Overview For companies working on package drone delivery solutions, NXP technology provides a way to confirm that drones are operating within authorized airspace corridors, and then to secure an electronic signature before the drone sets down on the ground. The NXP electronic signature solution uses NXP Bluetooth Low Energy (BLE) to obtain a valid signature for delivery: The consumer would receive an electronic package notification via BLE to their mobile device The drone hovers over the delivery zone until it obtains the electronic signature After receiving the signature, the drone releases the package and returns to the point of origin, or it could travel to a nearby location for a package return Benefits For consumers: Drone delivery equals rapid, as well as reduced cost delivery, however, for both businesses and consumers need a way to verify parcel receipt. NXP’s electronic signature solution is efficient and non-invasive For businesses: Wireless signature confirmation ensures a level of protection of a valuable piece of commercial equipment (the drone), and reduces potential liability for loss due to theft or inaccurate parcel delivery For regulatory bodies: The electronic identification traveling with the drone helps ensure compliance with flight corridor restrictions, especially if those corridors require dynamic mapping   Block Diagram   Recommended Products Category Products Features BLE SoC K32W061/41 MCUs for Zigbee®, Thread, and Bluetooth® Low Energy 5.0 |NXP Multiprotocol RF | NXP  Powered by an Arm® Cortex®-M4 MCU and with 640 KB on-board flash and 152 KB SRAM.   KW39/38/37 32-bit Bluetooth 5.0 Long-Range MCUs|NXP | NXP  Bluetooth Low Energy version 5.0 and generic FSK radio.   QN9090/30(T) Bluetooth 5.0 Low Energy MCU with NFC | NXP  Low energy devices that achieve ultra-low-power consumption and integrate an Arm®Cortex®-M4 CPU Up to 640KB onboard flash and 152 KB SRAM Drone PX4 Robotic Drone FMU | RDDRONE-FMUK66 Proven business-friendly open source software with available enterprise support: PX4, QGroundControl Supports all airframes: Use it for Quadcopters, Hexacopter, VTOL, planes, rovers, cars, and other robots Rapid-IOT to Drone adapter board Rapid-IOT to Drone adapter board Adapter board fully designed for Rapid IoT Prototyping Kit UAVCAN communication between drone and Rapid IOT Works with PX4 flight controllers such as RDDRONE-FMUK66 or Pixhawk NXP Rapid IoT Prototyping Kit Rapid IoT Prototyping Kit Expandable to most IoT end-node use cases with 400+ Click boards Multiple sensors (Gyroscope, Acc/Mag., Barometer/Temp., Air Quality, Ambient light and capacitive touch)

Demo Enabled by IoT Sensing SDK (ISSDK) Software Framework and powered by IBM Bluemix Services. Showcasing how motion and pressure digital sensor data (11-axis) from a Sports ball with embedded sensors can be transmitted to the cloud and visualized on a web browser. Recommended Products FXAS21002|3-Axis Digital Gyroscope|NXP  3-Axis Accelerometers|NXP  MAG3110|High Accuracy, 3D Magnetometer|NXP  20 to 110kPa Absolute Digital Pressure Sensor|NXP  Learning Getting Started with ISSDK v1.0 Middleware  Sensor Products for IoT and IMM  NXP’s Sensor Toolbox Ecosystem  Other Links MPL3115 | Demo|NXP 

Demo Need to increase the power of your system? Check out our MRFX1K80H design reuse video to see the benefits of 65 V technology in action. In this video, Danny Molezion, FAE from Richardson RFPD and Jim Davies, NXP Applications Engineer swap out NXP’s 1250 W device with the MRFX1K80H device using the same PCB. Product www.nxp.com/65V www.nxp.com/MRFX1K80H   Links http://www.richardsonrfpd.com/NXP65V Press Release|NXP 

