Микроконтроллеры - Решения

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Позиций:
Описание:
The PIC10F2XX Universal Programmer Adapter provides PIC10F socket support for both the SOT-23 and DIP-8 packages. It allows interfacing to Microchip's low cost family of programmers inclusive of; PICkit1, ICD2, PICstart, and the BFMP
Возможности:

    FREE Adapter downloads to help you build your own system below

Документация:
  • BOM
  • Топология платы
  • Тестирование
Описание:
The Signal Analysis PICtail™ Daughter Board works as an extension to the PICkit™ 1 Flash Starter Kit. When combined with PICkit 1 firmware version 2.0.0 or later and the signal-analysis PC program, the Signal Analysis PICtail Daughter Board can perform signal-analysis capabilities such as: real-time strip chart, oscilloscope, Fast Fourier Transformation (FFT), histogram and programming. The Signal Analysis PICtail Daughter Board comes populated with a PIC16F684 and two 25LC640 SPI™ compatible serial EEPROM memory devices.
Возможности:

    Downloads

    • PICkit 1 Signal Analysis Setup.exe for use with the Signal Analysis Daughter Board V1.00 Link
    • PICkit Signal Analysis User’s Guide Link

Документация:
  • Даташит
  • Програмное обеспечение
  • Тестирование
Описание:
The Ethernet PICtail™ Daughter Board provides a cost-effective method of evaluating and developing Ethernet control applications. The board is designed for flexibility and can be plugged into a wide selection of demonstration boards, including the PIC18 Explorer (DM183032). The development board is populated with the 28-pin ENC28J60 Ethernet controller which interfaces to the RJ-45 female connector. With a standard 28-pin PICtail pin out, the board is easily interfaced to Microchip’s 8-bit demonstration boards.
Возможности:

    • 10BASE-T Ethernet
    • RJ-45 Female Ethernet Connector

Документация:
  • Даташит
Описание:
The Speech Playback PICtail Plus Daughter Board is for evaluation and development of speech recording and playback applications using Adaptive Differential Pulse Code Modulation (ADPCM). The daughter board is designed to interface with both the PICtail interface used on many PIC16 and PIC18 evaluation boards and the PICtail Plus card edge connector used on PIC24 and dsPIC evaluation boards. Reference AN643 for information on implementing an ADPCM solution.
Возможности:

    • 3V or 5V operation
    • Potentiometer for volume control
    • 4th order Low Pass Filter
    • Mono output via on-board speaker or stereo output via headphones
    • Shutdown control of power amplifier
    • On-board 250 Kbit SPI Serial EEPROM for voice storage

Документация:
  • Даташит
Описание:
This PM3 Socket Module supports the programming of Microchip PIC16F MCUs of 20uQFN package, (3x3x0.5)mm or (4x4x0.5)mm body size using the MPLAB PM3 Programmer (DV007004). Please always refer to the Device Tool Selector (www.microchip.com/dtsapp) to verify the programmer and correct socket module.
Возможности:

    20uQFN package, (3x3x0.5)mm or (4x4x0.5)mm body size

Описание:

IBIS (I/O Buffer Information Specification) files provide behavioral models of the I/O buffers of an integrated circuit. IBIS models are used to perform board level signal integrity (SI) simulations and timing analysis when the actual I/O circuit schematics are not available.

Возможности:

    • I/O Buffer Information Specification

Документация:
  • Тестирование
Описание:

This product is no longer available for sale.

A starter kit for the AT89C5131 USB Flash microcontroller. The kit includes an evaluation board, the FLIP (Flexible In-System Programming) tool, and a HID (Human Interface Device) keyboard demonstration program.

Возможности:

    The kit includes an evaluation board, the FLIP (Flexible In-System Programming) tool, and a HID (Human Interface Device) keyboard demonstration program.

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

This product is no longer available for sale.

The starter kit for the AT89C51CC01/CC02 and AT89C51CC03 CAN microcontrollers allows easy evaluation of the product using demonstration software. The kit can also be used with AT89C51AC3, AT89C51AC2, and AT89C5115 (flash microcontroller with ADC). It replaces the CAN-DEMOBOARD1. An optional CANADAPT28 adaptor is required for AT89C51CC02 & AT89C5115 microcontrollers.

Возможности:

    The kit can also be used with AT89C51AC3, AT89C51AC2, and AT89C5115 (flash microcontroller with ADC).

Документация:
  • Програмное обеспечение
  • Топология платы
  • Тестирование
Описание:
The CAN add-on is an extension to the STK500 and STK501 development boards to support the AVR AT90CAN128 in a single development environment. The add-on board provides CAN transceivers, termination options and other features to seamlessly connect the STK500 to a CAN bus for application development and debugging.
Возможности:

    Документация:
    • Тестирование
    Описание:
    Development kit for AT90CAN AVR microcontrollers. The board is designed to easily evaluate the product using demonstration software. To complement evaluation and enable additional development, the board can also be plugged into the STK500 starter kit. The standalone board has numerous serial interfaces (dual RS232, CAN, LIN, SPI & TWI) and resources such as keyboard, LEDs, voltage reading, light and temperature sensors, and speaker.
    Возможности:

      This item is discontinued and there is no replacement product.

