Цифровые сигнальные процессоры - Решения

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Позиций:
Описание:
The EZ-ICE® serial emulator system provides state-of-the-art emulation for the ADSP-218x family of processors by providing a controlled environment for observing, debugging, and testing activities in a target system. The EZ-ICE connects directly to the target processor through the emulation interface port. Its ease of use, full speed emulation and shielded board will ensure your design process runs smooth.

The debugger available for ADSP-218x EZ-ICE is Analog Devices' VisualDSP++ development environment. All software is sold separately.

Part Number
ADDS-218X-ICE-2.5V

Tools Support:
Tel: 1-800-ANALOGD (262-5643)
Contact Support

For additional information, contact your local Analog Devices Sales Office or Distributor.

Возможности:

  • Supports ADI's ADSP-218x family of processors
  • High speed RS-232 serial port
  • Shielded enclosure with reset switch accessibility
  • I/O voltage setting confirmation LEDs
  • Support for 2.5, 3.3, and 5.0 volt DSPs
  • CE certified

Описание:
The IrDA PICtail™ Plus Daughter Board is designed to operate in conjunction with Microchip’s Explorer 16 or other development boards with a PICtail Plus connector and AN1071 IrDA Standard Stack for Microchip 16-bit and PIC32 devices to create an IrDA-enabled development and evaluation platform. The IrDA Stack is written to operate with the IrDA-enabled UARTs on the 16-bit PIC24 MCUs, PIC32 MCUs and dsPIC33 DSCs.
Возможности:

    • Infrared optical sensor.
    • PICtail™ Plus Daughter Board connection interface

    Signal Interface

    Functions I/O Pin Description
    RX I U1RX/U2RX UART Receive
    TX O U1TX/U2TX UART Transmit

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This PICtail Plus Motor Control Daughter Card interfaces with Explorer 16 (DM240001) and the HV/LV Power Module (DM300021 and DM300022). It has a variety of test points that will make debugging of your application easier. It also has hardware support for sensor and sensor-less applications such as Hall sensors, optical encoder, back EMF and current sensing. This uses dsPIC33F device family for the MC development as opposed to the DM300020 that targets dsPIC30F for the MC application development. This board comes with a Motor Control 100-pin Plug In Module to be used on the Explorer 16 board.
Возможности:

    • Connector to Explorer 16
    • Connector to HV/LV Power Module
    • Motion sensor inputs: Hall Sensors or Optical Encoder
    • Test points for motor currents, PWM and voltages

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The MCP8024 TQFP BLDC Motor Driver Evaluation Board demonstrates Microchip’s MCP8024 3-Phase Brushless DC (BLDC) Motor Gate Driver in a BLDC motor drive application. The MCP8024 contains the high-side and low-side drivers for external N-channel MOSFETs. A dsPIC33FJ32MC204 motor control processor is used to supply the PWM inputs to the MCP8024 as well as handle the high-speed Analog-To-Digital Conversion (ADC) required for 40 KHz PWM operation. The MCP8024 onboard UART is used to configure the MCP8024 and to send fault information to the dsPIC controller. The evaluation board firmware uses a 6-step trapezoidal drive control algorithm to demonstrate the MCP8024 capabilities.

Devices Supported: MCP8024, dsPIC33FJ32MC204
Возможности:

    • Input Operating Voltage Range: +7.0V to +28V
    • Maximum of 500 mA of gate drive current for external N-Channel MOSFETs
    • Drives up to a 15 Amp BLDC motor
    • 750 mW Buck Regulator with resistor programmable output voltage
    • RESET momentary contact switch
    • Two Spare user programmable momentary contact switches
    • PWM signal LED indicators
    • 100 pin dsPIC PIM header for use with MA330017 compatible PIMs
    • PICkit 3,Real Ice, and ICD3 debugger interfaces
    • Speed control potentiometer
    • Terminal block for 5V or 12V Hall effect sensors
    • SPI and I2C headers for user communications use.
    • Programmable external MOSFET overcurrent protection
    • Programmable PWM deadtime protection
    • Programmable PWM blanking time for current switching spikes
    • Onboard 5v and 12V LDO regulators

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Описание:
Microchip’s 200W DC/DC LLC Resonant Converter Reference Design operates over a wide input voltage range (350 - 420Vdc) with a nominal input of 400V, providing a 12V DC output, while maintaining high-voltage isolation between the primary and secondary. High efficiency is achieved through Zero Voltage Switching (ZVS) on the half-bridge converter and Zero Current Switching (ZCS) on the synchronous rectifier. A synchronous rectifier is implemented over the traditional full wave rectifier for improved efficiency. The DC-DC LLC Resonant Converter Reference Design utilizes Microchip’s digital power conversion dsPIC for unique “adaptive” control of the half-bridge converter and synchronous rectifier.

This reference design is implemented using a single dsPIC33F “GS” digital-power DSCs from Microchip that provides the full digital control of the power conversion and system management functions. As shown in this reference design the dsPIC33F ‘GS’ devices enable designers to easily and cost effectively create products using advanced switching techniques such as LLC that lower switching losses and enable efficiencies as high as 95%. The DC to DC LLC Converter Reference Design is royalty free when used in accordance with the licensing agreement.

Do you want a demonstration?

Please contact local sales office in your geography to request a demonstration.
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Возможности:

    • Low power consumption at no load
    • Programmable soft-start
    • Voltage, Current, Temperature monitoring & Protection
    • Primary and secondary MOSFET control
    • Full Digital Control

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Описание:
High performance power supplies are used in a wide variety of applications ranging from telecommunication equipment, industrial equipment, digital televisions, lighting, air conditioners and other home appliances. They all need solutions for power factor correction to improve overall efficiency, improve the input power factor, voltage regulation and Total Harmonic Distortion (THD) of the input current. Digital interleaved power factor correction methods provide many benefits over older PFC techniques including:

  • Lower Cost for High Power Applications
  • Smaller PFC Inductor and Magnetic volume
  • Higher Power Density
  • Lower Ripple
  • Easy implementation of sophisticated control algorithms
  • Flexible software modifications to meet specific customer needs
  • Simpler integration with other applications

This reference design provides an easy method to evaluate the power, and features of SMPS dsPIC® Digital Signal Controllers for an Interleaved Power Factor Correction application. The Interleaved PFC reference design unit works with universal input voltage range, and produces a single high voltage DC output up to 350W of power. The reference design has six main blocks:

  • Input EMI filter and rectifier
  • Dual Phase Interleaved PFC Circuit with feedback
  • Plug in module connector with a dsPIC33FJ16GS504
  • User’s interface circuit with programming connector and push buttons
  • 12V and 3.3V power supply circuit, and
  • Fault detection circuit for hardware protection

The dual phase interleaved PFC software implements three compensators for voltage, current and load balancing. It also has a feed-forward compensator based on input average voltage.

