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AMERICAS’ EDITION FEBRUARY 2 016 PRODUCT AND TECHNOLOGY NEWS FROM FUTURE ELECTRONICS Renesas Introducing the Renesas Synergy™ Platform PAGES 4-5 Infineon OPTIGA™ TPM: Certified Security Solutions for Trusted Computing in PC and Embedded Applications PAGE 6 TE Connectivity MS5525DSO: Save Space with Fully Calibrated Pressure and Temperature Sensor in a Small Package PAGE 11 Vishay The Internet of Things (IoT) – Touching the Human Body PAGE 13 APPLICATION SPOTLIGHT RL78/G1D Intelligent Bluetooth® Smart MCUs 3 4-5 6 7 7 8 8 8 9 10 10 11 11 12 12 13 24 COMPONENT FOCUS Cambridge CMOS Sensors Ultra-Low Power Gas Sensors 14 Microchip MCP9600: Fully Integrated Thermocouple EMF to ºC Converter 14 NXP NFC Smart Connected Home 15 CUI Inc. Level VI-Compliant AC-DC Power Supplies Suitable for Global Use 16 CUI Inc. The Power to Heal, Deliver, Connect and Build – The Power of Things™16 17 LittelfuseXTREME-GUARD™ ESD Suppressors Reduce Power Consumption and Ensure Data Integrity Susumu Precision Chip Resistors with the Highest Power Rating 17 E-Switch Large Selection of Tact Switches with Multiple Options 18 Adam Tech Industry Standard Cable Assemblies 18 Future Electronics Analog Corner 20-21 Low-power RL78 Microcontroller and Bluetooth Low Energy (BLE) wireless technology increase battery life and accelerate Bluetooth connected device development ■ Power Saving ■ High integration minimizes BOM cost; Balun, on-chip 32 KHz oscillator Key Features Bluetooth Smart v4.1 connectivity supported in embedded and modem modes ■ Industry-leading support tools shorten time to market ■ 'RF Adaptable Technology' automati- State-of-the-art radio technology enables reliable communications with low current consumption. 4 mA capability enables convenient application upgrades in the field (Data transfer 1 second interval/ Connection always on) 2 mA 1 mA 0 mA MCU Oper. Sta. Deep Sleep Wake up RUN Best setting to MCU operation HALT RUN STOP RUN S T O P Deep Sleep Deep Sleep RL78/G1D MCUs prioritize current consumption at near distances or communication range at far distances. Simplified RF Design Bluetooth Reception/Transmission Average current is 10 µA ! 3 mA Efficient Connection Technology ■ Firmware-over-the-air (FOTA) cally optimizes power consumption versus communication range Receiver Sensitivity Design Versatility + System Performance Optimization documented test procedure facilitate radio certification Rx current of 3.5 mA Outstanding Tx/Rx Power Efficiency Interference Rejection ■ BT SIG qualified stack plus ■ Peak Tx current of 4.3 mA and peak Current APPLICATION SPOTLIGHT Renesas RL78/G1D Intelligent Bluetooth® Smart MCUs Renesas Introducing the Renesas Synergy™ Platform InfineonOPTIGA™ TPM: Certified Security Solutions for Trusted Computing in PC and Embedded Applications Yageo Resistor Products for Internet of Things (IoT) Applications Zilog 32-bit Cortex-M3 Based Programmable Motor Controllers CypressEZ-BLE™ PSoC® Module Cypress The Industry’s Lowest Power Energy Harvesting PMIC for IoT Devices Cypress Comparing IoT Memory Types SemtechLoRa® Products Enable the Internet of Things ON Semiconductor High Performance Sub-1 GHz Radio Devices TE Connectivity HM1500LF and HTM2500LF Temperature and Relative Humidity Modules TE Connectivity MS5525DSO: Save Space with Fully Calibrated Pressure and Temperature Sensor in a Small Package TE Connectivity BLE Wireless Sensor Tag Demo V1.1 Sensirion SHT3x Series Digital and Analog Humidity and Temperature Sensors Lattice Semiconductor iCE40 UltraLite™ - The Best Solution for IoT Devices Vishay The Internet of Things (IoT) – Touching the Human Body STMicroelectronics ST Solutions for IoT Sensor Objects Wake up High level of integration simplifies RF design and reduces BOM count. L&C DC/DC Antenna BALUN RL78/G1D MCU BLE Connectivity Solution Operation period of RL78/G1D (About 7 ms) Interval time (1 second) TECHNICAL VIEW Future Electronics How to Design a Wireless Lighting Network for High Performance, High Reliability and Low BoM Cost AD Future Lighting Solutions We Accelerate Time to Revenue by Providing… 22-23 Module Reference Designs ■ 19 Commercial Modules from Gainspan Tx Output Power: 0dBm & 20dBm ■ GS780MIZ ■ GS780MEZ Sample Programs ■ ■ ■ Current and previous versions of the virtual FTMs are available at www.FutureElectronics.com/FTM ■ 19 mm ■ ■ To buy products or download data, go to www.FutureElectronics.com/FTM Delight the Customer® Future Electronics’ New Product Introduction (NPI) program is an important part of our commitment to servicing all of our customers’ needs from prototype to production. To ensure you continue receiving future copies of FTM Look for the NPI icon to learn about the latest products and technologies available, and buy what you need in engineering quantities. Most products featured in FTM are available in engineering quantities. For more information or to buy products herein, go to www.FutureElectronics.com/FTM. For immediate access to the WORLD’S LARGEST AVAILABLE-TO-SELL INVENTORY go to www.FutureElectronics.com. Follow us on: Pin Count 48 pins Package Plastic WQFN (6x6 mm) Evaluation Kit Fields of Application Ordering Part Number Consumer R5F11AGGANB Industrial R5F11AGGDNB Consumer R5F11AGHANB Industrial R5F11AGHDNB Consumer R5F11AGJANB Industrial R5F11AGJDNB Code Flash Memory Data Flash Memory RAM 128 KB 8 KB 12 KB 192 KB 8 KB 16 KB 256 KB 8 KB 20 KB Evaluation PC GUI P/N: RTK0EN0001D01001BZ For information on Bluetooth Smart, go to bit.ly/1O7yIAC To evaluate today, get your Bluetooth Low Energy Kit: P/N: RTK0EN0001D01001BZ Register at www.FutureElectronics.com/FTM/Register Accuracy of technical data: All technical data, information, detachable insert(s) or loose advertisement(s) contained in this magazine is derived from information provided by Future Electronics’ suppliers. Such information has not been verified by Future Electronics and we make no representation, nor assume any liability as to its accuracy. Future Electronics does not assume liability in respect to loss or damage incurred as a consequence of or in the connection with the use of such data and information. Prices subject to change without notice. ®Delight the Customer is a registered trademark of Future Electronics. 2 The RL78/G1D Group Firmware Over The Air update (FOTA) Virtual UART iOS and Android demo apps Beacon stack BT Developer Studio plug-in TCP/IP stack 1.800.FUTURE.1 • www.FutureElectronics.com Renesas Synergy Software Package (SSP) At the heart of Renesas Synergy™ Software is the Synergy Software Package (SSP) that integrates Express Logic ThreadX® RTOS, plus stacks, libraries and utilities, including NetX Duo™, USBX™, GUIX™, and FileX®, with a rich application framework and drivers – all optimized specifically for the Renesas Synergy™ MCU architecture. Renesas Synergy™ Microcontrollers Series S7 High Performance • 240 MHz ARM® Cortex®-M4 CPU w/FPU • Up to 4 MB Code Flash • Up to 640 KB SRAM • Dual Ethernet MAC Controller w/PTP • USBHS and USBFS • CAN, SSI, QSPI, and SDHI • Graphics LCD Controller w/2D Drawing Engine • Capacitive Touch Sensing Unit • TRNG, Crypto, HASH • Integral Safety Series S5 High Integration • To 200 MHz ARM® Cortex®-M4 CPU w/FPU • Up to 2 MB Code Flash • Up to 640 KB SRAM Coming Soon Series S3 High Efficiency • 48 MHz ARM® Cortex®-M4 CPU w/FPU • Up to 1 MB Code Flash • Up to 192 KB SRAM • USBFS • CAN, SSI, QSPI, and SDHI • 14-bit A/D Converter and 12-bit D/A Converter • OPAMP • High-Speed and Low-Power Analog Comparators • Capacitive Touch Sensing Unit • TRNG, Crypto, HASH • Integral Safety Series S1 Ultra Low Power • 32 MHz ARM® Cortex®-M0+ CPU • Up to 128 KB Code Flash • Up to 16 KB SRAM • USBFS • CAN • 14-bit A/D Converter and 12-bit D/A Converter • Low-Power Analog Comparator • Capacitive Touch Sensing Unit • TRNG, Crypto, HASH • Integral Safety Renesas Synergy™ Tools & Kits Renesas Synergy is a comprehensive platform that integrates a real-time operating system, middleware and other software with a family of highly scalable microcontrollers, as well as development tools, designed to improve productivity. This tight coupling, along with a wide range of application and product examples, allows you to focus on innovation and deliver differentiated products faster than ever before. Elements of Renesas Synergy have been designed to provide unprecedented compatibility and scalability. Well-designed software APIs make software development at an application level a reality. Systematic testing, qualification, maintenance and support that follow well-defined software lifecycle management principles reduce risk for software developers. With the out-of-box integration of software and hardware, the Renesas Synergy Platform now allows you to improve your time to market, eliminate barriers to entry brought on by the risks of new technologies and upfront costs, and lower your total cost of ownership with bundled, maintained and verified baseline resources. The Renesas Synergy Platform will continue to evolve over time, bringing new technologies and features that maintain compatibility so you can keep your products on the cutting edge. To catch the next