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RD56F8300LCSM: Low-Cost Soft Modem Reference Design using the NXP DSC Overview Features Block Diagram Board Design Resources Overview This reference design shows the simplicity of a soft modem design, how few resources of the processor it takes, and how well it performs on USA average lines. This design omits the standard telecommunications Codec, instead of using PWM for output and ADC for input. Since both peripherals are readily available on one 56F8300/100 series device, along with more processing power than required from the single core, the design is a true one-chip, one-core system that includes telecommunications ability with room for even more system functionality. Ideal for advanced motion control, home appliances, medical monitoring, fire and security systems, power management, smart relays, and POS terminals. Features Hybrid architecture facilitates implementation of V.21 and V.22bis modem, control, and signal processing functions in one chip Consumes only 7.5 MIPS for the modem function - Only 15K words of Flash for the complete modem application and test harness High-performance, secured Flash memory eliminates the need for external storage devices Extended temperature range allows for operation of non-volatile memory in harsh environments Flash memory emulation of EEPROM eliminates the need for external non-volatile memory 32-bit performance with 16-bit code density On-chip voltage regulator and power management reduces overall system cost Off-chip memory expansion capabilities allow for glueless interfacing with the additional memory of external devices, without sacrificing performance Boots directly from Flash, providing additional application flexibility High-performance PWM with programmable fault capability simplifies design and promotes compliance with safety regulations PWM and ADC modules are tightly coupled to reduce processing overhead; only one of each is used by the modem General purpose input/output (GPIO) pins support application-specific needs Simple in-application Flash memory programming via Enhanced OnCE or serial communication Block Diagram Board Design Resources Legacy Designs Re: RD56F8300LCSM: Low-Cost Soft Modem Reference Design using the NXP DSC When purchasing ducting material online, it's essential to verify the specifications to ensure they meet your project needs. Look for detailed product descriptions, including dimensions, materials, and temperature ratings.
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RD56F80PMSVC: Sensorless PM Motor Drive for H-axis Washer Reference Design Using MC56F80xx Overview Features Block Diagram Board Design Resources Overview This reference design is for a sensorless permanent magnet (PM) motor drive single-chip solution based on the NXP® DSC56F80XX digital signal controller (DSC). An electronically controlled three phase PM motor provides a unique feature set with the higher efficiency and power density This application presents a motor control technique of PM motor without a need to use a rotor position transducer This technique particularly targets horizontal axis (H-axis) washing machine with belt drive in fractional horsepower range A designer reference manual provides a detailed description of the application, including the design of the hardware and the software Features Designed to fit into consumer and industrial applications MC56F80XX digital signal controller 3-phase AC/BLDC High Voltage Power Stage Board 1-phase line input 110/230VAC 50/60Hz Apliance PM motor Initial rotor position detection Full torque at motor start-up Field weakening Application based on C-callable library functions (GFLIB, GDFLIB, MCLIB, ACLIB) Current control loop Speed control loop with Field weakening Flash: ~ 6KB, RAM ~ 1.5KB FreeMASTER based control pages Block Diagram Board Design Resources Legacy Designs
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RDDSCSHSSR: Sensorless High-Speed SR Motor Drive for Vacuum Cleaners Reference Design using an MC56F8013 Overview Features Block Diagram Design Resources Overview The Sensorless High-Speed SR Motor Control Reference Design based on the NXP® low-cost MC56F8013 digital signal controller (DSC) deals with a 2-phase switch reluctance (SR) motor sensorless drive for vacuum cleaners and other air movement applications. The application is a speed-open loop SR drive without any position or speed sensor needs Uses a sensorless control method based on current peak detection and a patented start-up algorithm (Patent No. US6448736 B1) The control technique allows the SR motor more than 100 000 RPM The application is primarily for vacuum cleaners, although it can be used for any application with a high-speed drive (50 000 RPM) Features High-speed 2-phase SR motor sensorless control based on a current peak detection Designed for vacuum cleaner applications Capable of running SR motors at more than 100.000 RPM (tested with SR motor designed for 60 000 RPM) Single direction rotation enabled by asymmetric of 2-phase SR motor Speed open loop Start-up from any position using alignment and patented algorithm (Patent No. US6448736 B1) Start-up time and maximum speed depends on SR motor parameters Manual interface and FreeMASTER control page for monitoring, control and tuning Block Diagram Design Resources Legacy Designs
