Demo This development board for RF power products is now available from Richardson, one of NXPs distributors Demo / product features This next generation board provides RF design engineers with best efficiency, a range of frequencies and voltage. Richardson has a combined depth of real-world RF technical experience and a solid partnership with NXP that enables us to serve the unique needs of the RF design engineer. Richardson and NXP serve customers across a similar set of vertical markets, including aerospace and defense, military, wireless infrastructure, mobile, broadcast and ISM. Links RF | NXP Richardson RFPD - NXP Semiconductors

Demo Owner: Avinash Naidu Demonstration of a high-performance SAN solution based on iSCSI. This scalable, portable solution delivers up to 40 Gb/s running on the industry-leading performance per watt QorIQ T4240 SoC.       Features See a high-performance Storage Area Network (SAN) solution based on iSCSI. This scalable, portable solution delivers up to 40 Gb/s running on the industry-leading performance per watt QorIQ Processing Platforms T4240 SoC Featured NXP Products T4240 QorIQ

Demo Features IoT Gateway based on phyCORE-i.MX7 phyBOARD-Zeta   NXP Recommends i.MX 7 Series Applications Processors: Multicore, ARM® Cortex®-A7 Core, ARM Cortex-M4 Core   Other Links system-on-module-i.mx7   C23D

Overview This full digital power AC to DC Switched-Mode Power Supply (SMPS) system includes both digital power control and digital power management. The control feedback or feed-forward loop that regulates the output of the power system is directly controlled by a 56800/E DSC The DSC provides the digital power management function for configuration, tracking, monitoring, protection, guiding supply sequence, and communication capabilities This reference design is a fully digitally controlled high-frequency Switched-Mode Power Supply based on an NXP® 56F8323 device The primary side is the AC-DC converter with power factor correction (PFC) and on the secondary side is a full bridge DC-DC converter Features General: 500-Watt fully digital switched-mode power supply controlled by A 56F8323 with power factor correction A 56F8323 for secondary with phase shifting technique General Benefits: Power applications become more flexible and universal High input power factor lowers power pollution to the power grid Intelligent mode management and fault supervision Operating status is monitored and controlled in real time Lower system and maintenance cost Performance: Input voltage: 85 ~ 265VAC Input frequency: 45 ~ 65HZ Rating output voltage:48VDC Rating output power: 500W Switch frequency: > 100K Power factor > 95% Efficiency > 90% Communications: RS232 port for communication with optoisolation Visual Interface: Multi-segment LED indicators (input voltage, input current, output voltage, and output current) Block Diagram Board Design Resources

Overview The Sub-GHz Remote Control Dimmer reference design based on the MKW01Z128 MCU operates in a custom IEEE 802.15.4 star network for home automation applications. Users can control various RGB bulbs connected to a network using the KW01-RCD-RD board as a remote control. Controlled devices are USB-KW019032 boards, and each board simulates an RGB bulb in a GUI. Features Low-cost MKW01Z128 sub-1GHz wireless node solution with an FSK, GFSK, MSK or OOK modulation-capable transceiver Reference design area with small footprint, low-cost RF node Unbalanced input/output port Flexible RF-Front End for different bands operation Programmable output power from -18 dBm to +13 dBm in 1dB steps (RFIO output) Integrated dual band chip antenna for 800MHz and 900MHz ISM bands Micro-miniature coaxial connector (MMCX) for conducted RF measurements Block Diagram Board Design Resources

The MPC5777C and MPC5676R  Powertrain processors are ideal for Hybrid Powertrain applications. Dual e200z7 cores in conjunction with three NXP eTPU complex timer units provide the capabilities to control the electric motors, combustion engines, battery management tasks and inverters used within a Hybrid Powertrain. This demonstration shows function sets available from NXP being used to control a basic Hybrid Powertrain. The accompanying Hybrid Run game provides interaction with the demo. Drive the fastest lap you can, but don't run out of energy!       Features Qorivva MPC5777C and MPC5676R dual-core automotive MCU controls a hybrid powertrain NXP eTPU function sets control PMSM electric traction motor and internal combustion engine Drive the hybrid game—get the fastest lap but do not run out of energy Featured NXP Products MPC5676R Block Diagram

