Отладочные платы для аналоговых компонентов - Решения

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Позиций:
Описание:
The Ethernet PICtail™ Plus 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 Microchip’s Explorer 16 (DM240001) development boards. The development board is populated with Microchip’s 28-Pin ENC28J60 Ethernet controller which interfaces to the RJ-45 female connector. When used in conjunction with the Microchip TCP/IP stack (free download below) the Ethernet PICtail Plus daughter board allows a developer to connect any Microchip 16-bit product to the Ethernet.
Возможности:

Документация:
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Описание:
The Graphics Display Truly 3.2” 240x320 Board is a demonstration board for evaluating Microchip’s graphic display solution and graphics library for 16- and 32-bit microcontrollers. It is an expansion board compatible with the PIC24FJ256DA210 Development Board (DM240312), and Graphics LCD Controller PICtail™ Plus SSD1926 Board (AC164127-5).
Возможности:

    • 3.2” QVGA (240x320) TFT LCD with 18-bit parallel RGB interface
    • Resistive 4-wire touch screen

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Описание:
The Graphics LCD Controller PICtail™ Plus SSD1926 Board is a demonstration board for evaluating Microchip Technology’s graphic display solution and graphics library for 16- and 32-bit microcontrollers. It is an expansion board compatible with the Explorer 16 development board (DM240001) or one of the PIC32 Starter Boards (DM320001, DM320003). The controller board has a connection for the display boards, such as the Graphics Display Truly 3.2 240x320 Board (AC164127-4).


Возможности:

    • Graphics display controller Solomon Systech SSD1926 supporting 4/8 bit STN, 4/8 bit CSTN, 18-bit HR-TFT, and 9/12/18/24 bit TFT interface
    • SD/MMC Card socket, connected to SSD1926 via 4-wire interface
    • 16 Megabit (2Mx8) serial flash memory for additional data storage
    • Display connector for interfacing with different display boards
    • PICtail Plus Interface for connecting to Explorer 16 Development Board
    • PIC32 Starter Kit Connector

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Описание:
As an alternative to the MRF24WB0MA Wi-Fi PICtail/PICtail Plus Daughter Board, we suggest customers purchase the AC164149 for evaluating the MRF Wi-Fi series of modules.

The Wi-Fi PICtail/PICtail Plus Daughter Board is a demonstration board for evaluating Wi-Fi connectivity using PIC microcontrollers and the MRF24WB0MA module. This product is compatible with the Explorer 16 Development Board (DM240001), PICDEM.net2 Development Board (DM163024) and PIC32 Starter Kit (DM320001) with I/O Expansion Board (DM320002).

Возможности:

    • Supports low-power, low data-rate
    • Wi-Fi FCC (USA), IC (Canada), ETSI (Europe) Certified
    • Integrated PCB Antenna with Simple four-wire SPI interface to PIC® microcontroller
    • WEP, WPA-PSK, WPA2-PSK Security

Документация:
  • Даташит
  • Топология платы
Описание:
The PIC-IoT WG Development Board combines a powerful PIC24FJ128GA705 MCU, an ATECC608A CryptoAuthentication™ secure element IC and the fully-certified ATWINC1510 Wi-Fi® network controller - which provides the most simple and effective way to connect your embedded application to the Google Cloud IoT Core. The board also includes an on-board debugger, and requires no external hardware to program and debug the MCU.

Out of the box, the MCU comes preloaded with firmware that enables you to quickly connect and send data to the Google Cloud Platform using the on-board temperature and light sensors. Once you are ready to build your own custom design, you can easily generate code using the free software libraries in MPLAB Code Configurator (MCC).

The PIC-IoT WG Board is supported by MPLAB® X IDE.
Возможности:

    • PIC24FJ128GA705 microcontroller
      • 128 KB Flash Memory & 16 KB SRAM
    • ATWINC1510 WiFi Module
      • Single-band 2.4GHz b/g/n IoT Network Controller, Pre-certified Module
    • ATECC608A CryptoAuthentication™ device
      • Protected Storage for 16 Keys, SHA256, AES-CCM, ECDH (Elliptic Curve Diffie-Hellman), ECDSA
    • Other Board Features
      • Four Status LED’s
        • Blue LED indicates a connection to Wi-Fi network
        • Green LED indicates a connection to the Google Cloud servers
        • Yellow LED indicates a packet of sensor data has been successfully published to the Google Cloud MQTT servers
        • Red LED indicates an Error occurred
      • Two mechanical buttons
      • TEMT6000 Light sensor
      • MCP9808 Temperature sensor
      • mikroBUS header to interface to MikroElekronika click Boards™
    • On-board Debugger
      • Auto-ID for board identification in Microchip MPLAB X
      • Programming and debugging
      • Virtual COM port (CDC)
      • One logic analyser channel (DGI GPIO)
    • USB and battery powered
    • Integrated Li-Ion/LiPo battery charger

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This 24-Volt 3-phase Brushless DC (BLDC) permanent magnet Hurst NT Dynamo motor comes with Hall-Effect sensors for 6-step commutation. It can also be controlled with a sensorless Back EMF (BEMF) or Field Oriented Control (FOC) algorithm. This Hurst motor is perfect for applications in office automation, instrumentation and medical equipment such as high-speed copiers and printers, ATM machines, medical analyzers, mail processing and sorters and general-purpose equipment. This motor has been extensively tested with the dsPICDEM™ MCLV-2 Development Board (DM330021-2), the Low Voltage Motor Control Development Bundle (DV330100) and with the PICDEM MC LV Development Board (DM183021).
Возможности:

    Electrical:
    • Operates in speed or torque mode
    • Supports 2 or 4 Quadrant operation
    • 10Vdc-48Vdc range
    • Up to 32oz-in [226 mN-m] torque (with no gearing)
    • Ultra smooth precision motion quality
    • Approved Class B insulation system

    Mechanical:
    • Long-life ball bearing system
    • Size 17 and NEMA 23 mounting flange
    • Neodymium ring magnets (not arcs)
    • Stainless steel shaft
    • Over 20,000 hours of design life @ rated torque
    • Standard Molex® connectors
    • Small package size with low rotor inertia
    • Up to 3,125 RPM operation

    Reliability:
    • Over 1.5 million hours of combined Life and Reliability Testing
    • In use at major OEM’s in demanding applications

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Описание:
The starter kit accelerates development, debugging, and demonstration for a wide range of low power wireless applications including IEEE 802.15.4, 6LoWPAN, and ZigBee networks.

The kit includes one USB stick with a 2.4GHz transceiver and a USB connector. The included AT86RF230 transceiver's high sensitivity supports the longest range for wireless products. The AT90USB1287 incorporates fast USB On-the-Go.
Возможности:

    • USB stick with a 2.4GHz transceiver
    • USB connector

Документация:
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Руководство по разработке недорогой платы, содержащей антенны для беспроводных систем, работающих в диапазонах до 1 ГГц и 2,4 ГГц.

 

 

Возможности:

  • PCB-антенны;
  • Винтовые антенны;
  • Чипы антенны 169, 433, 868, 915 МГц и 2,4 ГГц;
  • Согласованные сопротивления.

Возможность заказа
  • Заказать BOM
Документация:
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  • BOM
Описание:
В данном базовом проекте CC1101 с целью значительного уменьшения количество используемых компонентов при сохранении радиочастотных характеристик на высоком уровне используется балун от компании Johanson Technology (JTI).

Базовый проект имеет характер аппаратного решения.
Возможности:

Полноценный базовый проект с 2-слойной печатной платой с прилагаемыми к нему схемой электрической принципиальной, Gerber-файлами и перечнем элементов.

Документация:
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  • Схемотехника
Возможности:


Документация:
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The circuit, shown in Figure 1, incorporates a dual axis ADXL203 accelerometer and the AD7887 12-bit successive approximation (SAR) ADC to create a dual axis tilt measurement system. The ADXL203 is a polysilicon surface micromachined sensor and signal conditioning circuit. Acceleration in the X or Y axis will produce a corresponding output voltage on the XOUT or YOUT output pins of the device. The X axis and Y axis are perpendicular to one another. The AD8608 quad op amp buffers, attenuates, and level shifts the ADXL203 outputs so they are at the proper levels to drive the inputs of the AD7887. The rail-to-rail input/output AD8608 is chosen for its low offset voltage (65 ?V maximum), low bias current (1 pA maximum), low noise (8 nV/?Hz), and small footprint (14-lead SOIC or TSSOP). The AD7887 is configurable for either dual or single channel operation via the on-chip control register. In this application it is configured for dual channel mode, allowing the user to monitor both outputs of the ADXL203, thereby providing a more accurate and complete solution. The system maintains an accuracy of 1° over 90° and over temperature. The circuit provides this precision, performance, and range in a low cost, low power, small footprint, calibration dependent solution. The ADXL203 is specified over a minimum temperature range of ?40°C to +105°C and is available in an 8-terminal ceramic leadless chip carrier package (LCC). Figure 1. Dual Axis Tilt Measurement System (Simplified Schematic: Decoupling and All Connection Not Shown)
Возможности:

  • 1 Degree Accuracy over 90 Degrees and Temperature
  • Dual axis to ensure precise accuracy
  • Filtered to reduce inband noise
  • Precision tilt applications

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

The DM080101 Water Tolerant Touch Surface development kit enables easy evaluation of the 2D Touch Surface library. The kit demonstrates water tolerance and noise immunity on a touch pad and has two touch buttons, all controlled by the same MCU.

Возможности:

    • Surface Sensor: 5x6 Surface diamond pattern with dedicated driven shield
    • Two Self-Capacitance Touch buttons
    • ATtiny1617 8-bit AVR Microcontroller - 20 MHz, 16 Kbytes Flash, 2 Kbytes RAM,128 bytes of EEPROM
    • Debugging and Programming: mEBDG with CDC UART
    • LEDs to indicate position and mode
    • LED Driver: MCP23017

Документация:
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Описание:

The DM0164149 Water Tolerant 2D Touch Surface development kit - PIC Edition enables easy evaluation of the 2D Touch Surface library. The kit demonstrates water tolerance and noise immunity on a touch pad and has two touch buttons, all controlled by the same MCU.


Please be aware of the sister kit (DM080101) offering the same functionality and form factor, running the 2D Touch surface library on a ATtiny1617.

