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Автоматизация производства и управления

Описание:
The PIC10F32X Development Board is intended to be a learning tool for individuals interested in PIC ® microcontroller design and developing applications using the Configurable Logic Cell, Complimentary Waveform Generator and Numerically Controlled Oscillator peripherals. The PIC10F322 microcontroller is ideal for use on the PIC10F32X Development Board due to its small size, high efficiency, speed and peripheral configurations.
Возможности:

    • PIC10F320
    • Configurable Logic Cell
    • Complementary Waveform Generator
    • Numerically Controlled Oscillator

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Описание:
The Graphics Controller PICtail™ Plus Epson S1D13517 Board allows evaluating Microchip Technology’s solution and graphics library for 16- and 32-bit microcontrollers. The Epson S1D13517 offers hardware acceleration for alpha-blending, transparency, animation, multiple buffering, and picture in picture. The kit is compatible with the Explorer 16 development board (DM240001) or one of the PIC32 Starter Boards (DM320001, DM320003).
Возможности:

    • Graphics display controller Epson S1D13517 supporting 18-bit HR-TFT, and 9/12/18/24 bit TFT 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:
The Graphics Display Truly 7” 800x480 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 Graphics LCD Controller PICtail™ Plus S1D13517 Board (AC164127-7).
Возможности:

    • 7” WVGA (800x480) TFT LCD with 24-bit parallel RGB interface
    • Resistive 4-wire touch screen
    • AR1020 Resistive Touch Controller

    7” WVGA (800x480) TFT LCD with 24-bit parallel RGB interface

    Resistive 4-wire touch screen

    AR1020 Resistive Touch Controller

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Описание:
The Low-Cost Controllerless (LCC) Graphics PICtail Plus Daughter Board enables development of graphics solutions without an external graphics controller, thus reducing system BOM cost for many applications. The board is designed to attach to a PIC32 starter kit (DM320001, DM320003-2, DM320004) or an Explorer16 development board (DM240001) and one of Microchip LCD Modules including the Truly 3.2” QVGA board and the 4.3” WQVGA Powertip display panel

Возможности:

    • Can drive QVGA 8bpp with PIC32 alone
    • Can drive WQVGA 16bpp with external 256KB SRAM Frame buffer
    • Display connector for interfacing with different display boards
    • PICtail Plus Interface for connecting to Explorer 16 Development Board
    • Starter Kit Connector

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Описание:
The PIC32 VGA Camera Sensor (VCS) PICTail™ Plus (AC164150) is a demonstration board for evaluating Microchip Technology’s basic surveillance and vision solutions using 32-bit microcontrollers. It can capture & process 8-bit gray scale or color images with up to 640x480 resolution. It interfaces to the I/O expansion board (DM320002) with PIC32 starter kits (DM320004 or DM320003-2), Graphics Controller PICTail™ Plus Epson S1D13517 Board (AC164127-7) and Graphics Display Truly 5.7” 640x480 Board (AC164127-8).
Возможности:

    • 640x480 VGA Color CMOS Sensor on our standard PICTail™ plus form factor
    • Based on the Omnivision OVM7690 CameraCubeChipTM
    • Convenient test points for video sync and clock sync
    • Jumper configurable for display out or image transport over Ethernet
    • Typical Applications include Image capture, Processing and Connectivity

    Note: When using the PIC32 Ethernet Starter kit (DM320004), an external crystal needs to be attached to (Y1) on the board

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Описание:
This adapter enables PIC32 Starter Boards to connect to the Plug-In Module on Explorer 16. Users can inspect the functionality on the Explorer 16 or connect PICtail Plus daughter cards for application-specific development.
Возможности:

    See document below.

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Описание:
The IC Plus IP101G PHY Daughter Board is populated with the IEE 802.3/802.3u compliant single port Fast 10/100Mbps Ethernet Transceiver with support for Auto MDI/MDIX function, hardware interrupt and duplex status change IP101G Ethernet PHY. It is designed for easy development of RMII Ethernet control applications when plugged into the PIC32 compatible Starter Kits .