    Документация:
    • Топология платы
    Описание:

    The MEGA-1284P Xplainedevaluation kit is a hardware platform for evaluating the ATmega1284Pmicrocontrollers. The MEGA-1284P Xplained contain one QTouch button sensor, three mechanical buttons, four LEDs, 3 analog sensors, and a UART to USB bridge. The AVR Xplained expansion headers provide easy access to analog and digital I/O pins. The board is powered by the USB cable and equipped with the standard 10-pin JTAG header that connects to the full range of AVR debuggers.

    NOTE: The MEGA-1284P Xplained can be used to evaluate the ATmega164/324/644/1284microcontrollers and the A, P and PA versions of these devices. These devices share thesame peripherals, and differ only in memory size electrical characteristics such as power consumption. The peripherals are in general functionally compatible with other megaAVR devices, and the MEGA-1284P Xplained can thus be used as a general evaluation platform for other megaAVRs as well. Alternatively the STK600 can be used if specific devices need to be evaluated.

    Возможности:

      • Atmel ATmega1284P microcontroller
      • Read temperature sensor with the ADC
      • Read light sensor with the ADC
      • Use the Atmel QTouch library to detect touches on the touch button
      • Use PWM as input to an analog filter and ADC to measure the filter response
      • 3 push buttons to interact with the microcontroller
      • 4 LEDs to show status information
      • Board controller that routes data from the ATmega1284P UART to the PC via USB
      • Program the kit via bootloader or an Atmel programmer
      • Expand the board with Xplained top modules

    Документация:
    • Даташит
    • Топология платы
    Описание:

    The ATmega256RFR2 Xplained Pro starter kit is ideal for evaluation and prototyping with the ATmega256RFR2 microcontroller. The ATmega256RFR2 Xplained Pro board is available as an evaluation kit or starter kit. Extension boards can also be individually purchased.

    The ATmega256RFR2-XSTK starter kit includes the I/O1 Xplained Pro, OLED1 Xplained Pro, and PROTO1 Xplained Pro extension boards.

    If all you need is just the MCU evaluation board, the ATmega256RFR2-XPRO evaluation kit is available and does not include extension boards.

    Возможности:

      • ATmega256RFR2 microcontroller
      • One mechanical reset button
      • One mechanical user pushbutton - Wake-up, bootloader entry or general purpose
      • One yellow user LED
      • 32.768kHz crystal
      • 16MHz crystal
      • 5 Xplained Pro extension headers (2 headers are duplicates)
      • Antenna diversity - Ceramic RF antenna and SMA connector for external antenna
      • Temperature sensor
      • Embedded debugger
        • Auto-ID for board identification in Atmel Studio
        • One yellow status LED
        • One green board power LED
        • Symbolic debug of complex data types including scope information
        • Programming
        • Data Gateway Interface: SPI, TWI, 4 GPIOs
        • Virtual COM port (CDC).
      • USB powered
      • Supported with application examples in Atmel Software Framework

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

    This product is no longer available for sale.

    This kit includes a WIZnet TCP/IP hardwired chip, a W3100A, and an AT89C51. It is no longer supported. It is still available from Wiznet www.wiznet.co.kr

    Возможности:

      This kit includes a WIZnet TCP/IP hardwired chip, a W3100A, and an AT89C51.

    Описание:

    Типовое решение аудиоустройства Bluetooth + MSP430 компании TI может использоваться для создания разнообразных приложений бюджетных решений с низким энергопотреблением. Возможные варианты применения - игрушки, динамики Bluetooth начального уровня, аксессуары для потокового аудио.

    Дизайн представляет собой экономически эффективную реализацию аудио, а предоставленные полные файлы для проектирования позволяют вам сосредоточить свои усилия на разработке приложений и конечных продуктов. Программное обеспечение, поддерживаемое этим эталонным дизайном, включает стек Bluetooth Stonestreet One Bluetopia (сертифицированный и бесплатный).

    Документация:
    • Даташит
    • Схемотехника
    • BOM
    Описание:

    The C51ASM assembler is a two-pass macro assembler for the AT89 Family of 8051 microcontrollers with specific features for the AT89LP single-cycle devices. C51ASM is installed as a part of the AT89LP Developer Studio. It is also available separately for the Microsoft Windows and Linux platforms.