Overview The NXP Quick Charge 4+ power bank with 15-watt Qi-certified wireless power output supports all of the latest wired and wireless technologies. Equipped with Qualcomm™ Quick Charge 4+ technology, our power bank provides lightning-fast simultaneous multichannel charging of smartphones, watches, tablets, 2-in-1 products, notebooks and other devices featuring Qualcomm Snapdragon™ mobile platforms and processors. A mere 5 minutes of charging on the NXP power bank delivers 5 hours of battery life. New Power Delivery (PD 3.0) technology combines with a programmable power supply (PPS) in the NXP power bank to support Quick Charge 4+ devices and provide backward compatibility with Quick Charge 2.0 and 3.0 technologies. NXP power bank system software integration also includes wireless power and battery management, PD stacks and more programmable APIs for a fully customizable application. This new power solution leverages the many advantages and standards of USB-C with dual-way USB power delivery for input and output with Quick Charge. Anti-counterfeit and OEM-specific authentication, as well as accurate voltage, current and temperature protection deliver enhanced safety and security. Features Dual-way USB Type-C supports input & output Quick Charge for input and output, PD+PPS, QC2, QC3,QC4 2S battery supported (capability~10,000 mAh), output > 50 W Integrated wireless 15W transmitter supports fast charging for Samsung ®  and Apple ®  devices Digital control buck-boost converter One control IC controls buck-boost converter, charge, Qualcomm algorithm, PD communication and wireless power management Board

Description   The convergence of an aging population and breakthrough technological advances has created endless opportunities for automated medical devices. These devices help ensure the future health of millions of people by providing advances in diabetes care, cardiac care, therapy adherence and general health and wellness applications. Regardless of the end use, developers of healthcare/medicals devices face similar challenges–the need to balance processing requirements with power consumption, a fast time-to-market, secure wireless connections and product longevity.   The application patient monitoring senses the vital signs of a patient and displays them. If any of the vital signs drops below a secure range the device will send an alert to the medical staff. For the entry version of this application an i.MX 6 ULL applications processor is recommended for its low power consumption, touch screen driver integration and low cost. Features   Checks patient vital signs and uploads them to the cloud Quick alerts if the patient is in danger Gathers the information of all the sensors in the human body Secure wireless connections Displays vital signs   Block Diagram       Products   Category Name 1: MCU and MPU Product URL 1 i.MX 6ULL Applications Processor | Single Arm® Cortex®-A7 @ 900 MHz | NXP  Product Description 1 The i.MX 6ULL applications processor includes an integrated power management module that reduces the complexity of an external power supply and simplifies power sequencing. Product URL 2 i.MX 6Quad Applications Processors | Quad Arm® Cortex®-A9 | NXP  Product Description 2 The i.MX 6 series of applications processors combines scalable platforms with broad levels of integration and power-efficient processing capabilities particularly suited to multimedia applications. Product URL 3 Arm® Cortex®-M0+|Kinetis® KM1x 50 MHz 32-bit MCUs | NXP  Product Description 3 The Kinetis® KM1x supports high-precision internal voltage reference with low temperature drift.   Category Name 2: Power Management Product URL 1 PMIC with 1A Li+ Linear Battery Charger | NXP  Product Description 1 The PF1550 is a Power Management Integrated Circuit (PMIC) designed specifically for use with i.MX processors on low-power portable, smart wearable and Internet-of-Things (IoT) applications. Product URL 2 14-Channel Configurable Power Management IC | NXP  Product Description 2 The PF0100 SMARTMOS PMIC provides a highly programmable/configurable architecture, with fully integrated power devices and minimal external components. Product URL 3 MC33772 | 6-Channel Li-ion Battery Cell Controller IC | NXP  Product Description 3 The MC33772 is a Li-Ion battery cell controller IC designed for automotive and industrial applications such as HEV, EV, ESS, UPS systems.   Category Name 3: Audio Product URL 1 Ultra-Low-Power Audio Codec | NXP  Product Description 1 The SGTL5000 is a low-power stereo codec is designed to provide a comprehensive audio solution for portable products that require line-in, mic-in, line-out, headphone-out and digital I/O. Product URL 2 TDA8932B | NXP  Product Description 2 The TDA8932B is a high efficiency class-D amplifier with low power dissipation.   Category Name 4: Peripherals Product URL 1 TJA1101 | 2nd generation PHY Transceiver | NXP  Product Description 1 TJA1101 is a high-performance single port, IEEE 100BASE-T1 compliant Ethernet PHY Transceiver. Product URL 2  PCF85263A | NXP  Product Description 2 The PCF85263A is a CMOS Real-Time Clock (RTC) and calendar optimized for low power consumption and with automatic switching to battery on main power loss.   Product URL 3 -50 to 50kPa, Differential and Gauge Pressure Sensor | NXP  Product Description 3 On-chip, bipolar op amp circuitry and thin film resistor networks to provide a high output signal and temperature compensation   Documentation Designing a Homemade Digital Output for Analog Voltage Output Sensor: https://www.nxp.com/docs/en/application-note/AN1586.pdf    Product Link MCIMX6ULL-EVK: Evaluation kit for the i.MX 6ULL and 6ULZ Applications Processor MCIMX6ULL-EVK|i.MX6ULL Evaluation Kit | NXP  FRDM-PF1550EVM: PF1550 Evaluation Board for low power application processors FRDM-PF1550EVM | PF1550 Evaluation Board | NXP  SABRE for Automotive Infotainment Based on the i.MX 6 Series SABRE|Automotive-Infotainment|i.MX6 | NXP  KITPF0100EPEVBE: Evaluation Kit - MMPF0100, 14 Channel Configurable PMIC EVB- MMPF0100, 14 Channel Configurable PMIC | NXP  TWR-KM34Z50M: Kinetis M Series Tower System Module TWR-KM34Z50M|Tower System Board|Kinetis MCUs | NXP  KITSGTL5000EVBE: Evaluation Kit - SGTL5000, Low Power Stereo Codec SGTL5000, Low Power Stereo Codec EVB | NXP  FRDM33772BTPLEVB: Evaluation Board for MC33772 with Isolated Daisy Chain Communication FRDM33772BTPLEVB | MC33772 TPL EVB | NXP  OM13516UL: PCF85263B Evaluation board OM13516UL: PCF85263B Evaluation board | NXP 

