results to the CC2530EM add-on board. Developers can use the companion In Home Display TI Design (TIDM-LOWEND-IHD) to display results remotely. This reference design uses the MSP430F6736A. This reference design can also be used with the MSP430F6736.
CC2530-CC2591EM Reference Design
CC2530-CC2591EM-RD: The CC2530-CC2591EM Reference Design contains schematics and layout files for the CC2530-CC2591EM evaluation module used in the CC2530-CC2591EMK Evaluation Module Kit. The reference design demonstrates how to integrate CC2530/CC2531 and CC2591, and shows good techniques for decoupling and RF layout. For optimum RF performance, these parts should be copied accurately. This is a 4-layer reference design with both an SMA antenna connector for RF output matched to 50 ohm and an inverted-F PCB antenna.
SimpleLink™ ZigBee® Network Range Extender Reference Design - CC2530-CC2592EM-RD - TI Tool Folder
CC2530-CC2592EMK-RD: ZigBee applications such as home and industrial automation, lighting, metering, and sensor networks could need longer RF transmission range and better sensitivity than the stand-alone CC2530 can offer. TI's new SimpleLink CC2530-CC2592 reference design pairs the cost-effective SimpleLink ZigBee CC2530 wireless MCU with SimpleLink CC2592 range extender improving the receiver sensitivity by 2-3 dB and increasing the total link budget to 120 dB, enabling significant improvements in the range of each node in the ZigBee network.
CC2530 with Skyworks' SE2431L range extender FEM
CC2530-SE2431L: The CC2530-SE2431L Reference Design contains schematic and layout for the CC2530-SE2431 evaluation module. The reference design demonstrates how to integrate CC2530/CC2531 and SE2431L, and the application note shows the RF performance of the combo and suggests ways for RF layout. For optimum RF performance, the schematic and layout should be copied as closely as possible. This is a 4-layer reference design with both an SMA connector for RF output matched to 50 ohm and an inverted-F PCB antenna.
CC2531ZLIGHT2-RD CC2531 Zlight2 Reference Design | TI.com
CC2531ZLIGHT2-RD: This reference design provides a complete ZigBee Light Link controlled color RGBW LED lamp. The lamp has four color LEDs (red, green, blue, white) and is powered over USB. The LEDs are controlled by the CC2531 device, which runs the ZigBee Light Link software stack. To save space and cost the board is equipped with a half wave dipole PCB antenna.
Power and Battery Management Reference Design for CC2530 ZigBee Wireless MCU
TIDA-00600: The main focus of the TIDA-00600 is to provide a small size and cost optimized power management solution for ZigBee systems that requires both a rechargable battery and DC connector power supply. TIDA-00600 design provides test data, design guide and Gerber files for the power management segment. This reference design features the LP5907 an ultra small LDO with high PSRR and low noise and the BQ24230 a stand alone battery charger.
TIDM-THREEPHASEMETER-F67641 Class 0.5 Three-Phase Smart Meter Reference Design | TI.com
TIDM-THREEPHASEMETER-F67641: This design implements a complete smart meter design using the MSP430F67641 polyphase metering System on Chip. The design meets all requirements for ANSI/IEC Class 0.5 accuracy and the firmware provided calculates all energy measurement parameters. The F67641 SoC features 128KB of on-chip flash plus a 320-segment LCD controller for a single-chip solution to low-cost polyphase meter design challenges.
RF6505-CC2530RD RF6505-CC2530 Reference Design | TI.com
RF6505-CC2530RD: The RF6505-CC2530 Reference Design contains schematics and layout files for the RF6505-CC2530 evaluation module. The reference design demonstrates how to integrate CC2530/CC2531 and with RF6505 from RF Micro Devices, and shows good techniques for decoupling and RF layout. For optimum RF performance, these parts should be copied accurately. The RF6505-CC2530 reference design is a range extender design for the 2.4GHz ISM Bands with two ports on the output for connecting a diversity solution or a test port. It increases the link budget by providing a power amplifier (PA) for increased output power, and a low-noise amplifier (LNA) with low noise figure for improved receiver sensitivity. In addition to these features it provides switches and integrated RF matching for design and high performance wireless systems.
TIDM-SINGLEPHASEMETER Class 0.2 Single-Phase E-meter | TI.com
TIDM-SINGLEPHASEMETER: This design, featuring the MSP430F6736 device, implements a highly-integrated single-chip electricity metering (e-meter) solution. Hardware and software design files are provided to enable calculation of various parameters for single phase energy measurement, such as RMS current & voltage, active and reactive power and energies, powerfactor and frequency.
Standalone 2.4GHz Range Extender Reference Design
CC2592EMK-RD: This standalone 2.4 GHz range extender reference design provides all the information needed to use the SimpleLink™ CC2592 range extender (PA/LNA front end) with any 2.4 GHz RF radio in a wide range of applications, including sensor mesh networks and gateways. The CC2592 range extender contains PA, LNA, switches, balun, and RF matching, working together to increase the power output and improve receiver sensitivity for a 2.4 GHz low-power RF radio.