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K-70およびK-24コネクティビティ <meta http-equiv="Content-Type" content="text/html; charset=utf-8" /> <meta http-equiv="Content-Type" content="text/html; charset=utf-8" />
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Unified-Threat Management (UTM) Overview Use Cases Block Diagram Products Overview NXP has a broad portfolio of software and processors for security. Regarding software, NXP has complete Turnkey solutions or optimized software components; Regarding processors, NXP has scalable solution from 1xA53 to 16xA72. LS1043A is a good candidate for Low-end UTM, it comes with the option for 5 Gbps single pass cryptographic offload and 10 Gbps data path parse, classification and distribution which helps in delivering flows to cores for additional security processing. Use Cases Network security is a large, growing market. UTM Key System Features are as following: Enterprise FW features Antivirus Content filtering Spam filtering Block Diagram Products Category MPU Product URL Layerscape LS1043A Reference Design Board  Product Description The LS1043A reference design board (RDB) is a computing, evaluation, and development platform that supports the Layerscape LS1043A architecture processor. Category Wi-Fi Product URL 88W8997: 2.4/5 GHz Dual-Band 2x2 Wi-Fi® 5 (802.11ac) + Bluetooth® 5 Solution  Product Description The 88W8997 is the industry’s first 28nm, 802.11ac wave-2, 2x2 MU-MIMO combo solution with full support for Bluetooth 5. Category Temperature Sensor Product URL SA56004X: SMBus-Compatible, 8-Pin, Remote/Local Digital Temperature Sensor  Product Description The NXP Semiconductors SA56004X is an SMBus compatible, 11-bit remote/local digital temperature sensor with over-temperature alarms. Category Power Management Product URL MC34VR500: Multi-Output DC/DC Regulator  Product Description The NXP® MC34VR500 power management solution for network processor systems is a high-efficiency, quad buck regulator with up to 4.5 A output and five user-programmable LDOs. Category RTC Product URL PCF85063TP: Tiny Real-Time Clock/calendar  Product Description The PCF85063TP is a CMOS Real-Time Clock (RTC) and calendar optimized for low power consumption. An offset register allows fine-tuning of the clock. Category Transceiver Product URL 1 NTS0101: Dual supply translating transceiver; open drain; auto direction sensing  Product Description 1 The NTS0101 is a 1-bit, dual supply translating transceiver with auto direction sensing, that enables bidirectional voltage level translation. Product URL 2 NTS0302JK: 2-bit dual supply translating transceiver; open drain; auto direction sensing  Product Description 2 The NTS0302 is a 2-bit, dual supply translating transceiver family with auto direction sensing, that enables bidirectional voltage level translation. Product URL 3 NTS0304E: 4-bit dual supply translating transceiver; open drain; auto-direction sensing  Product Description 3 The NTS0304E is a 4-bit, dual supply translating transceiver family with auto-direction sensing, that enables bidirectional voltage level translation. Block Diagrams Communications Infrastructure
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当前APK.apk <meta http-equiv="Content-Type" content="text/html; charset=utf-8" /> Android 传感器融合 APK <meta http-equiv="Content-Type" content="text/html; charset=utf-8" /> Android 传感器融合 APK 传感器融合