    Release Notes (V1.2)
    - Support added for the following devices:
    AT89LP3240 AT89LP51RB2 AT89LP51RC2 AT89LP51RD2 AT89LP51IC2 AT89LP51ID2 AT89LP51ED2 AT89LP51
    - Improved handling of address overlaps during code generation

    Возможности:

      • C51ASM Assembler

    Документация:
    • Тестирование
    Описание:
    This circuit shows how the ADuC7122 precision analog microcontroller can be used in an accurate thermistor temperature monitoring application. The ADuC7122 integrates a multichannel 12-bit SAR ADC, twelve 12-bit DACs, a 1.2 V internal reference, as well as an ARM7 core, 126 kB flash, 8 kB SRAM, and various digital peripherals, such as UART, timers, SPI, and two I2C interfaces. The ADuC7122 is connected to a 4.7 k? thermistor. Due to the small form factor of the ADuC7122 (7 mm ? 7 mm, 108-ball BGA package) the entire circuit will fit on an extremely small PCB, thus further reducing cost. Similar in function to an RTD, thermistors are low cost temperature sensitive resistors and are constructed of solid semiconductor materials, which exhibit a positive or negative temperature coefficient. Thermistors are inexpensive and have high sensitivity. They detect small variations in temperature, which could not be observed with an RTD or a thermocouple. However, thermistors are highly nonlinear; thus, they are limited to applications with very narrow temperature ranges if linearization techniques are not applied. Circuit linearization techniques can be accomplished in software; however, that will not be discussed here. Despite the powerful ARM7 core and high speed SAR ADCs, the ADuC7122 still provides a low power solution. With the ARM7 core running at 326.4 kHz and the primary ADC active and measuring the external temperature sensor, the entire circuit typically consumes 7 mA. Between temperature measurements, the ADC and/or the microcontroller can be switched off to further save on power consumption.  Figure 1. ADuC7122 Used As a Temperature Monitor Interfaced to a Thermistor (Simplified Schematic, All Connections Not Shown)
    Возможности:

    • Typical temperature range of -90 C to +150 C
    • Thermistor temperature monitor
    • Single chip solution with ARM 7 processing core

    Документация:
    • Схемотехника
    • Топология платы
    Описание:
    The PICDEM™ LIN board demonstrates the capabilities of several Microchip microcontrollers using the LIN bus protocol. It specifically supports slave node applications with PIC16C432, PIC16C433, PIC16C7XX and master node applications with PIC16X8X and PIC18FXX8. PIC16C432, PIC16C433 are the first industry microcontrollers with on board LIN transceivers according to LIN bus specification Version 1.2.
    Возможности:

      • 18-, 28- and 40-pin DIP sockets (although 3 sockets are provided, only one device may be used at a time
      • On-board +12V regulator for direct input from 12V.
      • RS-232C socket and associated hardware for direct connection to RS-232C interface
      • CAN bus interface
      • Control panel interface for LIN bus master
      • RF stage for keyless entry function
      • Seat memory unit
      • Motor control slave unit
      • Jumper to disconnect on-board RC oscillator
      • Prototype area for custom user hardware

    Документация:
    • Даташит
    Описание:
    Xpress Your Creativity

    Brilliant ideas are fleeting. As soon as they are recognized, they must be captured quickly, and made real with the highest possible urgency. In embedded design, the creative process is often blunted by the massive array of choices required to simply begin the development cycle. The tasks of selecting a target MCU, finding the appropriate tool chain, and setting everything up on your PC can keep your best ideas from becoming great products. The MPLAB Xpress PIC18F47K42 Evaluation Board (DM182026) was designed with a single objective – to help your ideas take the shortest journey from imagination to reality.

    Crafted for Cloud-Based Development

    The MPLAB Xpress PIC18F47K42 Evaluation board offers seamless integration with our software tool chain, including the MPLAB Xpress cloud-based IDE. MPLAB Xpress is an online development environment that contains the most popular features of our award-winning MPLAB X IDE. This simplified & distilled application is a faithful reproduction of our desktop-based program, which allows users to easily transition between the two environments.

    On-Board Application Processor

    PIC18(L)FxxK42 MCUs integrate a rich set of core independent peripherals, intelligent analog peripherals and large Flash/RAM/EEPROM memories. These 28-, 40- and 48-pin devices also offer a host of low power features, performance improvements and design flexibility options that easily and rapidly enable the complex set of functions required by many of today's embedded control applications.


    Drag-and-Drop Programming

    Programming the MPLAB Xpress PIC18F47K42 Evaluation Board is quick and easy. We’ve integrated a unique drag-and-drop programmer for compatibility with almost any USB-connected PC, laptop, or tablet. The MPLAB Xpress Evaluation board connects to your PC as a USB Flash drive, so no drivers are needed. Programming of the target device is completed in microseconds, with no waiting.
    Возможности:

      Integrates seamlessly with MPLAB Xpress cloud-based IDE and MPLAB Code Configurator for the quickest development cycle

      On-Board PIC18F47K42 MCU Application Processor

      Integrated Drag-and-Drop Programmer with USB Interface- no drivers required!