The QT8 Xplained Pro Extension Kit (AC164161) enables you to combine a small touch pad with supported XPRO MCU boards, 8bit and 32bit.

Возможности:

    • Touch Pad: 5x6 surface, diamond pattern with dedicated driven shield
    • Two Self-Capacitance, water tolerant Touch buttons
    • PIC16F18456 8-bit PIC Microcontroller - 32 MHz, 28 Kbytes Flash, 2 Kbytes RAM, 256 bytes of EEPROM
    • Debugging and Programming: PKoB 4 (direct MPLAB and Daa Visualizer support
    • LEDs to indicate position and mode
    • LED Driver: MCP23017

Документация:
  • Даташит
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  • Топология платы
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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

Документация:
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  • Програмное обеспечение
Описание:

The Microchip dsPICDEM™ MCSM Development Board is targeted to control both unipolar and bipolar stepper motors in open-loop or closed-loop (current control) mode. The hardware is designed in such a way that no hardware changes are necessary for 8-, 6- or 4-wire stepper motors in either bipolar or unipolar configurations. Software to run motors in open-loop or closed-loop with full or variable micro-stepping is provided. A GUI for controlling step commands, motor parameter input, and operation modes is included. This flexible and cost-effective board can be configured in different ways for use with Microchip’s specialized dsPIC33 Motor Control Digital Signal Controllers (DSCs). The dsPICDEM MCSM Development Board offers a mounting option to connect either a 28-pin SOIC device or a generic 100-pin Plug-In Module (PIM). A dsPIC33CK64MP105 External Op Amp MC PIM (MA330050-1) is included.

The dsPICDEM MCSM Development Board supports terminal voltages up to 80V and currents up to 3A. The dsPIC33C device uses the MOSFET driver to drive the two full-bridge inverters that power the motor windings. The board includes various circuits to perform the following functions:

  • Drive two motor windings with the two on-board full-bridge inverters
  • Measure feedback and other analog signals (i.e., current, DC voltage, Potentiometer and Fault signals)
  • Communicate with a host computer or an external device via USB

The dsPIC33CK64MP105 devices feature an 4-channel, high-speed PWM with Complementary mode output, a programmable ADC trigger on the PWM reload cycle, digital dead time control, internal shoot-through protection and hardware fault shutdown. These features make the dsPIC DSC an ideal solution for high-performance stepper motor control applications where control of the full-bridge inverter is required.

Возможности:

    Motor control interfaces:

    • Two full-bridge inverters
    • Two phase current sense resistors
    • DC bus voltage sense resistor
    • Over-current protection
    • 6-wire stepper motor interface (optional Leadshine Stepper Motor (AC300024) recommended)

    Built-in power supplies:

    • 15V power supply, maximum power available 11 W
    • 3.3V power supply, maximum power available 2 W

    Power supply connectors:

    • 24V power input connector (J6) for the controller and power stage (optional 24-volt power supply AC002013 recommended)
    • Auxiliary Power Tab Fast-On connectors (BP1 and BP2) for the power stage

    Motor control device socket:

    • The dsPIC33FJ12MC202 Motor Control device in SOIC package (U3) footprint (not mounted)

    User Interfaces:

    • One push button (S1)
    • Reset push button (RESET)
    • 10K Ohm Potentiometer (POT)
    • LED indicators for PWM outputs arranged in a full-bridge format
    • LED indicator for over current

    Communication Ports:

    • UART communication via USB (J4)
    • Programming Connectors:
    • ICSP™ connector for programming a dsPIC DSC device (J2)
    • RJ11 connector for programming a dsPIC DSC device (J1)
    • ICSP connector for programming the PIC18LF2450 USB-to-UART Bridge (J3)

Документация:
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Описание:
The Microchip dsPICDEM™ MCHV-3 Development System is intended to aid the user in the rapid evaluation and development of a wide variety of motor control applications using a dsPIC® Digital Signal Controller (DSC). This development system is targeted to control Brushless DC (BLDC) motors, Permanent Magnet Synchronous Motors (PMSM), and AC Induction Motors (ACIM) in sensor or sensorless operation. This flexible and cost-effective tool can be configured in different ways for use with Microchip’s specialized motor control DSCs. The dsPICDEM™ MCHV-3 Development System supports the dsPIC33F and dsPIC33E Motor Control device family and offers a mounting option to connect either a 28-pin SOIC device or a generic 100-pin Plug-In Module (PIM). The system has a three-phase power module device that contains the motor inverter and the gate driver’s circuitry. The circuit drives a BLDC, PMSM, or ACIM motor using different control techniques without requiring any additional hardware. The MCHV-2 supports using either the internal opamps found on certain dsPIC33E products or the external opamps found on the MCHV-3 board for current sensing. It also has Power Factor Correction (PFC) circuitry to meet power regulatory requirements.

The rated continuous output current from the inverter is 6.5A (RMS). This allows up to approximately 2 kVA output when running from a 208V to 230V single-phase input voltage in a maximum 30ºC (85ºF) ambient temperature environment. Therefore, the system is ideally suited for running a standard 3-Phase Induction Motor of up to 1.4 kW (1.8 HP) rating or a slightly higher rated industrial servo-motor. The power module is capable of driving other types of motors and electrical loads that do not exceed the maximum power limit and are predominantly inductive. Furthermore, single-phase loads can be driven using one or two of the inverter outputs. The unit is capable of operating from 90V up to a maximum of 265V.