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3-Phase Hall Sensor PMSM Driver for E-Bike and Sensorless Solution for HV Motor-Based on KE02 Description Block Diagram Products Related Documentation Training Related Demos from Communities Description A bicycle with an integrated electric motor and a rechargeable battery, making it an eco-friendly, zero-emission vehicle ideal for smart cities. An important feature of an E-Bike is that it must be reliable and can be used for long periods. Block Diagram Products Category Name 1: Microcontroller Product 1 URL 1 https://www.nxp.com/products/processors-and-microcontrollers/arm-microcontrollers/general-purpose-mcus/ke-series-cortex-m4-m0-plus/kinetis-ke02-20-mhz-entry-level-microcontrollers-mcus-based-on-arm-cortex-m0-plus-core:KE02 Product 1 Description 1 The Kinetis KE02 includes a powerful array of analog, communication and timing and control peripherals with specific flash memory size and the pin count. The K02 acts as a low-power, high-robustness, and cost-effective microcontroller with one 6-channel FlexTimer/PWM and two 2-channel FlexTimer/PWM. Product 2 URL 1 Arm® Cortex®-M4|Kinetis® K64 120 MHz 32-bit MCUs | NXP  Product 2 Description 1 Kinetis ®  K64-120 MHz, 256 KB SRAM Microcontrollers (MCUs) based on Arm ®  Cortex ® -M4 Core Category Name 2: Gate driver Product 1 URL 1 https://www.nxp.com/products/power-management/motor-and-solenoid-drivers/bldc-h-bridge-stepper/3-phase-brushless-motor-pre-driver:GD3000 Product 1 Description 1 The GD3000 is a gate driver IC for three-phase motor drive applications providing three half-bridge drivers, each capable of driving two N-channel MOSFETs. Category Name 3: LED Driver Product URL 1 https://www.nxp.com/products/power-management/lighting-driver-and-controller-ics/ic-led-controllers/16-channel-fm-plus-ic-bus-57-ma-20-v-constant-current-led-driver:PCA9955BTW Product Description 1 The PCA9955B is an I2C-bus controlled 16-channel constant current LED driver optimized for dimming and blinking 57 mA Red/Green/Blue/Amber (RGBA) LEDs in amusement products. Each LED output has its own 8-bit resolution (256 steps) fixed frequency individual PWM controller that operates at 31.25 kHz with a duty cycle that is adjustable from 0 % to 100 % to allow the LED to be set to a specific brightness value. Category Name 4: Logic USB Type-C Configuration Channel Product URL 1 https://www.nxp.com/products/interfaces/usb-interfaces/usb-type-c-true-plugn-play/usb-pd-phy-and-cc-logic/cc-logic-for-usb-type-c-applications:PTN5150 Product Description 1 PTN5150 is a small thin low power CC Logic chip supporting the USB Type-C connector application with Configuration Channel (CC) control logic detection and indication functions. The PTN5150 enables USB Type-C connector to be used in both host and device ends of the Type-C cable Category Name 5: Current-Limited Power Switch Product URL 1 https://www.nxp.com/products/power-management/load-switches/usb-pd-and-type-c-current-limited-power-switch:NX5P3290UK Product Description 1 The NX5P3290 includes under-voltage lockout, over-temperature protection, and reverse current protection circuits to automatically isolate the switch terminals when a fault condition occurs. Category Name 6: Secure Product 1 URL 1 A71CH | Plug and Trust for IoT | NXP  Product Description 1 Plug and Trust - The fast, easy way to deploy secure IoT connections Category Name 7: NFC Product 1 URL 1 PN5180 | Full NFC Forum-compliant frontend IC | NXP  Product Description 1 Full NFC Forum-compliant frontend IC Category Name 8: GPIO Expander Product 1 URL 1 PCAL6534 | Level translating GPIO Expander | NXP  Product Description 1 Ultra-low-voltage, level translating, 34-bit I2C-bus/SMBus I/O expander   Category Name 8: NFC smartcard Product 1 URL 1 https://www.nxp.com/products/rfid-nfc/mifare-hf/mifare-desfire/mifare-desfire-ev2:MIFARE_DESFIRE_EV2_2K_8K Product Description 1 Secure, contactless multi-application IC with an enhanced feature set for Smart City applications Related Documentation Document URL Title https://www.nxp.com/docs/en/application-note/AN10439.pdf Wafer-level chip-scale package https://www.nxp.com/docs/en/application-note/AN5322.pdf AN5322, TPMS wheel location introduction and main concepts Training Training URL https://community.nxp.com/docs/DOC-341509 Related Demos from Communities URL Kinetis Microcontrollers  MCUXpresso SDK  MCUXpresso Software and Tools  UAV Speed Control with Kinetis KV5x Cortex-M7 MCU and GD3000 Motor Pre-Drivers    Block Diagrams Smart City
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RT10xx optimization for LCD performance.pdf The attached document describes how to optimize LCD display performance on RT10xx platform. The content include RT10xx configuration and Emwin setting with LCD parameters. Products Product Category NXP Part Number URL MCU i.MX RT1060 i.MX RT1060 MCU/Applications Crossover MCU | Arm® Cortex®-M7, 1MB SRAM | NXP  MCU i.MX RT1050 i.MX RT1050 MCU/Applications Crossover MCU| Arm® Cortex-M7, 512KB SRAM | NXP  SDK Software Software Development Kit https://mcuxpresso.nxp.com/en/select    Tools NXP Development Board URL MIMXRT1060-EVK i.MX RT1060 Evaluation Kit | NXP  MIMXRT1050-EVK i.MX RT1050 Evaluation Kit | NXP  Was this helpful to you?