Do you want a demonstration?

Please contact local sales office in your geography to request a demonstration.
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Возможности:

    • Operates at universal input voltage (85-265Vac, 45-65Hz)
    • Operates up to 350W sustained output
    • Output voltages up to 400Vdc
    • Power factor correction of 0.998 at full load and 120VAC input
    • Current Total Harmonic Distortion (ITHD) of 3% at full load and 120VAC input
    • Fault protection

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Описание:
The PICDEM MC LV Development Board provides a cost-effective method of evaluating and developing sensored or sensorless brushless DC (BLDC) motor control applications. The board supports Microchip’s 28-pin, PIC18F microcontrollers and dsPIC30F Digital Signal Controllers. The board is capable of controlling motors rated up to 48V and 2.2 Amps.

The development board also comes with two pre-programmed, Flash-based devices for easy development: the PIC18F2431 device will populate the 28-pin socket and the dsPIC30F3010 will ship in a separate sample box. Additionally, the board comes with a free Motor Control Graphical User Interface (MC-GUI) which can set and modify all motor parameters. Custom programming and in-circuit debugging are facilitated with the ICD connector for Microchip’s MPLAB® ICD 2 In-Circuit Debugger, DV164004.

Возможности:

    • Motor control graphical user interface (MC-GUI)
    • Motor terminal strip
    • 3-phase voltage source inverter bridge
    • Motion sensor inputs
    • Over current protection, level programmable using potentiometer
    • Temperature sensor with I2C interface
    • Push button switches and master reset
    • 9 LEDs, 3 for generic status indication and 6 for PWM indication
    • Test points for motor current and back EMF sensing
    • Speed control potentiometer
    • Active RS-232 port
    • 24V external power supply (optional)
    • 3-phase, 24V BLDC low voltage motor (optional)
    • MPLAB ICD 2 connector
    • MPLAB ICE connector
    • Example software and documentation CDROM

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Описание:
The dsPIC30F general purpose development board provides the application designer with a low cost development tool to become familiar with the dsPIC30F 16-bit architecture, high performance peripherals and powerful instruction set.

The board features an active demonstration program loaded on the installed dsPIC30F6014 device. Several program functions are selectable via a menu system displayed on the LCD. These include: temperature and voltage measurements, frequency domain characteristics of a sinewave signal generated on-board from a digital potentiometer, FIR and IIR digital filter selections and DTMF tone generation using the Codec interface peripheral (external speaker required).
Возможности:

    • dsPIC30F6014 Plug-in Sample
    • Serial Communication Channels Interface (two UARTs, SPI™, CAN, RS-485)
    • Si3000 Voiceband Codec with MIC In/Speaker Jacks
    • General Purpose Prototyping Area with Expansion Header
    • 122 x 32 Dot Addressable LCD
    • MPLAB®ICD 2 and MPLAB ICE 4000 Emulator support
    • LED’s, Switches and Potentiometers
    • Temperature Sensor
    • Separate Digital and Analog Voltage Regulators
    • Digital Potentiometer for DAC Capability
    • Full Demonstration Source Code Provided

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The low-cost dsPICDEM 28-pin Starter Development Board allows the user to easily validate a development tool setup using a 28-pin SOIP or SOIC dsPIC30F device. The development board has a socketed dsPIC30F2010 digital signal controller, power supply regulator, crystal oscillator, ICD header, serial port, power on indicator, Reset push-button, 28L SOIC layout pad and a prototyping area.
Возможности:

    Key features of the dsPICDEM 28-pin Starter Development Board include:
    • dsPIC30F2010 28-pin SOIP sample device and socket
    • Power input from 9V supply
    • Connector for MPLAB®ICD 2 In-Circuit Debugger
    • RS-232 interface
    • Header for access to all device I/O pins
    • Layout pad for 28-pin SOIC device
    • Prototyping area
    • Power-on demo program demonstrating interrupts, device I/O and UART communication
    • A tutorial program in assembly code showing the user how to set up a project in MPLAB IDE

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Описание:
The dsPICDEM™ 2 Development Board is a development and evaluation tool that helps create embedded applications using dsPIC30F Digital Signal Controllers. Sockets are provided for 28 and 40-pin devices in the motor control family and 18, 28 and 40-pin devices in the general purpose and sensor family.
The board includes a sample dsPIC30F4011 Digital Signal Controller in the 40-pin motor control socket, a power supply regulator, crystal oscillators for each set of sockets, an ICD connector for the MPLAB® ICD 2 In-Circuit Debugger and both RS-232 and CAN ports for external communication. In addition, the board is populated with prototyping hardware, including LED indicators, push button switches, a potentiometer, a temperature sensor and a 2x16 LCD screen. All pins on all the devices are accessible through headers.
Возможности:

    Key features of the dsPICDEM 2 Development Kit include:

    • Multiple sockets for 18, 28 and 40-pin PDIP and SPDIP devices
    • Sample application programs complete with MPLAB IDE workspace and project files provided for supported dsPIC30F devices
    • dsPIC30F4011 40-pin PDIP sample device installed on the board
    • 5V regulator provides VDD and AVDD from a 9V DC power supply.
    • MPLAB ICD 2 In-Circuit Debugger ready
    • Options for selecting alternate debugging channels
    • MPLAB ICE 4000 ready
    • RS-232 interface
    • Controller Area Network (CAN) interface
    • Temperature sensor and analog potentiometer to simulate A/D inputs
    • 2 push button switches and 2 LED indicators to simulate digital input and output
    • 2x16 ASCII Character LCD with SPI™ interface
    • Access to all pins on the dsPIC30F device sockets via 2x40-pin headers

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Описание:
The Motor Control Development System provides the application developer with three main components for quick prototyping and validation of BLDC, PMAC and ACIM applications. The three main components are: dsPICDEM™ MC1 Motor Control Development Board, dsPICDEM MC1L 3-Phase Low Voltage Power Module and dsPICDEM MC1H 3-Phase High Voltage Power Module.

The dsPICDEM MC1 Motor Control Development Board contains the dsPIC30F6010 but supports all dsPIC® Digital Signal Controller (DSC) motor control variances, various peripheral interfaces and a custom interface header system, which allows different motor power modules to be connected to the PCB. The control board also has connectors for mechanical position sensors, such as incremental rotary encoders and hall effect sensors, and a breadboard area for custom circuits. The main control board receives its power from a standard plug-in transformer.