Description Industry 4.0 applications demand superior performance and reliable communications for network synchronization, on-time data delivery, and energy efficiency, even under the most extreme operating conditions. Current manufacturing challenges require flexible platforms capable of uniting trustworthy networking protocols with modern and reliable machine-to-machine communications. A residential (smart home) gateway is an appliance that bridges a Wide Area Network (WAN/ Cloud) connection to a Local Area Network (LAN), usually Wi-Fi and/or Ethernet, in a home or customer premises. The WAN connection is typically a Fiber, Cable or xDSL connected to the gateway via a modem or PHY. Features xDSL Access (ADSL2/VDSL) GPON, 10PON( XGS-PON, NGPON2) Wifi 5Ghz 11ac (4x4 ) Wifi 2.4Ghz 11n ( 2x2 or 3x3 ) VOIP 2 >=4 LAN ports Block Diagram Product Category Name 1: MPU Product URL 1 Layerscape LS1012A Communication Processor for the IoT | NXP  Product Description 1 The QorIQ® LS1012A communications processors are optimized for battery-backed or USB-powered, space-constrained networking and IoT applications. Product URL 2 QorIQ® Layerscape 1024A | NXP  Product Description 2 The QorIQ®  LS1024A multicore communications processors delivers scalability, superior packet handling capabilities, vastly increased VPN and SSL throughput and industry-leading quality of service hardware features. For broadband home routers, VoIP gateways, IoT (Internet of Things) gateways, and low-end network attached storage. Product URL 3 QorIQ® Layerscape 1043A | NXP  Product Description 3 The QorIQ® LS1043A quad-core communications processors deliver greater than 10 Gbps of performance in a flexible I/O package supporting fanless designs. This SoC is a purpose-built solution for small-form-factor networking and industrial applications with BOM optimizations for economic low layer PCB, lower cost power supply and single clock design. Category Name 2: Wireless Product URL 1 Low-Power Multi-Channel UHF RF Wireless Platform | NXP  Product Description 1 The OL2385 device is a radio frequency transceiver with an embedded MCU designed for a wide range of industrial and home applications requiring very high link budget for bidirectional RF communication. Product URL 2 Arm® Cortex®-M0+|Kinetis® KW41Z 2.4 GHz Bluetooth Low Energy Thread Zigbee Radio MCUs | NXP  Product Description 2 The KW41Z is an ultra-low-power, highly-integrated single-chip device that enables Bluetooth® Low Energy v4.2 and IEEE® 802.15.4 RF connectivity for portable, extremely low-power embedded systems. Category Name 3: Power Management Product URL 1 VR5100 Multi-output DC-DC for COMM Processor | NXP  Product Description 1 The VR5100 is a high performance, multi-output DC-DC regulator designed to power single or dual core LS1 processors. It includes three buck regulators, six LDOs and a boost regulator offering a complete power management solution for Network Attached Storage, battery operated Mobile NAS, IoT gateway, Home and factory automation systems. Category Name 4: NFC Product URL 1 PN5180 | Full NFC Forum-compliant frontend IC | NXP  Product Description 1 The PN5180 is a high-performance full NFC Forum-compliant frontend IC for various contactless communication methods and protocols. Demos Gigabit WiFi Gateway with QorIQ LS1 Processor  Tools Product Link QorIQ® LS1043A Development Board QorIQ® LS1043A Development Board | NXP  LS1043A Residential Gateway Reference Design LS1043A Residential Gateway Reference Design | NXP  KITVR5100FRDMEVM: Evaluation Kit for VR5100 Power Management Integrated Circuit Evaluation Kit for VR5100 Power Management Integrated Circuit | NXP 