The IC Plus IP101G PHY Daughter Board (AC320004-2) enables Ethernet communication with the starter kits listed below.

Возможности:

    • 10/100Mbps IEEE 802.3/802.3u compliant Fast Ethernet transceiver
    • Supports 100-Base-TX/Fx Media Interface
    • Supports MII/ RMII Interface
    • Supports Auto MDI/MDIX function

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Описание:
Microchip'sLAN8720A PHY Daughter Board is populated with high-performance, small-footprint, low-power 10BASE-T/100BASE-TX Ethernet LAN8720A PHY . It is designed for easy development of RMII Ethernet control applications when plugged into the PIC32 compatible Starter Kits .

The LAN8720A PHY Daughter Board (AC320004-3) enables Ethernet communication with the starter kits listed below.

Возможности:

    • High-Performance 10/100 Ethernet Transceiver
      • Compliant with IEEE802.3/802.3u (Fast Ethernet)
      • Compliant with ISO 802-3/IEEE 802.3 (10BASE-T)
    • Comprehensive flexPWR® Technology
      • Flexible Power Management Architecture
    • В„HP Auto-MDIX support

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Описание:
The Microchip PIC32MZ Starter Kit Adaptor Board, features a 168-pin to 132-pin connector, enables the use of PIC32MZ starter kits that have a 168-pin interface with the following PIC32 hardware:

  • Multimedia Expansion Board (MEB) – Part # DM320005
  • PIC32 I/O Expansion Board – Part # DM320002
  • Low-Cost Controller-less (LCC) Graphics PICtail Plus Daughter Board – Part # AC164144
  • Graphics LCD Controller PICtail Plus SSD1926 Board – Part # AC164127-5
  • Graphics PICtail Plus Epson S1D13517 Board – Part # AC164127-7
Возможности:

    .

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Возможности:

    Feature Benefit
    GSM Communications Text messaging and cellular phone connection
    GPRS Communications Packet data communications – images, location information, etc
    GPS Satellite Positioning for easy tracking and Location Based Services

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Описание:
The PIC32 Audio Codec Daughter Board AC320100 is a high-performance stereo codec board for selected PIC32 hardware development platforms. This board features the AKM AK4642EN stereo codec, which includes built-in microphone and headphone amplifiers. This board is suitable for adding audio input and output capabilities to the PIC32 Bluetooth Starter Kit (DM320018), and is compatible with the PIC32 Bluetooth Audio Development Kit (DV320032).

- Based on the AKM 4642 16-bit audio codec
- The board replaces the Audio DAC (AK4384) daughter board on the PIC32 Bluetooth Audio Development Kit (DV320032)
- This enables microphone capability and full duplex audio I2S from the PIC32
o Audio voice capture
o Bluetooth Hands free profile
o Integrated MEMS microphone on board, or external microphone input
- Can enable the PIC32 Bluetooth Starter Kit (DM320018) with audio in specific applications
- Has a new application featured in MPLAB Harmony v1.03 and later, with more to come
Возможности:

    The PIC32 Audio Codec Daughter Board AC320100 features include:
    • AK4642EN Stereo Input / Output Codec
    • MCP1801 Power Regulator
    • On-board MEMs Microphone
    • 3.5 mm Inputs and Outputs:
    - Line In
    - External Mic In
    - Line Out
    - Headphone Out

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Описание:
The MEB/MEB II UART-to-USB Adapter Board (AC320101) uses the MCP2200 Breakout Module (ADM00393) to convert USB-to-UART signals that can be accessed directly by the PICtail™ connector on either

Multimedia Expansion Board (MEB) DM320005

Multimedia Expansion Board II (MEB II) DM320005-2.
Возможности:

    This Adapter Board uses the MCP2200 to convert USB signals to UART Protocol. The board can be directly connected to the MEB/MEB II PICtail Connector.