Description NXP connectivity solutions for smart metering address the challenges smart cities face for reliable, secure communications for remote metering and home energy management. We enable remote metering with NAN technologies like IEEE® 802.15.4 and Wireless MBUS. Additionally, NXP fosters smart energy management inside homes with HAN technologies like ZigBee®. Flow meters help smart cities measure the volume of natural gas or water at a specific time or over a long period. The measurement is then displayed on low-power segment LCDs, often driven by segment LCD drivers on a MCU. Advanced flow meters incorporate RF communication interfaces for connecting to one-way or two-way RF meter reading systems. Features Cost of the devices in the system Reliability of the devices in the system in harsh outdoor environments Battery life of the system, > 10 years Security to guard against tampering Communication interface requirements Ability to expand and update the system in the field Block Diagram Products Category Name 1: MCU Product URL 1 LPC546XX Microcontroller (MCU) Family | NXP  Product Description 1 The LPC546xx MCU family is architected to be power efficient for applications that require data aggregation from several different inputs. This MCU family provides a variety of wake-up sources including the FlexComm peripherals. Category Name 2: Wireless Product URL 1 BGS8L5 SiGe:C LNA MMIC bypass switch LTE | NXP  Product Description 1 The BGS8L5 is a LNA with bypass switch for LTE receiver applications, in a small plastic 6-pin thin leadless package. It delivers system-optimized gain for diversity applications where sensitivity improvement is required. Product URL 2 Low-Power Multi-Channel UHF RF Wireless Platform | NXP  Product Description 2 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 3 Zigbee and IEEE 802.15.4 wireless microcontroller with 512 kB Flash, 32 kB RAM | NXP  Product Description 3 The JN5169 is an ultra-low-power, high-performance wireless MCU suitable for ZigBee applications. Category Name 3: Driver Product URL 1 Universal LCD driver for low multiplex rates | NXP  Product Description 1 The PCF85133 is a peripheral device which interfaces to almost any Liquid Crystal Display (LCD) with low multiplex rates. Category Name 4: Switch Product URL 1 Logic controlled high-side power switch | NXP  Product Description 1 The NX3P2902B is a high-side load switch which features a low ON resistance P-channel MOSFET. The MOSFET supports more than 500 mA of continuous current and an integrated output discharge resistor to discharge the output capacitance when disabled. Product link 2  Single pole double throw (SPDT) switch | NXP  Product Description 2 The SA630 is a wideband RF switch fabricated in BiCMOS technology and incorporating on-chip CMOS/TTL compatible drivers. Its primary function is to switch signals in the frequency range DC to 1 GHz from one 50 Ω channel to another. Category Name 5: Peripherals Product URL 1 PCF2123 | NXP   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. Product URL 2 -50 to 50kPa, Differential and Gauge Pressure Sensor | NXP  Product Description 2 On-chip, bipolar op amp circuitry and thin film resistor networks to provide a high output signal and temperature compensation. Category Name 6: Secure Product URL 1 A71CH | Plug and Trust for IoT | NXP  Product Description 1 A71CH is a ready-to-use secure element for IoT devices providing a root of trust at the IC level and delivers, chip-to-cloud security right out of the box, so you can safely connect to IoT clouds and services, including AWS, IBM Watson IoT™ Platform, and Google Cloud™ IoT Core without writing security code or exposing keys. Tools Product Link OM13098: LPCXpresso54628 Development Board OM13098 | LPCXpresso Development Board | LPC Microntrollers (MCUs) | NXP  OM2385/SF001 - OL2385 Wireless sub-GHz Transceiver SIGFOX Development Kit with KL43Z OM2385/SF001 - SIGFOX Development Kit | NXP  OM15020: JN5169 USB Dongle for ZigBee JN5169 USB Dongle for ZigBee | NXP  OM3710/A71CHARD | A71CH Arduino® compatible development kit OM3710/A71CHARD | A71CH Arduino® compatible development kit | NXP  OM13512: Demoboard for the SPI-bus RTC PCF2123 Demoboard for the SPI-bus RTC PCF2123 | NXP 

Demo NXP boasts about power and prowess in the industry’s highest power density in LDMOS technology with a compact 750 W 1.3 x 2.55 inch reference circuit. See this demo for how our transistors deliver highest RF output power for automatic dependent surveillance – broadcast (ADS-B), identification friend-or-foe (IFF), and distance measuring equipment (DME) systems. Product AFV10700H|700 W Pulse, 1030-1090 MHz, 52 V|NXP (50V LDMOS, 750 W Peak, Gain 17dB, Efficiency 58%) Link www.nxp.com/RFPower