This demo shows AIOP based data path offload for some of the popular Network Functions: IP Forward, IPSec, Netflow and Open Flow     Features: The Data path offload software is 'C' program running in the AIOP and provides control interface at the GPP for integrating with the GPP based control stack. The demonstration shows functionality of the above mentioned popular network applications live in the pedestal. Performance demonstration of the above mentioned popular network applications using remote setup. This implementation uses AIOP hardware accelerators – Table Lookup Unit, Statistics Engine,Timer Manager, Security Engine, Parser, CDMA/FDMA.   _______________________________________________________________________________________________________   Featured NXP Products: QorIQ Processors Based on ARM Technology|NXP QorIQ LS2085A Communication Processors|NXP _______________________________________________________________________________________________________     N09

Demo Owner Jeff Steinheider   Streaming video over the LTE link + calls running between WCDMA phones running off the same BSC9132 device. Watch how this dual-mode enterprise picocell shows the capability of the QorIQ Processing Platforms Qonverge BSC9132 SoC with NXP's multimode LTE and WCDMA Layer 1 software.     Features Simultaneous LTE and WCDMA operation Provide solution to coverage and capacity concerns in enterprise and office environments Featured NXP Products Product Link QorIQ Qonverge® Platform: Baseband Processor QorIQ Qonverge® Platform: Baseband Processor | NXP  QorIQ® Qonverge BSC9132 Dual-core Processor and Dual-core DSP QorIQ® Qonverge B9132 | NXP  VortiQa Layer 1 Baseband Software https://www.nxp.com/design/software/development-software/vortiqa-software-for-networking/vortiqa-layer-1-baseband-software:VORTIQA_L1SW_SC?&tid=SWnT QorIQ® Qonverge BSC9132 QDS for Picocell Base Station Development https://www.nxp.com/design/qoriq-developer-resources/qoriq-qonverge-bsc9132-qds-for-picocell-base-station-development:BSC9132QDS?&parentCode=BSC9132 Block Diagram  

Description The S12ZVC is a highly reliable, low-cost 16-bit MCU that offers a built-in voltage regulator along with CAN bus, 12-bit ADC and a 4-channel PWM. This feature is a great asset when developing end-node automotive solutions, such as a switch panel, based on CAN bus integration. This application integrates many buttons and knobs to control automotive systems, for example, Lights, Doors, Audio Systems, Air Conditioner or windows at the driver or passengers reach. Block Diagram   Products Category Name 1: Microcontroller Product URL 1 S12ZVC Mixed-Signal MCUs|MagniV | NXP  Product Description 1 The S12ZVC is a low-cost MCU, designed for the smallest automotive CAN-termination nodes. The S12ZVC core integrates a 5V to 12V voltage regulator, this features enable the capability for the MCU to become an automotive solution; from lights to doors, to trunk locks or air conditioner switches.   Features Features Vreg for 3.5 to 20-volt operating range, scalable in supply for on- and off-chip systems CAN physical layer High-resolution mixed signal: 12-bit resolution ADC 16ns resolution PWM and Timer Related Documentation Document URL Title https://www.nxp.com/docs/en/application-note/AN5090.pdf Using the S12ZVC Device for Industrial Applications https://www.nxp.com/docs/en/application-note/AN4851.pdf Using the High-Resolution Timer and PWM in the S12ZVC   Related Software Related Software URL https://www.nxp.com/downloads/en/board-support-packages/VLG-MC9S12ZVC-DEMOSW.zip https://www.nxp.com/downloads/en/lab-test-software/DEVKIT-S12ZVC-LAB.zip https://www.nxp.com/downloads/en/board-support-packages/DEVKIT-S12ZVC-QSP.zip  Tools Tools URL VLG-MC9S12ZVC Evaluation Board | NXP  Related Demos from Communities URL List of MagniV and S12(X) Examples and Documents  List of MagniV S12(X) Application notes  S12 / MagniV Microcontrollers  CodeWarrior Development Tools  NXP Model-Based Design Tools 