wave and learn more, please visit: bit.ly/1MtOeCo ©2016 Renesas Electronics America Inc. (REA). All rights reserved. Renesas Synergy is a trademark of Renesas Electronic Corporation. All trademarks are the property of their respective owners. e2 studio, an Integrated Solution Development Environment (ISDE) • Industry-standard Eclipse-based tool with multiple plug-ins • GNU ARM C compiler (IAR ARM compiler option) • New Project Generator for quick and easy project setup • Pin, Clock, and Interrupt Configurator to personalize design, error check, and generate start-up code • GUIX Studio – desktop graphical user interface design tool • Smart manual. Interactive wiki-based, context-aware embedded document system • RTOS-aware debugging via J-Link JTAG and single-wire interfaces •TraceX™ real time task monitoring for ThreadX Hardware Kits • Development Kits (DK) for full project development. Modular access to all MCU features and pins • Starter Kits (SK) for low-cost introduction to using the Renesas Synergy Platform • Promotion Kits (PK) for experiencing the Renesas Synergy Platform without any barrier Renesas Synergy™ Solutions Product Example Kits (PE) Application Example Kits (AE) • Human Machine Interface with brilliant-color TFT LCD and wired/wireless connectivity • Industrial data logger w/precision analog and wireless • Capacitive touch deep evaluation modules • More to come for motor control, industrial networking, and mesh networked sensors Renesas Synergy™ Gallery • Showroom website for access to Renesas Synergy Platform ecosystem of software, tools, and services • All licensing and downloading of Reness Synergy tools, SSP, demonstrations, and qualified SW add-ons from Renesas • Browse and download verified software add-on components, tools, and services from third-party suppliers • Visit the Renesas Synergy Gallery at: https://synergygallery.renesas.com For more information or to get your Renesas Synergy Kit, go to bit.ly/1MtOeCo APPLICATION SPOTLIGHT APPLICATION SPOTLIGHT OPTIGA™ TPM: Certified Security Solutions for Trusted Computing in PC and Embedded Applications Resistor Products for Internet of Things (IoT) Applications FEATURES AND APPLICATIONS The Infineon OPTIGA™ TPM (Trusted Platform Module) family is a standardized security controller family which provides a wide range of security functions for embedded platforms. As the leader of Trusted Computing solutions, Infineon offers a broad range of products meeting your specific requirements. Current applications of IoT include healthcare systems, buildings and home automation, as well as transportation. As the wearable market expands, Yageo provides high reliability for current sensors and high precision in thin film resistors to meet this increasing need. Security and Functionality All OPTIGA TPM products are based on Infineon’s advanced hardware security technology. The products are designed according to the Trusted Computing Group (TCG) specifications and are Common Criteria certified1 to EAL4+. The security functions include system and data integrity, authentication, secured communication, secured data storage and secured updates. ™ Performance and Power Implemented on a 16-bit state-of-the-art security controller from Infineon, the products meet the latest Microsoft Windows boot time and performance criteria. Furthermore the products are supported in Linux OS and derivates. A sleep current of down to 110μA allows smooth integration into a broad range of devices requiring power efficient battery operated designs. The OPTIGA TPM family supports an improved commercial temperature range as standard (-20°C to +85°C) as well as an extended temperature range (-40°C to +85°C) for industrial applications. The OPTIGA™ TPM is available in TSSOP-28 package or the small VQFN-32 package (5 x 5mm2), which saves precious board space on your mobile platforms. Migrate to TCG TPM 2.0 Today Leading the way into the future, Infineon is the first provider offering a TPM 2.0 product according to the latest specification. With this early expertise we support your smooth transition to the new standard. Fully Certified and State-of-The-Art Security For new products of the Infineon OPTIGA™ TPM family, the Common Criteria certification is a key focus. As the first and still leading the list, Infineon had its TPMs listed on the official TCG product list showing that the TCG TPM standard is fulfilled. Infineon is a driver in the Trusted Computing Group (TCG), the standardization organization formed to develop open, vendor-neutral, global industry standards for hardware security. With an Infineon representative serving as the TCG president and a strong presence and chairs in various working groups, Infineon is working on future security standards and driving innovation. To buy products or download data, go to www.FutureElectronics.com/FTM 6 The PA series, with high power, is used mostly in power, networking and automotive applications. The PE series is used mostly in smartphones, tablets, battery-power and LED lighting applications. PE and PA current sensors offer accurate direct current measurement while protecting the circuit from excessive current. Thin Film Resistors (RT/AT series) •Case size: 0201 to 2512 (RT), 0402 to 1206 (AT) •High precision and high stability •Superior resistance against sulfur-containing environment •AEC-Q200 compliant (AT) •Low TCR, low electrical noise RT and AT thin film resistors feature high precision RT with superior TCR (down to ±5ppm/°C) and enhanced stability that is ideal for audio, telecommunications, medical and industrial test & measurement equipment. FEATURES •Standardized security controller •TCG certified products •Products with TPM 1.2 and 2.0 •Standard and extended temperature range (-40°C to +85°C) •Firmware upgrade capability •SPI, I2C and LPC interface •VQFN-32 and TSSOP-28 package •CC and FIPS certification Extended Temperature Range and Packages ™ Current Sensors (PA/PE series) •Case size: 2512 (PA), 0201 to 2512 (PE) •Low TCR, automotive grade metal current sensors The RT series is often used in smart meters, intelligent homes and inverters. The AT series can be found in automotive and general industrial applications. To buy products or download data, go to www.FutureElectronics.com/FTM BENEFITS •Innovative security solutions provided by the market leader •High confidence level based on Common Criteria certification •Easy integration based on standardization Introducing ZNEO32! APPLICATIONS Zilog’s Line of 32-bit Cortex-M3 based Programmable Motor Controllers •Notebooks/PCs/tablets/servers •Networking components •Industrial automation •Single board devices •Home automation •Automotive ZNEO32! uses high performance 32-bit computing, 3-phase PWM generators, and high speed ADC units to provide an effective, low cost system solution for motor applications. OPTIGA™ TPM This family builds a root of trust in PC, mobile and embedded solutions based on the Trusted Computing Group specifications. SLB 9645 2 SLB 9665 SLB 9670 SLB 9670 TPM 1.2 TPM 1.2 TPM 2.0 TPM 1.2 TPM 2.0 I C interface LPC interface LPC interface SPI interface SPI interface Based on common criteria certified code Common criteria certified Common criteria certified Common criteria certified Common criteria certified (pending) 2 1 SLB 9660 2 The Trusted Computing Group (TCG) specifications for the standardized TPM v1.2 only consider LPC and SPI interfaces. The I2C interface is not part of the TCG defined specification. The SLB 9645 is built on the TCG compliant, EAL4+ certified TPM hardware and firmware, with the addition of I2C support. 2 Product versions for Chrome OS available 1.800.FUTURE.1 • www.FutureElectronics.com Part Number Core Flash SRAM Max. Freq. Z32F06410AES Z32F06410AKS Z32F12811ARS Z32F12811ATS Z32F38412ALS Z32F38412ATS Cortex-M3 Cortex-M3 Cortex-M3 Cortex-M3 Cortex-M3 Cortex-M3 64KB 64KB 128KB 128KB 384KB 384KB 8KB 8KB 12KB 12KB 16KB 16KB 48MHz 48MHz 72MHz 72MHz 72MHz 72MHz ADC Resoluon 12-bit x 2-unit 12-bit x 2-unit 12-bit x 3-unit 12-bit x 3-unit 12-bit x 2-unit 12-bit x 2-unit Speed 1.5MS/s 1.5MS/s 1.5MS/s 1.5MS/s 1.5MS/s 1.5MS/s Key Features: • High performance low-power Cortex-M3 core • 64KB, 128KB, or 384KB code flash • Memory with cache funcon • 8KB, 12KB, or 24KB SRAM • 3-Phase PWM with ADC triggering funcon (1-2 channels) • 1.5Msps high speed ADC with sequenal conversion funcon • Watchdog mer • External communicaon ports • Six general purpose mers • Industrial grade operang temperature (-40°C ~ +85°C) Typical Applicaons: • BLDC/PMSM motors • Outdoor air condioners • Washing machines • Refrigerators For more information or to buy products, go to www.FutureElectronics.com/FTM TIMERS 6-16bit 6-16bit 6-16bit 6-16bit 10-16bit + FRT 10-16bit + FRT UART SPI 2 2 2 4 4 4 1 1 2 2 2 2 I2C MPWM ADC I/O Ports Pkg. 1 1 2 2 2 2 1 1 2 2 2 2 2-unit 11 ch 2-unit 8 ch 3-unit 16 ch 3-unit 16 ch 2-unit 16 ch 2-unit 16 ch 44 28 48 64 86 64 48 LQFP 32 LQFP 64 LQFP 80 LQFP 100 LQFP 80 LQFP ZNEO32! Evaluaon Kits Z32F0640100KITG ZNEO32! 64K Evaluaon Kit Z32F1280100KITG ZNEO32! 