The MCHV-3(DM330023-3) complements the previous MCHV-2 (DM330023-2) and is fully backwards compatible with the previous MCHV-2(DM330023-2) and all motor control PIMs.
Возможности:

    Power Factor Correction:
    • Maximum output: 1000W at 400V
    • Input voltage range: 85VAC - 265VAC
    • Current feedback circuitry and zero-crossing detection
    • VAC input voltage sensing
    • DC bus sensing and Over-current protection
    • Current sensing using external op-amps on the MCHV-3 board
    Built-In Power Supplies:
    • 15V power supply, maximum power available 11W
    • 3.3V power supply, maximum power available 2W
    • Additional Protection Circuitry:
    • 250 VAC/15A fuse
    • In-rush current limiter
    • EMI filter

    Other Features:
    • Built-in Isolated Debugger / Programmer
    • Real time debug with DMCI integrated MPLAB®

    Motor Control Interfaces:
    • Three-phase inverter (IPM): 400V/6.5A
    • Hall sensors and Quadrature Encoder Interface (QEI)
    • Phase voltage feedback for sensorless BEMF operation
    • DC bus current sense resistor for single shunt resistor vector control
    • Phase current sense resistors for dual shunt resistor vector control
    • Over current protection
    Other Features:
    • Isolated Input/Output control switches
    • Compact design and royalty free software
    • LED Indicators for PWM outputs
    • dsPIC33EP256MC506 Internal Op-Amp PIM included (MA330031)
    • Isolated communication ports : USB and RS232
    • 28,44, and 100-pin dsPIC33F/E device support

Документация:
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The DS1921K Thermochron iButton® Starter Kit provides the basic hardware for a quick evaluation of Maxim’s Thermochron iButton family that communicates using the 1-Wire® protocol. The kit uses the USB port of a Microsoft Windows®-based Personal Computer running Vista®, XP SP2 (or higher), or Microsoft Server Operating Systems Windows 2003 or 2008. The kit includes a DS1921 Thermochron iButton device and all hardware required to communicate with it. The DS1921K is also capable of evaluating any other iButton devices, including the high-capacity Thermochron devices (DS1922L, DS1922T, and DS1923), the Hygrochron device (DS1923), and the temperature-only iButton device (DS1920). Please note that the DS1921 is the only iButton device included in the kit. All other iButton devices may be purchased separately. The easy setup process includes the free download of 1-Wire drivers and the OneWireViewer demonstration software to easily communicate with iButton devices through the PC's USB port. The download site for the free 1-Wire drivers and bundled OneWireViewer is found at:

www.maximintegrated.com/1-wiredrivers

For software developers who wish to create custom iButton applications, Maxim provides documentation and a free library of source code examples at www.maximintegrated.com/ibutton under the Software Development Kits link. Please check our website regularly for software updates.

To evaluate plastic-packaged 1-Wire devices instead of the iButton form factor, use the DS9090K instead of the DS1921K. To evaluate other iButton devices besides the Thermochron devices, see the DS9092K.

EV Kit Contents
QTY DESCRIPTION
1 DS1921G-F5# Thermochron iButton
1 DS9093F Snap-in Fob, Black
1 DS1402D-DR8 dual Blue Dot™ Receptor
1 DS9490R USB to 1-Wire adapter
Возможности:

  • Starter Kit to evaluate the DS1921 Thermochron iButton temperature recording device with a Microsoft Windows-based PC
  • Easy Setup with USB Adapter
  • Free download of 1-Wire drivers and OneWireViewer Demonstration Software
  • Compatible with other Thermochron iButton devices DS1922L, DS1922T, DS1922E, DS1923 (not included)

Документация:
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Описание:
The DS9092K iButton® Starter Kit provides the basic hardware for a quick evaluation of the Maxim iButton family of products that communicate using the 1-Wire® protocol. The kit uses the USB port of a Microsoft Windows®-based Personal Computer running Vista™, XP SP2 (or higher), or Microsoft Server Operating Systems Windows 2003 or 2008. The kit includes several iButtons as well as an assortment of accessories. The easy setup process includes the free download of 1-Wire drivers and the OneWireViewer demonstration software to easily communicate with iButtons through the PC’s USB port. The download site for the free 1-Wire drivers and bundled OneWireViewer is found at:

http://www.maximintegrated.com/1-wiredrivers

For software developers who wish to create custom iButton applications, Maxim provides documentation and a free library of source code examples at http://www.maximintegrated.com/ibutton under the Software Development Kits link. Please check our website regularly for software updates.

To evaluate plastic-packaged 1-Wire devices instead of the iButton form factor, use the DS9090K instead of the DS9092K.