Features Wide band amplifier 100W GaN 200 MHz - 2500 MHz Minimum 12 db Gain 40% efficiency Compact circuit Highest ruggedness capability in the industry — > 65:1 VSWR Highest gain figures in the industry — up to 26 dB Highest efficiency in the industry — up to 80% at P1dB Cost-effective, over-molded plastic packaging options Low thermal resistance air cavity packaging options Backed by NXP's secure volume manufacturing capability Proven reliability, quality and consistency Integrated ESD protection with greater negative gate-source voltage range for improved Class C operation World-class, global applications and design support Available to participate in NXP's longevity program (10 year or 15 year lifetime guarantee — more information) Field-proven high-voltage LDMOS process   Featured NXP Products MMRF5014H Links RF Military    

Combining NXP's wireless MCU with NFC controller allows to build a BLE-NFC bridge. It allows demonstrating transmission of NFC data over BLE, acting then as a king of Magic NFC remote. This demonstrator is built assembling the OM5578: Development Kits for PN7150 Plug’n Play NFC Controller (OM5578/PN7150ARD version including Arduino compatible connectors). on top of the FRDM-KW41Z: Freedom Development Kit for Kinetis ® KW41Z/31Z/21Z MCUs (minimum version B1 since previous versions have a pin conflict on the Arduino connector) Alternatively the Rigado R41Z Eval Board can be used as replacement to the FRDM-KW41Z To complete the demonstration, an android phone is used as BLE counterpart. It shall run the modified version of Kinetis BLE Toolbox android application including the NFC demo part. This dedicated version of the Kinetis BLE Toolbox android application is available for download from the files attached to this document. Below is a video of the demo. As shown, it demonstrate capabilities to control the NFC discovery remotely (via BLE) from the phone. Then, if tapping a card on the bridge, the related information including the content is conveyed through BLE to the phone and get displayed by the app. Additionally, the app can configure a message to be shared whenever an NFC reader (e.g. NFC phone) tap the bridge. The K41Z firmware of this demo is built based on the wireless UART example from MCUXpresso Software Development Kit (SDK), and updated with the porting of the NXP-NCI MCUXpresso example. The complete MCUXpresso project is given in source code in the attached files. To replicate the demo, just import it in an MCUXpresso workspace by selecting "Existing Projects into Workspace", then browsing to the BLE-NFC_bridge_MCUXpressoProject.zip file. Select the frdmkw41z_BLE-NFC_bridge from the "Project Explorer" view, and click on the blue bug icon to build, flash and debug the program.

Demo This demo combines Multi-standard Digital Radio by means of Software Defined Radio and combining broadcast radio with internet radio to get the best audio listening experience for the end user. By downloading a different FW start-up of the device this HW platform can service as a global digital radio receiver for the whole world, supporting DAB+, HD-Radio and the DRM standards. This demo can also demonstrate that the internet/IP (which is making its way into more and more cars these days) can also be used as an alternative to broadcast radio. By aligning the two streams (IP-FM), the radio can seamlessly switch between IP and FM to create a continuous audio stream for the listener, especially in the car where radio reception condition change every second     Demo / product features Digital radio and processing system-on-chip (SAF360x) Car radio Digital Signal Processor (SAF775x)   NXP Recommends Multi Standard Digital Radio features and benefits Software defined radio Technology   Links  Software-Defined Radio: One Global Platform for Car Entertainment     A06

KVM (kernel virtual machine) is a Linux-based virtualization technology that enables a Linux system to boot operating systems in virtual machines. This demo showcases KVM and it's capabilities: multiple VMs on a system, flexible configuration of memory and CPUs for VMs, virtual I/O capabilities including network and disk I/O, direct assignment of USB and PCI.       Features Getting the most out of multicore resources Feature rich Linux-based virtualization Hardware-based security and isolation for Virtual Machines (VM) Virtual I/O capabilities Featured NXP Products P2041 QorIQ