128K Evaluaon Kit Z32F06410AxS Block Diagram JTAG/SWD POR Cortex-M3 DMA 4Ch CACHE FLASH 64KB BOOTROM MOSC (4/8Mhz Xtal) VDC/LVD (1.8V) PLL 12bit ADC x2 (1.5Msps) 3-Phase PWM x1 AHB MATRIX SRAM 8KB APB GPIO SYSCON UART x2 WDT SPI x1 TIMER X6 12C x1 APPLICATION SPOTLIGHT Semtech’s LoRa® products enable the EZ-BLE™ PSoC® Module SWD/ GPIO EZ-BLE PSoC Module is a fully integrated, fully certified, 11 x 11 x 1.8mm, programmable, Bluetooth Smart or Bluetooth Low Energy (BLE) module designed for ease-of-use and reducing time-to-market. It contains Cypress’s PSoC 4 BLE chip, two crystals, antenna, shield and passive components. EZ-BLE PSoC Module provides a simple and low cost way to add a microcontroller, CapSense® touch controller and Bluetooth Smart connectivity to any system. EZ-BLE PSoC Module integrates programmable analog and programmable digital blocks to enable sensor-based designs for IoT products. 5 Power/ Ground 2 EZ-BLE™ PSoC® Module 32.768kHz Crystal 23 PSoC®4 BLE XRES LPCOM/OPAMP SPI/I2C/ UART/ CapSense®/ ADC/ PWM/GPIO Trace Antenna 24MHz Crystal VREF Energy Harvesting PMIC and EZ-BLE Target Tiny Battery-Free IoT Devices Cypress’s S6AE101A/102A/103A Power Management ICs (PMICs) for energy harvesting are the industry’s lowest power devices, enabling the use of very small solar cells for battery-free BLE IoT devices such as wireless sensor nodes. Primary Battery (Optional) Energy Harvesting PMIC Power Gating Switch Multiplexer System Load2 Storage Control Series Solar Cell The devices require a very small quiescent current of 250nA and startup power of 1.2μW, and integrate system level features such as an LDO, comparator and auxiliary battery support. As a result, a light powered BLE Beacon or wireless sensor node can have a footprint as small as 1cm2. System Load1 SW_CONT/ COMPOUT Over-Voltage Portection VIN_LDO Control Block ENA_COMP ENA_LDO STBY_LDO Timer for Power Gating Switch Control INT VOUT_LDO LDO Vref Cypress’s S6SAE101A00SA1002 Solar Powered IoT Device Kit includes an S6AE101A energy harvesting PMIC and an EZ-BLE PRoC Module. It offers everything needed (including design example firmware) to develop a light-powered BLE IoT device. COMPP COMPM Comparator CIN0 CIN1 CIN2 Comparing IoT Memory Types In IoT applications, Flash and EEPROMs are the prevalent memories used for data storage, mainly attributed to the low cost per megabit and larger densities available. However, floating gate technologies have a drawback in terms of energy consumption when writing frequently – it drains batteries faster. Serial Nonvolatile Memory Technology Comparison: Features Operating voltage SPI speed Cypress 2Mb F-RAM 2Mb EEPROM 2Mb NOR Flash 4Mb MRAM 2.0V to 3.6V 1.8V to 5.5V 2.7V to 3.6V 3.0V to 3.6V 40MHz 5MHz 75MHz 50MHz 10,611,178 6606 11 5000 10 Unlimited Many developers partition Flash (which is by far the cheapest memory per bit) or use an EEPROM that consumes less energy (i.e., write infrequently to Flash and use EEPROM as a front-end for heavy writes). EEPROM standby and active modes consume lower currents than Flash. Energy (µJ)/1-byte write 314 63996 Bandwidth (KB/s) 5000 25 Write endurance (Cycles) 10 1.2 x 10 The ideal play for write intensive applications is an external serial interface F-RAM (which has addressing capability), high speeds (40MHz SPI) and low active energy consumption (typically less than 100uA/MHz) and is available in up to 4Mb densities. Lifetime at 5ms write frequency 15,855 years 100 minutes 8.3 minutes Unlimited No. of writes with 3V, 220mAh battery 7,552,985 37,127 2,239 359,666 Nonvolatile retention 100 years 100 years 20 years 20 years Active write current 3mA at 40MHz 3mA at 5MHz 15mA at 75MHz 46.5mA at 50MHz To buy products or download data, go to www.FutureElectronics.com/FTM 14 6 5 Write energy in µJ consumed by different memory types 8 1.800.FUTURE.1 • www.FutureElectronics.com For more information or to buy products, go to www.FutureElectronics.com/FTM APPLICATION SPOTLIGHT APPLICATION SPOTLIGHT MS5525DSO: Save Space with Fully Calibrated Pressure and Temperature Sensor in a Small Package High Performance Sub-1 GHz Radio Devices core with 64kB Flash, 8.25kB RAM, and sleep current consumption of 500nA to 1500nA. ON Semiconductor’s Sub-1 GHz product family provides an easy entry to high performance wireless connectivity for the Internet of Things (IoT). ON Semiconductor Sub-1 GHz RF products are designed to provide maximum performance and minimum power consumption for every major wireless sub-1 GHz standard. These solutions combine high performance RF and baseband components, ultra low power microcontroller technology and support for high performance firmware stacks on one chip. The AX5043 radio transceiver is the leading sub-1 GHz transceiver for data rates ranging from 0.1kbps to 125kbps, covering Sigfox, KNX, Wireless M-Bus, and EnOcean standards. Also available is the AX5051 radio transceiver, supporting the high data rates required for 802.15.4, ZigBee, and 6LowPAN. The AX8052F1xx family combines the superb performance of ON Semiconductor wireless transceivers and an ultra low power microcontroller ON Semiconductor high performance radio products are a driving force behind the IoT infrastructure, enabling users quick and easy access to Sigfox, POCSAG, and FLEX networks. The ready-to-use devices AX-SFEU, AX-SFUS, AX-WMEU, and AX-EOEU are pre-programmed for the chosen standard and come with an AT user interface. To simplify the entry into wireless solutions, ON Semiconductor provides modules and a comprehensive suite of development kits with supporting application generator software. FEATURES •27MHz to 1050MHz carrier frequency range •6.5mA to 11mA receive current •ASK, FSK, PSK, AM, FM, AFSK, MSK, OQPSK modulations supported •Shaping for all modulation (GFSK, GMSK, shaped ASK and PSK) •RF transceiver, RF MCU, RF modules To buy products or download data, go to www.FutureElectronics.com/FTM The MEAS MS5525DSO from TE Connectivity (TE) is a new generation of digital small outline pressure sensors with SPI and I2C bus interface designed for high volume OEM users. APPLICATIONS •Sigfox, POCSAG, FLEX IoT applications •EnOcean, Wireless KNX, Wireless M-Bus •ZigBee, 6LowPAN system (with AX5051) •Automatic meter reading •Home building automation, IoT and security TOOLS •AXRadioLAB application generator •AXcode Blocks IDE •DVK-BASE-2-GEVK development kit •F143-MINI-GEVK development kit •AX-SIGFOX-GEVK development kit Temperature and Relative Humidity Modules HM1500LF: Relative Humidity Module Based on the rugged HS1101LF capacitive humidity sensor, TE Connectivity’s (TE) HM1500LF is a dedicated humidity transducer designed for OEM applications where a reliable and accurate measurement is needed. Direct interface with a microcontroller is made possible with the module’s linear voltage output. HM1500LF SPECIFICATIONS •Small size product •Product free from Lead, Cr(6+), Cd and Hg •Humidity calibrated within ±2% @55% RH •Typical 1Vdc to 3.6Vdc output for 0 to 100% RH at 5Vdc supply •Ratiometric to voltage supply from 4.75Vdc to 5Vdc •Patented solid polymer structure HM1500LF 10 HTM2500LF SPECIFICATIONS •Hermetic housing •Humidity calibrated within ±2% @55% RH •Temperature measurement through NTC 10kΩ ±1% direct output •Small size product •Typical 1Vdc to 4Vdc output for 0 to 100%RH at 5Vdc This new sensor module generation is based on leading MEMS technology and latest benefits from TE's proven experience and know-how in high volume manufacturing of pressure modules, which have been widely used for over a decade. The rugged engineered thermoplastic transducer is available in single and dual port configurations, and can measure absolute, gauge, compound, and differential pressure from 1psi to 30psi. FEATURES •Integrated digital pressure sensor (24-bit ΔΣ ADC) •Fast conversion down to 1ms •Low power, 1μA (stand-by <0.15μA) •Supply voltage: 1.8V to 3.6V •Pressure range: 1psi to 30psi •I2C and SPI interface •Small outline IC package •Barbed pressure ports APPLICATIONS •CPAP •Ventilators and pneumatic control •Altitude and airspeed measurements •Gas flow sensing and valve control systems •HVAC monitoring and leak detection BLE Wireless Sensor Tag Demo V1.1 HTM2500LF: Temperature and Relative Humidity Module Based on the rugged HTS2035SMD humidity/ temperature sensor, TE's HTM2500LF is a dedicated humidity and temperature transducer designed for OEM applications where a reliable and accurate measurement is needed. Direct interface with a microcontroller is made possible with the module’s humidity linear voltage output. The sensor module includes a pressure sensor and an ultra low power 24-bit ΔΣ ADC with internal factory calibrated coefficients. It provides a 24-bit digital pressure and temperature value and different operation modes that allow the user to optimize for conversion speed and current consumption. The MS5525DSO can be interfaced to virtually any microcontroller. The communication protocol is simple, without the need of programming internal registers in the device. HM2500LF FEATURES •Full interchangeability •High reliability and long term stability •Not affected by water immersion •Suitable for 3Vdc to 10Vdc supply voltage •Ratiometric to voltage supply (HTM2500LF only) APPLICATIONS •Industrial (HM1500LF and HTM2500LF) •Process control (HM1500LF