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Описание:
The PIC32 mTouch Capacitive Touch Evaluation Board is designed to facilitate the development of capacitive touch-based applications using PIC32-series microcontrollers. This evaluation board includes an on-board PICkit serial interface, an ICSP header, a USB connector (for power only), and a 16-bit LED display. The board also includes a 24-pin header that can be used to interface the 2-channel and 4-channel slider plug-in boards, the 12-matrix key plug-in board and the 8-direct key plug-in board. These plug-in boards are included in the mTouch Capacitive Touch Evaluation Kit (sold separately, DM183026-2).
Возможности:

    N/A

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Описание:
This circuit uses the ADuCM360/ADuCM361 precision analog microcontroller in an accurate thermocouple temperature monitoring application. The ADuCM360/ADuCM361 integrates dual 24-bit sigma-delta (Σ-Δ) analog-to-digital converters (ADCs), dual programmable current sources, a 12-bit digital-to-analog converter (DAC), and a 1.2 V internal reference, as well as an ARM Cortex-M3 core, 128 kB flash, 8 kB SRAM, and various digital peripherals such as UART, timers, SPIs, and I2C interfaces.

In the circuit, the ADuCM360/ADuCM361 is connected to a thermocouple and a 100 Ω platinum resistance temperature detector (RTD). The RTD is used for cold junction compensation.


In the source code, an ADC sampling rate of 4 Hz is chosen. When the ADC input programmable gain amplifier (PGA) is configured for a gain of 32, the noise-free code resolution of the ADuCM360/ ADuCM361 is greater than 18 bits.




Figure 1. ADuCM360/ADuCM361 as a Temperature Monitor Controller with a Thermocouple Interface (Simplified Schematic, All Connections Not Shown)

Возможности:

  • Typical temperature range of -200 C to +400 C
  • Precision Cortex M3 analog microcontroller with 24-bit sigma-delta ADC
  • T-type thermocouple measurement system with cold junction compensation
  • Single chip solution

Документация:
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  • Топология платы
Описание:
The circuit, shown in Figure 1, is a wideband receiver front end based on the ADA4960-1 ultralow noise differential amplifier driver and the AD9434 12-bit, 500 MSPS analog-to-digital converter.


The third-order Butterworth antialiasing filter is optimized based on the performance and interface requirements of the amplifier and ADC. The total insertion loss due to the filter network, transformer, and other resistive components is only 1.2 dB.


The overall circuit has a bandwidth of 290 MHz with a pass-band flatness of 1 dB. The SNR and SFDR measured with a 140 MHz analog input are 64.1 dBFS and 70.4 dBc, respectively.



Figure 1. 12-Bit, 500 MSPS Wideband Receiver Front End (Simplified Schematic: All Connections and Decoupling Not Shown) Gains, Losses, and Signal Levels Measured Values at 10 MHz

Возможности:

  • 12-Bit, 500MSPS Wideband Receiver
  • Antialiasing Filter
  • Low Distortion Differential Driver
  • 64dB SNR @ 140MHz Input
  • 70dB SFDR @ 140MHz Input

Документация:
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Описание:
The circuit shown in Figure 1 is a complete high performance resolver-to-digital (RDC) circuit that accurately measures angular position and velocity in automotive, avionics, and critical industrial applications where high reliability is required over a wide temperature range.


Figure 1. High Performance Resolver-to-Digital (RDC) Circuit. Simplified Schematic: All Components, Connections, and Decoupling Not Shown

The circuit has an innovative resolver rotor driver circuit that has two modes of operation: high performance and low power. In the high performance state, the system operates on a single 12 V supply and can supply 6.4 V rms (18 V p-p) to the resolver. In the low power state, the system operates on a single 6 V supply and can supply 3.2 V rms (9.2 V p-p) to the resolver, with less than 100 mA of current consumption. Active filtering is provided in both the driver and receiver to minimize the effects of quantization noise.

The maximum tracking rate of the RDC is 3125 rps in the 10-bit mode (resolution = 21 arc min) and 156.25 rps in the 16-bit mode (resolution = 19.8 arc sec).