      Compact footprint offers flexibility during prototyping phase


      Visit our MPLAB Xpress Cloud-based IDE homepage to Login and for all other relevant information.

    Документация:
    • Даташит
    • Тестирование
    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

    Документация:
    • Даташит
    • Програмное обеспечение
    Описание:
    The DS89C450-K00 evaluation kit is a proven platform to conveniently evaluate the capabilities of the ultra-high-speed flash microcontroller family. The kit contains the DS89C450 in a DIP-40 socket, 128kB of SRAM mapped through a preprogrammed CPLD, a power-supply regulator, two DB-9 serial connectors, and switches and LEDs to control and display board operation. With the addition of a power supply and an RS-232 cable connected to a personal computer, the kit provides a completely functional system ideal for application development and debug.

    The DS89C450-K00 can also be used as a programming and development platform for the DS5000(T). Quick-start instructions and sample programs for the DS5000(T) can be obtained from the DS5000 directory on the software tool disk, or from Maxim technical support at www.maximintegrated.com/support.
    Возможности:

    • Easily Load Code Using Bootstrap Loader and Serial 0 Port (DB-9, J2)
    • Two DB-9 RS-232 Serial Connectors
    • DB-9 Serial Cable
    • Two Internal Serial Ports
    • On-Board Power Supply Regulator
    • 128kB of On-Board Program + Data RAM
    • Preprogrammed Xilinx CPLD Handles Address Multiplexing and RAM Mapping
    • LED Display of Port 0 Levels
    • Pushbutton Switches for Reset and Interrupt Generation
    • Prototyping Area
    • Board Schematics Included to Provide a Convenient Reference Design

    Описание:
    This adapter is for use on UART targets powered at 3V to 5.5V. It consists of a small PCB included in a 1.5m long cable to provide easy interface from a standard PC COM port to the UART of the ADuC8xx and ADuC7xxx evaluation boards that have UART capability. It can be used for download, debug and general purpose communication via UART. It is based on an ADM3202 RS232 interface device. It provides an alternate to the 4-wire UART–to–PC interface as described in UC-006.

    For devices with I2C or LIN download capability, use USB-I2C/LIN-CONV-Z.
    Документация:
    • Даташит
    • Програмное обеспечение
    • Топология платы
    Описание:
    Development systems for evaluation of the ADuC7019/ ADuC7020/ ADuC7021/ ADuC7122, fully integrated, 1 MSPS, 12-bit data acquisition systems incorporating high performance multichannel ADCs, 16-bit/32-bit MCUs, and Flash/EE memory on a single chip.

    The QuickStart and QuickStart Plus Kits for the ADuC702x Precision Analog Microcontrollers feature debug via UART and an assembly & C-source debugging environment. In addition the QuickStart Plus Kit allows true non-intrusive JTAG emulation. You may who already have this emulator if you have evaluated other ADuC parts from Analog Devices. These kits are intended for any new users who want to have a comprehensive hardware development environment.


    ADI also provides a MiniKit. This kit is ideal for system prototyping, student projects or university labs.

    Документация:
    • Даташит
    • Програмное обеспечение
    • Топология платы
    Описание:
    Development System for evaluation of the ADuC824, 24-Bit ADC + 16-Bit ADC + 12-Bit DAC + 8K-Byte Flash MCU. This development system is also recommended for evaluation of ADuC816.

    The QuickStart Kits for the ADuC8x-series (8052-core) Precision Analog Microcontrollers feature serial-port download/debug capability and an assembly-source debugging environment.

    Документация:
    • Даташит
    • Програмное обеспечение
    • Топология платы
    Описание:
    Development system for evaluation of the ADuC834, 24-Bit ADC + 16-Bit ADC + 12-Bit DAC + 62K-Byte Flash MCU. This development system is also recommanded for evaluation of ADuC836, Dual 16-Bit ADC + 12-Bit DAC + 62K-Byte Flash MCU.

    The QuickStart Kits for the ADuC8x-series (8052-core) Precision Analog Microcontrollers feature serial-port download/debug capability and an assembly-source debugging environment.

    ADI also provides a non-intrusive emulation POD called the USB-EA-CONVZ allowing assembly & C-source debugging.

    It can be ordered separately.

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

    Development systems for evaluation of the following products:

    • ADuC841 - 8-Channel 12-Bit ADC + Dual 12-Bit DAC + 20 MIPS Flash MCU
    • ADuC842 - 8-Channel 12-Bit ADC + Dual 12-Bit DAC + 16 MIPS Flash MCU
    • ADuC843 - 8-Channel 12-Bit ADC + 16 MIPS Flash MCU

    The QuickStart Kits for the ADuC8x-series (8052-core) Precision Analog Microcontrollers feature serial-port download/debug capability and an assembly-source debugging environment.