and HTM2500LF) •Hygrostat (HTM2500LF only) •Data logger (HTM2500LF only) To buy products or download data, go to www.FutureElectronics.com/FTM The Sensor Tag Demo V1.1 reports humidity, temperature and barometric pressure through a wireless Bluetooth 4.0 smart link. It is based on TE's MEAS low power digital component sensors HTU21D(F) for RH/T (datasheet HPC199) and MEAS ultra compact micro altimeter MS5637 (datasheet DA5637-02BA03). Android application is available for free download from the Google Play Store and will turn your smartphone or tab to a display and datalog terminal. Refer to the WPC001 for installation guidelines and user manual. An optional USB dongle is available to connect the Sensor tag to your personal laptop. Refer to the WPC002 for Windows application installation. The tag has been design for an expected lifetime of 3 months on a standard CR2032 cell battery at the fastest acquisition rate of one point per second. FEATURES •Bluetooth low energy tag •Humidity (0% to 100% RH) •Temperature (-20ºC to +85ºC) •Pressure (300 to 1200mBar) •Android and Windows PC compatible APPLICATIONS •HVAC •Weather stations •Datalogging •Altimeters •Smartphones and tab accessories WPP100B001: BLE Sensor Tag Demo with free Android application from Google Play Store WPP109B001: BLE Sensor Tag Demo plus USB dongle key for Windows PC application To buy products or download data, go to www.FutureElectronics.com/FTM TE Connectivity, TE and TE connectivity (logo) are trademarks. 1.800.FUTURE.1 • www.FutureElectronics.com MEAS, TE Connectivity, TE and TE connectivity (logo) are trademarks. 1.800.FUTURE.1 • www.FutureElectronics.com 11 APPLICATION SPOTLIGHT SHT3x Series Digital and Analog Humidity and Temperature Sensors The versatile SHT3x series consists of a group of humidity and temperature sensors with multiple accuracy levels and features. The 3x series delivers impressive performance and is the ideal solution for a wide range of demanding sensing applications. TOUCHING THE HUMAN BODY FEATURES •Size: 2.5 x 2.5 x 0.9mm •Output: I²C, voltage out •Supply voltage range: 2.4V to 5.5V •Energy consumption: 4.8µW •RH operating range: 0% to 100% RH •Temperature operating range: -40°C to +125°C (-40°F to +257°F) •RH response time: 8 sec (tau63%) •Programmable alert function SHT3x includes a user programmable alert function, where the sensor can be used as a humidity and temperature guard. Additionally, Sensirion’s latest innovation contains their world premiere, analog ratiometric voltage output. The SHT3x series combines multiple functions and various interfaces (I2C, voltage out) with a user-friendly, wide operating voltage range (2.4V to 5.5V). In addition, the technology enables a small footprint of 2.5 x 2.5mm with a height of 0.9mm. The SHT3x Series of Humidity and Temperature Sensors •SHT30 - low cost version, ± 3% RH accuracy •SHT31 - standard version, ±2% RH accuracy •SHT35 - available Q2 2016 APPLICATIONS The STS3x Series of Temperature Sensors •STS3x - available Q2 2016 •Appliance •Automotive •Building technology •Consumer electronics •Internet of Things (IoT)/wearables •Medical •Industrial automation Like all sensors from Sensirion, the SHT3x is based on the unique CMOSens® Technology, iCE40 UltraLite VISHAY and the INTERNET of THINGS (IoT) which allows a high production volume at an exceptional price/performance ratio. Sensirion has once again launched one of the smallest and most versatile humidity sensors for multiple market applications. To buy products or download data, go to www.FutureElectronics.com/FTM Vishay has stepped up to the challenges of the Internet of Things (IoT) with a broad portfolio of unique passive and active solutions. These best-in-class components are optimally suited for the “Things” being controlled and monitored through IoT applications. MSS2P2 – RECTIFIER 298D, 298W – CAPACITORS Si8817DB – MOSFET High-Power-Density Schottky Rectifier in Low-Profile MicroSMP Package Solid Tantalum Chip Capacitors in Small Case Sizes for SpaceConstrained Designs Lower Conduction Losses for Reduced Power Consumption and Longer Battery Life Low forward voltage drop, low power losses in space-saving package (2.5 mm x 1.3 mm footprint, 0.65 mm height) Industry’s highest capacitance density, small sizes including 0603 and 0402 footprints, and no piezoelectric noise P-channel MOSFET with low RDS(on) of 76 mΩ at 4.5 V gate drive in smallest 0.8 mm x 0.8 mm x 0.4 mm chipscale package VCNL4020 – SENSOR MCS0402 – RESISTOR VBUS05B1-SD0 – DIODE Minimize Accidental Touch Input to Reduce Call Drops and Unintended App Launches Professional and Precision Chip Resistors with Excellent Stability Low-Capacitance (Down to 0.29 pF Typical) BiSy Single-Line ESD Protection Diode in CLP0603 Package Fully integrated sensor with I2C interface,16-bit resolution, and proximity range of up to 20 cm with programmable thresholds The 0402 case size offers resistance down to 10 Ω and 100 Ω, (professional and precision respectively) for all TCR / tolerance combinations ESD protection diode in CLP0603 package saves board space in portable electronics (0.6 mm x 0.3 mm footprint, 0.27 mm height) TM The Best Solution For IoT Devices Lowest Power, Most Capable, Tiny Footprint 0.45mm thick TM 1.44mm iCE40 UltraLite 1.44mm More IP than the competition Less power consumption than our previous family Less power needed with more LUT density than the competition Smaller package size than the competition Low Power Functions GLUE LOGIC ALWAYS-ON BRIDGING GPIO Expansion & Aggregation Sensor Interface RFEE Signal Detect & Validate Pre-process/Filter I C/SPI Level Shifting PWM Generation SDIO 2 and more... For more information or to buy products, go to: www.FutureElectronics.com/FTM For more information or to buy products, go to www.FutureElectronics.com/FTM COMPONENT FOCUS INDUSTRY LEADING GAS SENSORS AND SOLUTIONS NXP’s NFC Smart Connected Home Technology Overview Benefits of CCS8xx Sensor Product Family Cambridge CMOS Sensors (CCS) Metal Oxide (MOX) gas sensors are developed using unique technology platforms enabling sensor miniaturization, low power consumption and ultra-fast response times for a wide range of applications. CCS miniature gas sensors use a unique silicon platform with advanced sensing materials, with: CCS gas sensor platforms incorporate a proprietary micro hotplate architected into a highly reliable thermally isolating structure. When combined with CCS advanced MOX materials, provide a family of ultra-small MOX gas sensors. To maximize the MOX gas sensitivity the material is heated to a stable elevated temperature. The internal heating element brings the MOX material to temperature (150°C to 450°C) within milliseconds. The sensitivity of the MOX material at these temperatures combined with advanced algorithms give an indication of the gas concentration present. ■ Highly sensitive and ultra-fast response times ■ Reliable and stable gas detection ■ Ultra-low power consumption for portable handheld devices Advanced algorithms support the CCS8xx family of MOX gas sensors for easy and timely integration into a wide range of applications. The following table indicates the key product parameters for our CCS8xx family of ultra-low power gas sensors. 1 2 3 Product Description Average Power Consumption1 Package CCS801 Indoor Air Quality (IAQ) monitoring <1mW1 2 x 3mm DFN CCS811 Indoor Air Quality (IAQ) monitoring <1.2mW1 2.7 x 4mm LGA CCS8023 Carbon monoxide detection <1mW1 2 x 3mm DFN CCS803 Ethanol detection <10mW2 2 x 3mm DFN Based on a sensor measurement duty cycle of 2.5% Based on a 20s warm-up period and a 10s measurement window performed once in a 2 min period for Alcohol breath analysis CO selectivity requires carbon filter Our expecations and need to be connected is augmented every day, especially in our homes. Our entertainment systems, lights, thermostats, and even appliances are being connected to the internet. The Internet of Things (IoT), which is the term used to define to the network of connected devices, enhances our experience and simplifies the management of our home environment. NFC can be used to make smarter applicances, for example, tapping a frozen dinner and having the microwave adjust for the ideal settings for best results. NFC can also be used to extend displays. Where space or cost concerns may limit your display, NFC can essentially ‘add’ a display by way of a smartphone or a tablet. Why NFC for the Connected Home? For more information or to buy products, go to www.FutureElectronics.com/FTM NFC is important for many reasons: •Simplicity: Connecting devices to the home network by just a simple tap, no complicated passwords or product codes. •Security: Where some wireless technologies have to travel a long range, essentially a ‘shout’, NFC is a whisper, using proximity of under 10cm. Eavesdropping is nearly impossible. NFC speaks with intention. •Power Savings: Peer to peer mode can be passive with only one device active and drawing power. Working in passive mode results in a reduced power consumption. Why NXP NFC? 10 years ago, NXP co-invented NFC technology and co-founded the NFC Forum, the standards based organization that includes more than 