The dsPICDEM MC1L 3-Phase Low Voltage Power Module is optimized for 3-phase motor applications that require a DC bus voltage less than 50 volts and can deliver up to 400W power output. The 3-phase low voltage power module is intended to power BLDC and PMAC motors.

The dsPICDEM MC1H 3-Phase High Voltage Power Module is optimized for 3-phase motor applications that require DC bus voltages up to 400 volts and can deliver up to 1 kW power output. The high voltage module has an active power factor correction circuit that is controlled by the dsPIC30F device. This power module is intended for AC induction motor and power inverter applications that operate directly from the AC line voltage.

Two motors are available that are compatible with the development system.
Возможности:

    Features of the dsPICDEM MC1 Motor Control Development Board are:
  • dsPIC30F6010 Motor Control MCU Based Board

    The optional power modules provide:
  • Heat sink for Ambient Cooling of Power Sections
  • Full Automatic Protection of Power Circuits
  • Electrical Isolation from Power Circuits
  • Many Options for Motor Feedback Signals

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The dsPICDEM 1.1 Plus General Purpose development board provides the application designer with a low cost development tool to become familiar with the dsPIC30F/33F and PIC24H 16-bit architecture, high performance peripherals and powerful instruction set.

The board features an active demonstration program loaded on the installed dsPIC30F6014A device. Several program functions are selectable via a menu system displayed on the LCD. These include: temperature and voltage measurements, frequency domain characteristics of a sine wave signal generated on-board from a digital potentiometer, FIR and IIR digital filter selections and DTMF tone generation using the Codec interface peripheral (external speaker required).
Возможности:

    • dsPIC30F6014A Plug-in Sample
    • Serial Communication Channels Interface (two UARTs, SPI™, CAN, RS-485)
    • Si3000 Voiceband Codec with MIC In/Speaker Jacks
    • General Purpose Prototyping Area with Expansion Header
    • 122 x 32 Dot Addressable LCD
    • MPLAB® ICD 2 and MPLAB ICE 4000 Emulator support
    • LEDs, Switches and Potentiometers
    • Temperature Sensor
    • Separate Digital and Analog Voltage Regulators
    • Digital Potentiometer for DAC Capability
    • Full Demonstration Source Code Provided

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Описание:
The Microstick for dsPIC33F and PIC24H devices is designed to provide designers with an easy to use, economical development environment for 16-bit dsPIC® Digital Signal Controllers and PIC® Microcontrollers.

Microstick provides all you need to get started at a very low cost. It has an integrated programmer / debugger. It can be used stand-alone or plugged into a prototyping board for extremely flexible development. The device under test is socketed for easy change-out, and Microchip’s MPLAB® Integrated Development Environment supports Microstick. It has never been more affordable to get started with Microchip 16-bit devices!

Supported Parts:
dsPIC33FJ64MC802
dsPIC33FJ128MC802
PIC24HJ64GP502
PIC24HJ128GP502
Возможности:

    • Low Cost 16-bit board – Priced at $24.99 at Microchip Direct
    • Integrated USB programmer / debugger – No external debugger required
    • USB Powered – Ease of use, No external power required
    • Socketed dsPIC/PIC24 – Flexible, Easy device replacement
    • 0.025” Pin headers – Enables plug-in to Breadboard with room for jumper wires
    • Easy access to all device signals for probing
    • Small size - Smaller than a stick of gum at 20 x76mm – Easily Portable
    • On board debug LED, Utility LED and Reset Switch
    • Free demo code

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Texas Instruments предлагает несколько высокооптимизированных типовых решений на основе видеопроцессоров TMS320DM3x DaVinciT для рынка IP-камер с целью ускорения процесса проектирования и сокращения общих затрат на материалы. Решение поставляется как готовое изделие в комплекте с оптимизированными схемами, Gerber файлами, бесплатным исходным кодом.
Возможности:

  • Сокращение времени разработки на 98%, до 4 месяцев.
  • Обеспечение более высокого качества и более широкого поля изображения HD.
  • Сокращение BOM.
  • Возможность предложить на рынке HD IP-камеры стоимостью 150 долларов США.
Встроенное ПО на основе ОС Linux обладает следующими возможностями:
  • Встроенный автоматический баланс белого и автоэкспозиция.
  • Простое обнаружение движения.
  • Двухпотоковые видеокодеки HD MPEG-4 и MJPEG для поддержки записи и мониторинга при полной частоте кадров.
  • Программная структура IP-камеры DaVinci , включая API ввода / вывода, мультимедийные API и DaVinci Codec Engine

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Описание:
This kit is no longer for sale. For a replacement, consider the MPLAB ICD 3 and the Explorer 16/32 board.

This kit is a complete set of tools for application development for Microchips PIC24, dsPIC, and PIC32 families. It includes the popular Explorer 16 Development Board and processor Plug-In Modules for the PIC24FJ128GA010 and dsPIC33FJ256GP710 families for easy device swapping. Many other PIMs are available to support other families. The kit includes the MPLAB ICD3 for easy device programming and debugging. A 9V universal power supply is also included in this bundle to power the Explorer 16 Board. Coupled with the MPLAB ICD 3 In Circuit Debugger or MPLAB REAL ICE, real-time emulation and debug facilities speed evaluation and prototyping of application circuitry. Each component of the kit can be purchased separately too.


Возможности:

      • Includes processor PIMs for both PIC24 and dsPIC families
      • Alpha-numeric 16 x 2 LCD display
      • Interfaces to MPLAB ICD 3, MPLAB REAL ICE and RS-232
      • Includes Microchip's TC1047A high accuracy, analog output temperature sensor
      • Expansion connector to access full devices pin-out and bread board prototyping area
      • PICTailTM Plus connector for expansion boards
      • MPLAB ICD3 In-Circuit Debugger
      • 9V Universal Power Supply

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Описание:
The Analog Devices ICE-1000 and ICE-2000 emulators facilitate the creation, test, and debug of advanced applications on Analog Devices Processors and DSPs. Working in tandem with the CrossCore® Embedded Studio development environment, these emulators provide state-of-the-art support for all JTAG-compliant Analog Devices processors.