    ADI also provides a non-intrusive emulation POD called the USB-EA-CONVZ allowing assembly & C-source debugging. The QuickStart Plus includes the POD (USB-EA-CONVZ) or it can be ordered separately.

    Документация:
    • Даташит
    • Програмное обеспечение
    • Топология платы
    Описание:
    The GPIO Expander Keypad and LCD Demo Board is designed to demonstrate the use of the MCP23S08/17 (SPI interface) and the MCP23008/17 (I2C interface) devices in a keypad and LCD example. The MCP23X17 (16-bit) devices interface to a 2x16 LCD module and the MCP23X08 (8-bit) devices interface to a 4x4 keyed matrix.

    Возможности:

      • Demonstrates the use of MCP23X08 and MCP23X17 devices for LCD and keypad applications
      • Test points allow for easy monitoring of SPI and I2C buses, as well as the keypad and LCD interface to PIC
      • ICSP header for the PIC® microcontroller allows users to customize firmware to further evaluate the MCP23X08/17 devices.
      • Can be powered from a 3.0V to 5V DC power source (connected to the +5V and GND test points)

    Документация:
    • Даташит
    • Програмное обеспечение
    • Тестирование
    Описание:
    The MCP1630 Automotive Input Triple Output Converter Demo Board demonstrates Microchip's high speed pulse width modulator (PWM) used for Automotive application. When used in conjunction with a microcontroller, the MCP1630 will control the power system duty cycle to provide three regulated output voltages of 3.3V at 1.2A, 1.2V at 600mA and 4.7V at 150 mA. The PIC12F683 microcontroller is used to provide reference voltage, ON/OFF of Converter using push button SW1 and oscillator pulses at switching frequency of 250 kHz. The MCP1630 generates duty cycle based on various external inputs. External signals include the input oscillator pulses, reference voltage from PIC12F683 device, and the feedback voltage.

    The PIC12F683 microcontroller is programmable, allowing the user to modify or develop their own firmware routines to further evaluate the MCP1630 device in this application

    Возможности:

      • Compact size for a Triple output Converter
      • Wide Input voltage range from 6.5V to 40V
      • Output voltage ON/OFF control using the PIC microcontroller
      • Provide line regulation, load regulation and cross regulation of ±5% on VOUT1 (3.3V), ± 5% on VOUT2 (1.2V) and ±10% on VOUT3 (4.7V) for load variation from 50% to 100%

    Документация:
    • Програмное обеспечение
    • Топология платы
    Описание:
    The MCP3421 Weight Scale Demo Board is designed to evaluate the performance of the low-power consumption, 18-bit ADC in an electronic weight scale design. Next to the MCP3421 there is a low-noise, auto-zero MCP6V07 op amp. This can be used to investigate the impact of extra gain added before the ADC for performance improvement. The PIC18F4550 is controlling the LCD and the USB communication with the PC. The GUI is used to indicate the performance parameters of the design and for calibration of the weight scale.

    Devices Supported: MCP3421, MCP6V07, PIC18F4550
    Возможности:

    • Low-power consumption 18-bit ADC
    • Low-noise, auto-zero op amp MCP6V07
    • 2Kg load cell
    • USB connectivity to PC
    • PC software for calibration and performance evaluation

    Документация:
    • Програмное обеспечение
    • Топология платы
    • Тестирование
    Описание:
    Contact Local Microchip Sales Office for Availability

    The MCP3909 3-Phase Energy Meter Reference Design is a fully functional Flash MCU based 3-phase energy meter. The meter comes populated with components for a 220V, 5(10)A system complete with plastic IEC compliant energy meter case. The case contains high voltage line and load screw terminals for direct connection to mains voltage or to energy meter calibration equipment. The 3-phase energy meter calculations are Flash based using 7K of PIC18F2520 program memory. The calculations include active energy pulse output, active power, apparent power, RMS current, and RMS voltage. There are over 100 serially accessible output registers containing power quantities, in Flash. For calibration, there are registers including offset, gain, phase, and LSB correction for all power and energy quantities, in Flash. All registers are accessible through RS-232 and USB.

    The calibration and correction registers can easily be moved from Flash to EEPROM using a simple ‘store’ command for end user configurable write cycle times.

    The analog conversion uses the wide dynamic range 16-bit ADCs MCP3909, which are sampled at 128 times per line cycle. The calculations are all interrupt driven to ensure ‘Zero-Blind’ measurements for all power quantities per line cycle.

    The system also includes a Phase Lock Loop circuit for line cycle sample lock.

    The system is easy to use, command driven, and offers ‘mode’ registers for features such as positive only energy accumulation mode or no-load threshold mode. A 64-bit wide active energy register is used for long term energy accumulation. Phase calibration for CT non-linearity correction is included.