CC2530-CC2592EM-RD SimpleLink™ ZigBee® Network Range Extender Reference Design | TI.com
CC2530-CC2592EMK-RD: ZigBee applications such as home and industrial automation, lighting, metering, and sensor networks could need longer RF transmission range and better sensitivity than the stand-alone CC2530 can offer. TI's new SimpleLink CC2530-CC2592 reference design pairs the cost-effective SimpleLink ZigBee CC2530 wireless MCU with SimpleLink CC2592 range extender improving the receiver sensitivity by 2-3 dB and increasing the total link budget to 120 dB, enabling significant improvements in the range of each node in the ZigBee network.
CC2530ZLLRC-RD ZLL Remote Control Reference Design | TI.com
CC2530ZLLRC-RD: The Texas Instruments ZLLRC Reference Design allows simple and direct control of lamps on a ZigBee Light Link network. It is intended to control a sub-group of lamps on the network, such as the lamps in a room in your house. It creates its own group consisting of the lamps it has touch linked with. These can be added/removed later. It has 14 buttons that allow control of state (on/off), hue, saturation, level, target selection and scenes. The ZLLRC is supported by the Z-Stack Lighting 1.0.2 release and higher. It is based on the CC2530 System on Chip (SoC), which has a ZigBee radio integrated. It has an on board PIFA PCB antenna fed through an integrated balun. To improve battery life, the CR2025 battery voltage is converted to 2.1V using the TPS62730 DCDC converter.
TIDC-CC2530-CC2592EMK-RD ZigBee CC2530 wireless MCU and CC2592 range extender reference design with 120dB link budget | TI.com
TIDC-CC2530-CC2592EMK-RD: In the Internet of Things (IoT) market, ZigBee(R) applications such as home and industrial automation, lighting, metering and sensor networks could need a longer RF transmission range and better sensitivity than the stand-alone CC2530 wireless MCU can offer. TI's new CC2530-CC2592 reference design pairs the cost-effective ZigBee CC2530 wireless MCU with CC2592 range extender improving the receiver sensitivity by 2-3 dB and increasing the total link budget to 120 dB, enabling significant improvements in the range of each node in the ZigBee network.
Three-Phase Metrology With Enhanced ESD Protection and Tamper Detection Reference Design
TIDM-3PHMTR-TAMP-ESD: This design implements an ANSI/IEC Class 0.2 three-phase energy meter with enhanced ESD protection. The design also features tamper detection to limit the feasibility of energy theft and communications through ZigBee™ connectivity. The e-meter SoC is used to perform all metrology functions and sends active power results to the CC2530EM add-on board. Developers can use the companion In Home Display TI Design (TIDM-LOWEND-IHD) to display results remotely. This reference design uses the MSP430F67791A. This reference design can also be used with the MSP430F67791,MSP430F6779 and MSP430F6779A.
ZLL Remote Control Reference Design
CC2530ZLLRC-RD: The Texas Instruments ZLLRC Reference Design allows simple and direct control of lamps on a ZigBee Light Link network. It is intended to control a sub-group of lamps on the network, such as the lamps in a room in your house. It creates its own group consisting of the lamps it has touch linked with. These can be added/removed later. It has 14 buttons that allow control of state (on/off), hue, saturation, level, target selection and scenes. The ZLLRC is supported by the Z-Stack Lighting 1.0.2 release and higher. It is based on the CC2530 System on Chip (SoC), which has a ZigBee radio integrated. It has an on board PIFA PCB antenna fed through an integrated balun. To improve battery life, the CR2025 battery voltage is converted to 2.1V using the TPS62730 DCDC converter.
TIDM-3PHMTR-TAMP-ESD Three-Phase Metrology With Enhanced ESD Protection and Tamper Detection Reference Design | TI.com
TIDM-3PHMTR-TAMP-ESD: This design implements an ANSI/IEC Class 0.2 three-phase energy meter with enhanced ESD protection. The design also features tamper detection to limit the feasibility of energy theft and communications through ZigBee™ connectivity. The e-meter SoC is used to perform all metrology functions and sends active power results to the CC2530EM add-on board. Developers can use the companion In Home Display TI Design (TIDM-LOWEND-IHD) to display results remotely. This reference design uses the MSP430F67791A. This reference design can also be used with the MSP430F67791,MSP430F6779 and MSP430F6779A.
CC2592EMK-RD Standalone 2.4GHz Range Extender Reference Design | TI.com
CC2592EMK-RD: This standalone 2.4 GHz range extender reference design provides all the information needed to use the SimpleLink™ CC2592 range extender (PA/LNA front end) with any 2.4 GHz RF radio in a wide range of applications, including sensor mesh networks and gateways. The CC2592 range extender contains PA, LNA, switches, balun, and RF matching, working together to increase the power output and improve receiver sensitivity for a 2.4 GHz low-power RF radio.