New debug feature added for the ICE-1000/ICE-2000:


  • Coresight Serial Wire Debug (SWD)
Возможности:

  • JTAG/SWD support for Blackfin, Blackfin+, SHARC and multi-core SHARC+ with ARM
  • Plug-n-Play, USB 2.0 compliant
  • USB bus-powered device
  • Windows® 8.1, Window 7 compatible
  • Multiple processor I/O voltage support: 1.8V, 2.5V, and 3.3V
  • Multiprocessor support
  • JTAG/SWD clock operation of 5 MHz on the ICE-1000
  • JTAG/SWD clock operation up to 46 MHZ on the ICE-2000
  • Multi-colored LED for enhanced status indication
  • Software controlled target reset to support remote debug

Описание:
Analog Devices’ cost-effective Universal Serial Bus (USB)-based emulator and High performance (HP) Universal Serial Bus (USB)-based emulator each provide an easy, portable, non-intrusive, target-based debugging solution for Analog Devices JTAG processors and DSPs. These powerful USB-based emulators perform a wide range of emulation functions, including single-step and full speed execution with pre-defined breakpoints, and viewing and/or altering of register and memory contents. With the ability to automatically detect and support multiple I/O voltages, the USB and HP USB emulators enable users to communicate with all of the Analog Devices JTAG processors and DSPs using either a full speed USB 1.1 or high speed USB 2.0 port on the host PC. Applications and data can easily and rapidly be tested and transferred between the emulators and the separately available VisualDSP++ development and debugging environment(sold separately).

The plug-and-play architecture of USB allows the emulators to be automatically detected and configured by the host operating system. It can also be connected to and disconnected from the host without opening the PC or turning off the power to the PC. A 3-meter cable is included to connect the emulators to the host PC, thus providing abundant accessibility to hard to reach targets.

The HP USB-based emulator also supports the Background Telemetry Channel (BTC), a non-intrusive method for exchanging data between the host and target application without affecting the target system's real-time characteristics.

Part Number:
USB-Based Emulator
Part Number: ADZS-USB-ICE
High Performance USB-Based Emulator
Part Number: ADZS-HPUSB-ICE

Tools Support:
Tel: 1-800-ANALOGD (262-5643)
Contact Support

For additional information, contact your local Analog Devices Sales Office or Distributor.

Возможности:

  • Full speed USB 1.1 interface enabling download speeds of up to 150 KB/Sec (ADZS-USB-ICE) or High speed USB 2.0 interface enabling download speeds of up to 1.5MB/sec (ADZS-HPUSB-ICE)
  • Background Telemetry Channel (BTC) support enabling non-intrusive data exchange at up to 2.0 MB/sec (ADZS-HPUSB-ICE only)
  • 1.8V, 2.5V, and 3.3V compliant and tolerant
  • Support for all ADI JTAG processors and DSPs
  • 5V tolerant and 3.3V compliant for 5V processors and DSPs
  • Multiprocessor support
  • 14-pin JTAG connector
  • 3-meter USB cable for difficult-to-reach targets
  • CE-certified

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This EZ-Extender is a daughter board that extends the capabilities of certain EZ-KIT developments boards, facilitating connection of Blackfin BF52x, BF53x and BF54x family processors to a landscape LCD. It connects to the ADSP-BF526 EZ-Board / EZ-KIT Lite, ADSP-BF537 EZ-KIT Lite, ADSP-BF538 EZ-KIT Lite, and the ADSP-BF548 EZ-KIT Lite development boards over their EI2 interfaces.

Supporting a 3.5” landscape QVGA (320x240) display from SHARP which can operate at VDDIO from 1.6V to 3.6V, it facilitates both normal and low power applications. The low cost touchscreen controller for this display is the Analog Devices AD7879, a small 16 pin LFCSP package ideal for low power applications.

The EZ-Extender employs the Analog Devices AD7147-1 programmable controller designed for use with capacitance touch sensors. The capacitance controller interfaces to the Blackfin processor over a simple two wire interface (TWI). The other end of the controller interfaces to external capacitance sensors such as capacitive buttons, scroll bars, and scroll wheels. No external power supply is required for the EZ-Extender.

For information on software examples for the CrossCore Embedded Studio toolchain go to www.analog.com/SWExamples. VisualDSP++ examples are provided in the toolchain.


Note: The Blackfin Landscape EZ-Extender has limited compatibility with the ADSP-BF537 EZ-KIT Lite. Below are the following limitations:

  • The Sharp LCD and the AD7879 (LCD Touch Controller) can be used together or the Sharp LCD and the AD7147-1 (Capacitance Touch Controller) can be used together.
  • The AD7879, AD7147-1, and the Sharp Display cannot all be used simultaneously.
  • This is due to limited GPIO availability on the BF537 Stamp PPI Interface.
  • All other supported products (BF526, BF538, and BF548 EZ-KITs) allow a user to use all three simultaneously.

Ordering Information

Part number: ADZS-BFLLCD-EZEXT


CROSSCORE® Tools Support
Tel: 1.800.ANALOGD
Contact Support

Возможности:

  • Landscape LCD : Sharp 3.5” QVGA (320x240) with Touch (LQ035Q1DH02).
  • LCD Touchscreen Controller : AD7879 Touch Screen Controller.
  • Capacitance Touch Controller: AD7147-1 Programmable Controller for Touch Sensors.

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The Blackfin SHARC USB EZ-Extender plugs onto the expansion interface of the ADSP-BF518F and ADSP-21469 EZ-Board and EZ-KIT Lite’s. The EZ-Extender aids the design and prototyping phases of the processor targeted applications and extends the capabilities of the evaluation system by providing a connection between the asynchronous memory bus of the Blackfin/SHARC processor and a USB 2.0 device.


Ordering Information:
Part number: ADZS-BFSHUSB-EZEXT


CROSSCORE® Tools Support:
Tel: 1-800-ANALOGD (262-5643)
Contact Support

Возможности:

  • ADSP-21469: 176-pin LQFP package, 25 MHz CLKIN oscillator
  • ADSP-21479: 196-pin BGA package, 16.625 MHz CLKIN oscillator
  • ADSP-21489: 176-pin LQFP package, 25 MHz CLKIN oscillator
  • Flash Memory: 4 M x 8-bit, Numonyx
  • SDRAM Memory: 16Mb x16 bit, Micron MT48LC16M16A2P-6A
  • Asynch SRAM: 1M x16 bit, ISSI IS61WV102416BLL-10TLI
  • SPI Memory: 16 Mbit
  • Analog Audio: AD1939 Codec
  • SPDIF: RCA phone jacks
  • Temp Sensor: ADM1032 Two Wire Sensor
  • UART: ADM3202 RS-232 line driver/receiver
  • Power Supply: 5V @ 3.6 Amps
  • LEDs: 10 LEDs: 1 power (green), 1 board reset (red), and 8 general purpose (amber)
  • Push Buttons: (5) push buttons: (1) reset, (2) connected to DAI, (2). IRQ/Flag
  • SHARC Expansion Interface II: AMI, Flags/IRQs, DAI, DPI, PWR_IN, 3.3V, GND
  • Other Features: Standalone Debug Agent Interface, RTC (Real Time Clock) implementation, Shift Register Interface, MP JTAG IN and OUT Connectors, 0-ohm resistors for DSP current measurement, CE compliant

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The ADSP-CM40x mixed-signal control processor family is based on the ARM®Cortex®-M4 core and is designed for motor control and industrial applications. The ADSP-CM40x Evaluation Hardware provides a low cost hardware solution for evaluating the Analog Devices ADSP-CM40x mixed-signal control processor family, and consists of the ADSP-CM403F and ADSP-CM408F EZ-Boards, J-LINK LITE ARM debug probe from Segger and optional probing boards .