    In addition to the power calculation engine using MCP3909 + PIC18F2520, a second communications module is included with the system. The included communications module is the PIC18F4550 USB Interface Module, which allows for meter evaluation and calibration using the “3-Phase Energy Meter Software” running on Windows XP or Windows 2000. The PIC18F4550 USB interface module also includes an LCD for additional energy meter firmware design.

    Возможности:

      • Fully functional 3-phase energy meter using MCP3909 and 7K of PIC18F2520 program memory
      • Active Energy Pulse Output, Active Power, Apparent Power, RMS current and RMS voltage calculation
      • 62 serially accessible output registers containing power quantities, in Flash
      • 54 serially accessible calibration registers, including offset, gain, phase, and LSB correction for all power and energy quantities, in Flash
      • Easy to use ‘Store’ command pushes calibration registers to EEPROM for user configurable write cycles
      • High accuracy 16-bit ADCs MCP3909, sampled at 128 times per line cycle
      • ‘Zero-Blind’ measurements for all power quantities per line cycle
      • Phase Lock Loop circuit for line cycle sample lock
      • Positive Only Energy accumulation mode
      • 64-bit wide active energy register for long term energy accumulation
      • Single point phase calibration for CT non-linearity correction
      • Multi-point phase correction (coming soon)
      • Automatic calibration mode using for high accurate phase locked calibration readings
      • Easy to use command driven system
      • USB data access for real time display of power measurement, all three phases
      • Automated meter calibration using PC software with easy to understand user prompts
      • Programmable creep threshold for no-load threshold calibration
      • IEC compliant power circuit to ensure meter has power from any single phase

    Документация:
    • Програмное обеспечение
    • Топология платы
    • Тестирование
    Описание:
    The MCP6S2X PGA Evaluation Board (Rev. 4) features the MCP6S21/91 and MCP6S26 devices. The PGA devices interface to a PIC16F676 providing versatile selection of input channels and gains to evaluate device performance. The board supports multiple input signal sources and two devices are cascaded to produce a gain between 1 V/V and 1024 V/V.

    Возможности:

      • MCP6S26 multiplexes 6 analog input signals
      • Device gains from 1 to 32 V/V can be configured
      • MCP6S21/91 and MCP6S26 are cascaded to allow for gains between 1 V/V and 1024 V/V
      • Reference voltage inputs of 0V, 2.5V and 5.0V are provided
      • SMD pads for adding SMD connectors
      • Prototyping area for custom circuit development
      • Reprogrammable PIC16F676 with ICSP™ (In-Circuit Serial Programming) interface

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

    Решение создано на основе документа SLAA283 от Texas Instruments, но с небольшим отличием - схема поддерживает отладчики SBW JTAG как TI, так OLIMEX. По умолчанию джампер установлен в положение для работы с OLIMEX JTAG, поэтому, если вы используете TI JTAG, вам следует переместить перемычки в положение TI.

    Плата MSP430-PIR использует малопотребляющий микроконтроллер MSP430F2013 от Texas Instruments со следующими функциями:

    • Низкое напряжение питания от 1,8 В до 3,6 В

    • Сверхнизкое энергопотребление (пять режимов энергосбережения)

    • Активный режим: 220 мкА при 1 МГц, 2,2 В

    • Standby Mode: 0,5 мкА

    • Off Mode (сохранение ОЗУ): 0,1 мкА

    • сверхбыстрое включение из режима ожидания менее чем за 1 мкс

    • 16-битная RISC-архитектура, 62,5 нс цикл инструкции

    • 16-битный таймер с двумя регистрами захвата/сравнения

    • 16-разрядный сигма-дельта аналого-цифровой преобразователь с дифференциальными входами PGA и внутренним опорным напряжением

    • Универсальный последовательный интерфейс (USI ) Поддержка SPI и I2C

    • Последовательное встроенное программирование, Внешнее напряжение для программирования не требуется

    • Защита кода с Security Fuse

    • Логика On-Chip Emulation с интерфейсом Spy-Bi-Wire

    • 2 КБ + 256B флэш-памяти

    • 128B RAM

    Основные конфигурации модуля синхронизации:

    • Внутренний генератор до 16 МГц с четырьмя калиброванными частотами с точностью до ± 1%

    • Внутренний малопотребляющий низкочастотный генератор

    • Кварц 32-кГц

    • Внешний источник тактирования

    Документация:
    • Даташит
    • Схемотехника
    Описание:
    Not recommended for new designs and does not support new devices. To be discontinued. Please see the PICkit 3: PG164130.

    This item is not available for the academic discount.

    The PICkit 2 and PICkit 3 are not production programmers.