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HOWTO: Create An ISP Project From Example in S32DS for S32 Platform S32DS contains many example projects from which you can learn how S32DS can be used with the help of the Vision SDK to develop vision applications. The example projects contain generated and hand-written code, which utilize the Vision SDK to demonstrate a workflow using S32DS. In this document, the procedure for creating a project from one of the provided ISP examples through to execution on the EVB is detailed. This project was run using S32DS version 3.2 and VSDK version 1.5.0.   1) Launch S32DS 2) Select 'File -> New -> S32DS Project from Example' 3) Select 'isp_h264dec_single_stream' project    In this particular project, the ISP graph diagram is included. If you wish to view it, go to the Project Explorer panel and expand 'isp_h264dec_single_stream_graph'. Then double click on 'ISP data flow : h264dec_single_stream'. The ISP graph diagram will appear in the editor panel. 4) If not in the C/C++ Perspective, switch over by clicking on the icon showed below (Hovering over the correct icon should display 'C/C++'). The current perspective is displayed on the top bar. 5) Select isp_h264dec_single_stream: A53 in the Project Explorer panel 6) Build project for A53  7) Start a debug session using method as described in HOWTO Create A53 Linux Project in S32DS for Vision, beginning at step 9. 😎 Click Resume  The program takes the input H264 encoded image img_1280x960.h264 located in the /home/root/vsdk/data/common folder on the Linux BSP and outputs it on the display The output image should look like below. New Project Wizard - Project Management and Settings SDKs
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视频 <meta http-equiv="Content-Type" content="text/html; charset=utf-8" /> 使用 TAD 工具
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RT1060 AN12781 Lockアプリケーションを実行 <meta http-equiv="Content-Type" content="text/html; charset=utf-8" /> これは、Embedded Wizzard GUIアプリケーションと推論エンジンとしてのニューラルネットワークモデルを実行するための i.MX RT1060評価キット機能のデモを目的とした簡単なビデオです。 (マイビデオで視聴) インダストリアル スマートシティ スマートホーム
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Example_MPC5777C-External_SRAM-test-S32DS.Power.2017.R1 <meta http-equiv="Content-Type" content="text/html; charset=utf-8" /> ******************************************************************************** * Detailed Description: * Application performs basic initialization then it initializes EBI for external * SRAM connected to MPC5777C-516DS and test it by write and read of block of * data. * * ------------------------------------------------------------------------------ * Test HW:         MPC5777C-512DS Rev.A + MPC57xx MOTHER BOARD Rev.C * MCU:             PPC5777CMM03 3N45H * Fsys:            PLL1 = core_clk = 264MHz, PLL0 = 192MHz * Debugger:        Lauterbach Trace32 * Target:          internal_FLASH * Terminal:        19200-8-no parity-1 stop bit-no flow control on eSCI_A * EVB connection:  jumper J4 on position 1-2 (choosing CS0) *                  EMIOS1 (PortI P16-0) --> USER_LED_1 (P7-1) to see LED blink ******************************************************************************** Revision History: Ver  Date         Author            Description of Changes 0.1  Jun-26-2017  David Tosenovjan  Initial version 0.2  Oct-13-2017  David Tosenovjan  Lower CLKOUT frequency 0.3  Feb-02-2020  David Tosenovjan  Corrected External_SRAM_MMU_init                                     Ported to S32 design studio *******************************************************************************/ <meta http-equiv="Content-Type" content="text/html; charset=utf-8" /> ******************************************************************************** * Detailed Description: * Application performs basic initialization then it initializes EBI for external * SRAM connected to MPC5777C-516DS and test it by write and read of block of * data. * * ------------------------------------------------------------------------------ * Test HW:         MPC5777C-512DS Rev.A + MPC57xx MOTHER BOARD Rev.C * MCU:             PPC5777CMM03 3N45H * Fsys:            PLL1 = core_clk = 264MHz, PLL0 = 192MHz * Debugger:        