The ADSP-CM403F EZ-KIT Lite and ADSP-CM408F EZ-KIT Lite include all hardware necessary to immediately begin evaluation.

The ADSP-CM403F EZ-Board and the ADSP-CM408F EZ-Board can also be purchased separately, if a debug probe is already available to the customer.

The ADSP-CM40x Board Design Database contains all of the electronic information required for the design, layout, fabrication and assembly of the ADSP-CM40x EZ-Boards, and is available to download from the Products Download area on this page.

Two expansion connectors are available for connecting probing boards that extend the system’s evaluation capabilities:

  • Analog 120-Pin Probing Board - The board provides probing points for any analog signal of the 120-pin expansion interface connector.
  • PWM 180-Pin Probing Board - The board provides probing points for any PWM/digital signal of the 180-pin expansion interface connector.

The probing boards are available separately as daughter boards that plug onto the ADSP-CM403F or <adsp-cm408f<> EZ-Board evaluation systems. Another expansion connector is provided for connecting an Anybus® board and/or a memory/FPGA extender card. </adsp-cm408f<>


IAR Embedded Workbench is a complete high-performance C/C++ compiler and debugger toolchain that incorporates a compiler, an assembler, a linker and a debugger into one easy-to-use IDE. It is required for development and purchased directly from IAR Systems. Free evaluation versions are available for download.

The CM40x Enablement Software package provides C language programming environment and Application Programming Interface (API) supporting a quick and easy functional interface to the Analog’s ADSP-CM40x mixed-signal control processor family products. The API abstracts the low-level details of various peripherals (Controller Registers, DMA Engine and Interrupt Controller) into a simple, easy-to-use programming model. It comes in source form with various example programs to shorten your application’s time to market. Current and future versions of the software are available free of charge and always downloadable from here.

The software and documentation pack for the J-Link LITE ARM is available directly from Segger and requires entry of the serial number displayed on the back of the probe to activate it.

For applications that require use of the Ethernet or USB peripherals, the ADZS-CM40x family is supported by Micrium's uC/TCP-IP and uC/USB Device ARM M-Series solutions. Both of these items require use of uC/OS-III® RTOS and all must be purchased directly from Micrium.

,The ADSP-CM40x mixed-signal control processor family is based on the ARM®Cortex®-M4 core and is designed for motor control and industrial applications. The ADSP-CM40x Evaluation HardwareADSP-CM40x mixed-signal control processor family is based on the ARM®Cortex®-M4 core and is designed for motor control and industrial applications. The ADSP-CM40x Evaluation Hardware
Возможности:

ADSP-CM408F EZ-Lite
  • ADSP-CM408F mixed-signal control processor
  • 2 – 16-bit t ADCs with 8 inputs each
  • 10/100 Ethernet PHY
  • USB
  • 2 – CAN interfaces ADI ADM3053
  • RS-485 transceiver ADI ADM2682E
  • RS-232 transceiver ADI ADM3252E
  • 256K x 16–bit (4 Mb) SRAM
  • 2 Mb internal quad SPI flash
  • 40 character TWI display
  • Expansion Interface
ADSP-CM403F EZ-Lite
  • ADSP-CM403F mixed-signal control processors
  • 2 – 16-bit t ADCs with 12 inputs each
  • 2 – 12-bit DACs
  • CAN interface ADI ADM3053
  • RS-232 transceiver ADI ADM3252E
  • 256K x 16–bit (4 Mb) SRAM
  • 2 Mb internal quad SPI flash
  • 40 character TWI display
  • Expansion Interface

Документация:
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Описание:
Processor Plug-In Modules are small circuit boards to be used with the various Microchip Development Boards to evaluate various MCU families. These plug into the main processor socket of the Development Boards so that different microcontrollers can be used for prototyping, demonstration or development --quickly and easily.

The dsPIC33FJ16MC102 and PIC24FJ16MC102 plug-in modules (Part No.MA330026 and

MA240026) are designed to demonstrate the capabilities of the dsPIC33FJ16MC102 and PIC24FJ16MC102 motor control devices using the dsPICDEM MCLV Development Board (DM330021)

or dsPICDEM MCHV Development Board (DM330023).

The dsPIC33FJ16MC102 device is an ultra low cost high-performance 16-bit digital signal controller within a small 28-pin 6x6 mm QFN package. The PIC24FJ16MC102 device offers the same functionality

as the dsPIC33FJ16MC102, with the exception of DSP capabilities.

This PIM can be used to evaluate the following MCUs:
PIC24FJ16MC101
PIC24FJ16MC102
Возможности:

    .

Документация:
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Описание:
Processor Plug-In Modules are small circuit boards to be used with the various Microchip Development Boards to evaluate various MCU families. These plug into the main processor socket of the Development Boards so that different microcontrollers can be used for prototyping, demonstration or development --quickly and easily.

The dsPIC30F6014A PIM is designed to demonstrate the capabilities of the dsPIC30F6014A family of

devices using an 80-pin PIM interface. The dsPIC30F6014A is a high-performance 16-bit Digital Signal Controller in an 80-pin TQFP package.


This PIM can be used to evaluate the following MCUs:
dsPIC30F6011A
dsPIC30F6012A
dsPIC30F6013A
dsPIC30F6014A
Возможности:

    .

Документация:
  • Даташит
Описание:
Processor Plug-In Modules are small circuit boards to be used with the various Microchip Development Boards to evaluate various MCU families. These plug into the main processor socket of the Development Boards so that different microcontrollers can be used for prototyping, demonstration or development --quickly and easily.

The dsPIC30F6010A PIM is designed to demonstrate the capabilities of the dsPIC30F6010A family of

devices using an 80-pin PIM interface. The dsPIC30F6010A is a high performance 16-bit Digital Signal Controller in an 80-pin TQFP package.