LS104x DPAA Support PCD in Linux Kernel Products Product Category NXP Part Number URL MPU LS1043A https://www.nxp.com/products/processors-and-microcontrollers/arm-processors/layerscape-communication-process/qoriq-layerscape-1043a-and-1023a-multicore-communications-processors:LS1043A MPU LS1046A https://www.nxp.com/products/processors-and-microcontrollers/arm-processors/layerscape-communication-process/qoriq-layerscape-1046a-and-1026a-multicore-communications-processors:LS1046A LSDK Software Layerscape Software Development Kit https://www.nxp.com/design/software/embedded-software/linux-software-and-development-tools/layerscape-software-development-kit:LAYERSCAPE-SDK Tools NXP Development Board URL LS1043ARDB https://www.nxp.com/design/qoriq-developer-resources/layerscape-ls1043a-reference-design-board:LS1043A-RDB LS1046ARDB https://www.nxp.com/design/qoriq-developer-resources/layerscape-ls1046a-reference-design-board:LS1046A-RDB

uCP1020 - IoT Gateway System-On-Module Based on QorIQ P1020, dual-core, 800MHz, communications processor 80x 80mm module, with 120-pin board-to-board connector Module contains: power distribution, DDR-SDRAM with ECC, NOR flash, (optional eMMC), network and USB PHYs, -40 to +85C parts Peripheral connectivity using SPI, I2C, UART, USB, SDHC, PCIe, miniPCIe Complete development kit available with host-board reference design Optional software stacks including Arcturus Mbarx-IoT Gateway middleware, PBX/Communications software package Embedded Linux BSP from kernel mainline branch uCP1020 - Gateway Module (80x80mm)  |  uCP1020 - Development Kit  |  uCP1020 - Module and Host-board in optional anodized aluminum enclosure This Product Is Probably of Interest If You: Are evaluating or developing an IoT or multi-service gateway Looking for turn-key, deployment-ready, system-level IoT solutions Need versatility to deploy in various types of IoT environments Need a hardware platform capable of supporting various wired or wireless network interfaces Need flexible hardware as a back-bone for various derivative products Differentiation of This Product Module design increases flexibility and reduces time-to-market Core module reduces integration complexity Full host board reference design provided Turn-key compatibility with Mbarx IoT end-point (node) devices and Mbarx System Manager IoT tools Value-add software stacks, services, support and customization available Description What this Product is All About Video Link : 4537 uCP1020 IoT Gateway SoM - Product Introduction Video Product Diagram(s) IoT Physical Components Gateways SOC: QorIQ P1020 Dual-Core Communication Processor Boards/Modules: Arcturus - uCP1020 System-on-Module Software: Arcturus Mbarx IoT Gateway middleware Arcturus management middleware  Arcturus PBX/Communications software package Arcturus Mbarx-Operations Controller work-flow management middleware Open source Linux software (Kernel mainline branch) Edge Devices SOC: 2x 10/100/1000BaseT networking supported natively by the P1020 processor and on board network PHYs Software: Linux OS Modules: Various PCIe and miniPCIe based connectivity options (see wireless below) Wireless Connectivity Modules:Connectivity options for various PCIe and miniPCIe based wireless modules (modules not provided as part of development kit) Modules:GSM/LTE/HSPA/UMTS/EVDO data (depending on providers, regions and certifications).  As tested using Telit HE910 family (HEPCHGPS204T701) Modules:Wi-Fi (depending on regions and certifications).  As tested using Atheros AR9390 family. Sensors SOC: Peripheral connectivity supported by SPI, I2C, UART, USB, SDHC, PCIe, miniPCIe Cloud Infrastructure/Services Software/Services: Arcturus Mbarx IoT Gateway middleware is fully compatible with Mbarx IoT end-nodes such as uCMK60 based on K60, K64. Mbarx IoT protocol supports TCP/IP sockets with TLS security and simple character driven protocol Mbarx IoT Gateway middleware supports remote-site aggregation, secure connectivity and device management proxy. Optional plugs-ins for MQTT, CoAP and other popular IoT/M2M protocols. Smart Devices/Apps Software: Mbarx-Operations Controller supports cross-platform work-flow driven, operational control using a responsive HTML5 architecture. Mbarx-System Manager site-wide IoT device/node management tool is available for PCs. IoT System Capabilities Device Management Secure remote site connectivity Remote site IoT node/device aggregation Bulk device firmware updates, bulk configuration, site wide-provisioning Secure IoT node/device management and configuration Cloud/App Communications/Interworking Wi-Fi Access Point (Host AP mode), cellular data Security SSL/TLS 1.1,1.2 server and client with X.509 IoT Development Capabilities Embedded Platforms Kinetis MCUs, QorIQ 32-bit Power Architecture processors Embedded Tools Linux - kernel, driver, middleware and user space application development U-boot development and customization MQX - KSDK Services Customization and system solutions available through direct engagement - contact Arcturus Hardware and software services available - contact Arcturus