Lauterbach Trace32 * Target:          internal_FLASH * Terminal:        19200-8-no parity-1 stop bit-no flow control on eSCI_A * EVB connection:  jumper J4 on position 1-2 (choosing CS0) *                  EMIOS1 (PortI P16-0) --> USER_LED_1 (P7-1) to see LED blink ******************************************************************************** Revision History: Ver  Date         Author            Description of Changes 0.1  Jun-26-2017  David Tosenovjan  Initial version 0.2  Oct-13-2017  David Tosenovjan  Lower CLKOUT frequency 0.3  Feb-02-2020  David Tosenovjan  Corrected External_SRAM_MMU_init                                     Ported to S32 design studio *******************************************************************************/ 全般
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BSP Security Maintenance NXP Webinar: April 23, 2020
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S32DSやMatlab、Simulinkなどのさまざまな開発環境からFreeMASTER UIを使用して組み込みアプリケーションを強化するためのヒント <meta http-equiv="Content-Type" content="text/html; charset=utf-8" /> <meta http-equiv="Content-Type" content="text/html; charset=utf-8" />
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MathWorks による NXP Cup のサポート <meta http-equiv="Content-Type" content="text/html; charset=utf-8" /> MathWorks は、NXP Cup のグローバルスポンサーです NXP Cupチームのメンバーである場合は、MATLAB / Simulinkの無料のソフトウェアライセンスにアクセスできます。NXP Cup - MathWorks Deutschland の Web サイトにアクセスして、ソフトウェアの提供についての詳細をご覧ください。 NXP Cup での Simulink の使用例は、ハードウェア サポート ページから入手できる FRDM-KL25Z の Simulink Coder サポート パッケージにパッケージ化されています。ラインスキャンカメラからのライブデータの読み取りと解析のその他の例は、MATLAB File Exchangeの NXP Cup Companionアプリ で入手できます。さらに、 MathWorks の Simulink Coder 製品を使用して FRDM-KL25Z をターゲットとする例もあります。 MATLAB Answers のフォーラム、または以下のフォーラムを使用して、NXP Cup での MATLAB の使用について質問してください。また、質問がある場合は [email protected] に電子メールで送信することもできます。 フリースケール・カップの内容
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Boundary Devices:采用i.MX应用处理器的Nitrogen系列产品 <meta http-equiv="Content-Type" content="text/html; charset=utf-8" /> 演示所有者: Pejman Kalkhoran Boundary Devices 的 Pejman Kalkhoran 在 2014 年 FTF Americas 上介绍了氮系列。Pejman 演示了具有 i.MX 6Solo、Nitrogen6X 和 Nitrogen6_MAX 的 Nitrogen 6_Lite。这些单板计算机非常适合软件开发和大规模生产。   特性 演示展示了 3 款基于 i.MX6 处理器的单板计算机:Nitrogen 6_Lite、Nitrogen6X 和 Nitrogen6_MAX 评估处理器或开发其用途 硬件和软件开发 操作系统显示 WinCE 7、Yocto Linux、Android 4.3 (Jelly Bean)   链接 ARM® Cortex®-A9内核:i.MX 6系列多核处理器 Boundary Devices   通信基础设施
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Blink i.MX31 PDK LEDs Using U-Boot You can power on/off i.MX31 PDK LEDs using U-Boot: u-boot> mw.b B6020000 FF Where B6020000 is the CPLD LED address and FF is the 8 bits hexadecimal value which will be displayed on LEDs.
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KE15 multi-channels ADC DMA implementation on SDK 2.6.X Hi: Kinetis's ADC have no multi channels sequence sampling function, compared with LPC's ADC. But we could use DMA for such case, attached are two demos: 1.multi_channels_edma_ADC_DMA_SW_TRIG Description: use SW trigger DMA transfer for 6 ADC channels, DMA ch0 is for ADC channels transfer, DMA ch1 is for ADC sample result transfer in DMA ch1 ISR, report ADC sample are done; 2.multi_channels_edma_ADC_DMA_LPIT_HW_TRIG Description: use LPIT timely trigger DMA transfer for 6 ADC channels, DMA ch0 is for ADC channels transfer, DMA ch1 is for ADC sample result transfer in DMA ch1 ISR, report ADC sample are done; but LPIT could trigger continuously without SW engage. Kinetis E Series MCUs
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物联网(IoT)的医疗保健实施 <meta http-equiv="Content-Type" content="text/html; charset=utf-8" /> 本次会议将解释物联网如何改变医疗保健。来自飞思卡尔和软件合作伙伴的主题专家将讨论 One Box 参考平台以及如何使用它来实现医疗保健应用的物联网。将特别关注硬件设计、通信协议和安全结构。 主讲人: davidniewolny 发表时间:FTF 2014 会话ID:FTF-HCR-F0195 <meta http-equiv="Content-Type" content="text/html; charset=utf-8" /> 本次会议将解释物联网如何改变医疗保健。来自飞思卡尔和软件合作伙伴的主题专家将讨论 One Box 参考平台以及如何使用它来实现医疗保健应用的物联网。将特别关注硬件设计、通信协议和安全结构。 演讲者: David Niewolny 发表时间:FTF 2014 会话ID:FTF-HCR-F0195 i.MX 应用处理器 接口和连接
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ZigBee 3.0:在KW41Z上添加端点(Endpoint) [中文翻译版] 见附件   原文链接: https://community.nxp.com/docs/DOC-340508 KW41Z31Z21Z
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