EV Kit Contents
QTY DESCRIPTION
1 DS1904-F5 iButton Real Time Clock
1 DS1971-F3 iButton 256-bit EEPROM
1 DS1971-F5 iButton 256-bit EEPROM
1 DS1990-F5 Serial Number iButton
1 DS1996-F5 iButton 64-kbit Memory
5 DS9093F, DS9093AB/AG/AR/AY key fobs
1 DS1402D-DR8 dual Blue Dot™ Receptor
1 DS9490R USB to 1-Wire adapter

Возможности:

  • Starter Kit to help evaluate iButton technology using a Microsoft Windows-based PC
  • Easy Setup with USB adapter
  • Free download of 1-Wire drivers and OneWireViewer Demonstration Software

Документация:
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Описание:
Supporting CANV 2.0B active with bus rates up to 1Mb/s, this kit includes everything needed to demonstrate, design, develop and configure a CAN node using the MCP250xx CAN I/O Expander family of products.
Возможности:

    N/A

Документация:
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  • Програмное обеспечение
Описание:
ENC28J60-H is world’s smallest Ethernet controller development board with its size of only 30x24 mm. It provides easy connection to any microcontroller with only a few parts via SPI which makes it perfect for adding Ethernet connectivity to embedded applications.

The board features the following: an ENC28J60 10 Mbit Ethernet controller, an on-board RJ45 connector with build in Ethernet transformer and two status LEDs, easy interface to any microcontroller via SPI, compact size in DIL 10 pin format, the distance between pin rows is 0.8”. The PCB is FR-4, 1.5 mm (0,062"), with solder mask, white silkscreen component print, and measures 30 x 24 mm.
Документация:
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Описание:
AD8361ART-EVAL is a fully populated, 4-layer, FR4-based evaluation board. For normal operation, it requires a 2.7 V to 5 V/15 mA power supply. The power supply should be connected to the vector pins labeled VPOS and GND. The RF input signal is applied to the edge-mounted SMA type RF connector (RFIN). The RMS output signal is accessible via the edge-mounted SMA connector (J2).

AD8361-EVALZ is a fully populated, 4-layer, FR4-based evaluation board. For normal operation, it requires a 2.7 V to 5 V/15 mA power supply. The power supply should be connected to the vector pins labeled VPOS and GND. The RF input signal is applied to the edge-mounted SMA type RF connector (RFIN). The RMS output signal is accessible via the edge-mounted SMA connector (VRMS).

Документация:
  • Топология платы
Описание:

The ADXL203EB is a simple breakout board that allows quick evaluation of the performance of theADXL203 accelerometer. The ADXL203 is a 2-axis, low-noise, temperature-stable accelerometer. The small size (1" x 1") of the ADXL203 makes it easy to mount the accelerometer to an existing system without the need for additional hardware and with minimal effect on performance of the system and of the accelerometer.

This page contains all the information related to the ADXL203EB including documentation, pricing, and ordering information.


Документация:
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Описание:

120W x 2 Channel Class D Audio Power Amplifier Using the IRS2092S and IRF6645


Benefits:

  • 120W x 2 Channels (THD=1%, 1kHZ)
  • 0.005% THD+N @ 60W, 4 Ohms
  • 170 µV Distortion, IHF-A weighted, AES-17 filter
  • 96% Efficiency @ 120W, 4 Ohms, Single Channel Driven, Class-D Stage
  • OCP, OVP, UVP, DC protection and OTP
  • Self-oscillating half-bridge topology with optional clock synchronization
  • Featuring IRS2092S Controller and Gate Driver IC and IRF6645 DirectFET MOSFETs

Target Applications:

  • Class D Audio
Документация:
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Описание:

25W-500W Scalable Output Power Class D Audio Power Amplifier Reference Design. Using the IRS2092 Protected Digital Audio Driver


Benefits:

  • 250 W x 2 channels, (THD=1%, 1kHz, 4 Ohms)
  • 0.05% THD+N distortion @ 120W, 4 Ohms
  • Residual noise 200 µV, IHF-A weighted, AES-17 filter
  • All through-hole components on single layer PCB
  • OCP, OVP, UVP, DC protection and OTP
  • Half bridge/ full bridge selector
  • Featuring IRS2092 Gate Driver IC and IRFI4019H-117P MOSFETs

Target Applications:

  • Class D Audio
Документация:
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  • Схемотехника
  • Топология платы
Описание:

25W-500W Scalable Output Power Class D Audio Power Amplifier Reference Design. Using the IRS2092 Protected Digital Audio Driver


Benefits:

  • 250 W x 2 channels, (THD=1%, 1kHz, 4 Ohms)
  • 0.01% THD+N distortion @ 120W, 4 Ohms
  • Residual noise 200 µV, IHF-A weighted, AES-17 filter
  • Single layer PCB
  • OCP, OVP, UVP, DC protection and OTP
  • Half bridge/ full bridge selector
  • Featuring IRS2092S Gate Driver IC and IRFI4019H-117P MOSFETs

Target Applications:

  • Class D Audio
Документация:
  • Топология платы
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:
This plug-in module comes with a 64-pin dsPIC33EP512GM706 TQFP device. It enables using the on chip internal OpAmps on the dsPIC device. It can be used with the Microchip MCHV-2 (DM330023-2) and MCLV-2 (DM330021-2) development boards.

Возможности:

    This PIM can be used to evaluate the dsPIC33EPxxxGM7xxx, dsPIC33EPxxxGM6xxx, and dsPIC33EPxxxGM3xxx devices.