170 member companies. NXP is the NFC market leader, and has shipped hundreds of millions of units, accounting for more than 80% of all NFC enabled point of sale (POS) terminals and more than 90% of all NFC enabled smartphones. NXP has the most extensive NFC portfolio and is the most trusted name in NFC technology. MCP9600: Fully Integrated Thermocouple EMF to °C Converter The NTAG21xF features best in class RF performance, a large range of memory sizes, as well as field detection and SLEEP mode in a small footprint. This makes it particularly well suited for smart media and mass market applications NXP NFC Featured Products PRH601/PR601HL: High performance NFC integrated reader solution CLRC66302HN: High performance NFC reader solution NTAG213F/216F: NFC Forum Type 2 Tag compliant IC with 144/504/888 bytes user memory Buy Options For more information about NXP’s complete NFC products and detailed specs, please refer to www.nxp.com/nfc or download the NXP Semiconductors app at https://play.google.com/store/apps/details?id=com.nxp.android. app&hl=en. NXP Readers/NXP NTAG NXP’s deep portfolio of NFC products includes NFC frontend, controllers and connected tags. NXP provides highly integrated RFID reader modules which combine the functionality of discrete ICs while simplifying development. The PRH601 and PR601 implement an LPC1227 Cortex M0, and a CLRC663 contactless reader IC while the PRH601 adds the HTRC110 HITAG Reader IC. Both modules comply with ISO/IEC14443A&B, ISO/IEC15693 and FeliCa and are available in LQFP100 package. Microchip Technology offers an extensive portfolio of thermal management solutions that cover a wide variety of markets and applications. The MCP9600 is a fully integrated thermocouple TC EMF-to-temperature converter which supports eight thermocouple types (K, J, T, N, S, E, B and R). The miniature 5 x 5 mm packaging makes the MCP9600 well suited for many types of portable and handheld equipment, while the high integration simplifies design and reduces time to market. Precision instrumentation Precision temperature sensor • Precision, high-resolution Analog-to-Digital Converter (ADC) • Math engine with firmware to support type K, J, T, N, S, E, B and R thermocouples • • MCP9600 Thermocouple EMF to °C Converter (ADM00665) NXP’s NTAG family fully complies to NFC Form Tag specs, ensuring universal interoperability with NFC devices. Additionally NXP NTAG is based on ISO 14443A standard, allowing easy integration into existing infrastructures using MIFARE and SmartMX. NXP NTAG I2C offers contact and contactless interfaces. The IC communicates quickly and easily with a microcontroller and memory. The NTAG I2C also can supply power to external devices such as the micro via embedded energy harvesting circuitry. To buy products or download data, go to www.FutureElectronics.com/FTM For more information or to buy products, go to www.FutureElectronics.com/FTM www.microchip.com/mcp9600 The Microchip name and logo and the Microchip logo are registered trademarks of Microchip Technology Incorporated in the U.S.A. and other countries. All other trademarks are the property of their registered owners. © 2015 Microchip Technology Inc. All rights reserved. 9/15 DS20005443A 1.800.FUTURE.1 • www.FutureElectronics.com 15 COMPONENT FOCUS COMPONENT FOCUS Level VI-Compliant AC-DC Power Supplies Suitable for Global Use conform to these new performance standards by February 10, 2016. CUI Inc has announced a family of Level VI-compliant external AC-DC power supplies which feature interchangeable AC input blades for use in mains outlets worldwide. The wall plug-in SMI5-USB, SMI6, SMI18, SMI24 and SMI36 include AC blade options for North America, Europe, the UK, Australia and China, and support loads ranging between 5W and 36W. The power supplies all meet the stringent requirements of the US Department of Energy’s new Level VI standards, which are intended to lower the amount of power consumed when the end application is not in use or is no longer connected to the system. FEATURES The 5W, 6W, 18W, 24W and 36W multi-blade adapters feature a wide universal input-voltage range of 90V to 264V AC and are available in single output voltages from 5V to 48V DC. All models meet the Level VI standard’s no-load power consumption limit of <0.1W. The SMI5-USB comes with an integrated USB connector and offers UL/cUL, GS and RCM safety approvals, while the SMI6 series also includes CCC and PSE safety approvals. The SMI18 and SMI24 series both offer UL/cUL, GS and PSE safety approvals, while the SMI36 series also has a CCC safety approval. All models conform to the FCC Part 15 Class B standards for EMI/EMC, and bear the CE mark. Any manufacturer wishing to market an end product with an external adapter in the US must To buy products or download data, go to www.FutureElectronics.com/FTM The power to Safeguard sensitive devices with 30kV contact/air ESD withstand rating while maintaining signal integrity for data rates up to 5.0GHz. FEATURES •±5% load regulation •100MΩ isolation resistance at 500V DC •Operating temperature range: 0°C to +40°C •Over-voltage protection •Overcurrent protection •Short-circuit protection APPLICATIONS •Consumer products •Industrial equipment •Mobile devices . HEAL DELIVER CONNECT BUILD The Power of Things XTREME-GUARD™ ESD Suppressors Reduce Power Consumption and Ensure Data Integrity TM Technology is transforming the world around us at a rapid pace. While you are designing the products that will save lives and bring global communities together, we are developing the power systems to support your most demanding applications. Our power expertise and collaborative approach are in place to support you while you shape the future of technology. For more information or to buy products, go to www.FutureElectronics.com/FTM The XGD Series XTREME-GUARD ESD Suppressor, available in 0402- and 0603-sized, flat-topped surface mount packages, protects sensitive electronics against electrostatic discharges as high as 30kV and is suitable for high voltage applications up to 32VDC . When correctly integrated into a circuit design, the XGD Series can safely absorb repetitive ESD strikes nearly four times the maximum level specified in the IEC61000-4-2 international standard without performance degradation. Even after multiple ESD strikes, it exhibits ultra-low leakage current (<1nA), ensuring minimal power losses, so it’s well-suited for protecting battery-powered electronics like wearables. •High ESD withstand rating: 30kV contact/air discharge •High voltage rating: 24VDC for XGD10402, 32VDC for XGD10603 •Low (<1nA) leakage current •Ultra-low capacitance: 0.04pF for XGD10402, 0.09pF for XGD10603 •Flat top, surface mount form factor BENEFITS •Greater level of ESD protection and design flexibility for enclosure, button and touchscreen •Wider voltage range for a broader variety of electronic devices •Lower power consumption, ideal for batterypowered devices, such as wearable devices and energy-efficient devices •Ideal for high frequency and high speed data, video, antenna and I/O circuits •Facilitates pick-and-place assembly and enables more compact circuit board designs To buy products or download data, go to www.FutureElectronics.com/FTM Precision Chip Resistors with the Highest Power Rating The latest spin off from Susumu’s RG series, best performing and most reliable thin film chip resistors in the market, is the PRG series with a power rating almost 5 times as high as the RG series. Size and Power The PRG series, long side terminal products, are currently offered in 3 sizes: 1206 size is rated at 1W, 2010 size is rated at 2W and 2512 size is rated at 3W. These power ratings are about 4 to 8 times higher than typical chip resistors with the same size. For example, most 1206 resistors are rated 0.125W or at most 0.25W. Normally, it takes 2512 size to offer 1W. Electrical Characteristics and Reliability Because the PRG series is an offspring of the RG series, the PRG series maintains all the thin film characteristics of the RG series such as precise absolute tolerance (±0.1% ), small temperature coefficient of resistance (25ppm/°C), low noise, and wide range of operating temperature (-55°C to +155°C). Likewise, reliability of the PRG series is just as good as the RG series. The maximum drift for most standard reliability tests such as short time overload, load life, temperature humidity bias, thermal shock, and high temperature exposure is specified as 0.05% to 0.1%. For applications that require extreme precision and reliability such as precision industrial and medical instrumentation, test and measuring instrumentation, optical and telecommunication, automotive electronics, laboratory grade scales, power supplies, and power grid infrastructure, now you have a choice among Susumu’s three Type Size (in inches) Power Rating Resistance Tolerance ±0.1%(B) PRG3216 1206 1.0W ±0.5%(D) ±0.1%(B) PRG5025 2010 1.5W~2.0W ±0.5%(D) ±0.1%(B) PRG6432 1.800.FUTURE.1 • www.FutureElectronics.com 2512 2.0W~3.0W ±0.5%(D) highly precise and highly reliable RG series family products: the original RG series for general purpose, the URG series where ultra reliability is required, and