This PIM can be used to evaluate the following MCUs:
dsPIC30F2010
dsPIC30F3010
dsPIC30F4012
dsPIC30F3011
dsPIC30F4011
dsPIC30F5015
dsPIC30F5016
dsPIC30F6010A
dsPIC30F6015
Возможности:

    .

Документация:
  • Даташит
Описание:
Processor Plug-In Modules are small circuit boards to be used with the various Microchip Development Boards to evaluate various MCU families. These plug into the main processor socket of the Development Boards so that different microcontrollers can be used for prototyping, demonstration or development --quickly and easily.

The dsPIC30F2023 PIM is designed to demonstrate the capabilities of the dsPIC30F2023 family of devices using an 80-pin PIM interface. The dsPIC30F2023 is a high performance 16-bit Digital

Signal Controller in a 44-pin TQFP package.

This PIM can be used to evaluate the following MCUs:
dsPIC30F2023
Возможности:

    .

Документация:
  • Тестирование
Описание:
Processor Plug-In Modules are small circuit boards to be used with the various Microchip Development Boards to evaluate various MCU families. These plug into the main processor socket of the Development Boards so that different microcontrollers can be used for prototyping, demonstration or development --quickly and easily.

The dsPIC33FJ256GP710 PIM is designed to demonstrate the capabilities of the dsPIC33FJ256GP710 family of general purpose devices using development boards such as the Explorer 16 Development Board, which support 100-pin PIM interfaces. The dsPIC33FJ256GP710 is a high-performance

16-bit Digital Signal Controller in a 100-pin TQFP package.


This PIM can be used to evaluate the following MCUs:
dsPIC33FJ256GP710A
dsPIC33FJ256GP510A
dsPIC33FJ256GP506A
dsPIC33FJ128GP710A
dsPIC33FJ128GP708A
dsPIC33FJ128GP706A
dsPIC33FJ128GP310A
dsPIC33FJ128GP306A
dsPIC33FJ128GP206A
dsPIC33FJ64GP710A
dsPIC33FJ64GP708A
dsPIC33FJ64GP706A
dsPIC33FJ64GP310A
dsPIC33FJ64GP306A
dsPIC33FJ64GP206A
Возможности:

    .

Документация:
  • Тестирование
Описание:
Processor Plug-In Modules are small circuit boards to be used with the various Microchip Development Boards to evaluate various MCU families. These plug into the main processor socket of the Development Boards so that different microcontrollers can be used for prototyping, demonstration or development --quickly and easily.

The dsPIC33FJ256MC710 PIM is designed to demonstrate the capabilities of the dsPIC33FJ256MC710 family of motor control devices using development boards such as the Explorer 16 Development Board, which support 100-pin PIM interfaces. The dsPIC33FJ256MC710 is a high-performance 16-bit Digital Signal Controller in a 100-pin TQFP package.


This PIM can be used to evaluate the following MCUs:
dsPIC33FJ64MC506A
dsPIC33FJ64MC508A
dsPIC33FJ64MC510A
dsPIC33FJ64MC706A
dsPIC33FJ64MC710A
dsPIC33FJ128MC506A
dsPIC33FJ128MC510A
dsPIC33FJ128MC706A
dsPIC33FJ128MC708A
dsPIC33FJ128MC710A
dsPIC33FJ256MC510A
dsPIC33FJ256MC710A
Возможности:

    .

Описание:
Processor Plug-In Modules are small circuit boards to be used with the various Microchip Development Boards to evaluate various MCU families. These plug into the main processor socket of the Development Boards so that different microcontrollers can be used for prototyping, demonstration or development --quickly and easily.

The dsPIC33FJ12MC202 PIM is designed to demonstrate the capabilities of the dsPIC33FJ12MC202

family of general purpose devices using the Explorer 16 Development Board and the PICtail Plus daughter boards.

The dsPIC33FJ12MC202 is a high-performance 16-bit digital signal controller within a small 28-pin 6x6 mm QFN package. The dsPIC33FJ12MC202 is equipped with Peripheral Pin Select (PPS), The PIM takes advantage of PPS by using zero ohm resistors to connect the I/O to the 100-pin Explorer 16 Development Board.


This PIM can be used to evaluate the following MCUs:
dsPIC33FJ12MC202
dsPIC33FJ12MC201
Возможности:

    .

Документация:
  • Даташит
Описание:
Processor Plug-In Modules are small circuit boards to be used with the various Microchip Development Boards to evaluate various MCU families. These plug into the main processor socket of the Development Boards so that different microcontrollers can be used for prototyping, demonstration or development --quickly and easily.

The dsPIC33FJ128MC804 Plug-In Module (PIM) is designed to demonstrate the capabilities of the

dsPIC33FJ128MC804 family of motor control devices using the Explorer 16 Development Board and the

PICtail Plus daughter boards.

The dsPIC33FJ128MC804 is a high-performance 16-bit digital signal controller within a small 44-pin QFN

package. The dsPIC33FJ128MC804 is equipped with Peripheral Pin Select (PPS), the PIM takes advantage of PPS by using zero ohm resistors to connect the I/O to the 100-pin Explorer 16 Development Board.


This PIM can be used to evaluate the following MCUs:
dsPIC33FJ128MC804
dsPIC33FJ128MC802
dsPIC33FJ128MC202
dsPIC33FJ128MC204
dsPIC33FJ64MC804
dsPIC33FJ64MC802
dsPIC33FJ64MC202
dsPIC33FJ64MC204
dsPIC33FJ32MC302
dsPIC33FJ32MC304
Возможности:

    .

Документация:
  • Даташит
Описание:
Processor Plug-In Modules are small circuit boards to be used with the various Microchip Development Boards to evaluate various MCU families. These plug into the main processor socket of the Development Boards so that different microcontrollers can be used for prototyping, demonstration or development --quickly and easily.

The dsPIC33FJ128GP804 Plug-In Module (PIM) is designed to demonstrate the capabilities of the

dsPIC33FJ128GP804 family of general purpose devices using the Explorer 16 Development Board

and the PICtail Plus daughter boards.

The dsPIC33FJ128GP804 is a high-performance 16-bit digital signal controller within a small 44-pin QFN

package. The dsPIC33FJ128GP804 is equipped with Peripheral Pin Select (PPS), The PIM takes advantage of PPS by using zero ohm resistors to connect the I/O to the 100-pin Explorer 16 Development Board.


This PIM can be used to evaluate the following MCUs:
dsPIC33FJ128GP804
dsPIC33FJ128GP802
dsPIC33FJ128GP202
dsPIC33FJ128GP204
dsPIC33FJ64GP804
dsPIC33FJ64GP802
dsPIC33FJ64GP202
dsPIC33FJ64GP204
dsPIC33FJ32GP302
dsPIC33FJ32GP304
Возможности:

    .