    The PICkit™ 2 Development Programmer/Debugger (PG164120) is a low-cost development tool with an easy to use interface for programming and debugging Microchip’s Flash families of microcontrollers. The full featured Windows® programming interface supports baseline (PIC10F, PIC12F5xx, PIC16F5xx), midrange (PIC12F6xx, PIC16F), PIC18F, PIC24, dsPIC30, dsPIC33, and PIC32 families of 8-bit, 16-bit, and 32-bit microcontrollers, and many Microchip Serial EEPROM products. With Microchip’s powerful MPLAB Integrated Development Environment (IDE) the PICkit™ 2 enables in-circuit debugging on most PIC® microcontrollers. In-Circuit-Debugging runs, halts and single steps the program while the PIC microcontroller is embedded in the application. When halted at a breakpoint, the file registers can be examined and modified.
    Возможности:

      Not recommended for new designs and does not support new devices. To be discontinued. Please see the PICkit 3: PG164130.

    Документация:
    • Даташит
    • Програмное обеспечение
    • Тестирование
    Описание:

    Данный базовый проект имеет характер аппаратного решения.

    Возможности:


    Документация:
    • Схемотехника
    • BOM
    • Тестирование
    Описание:
    The low-voltage motor control demonstration board (also referred to by its order code STEVAL-IHM015V1) is a complete development platform for low-voltage motor control applications. Based on a cost-effective, flexible and open design, it allows easy demonstration of ST7MC capabilities to drive low-voltage synchronous motors.

    It includes an ST7MC 8-bit microcontroller with a 16-Kbyte internal Flash memory. The STEVALIHM015V1 comes with all the hardware necessary for developing motor control applications based on ST7MC peripherals including a motor control peripheral (MTC) and serial communication interface (SCI).

    The STEVAL-IHM015V1 uses an in-circuit communication (ICC) standard interface to connect to the host PC via in-circuit debuggers/programmers such as the in DART-STX board from Softec.

    The board’s power stage is designed to support up to 25 A and up to 48 V. With the included power MOSFET device STS8DNH3LL in SO-8 package, the maximum input voltage is 30 V and the maximum current rating is 8 A.

    The power supply stage can be easily configured to accept a wide range of input voltages.
    Документация:
    • Даташит
    • Схемотехника
    Описание:

    The Raisonance REva Starter Kits are complete, low-cost solutions for starting application development and evaluating the features of STMicroelectonics ARMВ® Cortexв„ў-M3, ARM966Eв„ў and ARM7TDMIв„ў core-based microcontrollers. Kits come with all the hardware and software that developers need to start developing applications, including the

    REva evaluation board, microcontrollers, embedded RLink JTAG in-circuit debugger/programmer and Raisonance Integrated Development Environment (RIDE).

    The REva starter kits are available for a full range of 32-bit and 8-bit microcontrollers.

    For more information, refer to the microcontrollers support site on www.st.com.

    Возможности:

    • Raisonance software toolset with:
      • GNU C compiler
      • RIDE integrated development environment
      • High-level language debugger, editor, project manager and SIMICE simulator
      • RFlasher dedicated programming interface
    • Embedded RLink in-circuit debugger/programmer with USB interface to host PC and 20-pin JTAG application interface
    • Unlimited programming of the target device
    • Debugging of applications with debug code limitation up to 64 Kbytes
    • Interchangeable daughterboards featuring different target microcontrollers allowing development of applications for a wide range of ST microcontrollers
    • REva universal evaluation motherboard with:
      • One standard SO-DIMM connector to plug in interchangeable daughterboards.
      • Digital and analog I/O evaluation features, including on-board LEDs, buttons, switches, external analog connector, temperature sensor and potentiometer
      • IВІC EEPROM and bus
      • RS-232 driver and 2 DB9 connectors
      • Prototyping area
      • VDD settings for 1.8V, 3.3V and 5V
      • USB powered, no external power required

    Документация:
    • Даташит
    Описание:

    The STR710-EVAL evaluation board is a cost effective, flexible and open design board that demonstrates and evaluates the capabilities of the STR71xF series microcontrollers and all available peripherals.

    It includes a high performance STR710FZ2T6 ARM7TDMIв„ў core-based MCU with 2 Mbits embedded Flash with best-in-class random access time and 64 KB on-chip high speed SRAM. This memory enables full freedom in development of large programs before custom hardware is designed.

    The STR710-EVAL integrates a 2x16 LCD, LEDs, UART, CAN and USB interfaces, piezo buzzer and test buttons in a versatile stand-alone test platform.

    A wide choice of development tool support is readily available from third-party tool suppliers.