the PRG series for applications of extreme high power requirements. The RG, URG and PRG series are all RoHS compliant and 100% lead-free. To buy products or download data, go to www.FutureElectronics.com/FTM TCR ±25ppm/°C(P) ±25ppm/°C(Q) ±25ppm/°C(P) ±25ppm/°C(Q) ±25ppm/°C(P) ±25ppm/°C(Q) ±25ppm/°C(P) ±25ppm/°C(Q) ±25ppm/°C(P) ±25ppm/°C(Q) ±25ppm/°C(P) ±25ppm/°C(Q) Resistance Range (Ω) +E24 and E56 Series R Value 47-100k 10-100k 2.5-100k Packaging Tape and Reel T5=5000pcs 47-200k 10-200k 2.5-200k 47-250k Tape and Reel T4=4000pcs 10-250k 2.5-250k 17 COMPONENT FOCUS Making LED Lighting Solutions Simple™ E-Switch´s Large Selection of Tact Switches with Multiple Options E-Switch offers a wide variety of tact switches with many different options from ultra miniature in size with dual LED illumination, to sealed tact switches with IP67 ratings. Applications for tact switches are numerous, including: medical devices, consumer electronics, handheld electronics, audio/visual, test equipment, instrumentation, telecommunication equipment, computer peripherals, wearable technology, and much much more! The TL6100 series is processed sealed and can withstand typical water washing. It also offers a long operating life of up to 1 million cycles and multiple actuator heights. •Multiple operating forces of 130gf, 160gf, 300gf, 500gf •Gold or silver contact option •Multiple actuator lengths •Operating temperature: -40°C to +85°C The brand new TL3750 series ultra miniature tact switch offers many features and has a 300,000 cycle life expectancy. •Ultra miniature – 2.0 x 3.0mm •Surface mount termination •Very low profile – 0.58mm •Operating temperature: -30°C to +85°C •Electrical life/mechanical life: 300,000 cycles The TL3301 series is designed for SMT applications. Each model has different features ranging from low profile designs, to many actuator sizes and operating forces. •SMT design – 6 x 6mm •Compatible with lead-free soldering •Life expectancy: 100,000 cycles typical •Operating temperature: -20°C to +70°C •Dielectric strength: 250VAC The TL6215 series illuminated sealed tact switch offers multiple color LED and cap options. It also offers a choice in right angle or vertical thru hole mount. •Illumination options •Right angle or vertical thru hole mount •IP67 ratings •Multiple cap options •Operating temperature: -20°C to +70°C We Accelerate Time to Revenue by Providing To buy products or download data, go to www.FutureElectronics.com/FTM Industry Standard Cable Assemblies CA-USB-AM-CM-XFT USB 2.0 CABLE, A MALE TO TYPE C MALE Adam Tech standard cable assemblies provide system designers a comprehensive assortment of cable solutions for both power and signal applications in the telecom, datacom, industrial, healthcare and consumer industries. Our product offering includes USB, HDMI, D-Sub, VGA, DVI, DisplayPort, Power Cords & CAT 5e, CAT 6, CAT 6a, CAT 7 and CAT 7a. For more information or to buy products, go to www.FutureElectronics.com/FTM CA-USB3-AM-BM-XFT USB 3.0 CABLE, A MALE TO B MALE CA-USB3-AM-AF-XFT USB 3.0 CABLE, A MALE TO A FEMALE CA-USB-AM-BM-XFT USB 2.0 CABLE, A MALE TO B MALE The Most Comprehensive System-Level Product Portfolio u Solid-State Lighting Expertise u Design Support Services u Global Supply Chain and Business Solutions u CA-USB-AM-AF-XFT USB 2.0 CABLE, A MALE TO A FEMALE NPC-5E-XXX-XX CAT 5E RJ45 8P8C TO RJ45 8P8C NO BOOT CA-MINIDP-HDMIF-XFT MINI DISPLAY PORT MALE TO HDMI FEMALE CA-USB-AM-AM-XFT USB 2.0 CABLE, A MALE TO A MALE CA-VGA-M-M-XFT VGA CABLE, HD15 MALE TO HD15 MALE NPC-5E-XXX-XX-BB CAT 5E RJ45 8P8C TO RJ45 8P8C BUBBLE BOOT NPC-6-XXX-XX-BB CAT 6 RJ45 8P8C TO RJ45 8P8C BUBBLE BOOT CA-MINIDP-DVIM-XFT MINI DISPLAY PORT MALE TO DVI MALE CA-MINIDP-VGAF-XFT MINI DISPLAY PORT MALE TO VGA FEMALE PC-0102060AC03/PC-0102076AC03 NORTH AMERICAN POWER CORD NEMA -15P TO IEC C13.18/3SVT NPC-6-XXX-XX CAT 6 RJ45 8P8C TO RJ45 8P8C NO BOOT CA-HDMI-AM-AM-XFT HDMI 1.4 HDMI 19P A PLUG HDMI 19P A PLUG www.FutureLightingSolutions.com ANALOG CORNER ANALOG CORNER Drivers Power Regulation, Conversion and Management BCR420U/421U: Adjustable Current Regulators Simplify the Driving of LED Strips ® The BCR420U/BCR421U monolithically integrates a transistor, diodes and resistors to function as a Constant Current Regulator (CCR) for linear LED driving. The device regulates with a preset 10mA nominal that can be adjusted with external resistor up to 350mA. It is designed for driving LEDs in strings and will reduce current at increasing temperatures to self-protect. Operating as a series linear CCR for LED string current control, it can be used in multiple applications, as long as the maximum supply voltage to the device is <40V. FEATURES 2EDN7524: Dual-Channel 5A, High Speed, Low Side Gate Driver • 10mA ±10% constant preset output current • Up to 350mA adjustable current with an external resistor • Negative temperature coefficient (NTC) • Parallel devices to increase regulated current • Up to 40V (BCR420) supply voltage • Up to 1W power dissipation in SOT26 (SC-74) • -55°C to +150°C operating junction temperature range • AEC-Q101 qualified 2EDN7524 is a fast dual-channel 5A gate driver optimized for driving both Standard and Super-junction MOSFETs, as well as GaN power switching devices. The input signals are low voltage TTL and 3.3V CMOS-compatible with a very broad voltage handling capability of up to +20V and down to -10VDC . The unique ability to handle -10VDC at the input pins protects the device against ground bouncing. Each of the two outputs is able to sink and source a 5A current utilizing a true rail-to-rail output stage, which ensures very low impedances of 0.7Ω up to the positive and 0.55Ω down to the negative rail respectively. Interface XR33202: Lowest Power RS-485 Transceiver with 1.65V to 5.5V I/O Interface The XR33202 is a high performance TIA-485/TIA-422 transceiver designed to meet the increasing system requirements found in today’s portable/handheld, process control and industrial equipment. The device operates at a maximum data rate of 20Mbps and features a 1.65V to 5.5V I/O logic supply, simplifying multi-voltage system interfacing requirements. The receiver includes full fail-safe circuitry, guaranteeing a logic high receiver output when the receiver inputs are open, shorted or undriven. The XR33202 receiver input impedance is at least 96kΩ (1/8 unit load), allowing more than 256 devices on the bus. The AS1383 is a synchronous, high efficiency DC-DC boost converter running at a constant frequency of 3.5MHz. This very high oscillator frequency allows the usage of a low profile inductor with only 1μH. This results in a very small board space requirement for the complete solutions including all external components, making it ideal for use in space-constrained products such as wristbands. AS1383 features a power save mode for light loads and it provides high efficiency across wide load range. AL1696: Cost-Effective Dimmable LED Driver With Wide Triac Compatibility The AL1696 is a highly integrated high power factor constant current converter for mains dimmable LED driver applications. The AL1696 is based on buck or buck-boost topology and operating in boundary conduction mode (BCM) to ease in EMI/EMC qualification and testing to meet the latest regulatory standards. The design only requires a single winding inductor and achieves a tight current sense tolerance of ±3%. The device features a low operating current of 120μA, with a 150μA start-up current, and is compatible with a wide range of leadingedge and trailing-edge dimmers, providing compliance with the NEMA SSL6 dimming curve. ® 20 • 5A peak source/sink current • <10ns propagation delay tolerance • 19 ns (typ.) propagation delay • Outputs robust against reverse current • <1ns channel-to-channel miss match • 5ns (typ.) rise/fall times • 8V UVLO option • -10V control and enable input robustness • 2 independent channels • Industry standard pin-out and packages FEATURES ISL8018: 8A Low Quiescent Current High Efficiency Synchronous Buck Regulator • 3.0V to 5.5V supply operation • Enhanced receiver fail-safe protection • Driver short circuit limit and thermal shutdown for overload protection • 3µA (max) stand-by current • Hot swap glitch protection on DE and RE pins • 1.65V to 5.5V I/O logic interface VL pin • ±15kV ESD (IEC61000-4-2 air discharge) • -40°C to +125°C ambient operating temperature range • Lead-free (RoHS 6) DFN package • 1k MSRP: $1.60 US Power Regulation, Conversion and Management AS1383: 200mA, 3.5MHz DC-DC Step Up Converter FEATURES FEATURES • 2.7V to 5.5V input voltage range • 2.7V to 5.0V fixed and adjustable output voltage • Output disconnect during shutdown • 3.5MHz fixed-frequency • Anti-ringing control minimizes EMI • Up to 92% power efficiency • Automatic power save operation for light loads • 25µA quiescent current • 6-pin WL-CSP, 0.4mm pitch • 1k MSRP: $0.25 US The ISL8018 is a high efficiency, monolithic, synchronous step down DC/DC converter that can deliver up to 8A continuous output current from 2.7V to 5.5V input supply. The output voltage is adjustable from 0.6V to VIN . With an adjustable current limit, reverse current protection, pre-bias start and over-temperature