Demo Owner Clark Jarvis   The following demo will show a comprehensive enablement in software. Next-gen Kinetis K series MCUs, new FRDM-K64F development platform, software development kit* and Kinetis Design Studio IDE*, paired with Processor Expert software, MQX RTOS and PEG graphics studio to provide powerful and rapid prototyping. *In beta release now     Features Comprehensive, all in one development software Featured NXP Products Product Link Freedom Development Platform for Kinetis® K64, K63, and K24 MCUs FRDM-K64F Platform|Freedom Development Board|Kinetis MCUs | NXP  Supporting Hardware Dialog Auto Shield Arduino Display

Direct Attached Storage demonstration based  on QorIQ LS1012A Communications Processor to exhibit Low-power & high data-rate. The demon is showcasing a USB3.0 to SATA3 bridge     Features: Exhibits very low power and high throughput It attaches to any host machine via USB and acts as a USB to SATA bridge. The entire data path and control path run without using DDR. Bare board code runs on XIP QSPI Flash; with data and heap on 128KB OCRAM. Platform used: LS1012ARDB   _______________________________________________________________________________________________________   Featured NXP Products: QorIQ LS1012A Low Power Communication Processor|NXP _______________________________________________________________________________________________________       N01

  Overview The NXP ®  Feature Phone reference design is designed to implement the Type 2 Feature Phone core. Includes support for on-hook GR-30 services such as Calling Number Delivery, Calling Name Delivery, Dialable Directory Number, Call Qualifier, and Visual Message Waiting Indicator Additional support for off-hook GR-30 services, such as Calling Identity Delivery on Call Waiting and Call Waiting Deluxe The Feature Phone reference design also includes a full duplex echo-cancelling speakerphone with solid sound quality; the demo is able to originate and terminate a call in full duplex speakerphone mode A HyperTerminal will be used to display the GR-30 messages Archived content is no longer updated and is made available for historical reference only.   Features DSP56858EVM and 5685X Digital Signal Controllers Telephony Daughter Card (TDC1) Microphone AKG Acoustics Type Q400Mk3, Code 2846Z003 Directional Mono Electret condenser microphone Use with Radio Shack adaptor: Stereo -to-Mono Headphone adapter number 274-374 Amplified Speaker On-Hook Data Transmission Protocol (GR-30-CORE) - CID_T1.DSP software module Adaptive Line Echo Canceller (SR-3004) - ALEC.DSP software module Off-Hook Data Transmission Protocol (SR-3004) - CIDCW_T2.DSP software module Acoustic Echo Cancellation Keypad LCD     IDE and Build Tools CodeWarrior® Development Tools for 56800/E DSC | NXP  Design Resources https://www.nxp.com/downloads/en/schematics/TDC1LD.zip

Demo NXP has a complete portfolio of RF low power devices. These include: Drivers and pre-drivers for RF designs Output RF devices for small cell solutions Low-noise amplifiers (LNAs) for transceiver applications     Demo / product features MMZ27333B 2 W BTS Driver Amplifier 1500 – 2700 MHz operation P1 dB  = 33 dBm Gain = 36 dB @ 2600 MHz LTE 10 MHz ACLR = - 48 dBc at 20 dBm 4 x 4 mm QFN Package MMG30271B 1/2 W BTS Pre-Driver GPA 300 – 4000 MHz operation P1dB = 27 dBm Gain = 17 dB at 2600 MHz ICC = 135 mA SOT89 Package MMG30301B 1 W BTS Pre-Driver GPA 900 – 4300 MHz operation P1 dB = 30 dBm Gain = 16 dB @ 2600 MHz ICC = 280 mA SOT89 Package NXP Recommends MMZ27333B MMG30271B MMG30301B  

Demo Owner: Pejman Kalkhoran Boundary Devices Pejman Kalkhoran describes the Nitrogen family at the 2014 FTF Americas 2014. Pejman demonstrates the Nitrogen 6_Lite featuring i.MX 6Solo, Nitrogen6X and Nitrogen6_MAX. These single board computers are great for software development and mass production.   Features Demo shown show 3 Single board computers based on i.MX6 processors: Nitrogen 6_Lite, Nitrogen6X and Nitrogen6_MAX Evaluate processor or develop their use Hardware and software development OS shown WinCE 7, Yocto Linux, Android 4.3 (Jelly Bean)   Links ARM® Cortex®-A9 Cores: i.MX 6 Series Multicore Processors Boundary devices  