Description This heart rate monitor is based on NXP’s KW41Z, an ultra-low-power BLE-enabled MCU that provides all the capabilities for acquiring, processing and sending data obtained from analog sensors. NXP also offers a battery charger IC, RTC and LED controller for a complete heart rate monitor solution. Block Diagram Products Category Name 1: MCU Product URL 1 https://www.nxp.com/products/wireless/thread/kinetis-kw41z-2.4-ghz-dual-mode-bluetooth-low-energy-and-802.15.4-wireless-radio-microcontroller-mcu-based-on-arm-cortex-m0-plus-core:KW41Z Product Description 1 The KW41Z is an ultra-low-power, highly-integrated single-chip device that enables Bluetooth® Low Energy connectivity, The KW41 also has a 16-bit ADC for data acquiring and a 6-bit High-Speed Analog Comparator. If needed the KW41Z also has AES-128 Accelerator (AESA), True Random Number Generator (TRNG) for an end-node secure.   Category Name 2: Battery Charger Product URL 1 https://www.nxp.com/products/power-management/battery-management/battery-chargers/1.2-a-single-cell-li-ion-li-polymer-battery-charger:MC34673 Product Description 1 The MC34673 is a cost-effective fully-integrated battery charger for Li-Ion or Li-Polymer batteries. It tolerates an input voltage up to 28 V, which eliminates the input over-voltage-protection circuit required in handheld devices.   Category Name 3: Real-time clock/calendar Product URL 1 https://www.nxp.com/products/peripherals-and-logic/signal-chain/real-time-clocks/rtcs-with-spi/spi-real-time-clock-calendar:PCF2123 Product Description 1 The PCF2123 is a CMOS Real-Time Clock (RTC) and calendar optimized for low power applications. Data is transferred serially via a Serial Peripheral Interface (SPI-bus) with a maximum data rate of 6.25 Mbit/s.   Category Name 4: GPIO Expander Product URL 1 https://www.nxp.com/products/interfaces/ic-spi-serial-interface-devices/ic-general-purpose-i-o/low-voltage-translating-8-bit-ic-bus-smbus-i-o-expander:PCAL6408A Product Description 1 NXP® I/O expanders provide a simple solution when additional I/Os are needed while keeping interconnections to a minimum. The PCAL6408A provides remote I/O expansion for most microcontroller families via the I²C-bus interface.   Category Name 5: LED Driver Product URL 1 https://www.nxp.com/products/power-management/lighting-driver-and-controller-ics/ic-led-controllers/4-bit-fm-plus-ic-bus-led-driver:PCA9633 Product Description 1 The PCA9633 is one of the first LED controller devices in a new Fast-mode Plus (Fm+) family. Fm+ devices offer higher frequency (up to 1 MHz) and more densely populated bus operation (up to 4000 pF). Related Documentation Document URL Title https://www.nxp.com/docs/en/application-note/AN10441.pdf Level shifting techniques in I2C-bus design https://www.nxp.com/docs/en/application-note/AN11247.pdf Improved timekeeping accuracy with PCF85063, PCF8523 and PCF2123 using an external temperature sensor https://www.nxp.com/docs/en/application-note/AN5377.pdf Hardware Design Considerations for MKW41Z/31Z/21Z BLE and IEEE 802.15.4 Devices https://www.nxp.com/docs/en/application-note/AN12059.pdf FRDM-KW41Z RF System Evaluation Report for BLE Applications   Related Software Related Software URL Kinetis Microcontrollers  MCUXpresso SDK    Related Demos from Communities Related Demos URL https://community.nxp.com/docs/DOC-340031 https://community.nxp.com/docs/DOC-334895 https://community.nxp.com/docs/DOC-334892 https://community.nxp.com/docs/DOC-331647 https://community.nxp.com/docs/DOC-101403

LS1021A IoT Gateway Reference Design Included in Kit Linux BSP and OpenWRT Reference Design (schematics, layout and BOM available) HW Quick Start Guide and User's Guide This Product Is Probably of Interest If You: Need a ready to use high capability IoT Gateway Reference Platform Need built-in WiFi and Arduino connectivity Want a ready to manufacture HW design Key HW Features: 1 Gb QSPI NOR Flash 1 GB DDR3L SDHC slot—up to 32 GB 4 GB populated 1x One Gb/s Ethernet (SGMII) 1x One Gb/s Ethernet (RGMII) 2x mini PCIe (x1) slots 1x mSATA slot 1x Terminal (USB to UART) x Four wire LP-UART to Arduino connector (Thread, ZigBee, Bluetooth, etc.) • Muxed LCD/QE interface 24-bit LVDS LCD interface QE UART to header for PROFIBUS or RS485 (external transceiver required) • USB 3.0 2x ports—USB-A 2x ports to mini PCIe slots • 13x GPIO or 8x FTM (PWM) • 6x Interrupts • 1x SPI • I2C1 bus Board EEPROM Boot EEPROM Arduino Connector Sensors/PHYs, etc., TBD • I2C2 GPIO expansion ADC Sensors/PHYs, etc., TBD Certification: FCC Class B and CE What this Product is All About Product Diagram(s) Click here to Buy the LS1021A IoT Gateway Reference Design IoT Physical Components Gateways SOC: QorIQ LS1021A Boards/Modules: QorIQ LS1021A IoT Gateway Reference Design FRDM-KW24D512 Software: Linux BSP OpenWRT