Документация:
  • Даташит
Описание:
The MAX3421 evaluation kit-1 (EV kit-1) provides a proven design to evaluate the MAX3421E USB peripheral controller with SPI™ interface. The EV kit contains both a MAX3421E USB host & peripheral controller and a MAX3420E USB peripheral controller for user evaluation and development. Connector J4 is wired to plug into a Keil MCB2130 development board, which contains a Philips ARM controller (LPC2318). The design uses two separate SPI ports to provide independent operation of the two USB controllers (MAX3421E and MAX3420E).

The MAX3421 EV kit-1 adds USB functionality to any microcontroller, microprocessor, DSP, CPLD, FPGA, or ASIC with an SPI master interface, or five GPIO lines.

The EV kit-1 board comes with the MAX3421EEHJ+ and MAX3420EECJ+ installed.

Возможности:

  • Ideal USB Training and Debugging System
  • Mates to Keil MCB2130 Development Board
  • Can Be Wired into User Systems
  • MAX3421E Can Be Used as USB Host or Peripheral
  • MAX3420E Provided On-Board as a Test Peripheral
  • MAX3420E Can be Used to Develop USB Peripheral Code

Документация:
  • Даташит
Описание:
The MAX3535E evaluation kit (EV kit) is a fully assembled and tested PCB that contains a 2500VRMS isolated RS-485/RS-422 transceiver with ESD protection. The EV kit circuit features a differential driver and one receiver. The circuit’s receiver is a 1/8 unit load for the RS-485 bus and communicates up to 1000kbps. The MAX3535E fail-safe circuitry and driver slew-rate features are demonstrated and easily reconfigured.

Additionally, the EV kit features an H-bridge DC-DC converter to power the isolated section of the MAX3535E RS-485/RS-422 circuit. Input power to the circuit is supplied by a +3V to +5.5VDC source. This circuit uses a full-wave rectifier on the unregulated output and provides unregulated voltage to the MAX3535E internal, linear low-dropout (LDO) regulator. Using an H-bridge design minimizes input ripple current and radiated noise. Undervoltage lockout (UVLO) and thermal shutdown provide for a robust, isolated RS-485/RS-422 transceiver circuit and power supply. The surface-mount transformer provides up to 2500VRMS galvanic isolation and the output is powered from a center-tapped, full-wave rectifier circuit to reduce output voltage ripple.

The isolated H-bridge DC-DC converter operation at 420kHz allows the use of ceramic-only output capacitors and a small transformer.

Возможности:

  • Designed for 2500VRMS Isolation
  • 1/8 RS-485 Unit Load
  • 1000kbps Full-Duplex RS-485/RS-422 Communication (Configurable for Half Duplex)
  • +3.0V to +5.5VDC Input Range
  • Isolated VCC2 Output
  • Center-Tapped, Full-Wave Rectifier Output
  • 420kHz Switching Frequency
  • Undervoltage Lockout (UVLO) and Thermal Shutdown
  • Low-Cost Integrated-FET H-Bridge Design
  • Fully Assembled and Tested

Документация:
  • Даташит
Описание:
Based on Microchip's new low power IEEE 802.11b/g/n Wi-Fi module the RN1810, the RN1810 PICtail™/ PICtail Plus Daughter Board allows customers to easily develop Wi-Fi applications using Microchip’s 8, 16 and 32-bit PIC® microcontrollers. The kit includes a fully integrated TCP/IP stack allowing for a simple serial to Wi-Fi connection to the microcontroller. The board features a USB interface for easy plug-and-play development with a PC. The board is also compatible with the Explorer 16 Development Board (DM240001), PICDEM.net2 Development Board (DM163024) and PIC32 Starter Kit (DM320001) with I/O Expansion Board (DM320002).
Возможности:

    • Enables rapid development with the RN1810 low power 802.11b/g/n Wi-Fi module
    • PICtail™ and PICtail Plus interfaces for connection to Microchip Explorer 16 (DM240001) , PIC32 I/O Expansion board (DM320002) or PIC18 Explorer (DM183032) development boards
    • On-board USB to UART bridge for easy development from PC
    • On-board connection and data status LEDs
    Module Features:

    • IEEE 802.11b/g/n Compliant Transceiver
    • 2.4 GHz IEEE 802.11n Single Stream 1x1
    • UART Interface to Host Controller (4-wire including RTS/CTS)
    • Configured using Simple ASCII Commands
    • Supports Infrastructure and SoftAp Networking Modes
    • Built-In Networking Applications: IPv4/IPv6, TCP, UDP, DHCP, DNS, ICMP, ARP, HTTP, FTP, SNTP, and SSL/TLS
    • Complete On-Board TCP/IP Networking
    • Upgrade Firmware Over the Air using TFTP
    • Supports Wi-Fi® Protected Setup (WPS)
    • Modular Certified for the United States (FCC), Canada (IC), Europe, Australia, New Zealand, Korea, Taiwan, and Japan

Документация:
  • Даташит
Описание:

The STEVAL-MKI013V1 is an adapter board designed to allow the evaluation of the LIS302DL, a low-power 3-axis linear accelerometer with digital output. The adapter board offers an effective solution for fast system prototyping and device evaluation directly within the user’s own application.

The STEVAL-MKI0013V1 is designed to be plugged into a standard DIL 24 socket. It provides the user with the complete LIS302DL pinout, and comes ready-to-use with the required decoupling capacitors on the Vdd power supply line.