Overview The Camera reference design is developed using the Kinetis KL28Z through the standalone peripheral module FlexIO. The Kinetis KL28Z board is powered by an Arm® Cortex®-M0, providing up to 96 MHz CPU performance besides supporting ultra-low power. Kinetis KL28Z's FlexIO module is used to emulate camera interface and capture the image data. A TFT LCD module with SPI interface is used to display the real-time images. DMA is used to copy the image data from FlexIO to SRAM. DAM or polling method is used to copy the image data from SRAM to SPI TX FIFO, having up to 15fps sample rate. Features Features the Kinetis KL2828Z512 Board, enabling the interaction between a camera module by FlexIO, a highly configurable module capable of emulating a wide range of different communication protocols. The important feature of this peripheral is that it enables the user to build their own peripheral directly in the MCU. Combined and powered by NXP technology, these key elements make possible to capture video from the Camera and display it live in the LCD Panel. Developed using Kinetis Software Development Kit (SDK), comprehensive software support for Kinetis MCUs and drivers for each MCU peripheral, middleware, real-time OS and example applications designed to simplify and accelerate application development on Kinetis MCUs. Block Diagram Board Design Resources

Demo The MC33SB040X familly is an antilock brake controller designed especially for two wheeler system. Thanks to the plug and play evaluation module controlled by a friendly graphical unit interface, we will show the potential of our product.  Through this demo, we will demonstrate how it is easy to use our solutions and accelerate the development of a complete ABS Motorcycle / Scooter solution.   First Motorcycle ABS IC Familly One Channel ABS IC for Scooters - Two Channels ABS IC for Motorcycles Smallest ABS Package - Low RDSon Low Side Drivers Featured NXP Product http://cache.freescale.com/files/analog/doc/brochure/BR1569.pdf  

Description The user interface of a product is a key element that design engineers need to address to provide a compelling user experience. Touchpads, slides and rotaries offer a more intuitive and effective way of user interaction than traditional buttons. And, designing a touch-based user interface is simplified with this NXP touch solution. The touch function is more and more popular in the consumer market, especially in the white-good field. The KE15Z series of MCUs offers the Touch Sensing Interface (TSI) which recognizes finger touch by sensing capacitance changes. Features Advanced EMC robustness, pass IEC61000-4-6 standard test Supports both self-cap sensor and mutual-cap sensor, up to 36 touch keys Low BOM cost per touch key, no need for external devices Adjustable touch sensing resolution and sensitivity, high-performance for waterproof applications Low-power support Block Diagram Products Category Name 1: MCU Product URL 1 Arm Cortex-M0+|Kinetis KE1xZ 32-bit 5V MCUs with Touch Interface | NXP  Product Description 1 The KE1xZ includes a robust TSI module which provides a high level of stability and accuracy to any HMI system. These MCUs support up to 256 KB flash, 32 KB RAM, and a complete set of analog/digital features. Category Name 2: Wireless Product URL 1 Arm® Cortex®-M0+|Kinetis® KW41Z 2.4 GHz Bluetooth Low Energy Thread Zigbee Radio MCUs | NXP  Product Description 1 The KW41Z is an ideal solution for true single-chip designs that require concurrent communication on both a Bluetooth Low Energy network and an 802.15.4-based network such as Thread and Zigbee. Documentation KE15Z TSI Development for Low Power Applications:  https://www.nxp.com/docs/en/application-note/AN5420.pdf  Demos Touch Sense Interface for Kinetis KE15Z MCUs  Tools Product Link FRDM-KW41Z: Freedom Development Kit for Kinetis® KW41Z/31Z/21Z MCUs FRDM-KW41Z |Bluetooth Thread Zigbee enabled Freedom Development Kit | NXP  FRDM-TOUCH: Touch Module for Freedom Board FRDM-TOUCH|Touch Module for Freedom Board | NXP 

Demo High Performance Enterprise Access Point OEM Reference Solutions for Layerscape and QorIQ families.  Demo showcases 802.11AC based Enterprise Access Points showing >2.2Gbps of WIFI with Dual 11AC WIFI cards with very low CPU to provide head room for additional applications to be run.  OEM  Alpha Networks & Embedded Planet Reference Solutions for T1023 and LS1043 Features Wireless Performance up to 2.5Gbps Maximum ARM A53 or Power PC application headroom Proven Wireless partners Quantenna, Celeno & QCA Support for new multi-user MIMO transmission to groups of clients NXP Recommends QorIQ T1024/14 and T1023/13 Dual- and Single-Core C QorIQ LS1043A and LS1023A Multicore Communications