Segment LCD-Based Low-End In-Home Display with Wireless RF Communication
TIDM-LOWEND-IHD: An in-home display (IHD) allows utility customers to track their energy usage information such as total energy consumption, pricing, and kilowatt hours in real time. The display can communicate with utility meters and other enabled appliance typically using Low Power RF communication. In entry line IHD, often a segment LCD based solution is enough. It is typically battery operated, needs some intelligence to deal with the various messages and connectivity. The TI low end IHD is featuring a full design articulated around the low power MSP430 micrcontroller. This microcontroller is driving the LCD segment display in very economical way thanks to its intergrated driver and is offering various ultra-low power modes to optimize the battery life-time. The MSP430 also offers standard serial port (SPI, RS232) to interface with the TI Low Power RF solution to address the most popular standard ranging from sub 1GHz to 2.4GHz ZigBee. Hardware and software package enables developer to come up very quickly with a cost optimized and simple IHD that can quickly interact with other smart appliances.
TDK Corporation balun optimized for CC253x
CC2530TDKBALUN-RD: The CC2530EM reference design contains schematics and layout files for the CC2530 and contains one part from TDK Corporation interfacing the antenna (documented in AN104). The TDK Corporation part realizes the balun-, filter- an impedance matching-function and is custom made to be operated with CC253x. CC254x and the CC85xx PurePath wireless family. The reference design demonstrates good techniques for CC2530 decoupling and RF layout. For optimum RF performance, the reference design should be copied accurately. This is a 2-layer reference design with a SMA antenna connector allowing operation with single ended 50 ohm antenna for easy connection to instruments for measurements.
CC2530EM CC2530EM Reference Design | TI.com
CC2530EM: This 2.4 GHz RF Layout Reference Design demonstrates good decoupling and layout techniques for a low power RF device operating in the license free 2.4 GHz frequency band.
TIEP-SMART-ENERGY-GATEWAY Smart Home and Energy Gateway Reference Design | TI.com
TIEP-SMART-ENERGY-GATEWAY: The Smart Home and Energy Gateway Reference Design provides example implementation for measurement, management and communication of energy systems for smart homes and buildings. This example design is a bridge between different communication interfaces, such as WiFi, Ethernet, ZigBee or Bluetooth, that are commonly found in residential and commercial buildings. Since objects in the house and buildings are becoming more and more connected, the gateway design needs to be flexible to accommodate different RF standard, since no single RF standard is dominating the market. This example gateway addresses this problem by supporting existing legacy RF standards (WiFi, Bluetooth) and newer RF standards (ZigBee, BLE).
CC2530EM Ref Des with optimized JTI chip balun
CC2530BALUN-REFDES: The CC2530EM reference design contains schematics and layout files for the CC2530 and contains one part from Johanson Technology interfacing the antenna (documented in AN081). The Johanson Technology part realizes the balun-, filter- an impedance matching-function and is custom made to be operated with CC2530. The reference design demonstrates good techniques for CC2530 decoupling and RF layout. For optimum RF performance, the reference design should be copied accurately. This is a 2-layer reference design with a SMA antenna connector allowing operation with single ended 50 ohm antenna for easy connection to instruments for measurements.
CC2530EM Reference Design
CC2530EM: This 2.4 GHz RF Layout Reference Design demonstrates good decoupling and layout techniques for a low power RF device operating in the license free 2.4 GHz frequency band.
CC2530-CC2592EM-RD SimpleLink™ ZigBee® Network Range Extender Reference Design | TI.com
CC2530-CC2592EM-RD: ZigBee applications such as home and industrial automation, lighting, metering, and sensor networks could need longer RF transmission range and better sensitivity than the stand-alone CC2530 can offer. TI's new SimpleLink CC2530-CC2592 reference design pairs the cost-effective SimpleLink ZigBee CC2530 wireless MCU with SimpleLink CC2592 range extender improving the receiver sensitivity by 2-3 dB and increasing the total link budget to 120 dB, enabling significant improvements in the range of each node in the ZigBee network.
TIDM-THREEPHASEMETER-F6779 High Accuracy Three-Phase Electricity Meter with Tamper Detection | TI.com
TIDM-THREEPHASEMETER-F6779: The design implements a highly accurate three-phase electric meter system using the MSP430F6779 smart meter SoC. It exceeds all of the requirements for ANSI C12.20 and IEC-62053 Class 0.2 meters. The F6779 SoC is the most integrated polyphase e-meter SoC with 512KB flash. This allows developers to create a true single-chip smart e-meter with the highest performance and accuracy. In addition, this EVM has tamper detection capabilities which assist the engineer’s development of methods to prevent theft of electricity from utilities.
TIDM-METROLOGY-HOST Single-Phase Electric Meter with Isolated Energy Measurement | TI.com
TIDM-METROLOGY-HOST: Electric meter developers often prefer to separate the energy measurement function from the host processor functions such as ANSI/IEC data tables, DLMS/COSEM, tariff management, and communications. This design demonstrates a method for keeping these meter functions separated by using an individual metrology processor and host processor. The firmware supplied with the design manages all of the required functions and synchronization between the processors. The design also demonstrates how to isolate communications between the two processors to achieve the necessary safety requirements. Finally, this design demonstrates a method for meter calibration using the USB interface on an MSP430 MCU. Engineers will be able to more quickly develop smart meters with isolated metrology functions by reusing this reference design.