    Возможности:

    • STR710FZ2T6 with processor running at up to 48 MHz, in a 144-pin TQFP package with:
      • 256 Kbytes Flash program memory
      • 64 Kbytes RAM
      • Embedded 1.8V voltage regulator for core supply
      • Nested interrupt controller and more
    • Hardware features for evaluating a range of device peripherals including:
      • USB
      • CAN
      • RS-232
      • I2C EEPROM
      • SPI Flash
      • 2x16 character LCD display
      • 4 Mbytes EMI SRAM (2 M x 16)
      • 4 Mbytes EMI Flash (2 M x 16)
      • User test buttons
      • Analog channel
    • Industry standard JTAG connector for development tool support

    Документация:
    • Даташит
    Описание:

    В проекте реализован однофазный счётчик электроэнергии класса 0,2 согласно ANSI / IEC с усиленной защитой от электростатического разряда. Кроме того, в данном проекте есть возможность связи по ZigBee™. Для выполнения всех метрологических функций данного счётчика электроэнергии используется система на кристалле (SoC), которая также передаёт данные об активной мощности на дополнительную плату CC2530EM. Разработчики могут использовать парный проект домашнего дисплея от TI (TIDM-LOWEND-IHD) для отображения данных в режиме удалённого доступа.

    В данном базовом проекте использован MSP430F6736A. Также в данном базовом проекте можно использовать MSP430F6736.

    Возможности:

    • Однофазный счётчик электроэнергии, который превосходит требования к устройствам класса 0,2 согласно ANSI и IEC
    • Успешно прошёл испытания на разряд в воздухе уровня 4 согласно IEC 61000-4-2 (подробно см. в руководстве проекта)
    • Прощивка Energy Library от TI позволяет рассчитать все параметры измерений электроэнергии, включая активные и реактивные мощности и энергии, среднеквадратичные значения тока и напряжения, коэффициент мощности и частоту в электросети
    • Поддержка подключения по ZigBee® к домашнему дисплею или подключений по Wi-Fi®, беспроводной M-Bus и IEEE-802.15.4g к дополнительным модулям связи
    • Автоматическое или ручное переключение между главным и вспомогательным источниками питания для метрологического движка

    Возможность заказа
    • Заказать PCB
    Документация:
    • Даташит
    • Схемотехника
    • Програмное обеспечение
    • BOM
    • Топология платы
    Описание:

    Базовый проект, в котором используются TRF79xxA в связке с микроконтроллером MSP, представляет собой полнофункциональный считыватель RFID- и NFC-карт с питанием от батареи. В данном проекте подробно описываются детали процесса добавления NFC-/ RFID-функционала в уже существующий дизайн путём встраивания простой схемы и небольшой прошивки с логическими циклами управления.

    Данный базовый проект имеет характер аппаратно-программного решения.

    Возможности:

    • Сверхнизкий уровень энергопотребления для применений с питанием от батареи
    • Включает в себя графический интерфейс пользователя на ПК для полноценной отладки
    • Используется МК NFC- / RFID-приёмопередатчика TRF7970A с частотой 13,56 МГц, которая может функционировать по всему миру
    • Включает в себя полный набор аппаратных и программных файлов проекта, а также тестовые данные
    • В данном базовом проекте может использоваться практически любой микроконтроллер MSP Требуется лишь параллельный или SPI-интерфейс для сопряжения приёмопередатчика TRF7970A с МК MSP430
    • Данный базовый проект доступен для заказа (TRF7970AEVM)

    Документация:
    • Даташит
    • Схемотехника
    • BOM
    Описание:

    Данное типовое решение – простой трехфазный счетчик электроэнергии на базе системы на кристалле MSP430F449, прецизионного операционного усилителя LMV324 и LDOTPS76333. Он соответствует требованиям класса точности 0.5 стандартов ANSIC12.20 и IEC-62053. Система на кристалле MSP430F449 – это недорогое решение для инженеров, разрабатывающих устройства мониторинга электроэнергии для коммунальных нужд и промышленного применения. Операционный усилитель используется в цепи измерения напряжения и тока с токового трансформатора. Для удешевления решения используется источник питания на базе TPS76333 с гасящим конденсатором. Аппаратное и программное обеспечение позволяет проводить измерения разных параметров электросети, таких как действующие напряжение и ток, активную и реактивную мощность, коэффициент мощности и частоту. Данное типовое решение позволяет разработчику убедиться в том, что система на кристалле MSP430F449 подходит для разработки недорогого умного электросчетчика.

    Возможности:

    • Трехфазный счетчик, соответствующий требованиям класса точности 0.5 стандартов ANSI и IEC;
    • Встроенное программное обеспечение TI Energy Library позволяет мерить все параметры сети, включая активную и реактивную мощность, действующие ток и напряжение, коэффициент мощности и частоту линии;
    • Встроенный 160-сегментный дисплей;
    • Питание от трехфазной сети.

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

    The USB-EA emulator allows downloading of code to the ADuC83x and ADuC84x family of parts via the EA pin. It enables debugging of parts and can be used with the applicable ADI downloader tools. The USB-EA emulator is connected between the EA pin of the ADuC8xx part and a USB port of a PC with these tools installed. This provides an alternative to debugging via the UART.


    Документация:
    • Даташит
    *Информация о ценах и сроках поставки носит информационный характер. Офертой является только выставленный счет.

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