This adapter is supported by STEVAL-MKI109V2: it is a motherboard including a high-performance 32-bit microcontroller which functions as a bridge between the sensor and a PC, on which it is possible to use the downloadable graphical user interface (Unico GUI), or dedicated software routines for customized applications.

Возможности:

  • Complete LIS302DL pinout in standard DIL 24 socket
  • Fully compatible with STEVAL-MKI109V2 motherboard

Документация:
  • Даташит
  • BOM
  • Топология платы
Описание:

TIDA-00204 – референс дизайн, позволяющий оценить производительность двух гигабитных физических уровней DP83867 для индустриальных приложений и управляющего процессора Sitara со встроенным Ethernet MAC и свитчем. Плата разработана в соответствии с требованиями EMI и EMC. Встроенное программное обеспечение включает в себя драйвер физического уровня, UDP и TCP/ IP стеки и пример HTTP веб сервера. Хост-процессор сконфигурирован для загрузки предустановленного образа с SD-карты памяти. Виртуальный USB COM порт обеспечивает доступ к регистрам физического уровня Ethernet. Интерфейс JTAG позволяет создавать и загружать собственное программное обеспечение.

 

Возможности:

  • EMI и EMC - совместимый дизайн с широким диапазоном напряжения питания (17-60 В), использующий два гигабитных физических уровня DP83867IR и процессор AM3359 семейства Sitara для работы в тяжелых промышленных условиях;
  • Превосходит CISPR 11/ EN55011 Class A по требованиям излучения >4,6 дБ;
  • Превышает требования IEC61800-3 по EMC защите:
    • +/-6 kV ESD CD по IEC 61000-4-2,
    • +/-4 kV EFT по IEC 61000-4-4,
    • +/-2 kV Surge по IEC 61000-4-5;
  • Прошивка Sitara AM3359 включает UDP и TCP/ IP стек и пример HTTP веб сервера, загружается с SD-карты памяти, обеспечивая возможность автономной работы;
  • Доступ к регистрам DP83867IR по USB виртуальному COM порту для настройки конфигурации физического уровня, в том числе RGMII Delay Mode Hardware, поддерживающего Start-of-Frame Detect для использования стандарта IEEE1588 PTP.

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

Базовый проект физического уровня Ethernet в стандартном промышленном форм-факторе позволяет клиентам Texas Instruments оперативно разрабатывать системы и выводить их на рынок благодаря использованию промышленных приёмопередающих устройств физического уровня Ethernet от TI, которые полностью соответствуют требованиям EN5501 класса A по ЭМП. Для связи с платой управления на базе 32-битного процессора с ядром Cortex M4 присутствует 50-выводной интерфейс. Данная плата выполнена в малых габаритах (2 дюйма x 3 дюйма), что упрощает её встраивание в уже существующие продукты.

В данном базовом проекте демонстрируется продвинутый функционал приёмопередающих устройств физического уровня Ethernet DP83848K, он поддерживает интерфейсы 10/100 Base-T и соответствует требованиям стандарта IEEE 802.3. Данный базовый проект работает от одного напряжения питания (5 В с использованием интегрированного регулятора или 3,3 В) Все прочие напряжения, необходимые для приёмопередатчиков физического уровня Ethernet, генерируются на печатной плате.

Возможности:

  • Соответствует требованиям EN5501 класса A по излучаемым помехам
  • Низкая потребляемая мощность: 264 мВт
  • Физический уровень DP83848K в конфигурации интерфейса MII
  • Поддержка программируемого светодиодного отображения статусов связи и активности
  • Внешний изолирующий трансформатор с синфазным дросселем на стороне физического уровня для повышения ЭМС и невосприимчивости к ЭМП
  • Защита от электростатического разряда по модели человеческого тела на приёмной и передающей линиях с рейтингом 4 кВ

Документация:
  • Даташит
  • Схемотехника
  • BOM
  • Топология платы
  • Тестирование
Описание:
Проект TIDA-00662 представляет собой высокопроизводительное аппаратное средство емкостного датчика. Измерение импеданса и изменения в детектировании фазы реализуются с помощью использования аудиокодека на программируемом миниатюрном ЦСП. Данное аппаратное средство, производящее измерения в частотной области, предназначено для применения в передатчиках данных о давлении и потоке жидкости, а также в других системах с емкостными чувствительными элементами.
Здесь Вы можете получить больше информации о NewTec.

Базовый проект имеет характер аппаратно-программного решения.
Возможности:

  • Измерения в частотной области позволяют выявлять точные значения сдвигов фаз для измерения изменений в импедансе и фазе
  • Подходит для применения в передатчиках данных о давлении и потоке жидкости, в которых используются емкостные чувствительные элементы
  • Использование функций миниатюрного ЦСП аудиокодека позволяет измерять изменения в импедансе или фазе
  • Физическая реализация в форм-факторе BoosterPack для совместимости со всеми LaunchPad от компании TI

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
  • Програмное обеспечение
  • BOM
  • Топология платы
Описание:
Данный базовый проект представляет собой базовую платформу на основе системы на кристалле (System-On-Chip, SoC) 66AK2Gx, состоящей из ЦСП и процессора с ядром от ARM, и аудиокодека AIC3106, которая позволяет получить быстрый доступ к дизайну и демонстрации алгоритма обработки аудиосигналов. Данный проект решения системы обработки аудиосигналов включает в себя программное обеспечение в формате реального времени на базе набора для разработки программного обеспечения (SDK) для процессоров TI RTOS, в котором демонстрируется блок обработки аудиосигналов в ЦСП для добавления аудиоэффектов.