This demo uses a magnetic field around a magnet to simulate Hydraulics and Pneumatics system control of a valve.   Demo / product features Valve Controller SoC: MC34SB0800 (Octal valves driver) and MC34SB0410 (Quad valves driver) Integrated coil drivers with current regulation or PWM mode Safe switching off mode for safety and robustness SPI interface to command all functions Fault management (under/overvoltage, over temperature, open load, overcurrent…)   NXP Recommends Product Link Tower Board - SB0800, Octal Valve/Pump Controller SoC Tower Board - SB0800, Octal Valve/Pump Controller SoC | NXP  Tower Board - SB0410, Quad Valve/Pump Controller SoC Tower Board - SB0410, Quad Valve/Pump Controller SoC | NXP  Processor Expert Valve Driver based on MC34SB0410 or MC34SB0800 SB0410 / SB0800 Valves Controller | NXP  Valve Driver based on MC34SB0410/MC34SB0800 Embedded Software: Valve Driver | NXP  Octal Valve Controller System on Chip https://www.nxp.com/products/power-management/smart-switches-and-drivers/low-side-switches/octal-valve-controller-system-on-chip:MC34SB0800?&fsrch=1&sr=1&pageNum=1 Quad Valve Controller System on Chip https://www.nxp.com/products/power-management/smart-switches-and-drivers/low-side-switches/quad-valve-controller-system-on-chip:MC34SB0410?&lang_cd=en          

Introduction Overview The following demo is part of a bundle of examples that shortly will be available in the LSDK. As can be seen in the video, there is a menu for the user to select the desired demo and start testing the different approaches the FRWY LS1046A TPU is capable of executing. These examples aim to demonstrate AI/ML capability through multiple “dockerized” demos including face recognition, Industrial safety & security -MPU and TPU versions-, People counter using the CPU and a pose detection demonstration. By using the native PCIe 3.0 of the LS1046A MPU, is possible to showcase the ML frameworks offload and acceleration via Coral Tensor Processing Unit. The below video shows one of the ML examples for pose detection of a person by using a simple USB camera plugged into the LS1046A FRWY board. Using the ML frameworks from Coral Tensor, the body movements and positions are detected by using the joints as the reference for movement detection of the body. As in the video is mentioned, the performance enhancement by using the TPU versus the CPU, improves significantly the frames per second from ~5 fps to ~30 fps. Block Diagram Video Products Product Link FRWY LS1046A TP LS1046A Freeway Board | NXP  Coral M.2 Accelerator M.2 Accelerator A+E key | Coral  HD Webcam https://www.amazon.com/gp/product/B07K95WFWM/ref=ppx_yo_dt_b_search_asin_title?ie=UTF8&psc=1

Overview The 3-phase PMSM Vector Control using Quadrature Encoder on based on Kinetis® K40 MCUs reference design demonstrates the ability of the Kinetis K40 Arm® Cortex®-M4 MCU to drive the advanced motor control application. Targeted at the NXP® Tower® rapid prototyping system as a hardware development platform. Together with available embedded source code, you can quickly build own industrial drive application. For the successful execution of the vector control algorithm, the information on the motor shaft position is critical. The quadrature encoder position information is known in the entire motor speed range, allowing the motor start with full torque at zero speed. Features Vector control of the PMSM using the quadrature encoder as a position sensor Targeted at the Tower ®  rapid prototyping system (K40 tower board, Tower 3-phase low voltage power stage) Vector control with a speed closed loop Rotation in both directions Application speed range from 0% to 100% of nominal speed (no field weakening) Operation via the user buttons on the Kinetis ®  K40 Tower board or via FreeMASTER software Block Diagram Design Resources