protection, the ISL8018 offers a highly robust power solution. It uses current control architecture to deliver fast transient response and excellent loop stability. Sensors TDC-GP30-F01: Single-Chip Hardware and Software Solution for Ultrasonic Water Flow Metering TDC-GP30-F01 is a complete ultrasonic flow metering solution, including the flow calculation. It drastically simplifies the design of ultrasonic heat and water meters and is the necessary step for compact energy-saving ultrasonic water meters. The ultra-low current capabilities allow the use of standard 2/3 AA or AA lithium thionyl chloride batteries at 6-8 Hz measuring frequency even in the water meter version. The TDC-GP30-F01 firmware does the linearization and temperature compensation based on spool-piece specific calibration data and completes the system-onchip approach. FEATURES • Up to 97% efficiency • Adjustable current limit • Internal soft start and internal/external compensation • 500kHz to 4MHz adjustable frequency • Peak current limiting, hiccup mode short circuit protection and over-temperature protection • ±10% output voltage margining • Start-up with pre-biased output • Soft stop output discharge during disabled • External synchronization up to 4MHz • 1k MSRP: $1.60 US FEATURES • High performance + ultra-low power 32-bit CPU • Transducers can be connected directly to GP30 with no external components required • Firmware adopts automatically to zero flow (2Hz) or flow (8Hz) condition • Error handling, bubble detection • SPI, UART and pulse interface • Advanced high-precision analog part • Firmware for calculation of flow, volume and temperature, including linearization and two-point calibration • -40°C to +125°C ambient temperature range • QFN32, QFN40 packages • 1k MSRP: $9.50 US FEATURES • Internal MOSFET up to 300V/3A, 500V/2A, 600V/2A • 150µA start-up current • 120µA operation current • Under voltage lockout (UVLO) • Cycle-by-cycle overcurrent protection (OCP) • Over-temperature protection (OTP) • ±3% current sense tolerance • Single winding inductor • Wide range of dimmer compatibility • Leading-edge blanking (LEB) • Output short protection (OSP) • SO-7 package MLX92292: Micro-Power Programmable and ASIL B Capable Hall Effect Switch/Latch The MLX92292 delivers switch and latch functions, but unlike existing products on the market it can determine the presence of magnetic fields that are lateral, not just orthogonal, to the device. It supports ASIL B safety integrity level (in accordance with ISO 26262), with an array of built-in diagnostic mechanisms available. The MLX92292 is available in pre-programmed units or endof-line (EoL) programmed device that is configured (via its output pin) during the OEM production process, so system optimization is fully realized. To buy products or download data, go to www.FutureElectronics.com/FTM 1.800.FUTURE.1 • www.FutureElectronics.com 1.800.FUTURE.1 • www.FutureElectronics.com FEATURES • Programmable permanent magnet temperature coefficient • Programmable output function – direct or inverted • Programmable diagnostic period in fail safe state • Unique identification number (ID) for device traceability • Under-voltage lockout • Reverse supply voltage protection and thermal protection • Programmable switch or latch sensor function • Programmable operating period • Integrated self-diagnostic functions • 40V load dump • High ESD rating • TSOT-3L and TO92-3L packages 21 TECHNICAL VIEW TECHNICAL VIEW How to Design a Wireless Lighting Network for High Performance, High Reliability and Low BoM Cost By: László Fisi, Field Applications Engineer, Future Electronics LED light sources are highly efficient and offer the potential to dramatically reduce energy consumption and operating costs compared to conventional incandescent lamps. In fact, while the replacement of conventional lamps with LED lamps dramatically reduces the amount of electricity that a lighting installation uses, there is more that lighting users and specifiers can do to save energy. One of the main advantages of LED lighting is that it is very easy to control the light output of LEDs linearly and instantly, from nearly 0% up to maximum brightness. So in fact, the scope for energy savings is even greater if an intelligent control scheme is applied to a lighting installation. For instance, LED street lights can be made to react to the intensity of ambient light (sunlight or moonlight), supplementing the natural light to reach a desired lux value in the illuminated area. Use of proximity sensing allows the lights to be dimmed when no-one is in or near the illuminated area. Today’s LED drivers support various means for adjusting the duty cycle of an LED lamp, controlled either by a microcontroller’s PWM signal, or a 0-10V DC or 1-10V DC output. Wide-Area Control Network for Lighting An intelligent dimming scheme, responsive to ambient light, therefore helps to save even more energy. But what is the right sensing and control architecture for such an installation? It would be possible to install completely autonomous, unconnected lighting units, each with its own ambient light sensor (photometer), proximity sensor and control circuit. But this architecture has two disadvantages: •Every lighting unit carries the cost of the sensing components •Central monitoring, control and diagnostic functions are not supported It is, in fact, highly desirable to connect street lights to a control network. Not only does this enable the operator to detect instantly when a lamp fails, so that it can be repaired quickly to avoid prolonged downtime, it also allows for central control of an entire lighting scheme. For instance, a municipal authority might wish to override the normal ambient/proximity light sensor controls at special times, such as firework displays, festivals or big cultural or sporting events. 22 In the past, exterior lighting networks used a dedicated network cable (such as an RS-485 link) for connectivity, but the cost of supplying and installing additional signal cabling alongside the power cabling makes this option unattractive. This led to efforts to implement Power Line Communications (PLC), in which data signals are carried on the same copper cable as the power. The reliability of such PLC systems, however, has been called into question, because communication is prone to failure or disruption in the presence of noise and interference on the power line. By contrast, wireless RF communication eliminates the cost and time involved in installing data cabling, and with sophisticated channel-hopping and other techniques is highly resistant to interference. The challenge in a street lighting network is to implement RF communications successfully over a wide area, in which the total distance from the central control point to the farthest node could be tens of kilometers. For reasons of cost, the RF transmissions should be carried in license-free ISM bandwidth. (Mobile telephone or cellular networks offer guaranteed wide-area coverage, but the cost of equipment and monthly data plans effectively rules them out for cost-sensitive lighting applications.) But ISM-band radios typically have a maximum point-to-point span of 2km. Wide-area coverage therefore requires a communications protocol that can support multi-path routing of data packets, using intermediate nodes to forward packets to nodes on the edge of the network, while avoiding transmission failures caused by collisions between packets. A successful new street lighting installation, supported by Future Electronics in Hungary, provides a model for the use of ISM bandwidth to connect hundreds of lighting units over a wide area to a lighting control unit. In this installation, photo-sensors were placed on a small number of units, and their readings were used to control the dimming of lighting units nearby (which could be assumed to be exposed to similar levels of ambient light). Network Protocol Avoids Collisions Each lighting unit contains a SPIRIT1 RF transceiver supplied by STMicroelectronics, which can be configured to operate at various frequencies below 1GHz. In boosted power mode (16dBm maximum Transmit power), the SPIRIT1 is capable of transmitting over a maximum range of 3km in open space. This transmission range varies depending on the bit rate chosen by the user and on the user’s Transmit power configuration. Figure 1 outlines the hardware design of each street light node. As it shows, the power supply Mains (PSU) Mains (230V) RF Antenna 3.3V Constant Current 12V 0-10V SMPS 11V Integrator Tag, Amplifier 3.3V 5V Peripheries B C A B C Both the hidden node and exposed node problems are eliminated by the application of the MACAW protocol. A hidden node might not receive the sender’s RTS frame, but it will receive the receiver’s CTS frame, and then remain silent to keep the channel between sender and receiver clear. D Figure 2: How the hidden (top) and exposed node (bottom) problems occur One of the advantages of the SPIRIT1 transceiver is that its packet structure supports the use of advanced anti-collision network protocols which eliminate the hidden node problem (see Figure 3). PWM Microcontroller Spirit 1 LED String A