Базовый проект имеет характер аппаратно-программного решения.
Возможности:

  • Программируемый трёхполосный эквалайзер с возможностью управления коэффициентом усиления
  • Простой последовательный пользовательский интерфейс
  • Вход для цифрового радиосигнала с частотой выборок до 96 кГц
  • Реализация системы обработки аудиосигналов на базе ЦСП

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

Данное типовое решение – высокоинтегрированная носимая беспроводная платформа для разработки в форм-факторе спортивных часов. Она может быть использована как платформа для разработки часов, как дисплей отображения информации для беспроводной сети или как беспроводное устройство сбора данных. Это полнофункциональная платформа для разработки на базе системы на кристалле (SoC) CC430F6137 <1 GHzс 96-сегментым LCD дисплеем, встроенным датчиком давления и трехосевым акселерометром.

Возможности:

  • Полнофункциональные спортивные часы на базе CC430F6137 (микроконтроллер MSP430™ со встроенным трансивером <1 ГГц);
  • Часы могут быть перепрограммированы для применения в пользовательских беспроводных приложениях;
  • Высокоинтегрированные часы имеют встроенный трехосевой акселерометр, датчики давления и температуры, а также датчик напряжения на батарее;
  • 96-сегментный LCD дисплей управляется микроконтроллером CC430;
  • Поддерживают беспроводное подключение к датчикам пульса, педометрам и другим устройствам на базе РЧ трансиверов, таких как CC430 или CC11xx;
  • Для подключения к ПК и программирования/отладки в реальном времени в поставку входит USB эмулятор eZ430-RF;
  • Решение протестировано и включает в себя встроенное программное обеспечение, файлы с описанием аппаратной части и документацию.
 

Документация:
  • Даташит
  • Схемотехника
  • BOM
Описание:
The TPA2010D1 audio power amplifier evaluation module is a complete, low-power single-channel audio power amplifier. It consists of the TI TPA2010D1 2.5-W low-voltage Class-D audio power amplifier IC in a very small NanoFree WCSP package, along with a small number of other parts mounted on a circuit board that is approximately one and a quarter inches square.
Документация:
  • Даташит
  • Схемотехника
  • Топология платы
Описание:
TPA6204A1 - монофонический усилитель с дифференциальным входом мощностью 1,7 Вт, предназначенный для управления динамиком с импедансом не менее 8 Ом  и занимающий на плате площадь всего 20 мм2 в большинстве приложений.

Микросхема работает при напряжении питания от 2,5 В до 5,5 В, потребляя только 4 мА тока в состоянии покоя. Усилитель TPA6204A1 выпускается в компактном корпусе QFN (DRB) 3 мм x 3 мм. 

TPA6204A1 идеально подходит для использования в КПК и смартфонах благодаря таким функциям, как подавление шума по напряжению питания 80 дБ в диапазоне от 20 Гц до 2 кГц, имунность к работе радиочастотных выпрямителей, небольшая площадь печатной платы и быстрый запуск.
Документация:
  • Даташит
  • Схемотехника
  • Топология платы
Описание:
WIZnet’s W5200 Ethernet PICtail™ (Plus) board provides 10/100Mbps, half/full duplex Ethernet connectivity by onboard WIZnet W5200 Ethernet controller, which has a hardwired TCP/IP processing engine.

The board has both PICtail™ headers and PICtail™ Plus side-edge connectors designed to be plugged into the Explorer 16 (DM240001), PIC32 I/O Expansion Board (DM320002), PICDEM.net 2 (DM163024), PIC18 Explorer (DM183032), and other supported development boards.

The board has fast SPI interface, 2K EEPROM with EUI-48™ Node Identity (MAC address) and RJ-45 connector. It also provides Auto-negotiation, Auto-MDI/MDIX, Power-Down Mode and Wake-on-LAN functionalities.

WIZnet’s W5200 Ethernet PICtail™ (Plus) board supports both Microchip’s software TCP/IP Stack and WIZnet’s hardwired TCP/IP Stack simultaneously on PIC18, PIC24, dsPIC and PIC32 platforms. The Hardwired TCP/IP Stack especially fits well for Simple Internet connectivity for PICs with small program memory size like PIC16.

For more information and downloads visit the WIZnet page.
Возможности:

    • WIZnet W5200 Fast SPI Ethernet controller with Hardwired TCP/IP stack
    • Magnetic RJ-45 Connector
    • Microchip 2K SPI Bus Serial EEPROM with EUI-48™ Node Identity
    • Supports Auto-negotiation, Auto-MDIX, 10Base-T/100Base-TX
    • PICtail™ and PICtail™ Plus Daughter Board connection interface
    • Compatible with many boards with PICtail™ and PICtail™ Plus interfaces, including Explorer 16 Development Board, various PICDEM™ boards

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

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