Demo Owner Brian Gildon   Timesys Vice President of Business Development, Brian Gildon demonstrates various NXP based applications for optimized performance devices. Demonstrations include  NXP's Vybrid TWR-VF65GS10 board on Linux, a fast boot demonstration using i.MX 6 platform on Linux and finally a Sabre SDP a multi-touch interface design for designers who want simple branding.   Features Timesys - Linux tools services and training First demo: Vybrid tower board demo RTOS and Linux running simultaneously Second demo: Boot up Android quickly from a cold boot Third demo: Accelerated video demo vs non-accelerated video comparison Fourth demo: QT widget support on a multi-touch interface   Product Link SABRE Board for Smart Devices Based on the i.MX 6Quad Applications Processors i.MX 6Quad SABRE Development Board | NXP  VFxxx Controller Solutions VFxxx Controller Solutions based on Arm® Cortex® A5 and M4 Cores | NXP  Links Tymesys  

I am using Adafruit LED stripes with 60 LED's per meter. Each LED integrates the W2812B controller. WS2812B uses a serial protocol, and you can control each LED individually. The strip is made of flexible PCB material, and comes with a weatherproof sheathing.   https://www.adafruit.com/products/1138   WS2812B is an intelligent control LED light source that the control circuit and RGB chip are integrated in a package.   The data transfer protocol use single NZR communication mode. After the pixel power-on reset, the DIN port receive data from controller, the first pixel collects initial 24bit data, then send to the internal data latch, the other data is sent to the next cascade pixel through the DO port.   LED's in cascade: My LED panel uses 16 rows x 30 columns = 480 leds.   In a first approach, in order to generate the bit stream, a timer in PWM mode could be used and generate two different duty cycles for sending a "0" logic or "1" logic. Using PWM's + DMA can unload the CPU in the generation of each single bit. FlexIO module in the Kinetis K82 can do that in a very effective mode and generate 8 channels simultaneously.   But my objective is to unload the CPU as much as possible in the bit stream generation task and find an easy method of multiplexing the 8 FlexIO outputs. In this way, we can control more LED rows and get a minimum number of interrupts and CPU intervention.   I will use the FlexIO internal data shifters to send the data bit stream. One shifter for each row. As we only have 8 shifters, I can use external multiplexor to increase the number of rows. Unloading the CPU for the LED refresh process, we can mux several rows in each shifter output. The limit of LED’s will be the refresh time of the full panel.   FlexIO block diagram:     How are the "1" and "0" generated?   Each pixel needs 24 bits of Red-Green-Blue value (RGB)   For each row, I need to send 30 x 24 bits of RGB information. But I have to encode the data in the NZR/PWM protocol. I use a lookup table to transform 24 bpp information in 24 x 3 = 72 bits per pixel.     In this way the  DMA can send 30 x 24 x 3 = 1440 bits (A full row)  in 60 transfers of 24 bits into the shifter. We get only one DMA interrupt for each row:       Multiplexer implementation:       Frame Buffer LED:   typedef union { uint32_t  rgb;     struct{       uint8_t  b;       uint8_t  r;         uint8_t  g;       uint8_t  a;     }bytes; }ledrgb;   Extended LED encoded data:   typedef struct {   uint32_t g;   uint32_t r;   uint32_t b; }ledrgb_ext;     Lookup Table:   void init_conv_matrix(void) { videoconv[0]=0x92492400; videoconv[1]=0x92492600; videoconv[2]=0x92493400; videoconv[3]=0x92493600; videoconv[4]=0x9249A400; videoconv[5]=0x9249A600; videoconv[6]=0x9249B400; videoconv[7]=0x9249B600; videoconv[8]=0x924D2400; videoconv[9]=0x924D2600; videoconv[10]=0x924D3400; ... };   Part 3: Software for LED Panel emulation Or Return to Project page: LED Panel control with FlexIO