Local UART, Analog in, I2C Extender SPI Figure 1: Block diagram of a street lamp communicating via the SPIRIT1 RF transceiver is configured so as to provide a 0-10V DC or 1-10V DC analog signal controlled by a microcontroller’s PWM channel. This analog voltage controls the dimming of the LED light source. When implementing a multi-path RF network, the communications protocol has to offer the following features: •Conflict resolution •Support for packet repetition •Route mapping and route optimization •‘Island mode’ operation in case of communication breakdown •Error reporting In particular, a solution had to be found for two common problems found in multi-path wireless networks: the hidden node problem and the exposed node problem. (In this type of complex network, packets are transmitted along a chain of nodes, each node in turn passing the message on to a neighboring node. Unlike a star network, for instance, this topology has no central hub or router controlling the timing and routing of every transmission.) In the case of a hidden node, A cannot see C; both A and C might both attempt to transmit to B at the same time, leading to a conflict and a failed transmission. In the exposed node problem, A requests permission to transmit a message to B. When B clears A to send its message, C thinks that the channel is busy, and so delays sending to D a message that it wishes to transmit. In fact, the channel between D and C is not busy (see Figure 2). 1.800.FUTURE.1 • www.FutureElectronics.com preamble credit priority source destination control load checksum Figure 3: The structure of a SPIRIT1 packet The preamble performs a synchronization function, while the credit specifies the packet’s life so that packets cannot circulate indefinitely. The priority is indicated by the third block. The source and destination blocks contain the source and destination addresses. The control block contains the control byte packet descriptors. The load contains the actual information to be transmitted; and the checksum is what it says it is. In fact, the SPIRIT1 can process in hardware certain other packet structures, such as those carried by Wireless Metering Bus (WM-Bus) networks and ST’s own STack protocol. However, both the WM-Bus and STack protocols have 1-byte address fields, limiting a network to a maximum of 256 nodes. For a large-scale street lighting network, a 2-byte address field is required. For this reason, the installation in Hungary adopted the MACAW (Multiple Access with Collision Avoidance for Wireless) protocol, which is supported by the SPIRIT1 transceiver. A MACAW transmission follows this process: •The sender asks whether it can send a packet to the receiver, by transmitting an RTS (Request To Send) frame. This makes all nodes around the sender remain silent temporarily in order to avoid a collision. •The RTS frame contains the address of the receiver. The receiver gets it, and sends back a CTS (Clear To Send) frame, which means that the receiver is ready for the packet. •The sender sends the data packet to the receiver •The receiver answers with an ACK or NACK frame to acknowledge receipt or to tell the sender that the frame has not been received. In the case of an exposed node, it is possible for A to send an RTS to B at the same time as D sends an RTS to C, causing a collision (see Figure 2). In this case, the MACAW protocol ensures that B and C are both aware of the collision. After an interval, the length of which is determined by a random number generator, the senders begin negotiating for access to the channel again. c CR: 252 d CR: 251 e b CR: 250 r CR: 253 n CR: 252 s k CR: 253 CR: 254 o CR: 250 f CR: 253 CR: 251 CR: 252 i g h CR: 250 CR: 255 z CR: 254 t l CR: 255 p CR: 251 j u Y Figure 4: The MACAW protocol’s routing provides for efficient use of network capacity Intelligent Routing for Fast Data Transmission The other important feature of a MACAW network is its provision for intelligent routing. All nodes are within range of one or more other nodes. Whenever a new node joins the network, it sends a discovery message to neighboring nodes, which forward it on until it reaches the network access point (in the case of this street lighting application, a wireless gateway at the lighting operator’s control center). Each time the message is forwarded, the credit score is reduced by one, and the value of the received signal strength and routing data are added to the packet (see Figure 4). The credit score starts at 256, so theoretically a linear end-to-end range of 256km could be achieved, for instance, with a string of 256 nodes in which each node is 1km away from its neighbor. Multiple discovery packets then arrive at the access point. It selects the route to the new node that has the best combination of features (such as highest credit score, adequate signal strength at all nodes). This path will be used in future for all communications between the access point and the new node. 1.800.FUTURE.1 • www.FutureElectronics.com The network path management supported by the MACAW protocol loads the network with much less traffic, and transmission times can be reliably kept down to a fraction of a second even across networks with hundreds of nodes and an edge-to-edge span of more than 100km. Should a transmission path fail, the receiver node simply sends a new discovery message in order to configure a new route. CR: 254 CR: 251 CR: 250 a m In practice, this intelligent routing scheme results in better network performance than is achieved in full-blown mesh networks, in which all data packets are always transmitted to all nodes. Mesh networks are commonly swamped by traffic, leading to repeated collisions and re-transmissions. In a complex mesh network, it can take as long as 30 minutes for a packet to travel from one edge of the network to another. The protocol also provides a fail-safe mechanism: if communication fails permanently, the microcontroller in the lighting unit switches to ‘island mode’. In this mode, it operates autonomously, switching the lamp on and off in real time according to a pre-programmed pattern. Central Control, Superior Energy Savings The RF network implemented for the street lighting installation in Hungary provides for realtime control and monitoring of every lighting unit’s status, energy consumption and so on. It also enables enhanced energy savings (and therefore cost savings) by dimming the lamps in response to inputs from ambient light sensors or proximity sensors. Because of the network, inputs from one sensor can be used to control multiple lighting units. The installation’s designers achieved a remarkable combination of high network performance and low cost. •The SPIRIT1 transceiver is a low-cost device that uses license-free ISM bandwidth, but that is extremely well supported with sofware libraries, drivers and other development resources provided by STMicroelectronics. •By using RF technology, the installers avoided the cost of installing network cabling. •The MACAW protocol implemented in this installation provides for quick and reliable data transmission, giving the lighting system operator instant visibility and control of every lighting unit over a wide area, while avoiding collisions. To buy products or download data, go to www.FutureElectronics.com/FTM 23 MAILROOM – PLEASE RECYCLE. If undelivered to the addressee, please route to the purchasing department or fax this back page to toll free number, 1-800-645-2953 ST Solutions for IoT Sensor Objects STM32 Bluemicrosystem3: SPWF01S for Wi-Fi sensor nodes and Wi-Fi hubs • Bluemicrosystem3 is a platform based on the STM32 open development environment that lowers the barrier for developers, allowing fast, affordable prototyping with development continuity to final devices. It allows the developers to address complete middleware for applications with temperature and humidity sensors, pressure and motion sensors, real-time motion sensor data fusion, activity recognition, carry position, and free fall detection, all with very low power Bluetooth low energy (BlueNRG) connectivity. • The SPWF01S is a “cloud compatible” Wi-Fi module embedding all the FW e.g. TLS/SSL security, rest API, to easily connect sensors and actuators to remote cloud services • Available in a small form factor (26.92 x 15.24 x 2.35mm) both with and without antenna • Easy interface to host microcontroller through UART and AT commands set • System modes: MiniAP, IBSS and station • Built-in application: sockets, web server, rest API • Over the air firmware and external flash update • Easy configuration (SSID, PWD) in MiniAP • X-NUCLEO-IDW01M1 expansion board for full STM32 ODE support The SPWF01S represents the perfect solution to get a sensor nodes network securely connected to a cloud service provider, allowing remote acces to the nodes. The user experience is enhanched by: • Bluetooth smart apps and SDKs available both for Android and iOS • NFC provisioning for the Bluetooth smart app With an out of the box experience, the Bluemicrosystem3 Bluetooth Smart sensor node is the perfect solution for IoT connected nodes. For the full reference design or to buy products, go to www.FutureElectronics.com/FTM