Документация:
  • Даташит
Описание:
Processor Plug-In Modules are small circuit boards to be used with the various Microchip Development Boards to evaluate various MCU families. These plug into the main processor socket of the Development Boards so that different microcontrollers can be used for prototyping, demonstration or development --quickly and easily.

The dsPIC33FJ64GS610 PIM is designed to demonstrate the capabilities of the dsPIC33FJ64GS610

family of Switch Mode Power Supply (SMPS) devices using the Explorer 16 Development Board and the

PICtail™ Plus Daughter Board. The dsPIC33FJ64GS610 is a high-performance 16-bit Digital Signal Controller in a 100-pin TQFP package.


This PIM can be used to evaluate the following MCUs:
dsPIC33FJ32GS406
dsPIC33FJ32GS606
dsPIC33FJ32GS608
dsPIC33FJ32GS610
dsPIC33FJ64GS406
dsPIC33FJ64GS606
dsPIC33FJ64GS608
dsPIC33FJ64GS610
Возможности:

    .

Документация:
  • Даташит
Описание:
Processor Plug-In Modules are small circuit boards to be used with the various Microchip Development Boards to evaluate various MCU families. These plug into the main processor socket of the Development Boards so that different microcontrollers can be used for prototyping, demonstration or development --quickly and easily.

The dsPIC33FJ16MC102 plug-in modules are designed to demonstrate the capabilities of the dsPIC33FJ16MC102 motor control devices using the dsPICDEM MCLV Development Board (DM330021)

or dsPICDEM MCHV Development Board (DM330023).

This PIM can be used to evaluate the following MCUs:
dsPIC33FJ16MC101
dsPIC33FJ16MC102
Возможности:

    .

Документация:
  • Даташит
Описание:
The MCP2030 Bidirectional Communication Demo Kit demonstrates short range bidirectional communication applications using the features of the MCP2030. The demo kit consists of two units: (a) Base Station unit and (b) Transponder unit. The Base Station unit transmits a low frequency (LF) command looking for the transponder in the field. When the transponder unit detects the Base Station command, it responds with its ID and RSSI (Received Signal Strength Indicator) using UHF frequency (434 MHz). When the Base Station unit receives the response from the Transponder unit, it displays the received Transponder ID and RSSI data on the LCD. The features and concepts demonstrated by the demo kit can be used for low frequency (LF) sensing and various hands-free access control security applications. The bidirectional communication range is up to about 3 meters and mainly limited by the property of the LF frequency.
Возможности:

    • Demonstrates a short range bidirectional communication using LF (125 kHz) and UHF (434 MHz)
    • Demonstrates a reliable hands-free access control application by utilizing three orthogonally positioned antennas on the transponder board
    • A stand-alone ADC device on the Transponder samples the RSSI voltage. The digitized RSSI data is then sent to the Base Station unit. The Base Station unit can estimate the distance and position of the Transponder based on the RSSI data

Документация:
  • Програмное обеспечение
  • Топология платы
  • Тестирование
Описание:

Проект представляет собой решение бюджетной интегрированной системы питания для процессоров DM335/355 от TI.

Данный базовый проект имеет характер аппаратного решения.

Возможности:


Документация:
  • Схемотехника
  • BOM
  • Тестирование
Описание:
The MPLAB® C Compiler for PIC24 MCUs is a full-featured ANSI compliant C compiler for the Microchip PIC24 family of 16-bit devices. MPLAB C is a 32-bit Windows® console application as well as a fully integrated component of Microchip’s MPLAB Integrated Development Environment (IDE), allowing source level debugging with the MPLAB REAL ICE™ Emulator, MPLAB ICD 2 In-Circuit Debugger and MPLAB SIM Simulator.

16-Bit Language Tools Libraries
Included in the download of the MPLAB compiler are support libraries including Standard C library, DSP Library and math functions in the Fixed Point Math Library and Floating Point Math Library.

Fixed Point Math Library
The I/Q Fixed Point Math Library provides a set of speed optimized functions for the most common digital signal processing applications. This library provides significant performance savings over equivalent functions coded in C and allows developers to dramatically shorten their development time. The I/Q math library provides mathematical functions useful in a variety of applications ranging from motor control, digital power control, digital signal processing and general purpose real-time control using fractional data types. The function formats provided in the library are in Q15 (1.15) and Q16 (15.16) representations. The I/Q math library includes over 65 general-purpose functions composed of twenty eight functions supporting Q15 math and thirty seven functions supporting Q16 math. The IQ math library includes a common library for dsPIC3x and PIC24 cores and an optimized library for dsPIC exclusively taking advantage of the native architectural features. The IQ math functions are callable from both ‘C’ and Assembly. Detailed information on this library can be found on the Fixed Point Math Library for PIC24H and dsPIC page.

Floating Point Math Library
The IEEE-754 Compliant Floating Point Math Library is the compiled version of the math library that is distributed with the highly optimized, ANSI-compliant MPLAB® C Compiler. It contains advanced single and double-precision floating-point arithmetic and trigonometric functions from the standard C header file <math.h>. The library delivers small program code size and data size, reduced cycles and high accuracy. Detailed information on this library can be found on the Floating Point Math Library for PIC24H and dsPIC page.


Возможности:

    • ANSI compliant with standard, math, memory, data conversion and math libraries
    • Generates relocatable object modules for enhanced code reuse
    • Optimized to generate as much as 30% less code than other 16-bit MCU compilers
    • Strong support for in-line assembly when total control is absolutely necessary
    • Peripheral library for quick coding using Microchip device peripherals
    • Allows code and data to be located at absolute addresses
    • Supports advanced code size optimizations
    • Free unrestricted Evaluation Version of the C compiler

Описание:
This is an older version of device blocksets. For our latest version, with enhanced features at the same price, please see: MPLAB® 16-bit Device Blocks for Simulink®

The Microchip Device Blocksets for MATLAB Simulink provide a set of interface-compliant configuration and run-time peripheral blocks for the dsPIC30 and dsPIC33 DSCs.

Complete applications can be created in the form of a MATLAB/SIMULINK model using blocksets provided by Microchip and Simulink. C code for the application will be generated. These blocksets are compatible with the MATLAB plug-in available in MPLAB IDE. Also provided are many examples in the form of demo models, including a complete BLDC motor control application.