Demo Owner: Mark Houston   The 3 Pillars of Kinetis V series software enablement are Kinetis Motor Suite, Kinetis Motor Control Toolbox and Kinetis Reference Designs.   Features: The Kinetis V Series portfolio is focused on providing software solutions for motor and power control, no matter your knowledge of the application. Kinetis V enables customers with little motor control experience or a short time to market with Kinetis Motor Suite. For customer with more application knowledge Kinetis V enables you with our reference design software, or our model based design tools, both incorporating NXPs Embedded Software Libraries ________________________________________________________________________________________   KV11 Dual BLDC Sensorless BLDC motor control is increasingly popular. Nowadays, application with multiple BLDC motors are becoming more common. Therefore, the best option seems to be independent sensorless motor control using single microcontroller. This method provides robust, long life and low cost operation.    Features: This reference design supports sensorless motor control of two Brushless DC (BLDC) motors using a single Kinetis KV11 device. Two BLDC motors are controlled independently, this means each motor can be running at different speed. Demo is friendly controlled and monitored through FreeMASTER. Communication between KV11 and FreeMASTER is done via FlexCAN module. CAN protocol provides a robust, fast and reliable operation.   ________________________________________________________________________________________   Sensorless ACIM FOC Motor Control on Kinetis V This demo shows the benefits of NXP Kinetis V enabled sensorless vector control of AC Induction Machine (ACIM) over conventional open-loop scalar control. You can compare speed tracking and power efficiency performance on your own speed and load profile.   Features: HVP-MC3PH high-voltage development platform with HVP-KV46F256 daughter MCU card enabled by ACIM   Motor Control Reference Solution Package (MCRSP) and Power Factor Correction (PFC) software  FRDM-KV31F freedom platform featuring FreeRTOS based software for control of synchronous motor acting as ACIM load Precise measurement with KM34Z single-phase power meter Interactive demo control via FreeMASTER and MCAT tools enabled PC       ________________________________________________________________________________________   Digital controlled LLC resonant converter using Kinetis KV46 This development kit show the design of a fully digital off-line DC/DC switched-mode power supply (SMPS) using an LLC resonant converter topology.     Features: Technical parameters: Input voltage: 390VDC Output power: 250W Output power: 12V Output Current: 21A Switching frequency 75-300kHz   Main Board Features: High efficiency Replaceable Controller card GaN power FETs Synchronous rectifier Analog sensing (resonant tank current, output voltage, output current, phase currents, back-EMF voltage, PFC currents, IGBT module temperature monitoring) Input over current protection Output over current protection Serial interface for communication with Auxiliary flyback power supply     ________________________________________________________________________________________   DSC Dual Servo Many applications require synergy control among multiple motors. Multiple motors controlled on single chip is the good way to solve this demand. Dual servo motors control is popular for two dimensions control applications such as sewing machine, camera gimbal system etc. This demo shows the capability of NXP DSC to control dual servo motors on single chip, and the two servo motors can be run well independently.   Features: This reference design supports dual servo motors control on single MC56F84789 DSC. Three control loops (position loop, speed loop and fast current loop) are enabled for each servo motor, a patented low speed measurement algorithm is used to achieve excellent low speed performance with low-cost quadrature encoder. Through FreeMASTER GUI, this demo can be friendly controlled and monitored.   ________________________________________________________________________________________ KE02 HVP Sensorless FOC PMSM control is demanded frequently from many application for energy efficiency and quiet operation. Even some low end motor control applications such as HVAC blower, indoor blower of AC system, industrial fan and pump etc. require sensorless FOC solution. KE02 HVP sensorless FOC PMSM is targeted on low-cost sensorless FOC solution on KE02 for sensorless FOC entry level in NXP   Features: This reference design targets the MKE02Z32 low end 32-bit M0+ based microcontroller for ultra low cost sensorless FOC PMSM drive solution. Extended Flux observer and DQ Back-EMF observer/tracking observer are used to control motor for excellent performance during low-speed region and mid-/high-speed region respectively. Three-shunt current sensing algorithm and single-shunt current sensing algorithm are optional, and anti-wind startup feature is enabled as well. Through FreeMASTER GUI, this demo can be friendly controlled and monitored.   ________________________________________________________________________________________   Featured NXP Products: KINETIS MOTOR SUITE: Simple motor control developme|NXP Motor Control Development Toolbox|NXP Kinetis Designs|NXP ARM Cortex-M0+/M4/M7 Cores|Kinetis V MCUs|NXP 3-Phase AC Induction Motor Control Design|NXP 3-Phase PMSM Motor Control Reference Design|NXP 3-Phase Brushless DC Motor Control Design|NXP Embedded Software Motor Control and Power Conversio|NXP High-Voltage Development Platform|NXP   C86