NEW in Version 2.20:

  • SMPS Blocks are added
  • Added dsPIC33fxxxxxA device support
  • Enhanced Port configuration
  • Implemented Port detail crosscheck as mask callback
  • Bug fixes
Возможности:

    • Blocks for all peripherals of dsPIC3x Family
    • Facility to import custom functions written in C through ‘cCall’ block
    • Build Environment Configuration from MATLAB environment

Описание:

В базовом проекте сенсорного дисплея с тактильной обратной связью TIDA-00408 показаны примеры использования тактильных ощущений в таких применениях, как термостаты, системы автоматизации зданий, системы автоматизации предприятий, кассовые терминалы и автомобильная техника. Тачскрин обеспечивает сенсорную обратную связь в те моменты, когда пользователь взаимодействует с интерфейсом пользователя на экране. В данный базовый проект включены емкостной сенсорный дисплей диагональю 7 дюймов, один пьезоэлектрический тактильный драйвер DRV2667 и два пьезоэлектрических привода.

Данный базовый проект имеет характер аппаратно-программного решения.

Возможности:

  • Обеспечивает тактильную обратная связь для сенсорных элементов управления на экране
  • Для управления пьезоэлектрическими приводами, генерирующими тактильную обратную связь, используется интегрированный высоковольтный пьезоэлектрический драйвер DRV2667
  • Включает в себя полноценную подсистему тактильной обратной связи, состоящей из тачскрина, процессора, программного обеспечения и тактильного драйвера
  • Детализированные механический дизайн и сборка
  • Работает на операционной системе Android с программными драйверами Linux, которые доступны для интеграции

Документация:
  • Даташит
  • Схемотехника
  • BOM
  • Топология платы
Описание:
This reference design integrates all the popular POS features into one handheld product: Smart Card reading, Magnetic Card reading, printing, NFC, WiFi, GPS, GPRS and barcode scanning. Pre-evaluated for Payment Card Industry (PCI) Data Security Standards (DSS) through a PCI-accredited lab, this Point-of-Sale reference design will help reduce development and certification cycle of electronic transaction equipment by up to two years.

Возможности:

AM37x ARM Cortex-A8 processor-based design is pre-evaluated for Payment Card Industry (PCI) Data Security Standards (DSS) reducing development and certification cycle of electronic transaction equipment by up to two years PCI-PTS pre-evaluation by RFI Global (accredited lab) Complete prototype hardware and robust software package including: Magnetic Stripe Reader (MSR) & IC Card (Smart Card) Interface, RFID/NFC reader, 1D/2D bar code scanner, thermal printer enabled, WiFi + BT on board, WLAN & WWAN Modem (2.5G/3G) and 3.5"" touch-screen LCD Hardware, software and customization support via ViewAT, a TI Design Network Partner Orderable production ready end-equipment which includes schematics, BOM, user guides, application notes, white paper, software, demos and more

Документация:
  • Даташит
  • Схемотехника
  • BOM
Описание:

Решение для концентратора данных дает разработчикам максимальный уровень гибкости, масштабируемости производительности, стоимости и вариантов подключения к этому концентратору данных. Он включает продвинутые оборудование и ПО, сокращая время разработки до 9 месяцев, поддерживая связь с более чем 1000 счетчиков.

Разработчики могут легко подключать разные модули связи, включая субгигагерцовые (LPRF), сервисы беспроводной связи (GPRS), связь ближнего действия (NFC) и TI связь по силовым линям (PLC), системы-на модуле G3 и поддержку PRIME.

Возможности:

  • Решение на основе процессора AM335x ARM Cortex-A8 сокращает время разработки до 9 месяцев;
  • Встроенные интерфейсы включают 2 Ethernet (MAC) порта, USB и до 8 UART для простого подключения к другим системам интеллектуальных сетей;
  • Несколько PLC стеков для MAC и PHY уровней позволяют разработчику создавать решения с поддержкой PLC-Lite™, PRIME, G3, IEEE-P1901.2 IPv4, IPv6 и 6LoWPAN протоколов, позволяя разработчикам использовать этот концентратор данных в широком спектре приложений для дома и автоматизации зданий;
  • Заказываемая продукция содержит схемы, BOM, интерфейс пользователя, примечания, «белые страницы», ПО, демоверсии и другое.

Документация:
  • Даташит
  • Схемотехника
  • BOM
  • Топология платы
Описание:

Базовый проект TIDEP0066 подчёркивает возможности ЦСП C5535 и C5545 в системах распознавания речи благодаря использованию встроенной библиотеки распознавания речи TIesr от TI и содержит инструкции о том, как запустить пример голосового сообщения, которое инициализирует вывод запрограммированного ключевого слова на OLED-экран C5535eZdsp на базе успешного захвата ключевого слова. В данном проекте также описывается последовательность действий для изменения голосовой фразы.

Данный базовый проект имеет характер аппаратно-программного решения.

Возможности:

  • Эффективная активная система питания для приложений с постоянно активированной системой захвата речи
  • Малые габариты решения (до 7 мм x 7 мм) с оптимизированной распиновкой
  • Данное решение базируется на использовании открытой библиотеки
  • Позволяет добавить функцию голосового управления в любое приложение

Документация:
  • Даташит
  • Схемотехника
  • BOM
  • Топология платы
Описание:

Проект аудиомодуля с емкостным сенсором представляет собой плату для набора разработки MSP430 LaunchPad  (MSP-EXP430G2). В данный проект TIвходят несколько емкостных сенсорных элементов, в том числе колесо прокрутки, сенсорный выключатель и датчик присутствия, а также 9 светодиодов, которые обеспечивают пользователя обратной связью при его взаимодействии с емкостными сенсорными элементами.

С помощью ЦСП TMS320C5535 и кодека TLV320AIC3204 обеспечивается шифрование и дешифрование MP3. Дополняют систему встроенные USB, OLED-дисплей, SD-карта и интерфейс наушников. В состав данного решения входят 2 встроенных процессора, которые функционируют и обмениваются информацией друг с другом посредством интерфейса UARTAPI– ЦСП C5535 и микроконтроллер MSP430

 

Возможности:

Контроллер MSP430 отвечает за:

  • емкостной сенсор и обратную связь через светодиоды;
  • детектирование жестов и событий;
  • главное приложение, которое управляет BoosterPack;
  • cвязь по UART с ЦСП C5535.

ЦСП C5535 отвечает за:

  • шифрование и дешифрование MP3;
  • файловую систему SD-карты;
  • запоминающее устройство USB;
  • OLED, кодек.

Документация:
  • Даташит
  • Схемотехника
  • Програмное обеспечение
  • BOM
  • Топология платы
*Информация о ценах и сроках поставки носит информационный характер. Офертой является только выставленный счет.

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