Возможности:

  • 10-bit to 16-bit resolver to digital converter
  • High and low voltage drive options
  • Maximum tracking rate of 3125 rps

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Описание:
This circuit uses the ADuC7060 or the ADuC7061 precision analog microcontroller in an accurate thermocouple temperature monitoring application. The ADuC7060/ ADuC7061 integrate dual 24-bit sigma-delta (Σ-Δ) analog-to-digital converters (ADCs), dual programmable current sources, a 14-bit digital-to-analog converter (DAC), and a 1.2 V internal reference, as well as an ARM7 core, 32 kB flash, 4 kB SRAM, and various digital peripherals such as UART, timers, serial peripheral interface (SPI), and I2C interfaces.


In the circuit, the ADuC7060/ ADuC7061 are connected to a thermocouple and a 100 Ω platinum resistance temperature detector (RTD). The RTD is used for cold junction compensation. As an extra option, the ADT7311 digital temperature sensor can be used to measure the cold junction temperature instead of the RTD.


In the source code, an ADC sampling rate of 4 Hz was chosen. When the ADC input programmable gain amplifier (PGA) is configured for a gain of 32, the noise-free code resolution of the ADuC7060/ ADuC7061 is greater than 18 bits.


The single edge nibble transmission (SENT) interface to the host is implemented by using a timer to control a digital output pin. This digital output pin is then level shifted externally to 5 V using an external NPN transistor. An EMC filter is provided on the SENT output circuit as recommended in Section 6.3.1 of the SENT protocol (SAE J2716 Standard). The data is measured as falling edge to falling edge, and the duration of each pulse is related to the number of system clock ticks. The system clock rate is determined by measuring the SYNC pulse. The SYNC pulse is transmitted at the start of every packet. More details are provided in the SENT Interface section.


Figure 1. ADuC7060/ADuC7061 as a Temperature Monitor Controller with a Thermocouple Interface (Simplified Schematic, All Connections Not Shown)

Возможности:

  • Thermocouple sensor with cold junction compensation
  • Automotive SENT interface

Документация:
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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.

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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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Microchip’s Digital Pure Sine Wave Uninterruptible Power Supply (UPS) Reference Design is based on the dsPIC33F “GS” series of digital-power Digital Signal Controllers (DSCs). This reference design demonstrates how digital-power techniques when applied to UPS applications enable easy modifications through software, the use of smaller magnetics, intelligent battery charging, higher efficiency, compact designs, reduction in audible and electrical noise via a purer sine-wave output, USB communication and low-cost overall bill-of-materials. This reference design is Royalty Free. Click here for a list of complete documentation and software & hardware design information.

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.

The Digital Pure Sine Wave UPS System operates in two modes:

Standby Mode – Operational in the presence of AC line voltage; battery is charged in this mode.
UPS Mode – Operational during power outage; the system switches to a function called inverter to provide power to load. Charge stored in the battery is converted to AC output.

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Возможности:

    • High-frequency design
    • Adjustable Charging current
    • Efficiency of 84%
    • Pure sine wave output with THD <3%
    • Mains to Battery Transfer time < 12 ms
    • Supports Crest Factor of 3:1
    • Minimum Power Factor(Leading/Lagging) of 0.65
    • Fault indications
    • USB Communication with PC
    • LCD front panel

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Summary
The Explorer 8 Development Kit is a full-featured development board and platform for 8-bit PIC® microcontrollers. This kit is a versatile development solution, featuring several options for external sensors, off-board communication and human interface. Additionally, it offers ample room for expansion, making it an excellent solution for developers and engineers looking for a tool with the largest number of supported 8-bit PIC MCUs.

Enterprise-Class 8-bit Development
The Explorer 8 Development Kit is the latest offering in a long line of enterprise-class tools for 8-bit PIC microcontrollers. The board is an evolution of the popular PIC18 Explorer Board, and has been updated to take advantage of our most modern features including:
  • On-chip Core Independent Peripherals
  • Compatibility with all PIC MCUs
  • 8-, 14-, 20-, 28-, 40/44-, 64- and 80-pin footprints
With the Explorer 8 Development Kit, you can have a single development platform that allows you to update a legacy design while supporting our newest MCU offerings.

All-in-One Solution
Microchip designed the Explorer 8 Development Kit to be your main tool for 8-bit development with support for a wide variety of functions. On-board components enable easy development of human interface, power conversion, Internet of Things (IoT), battery charging and other applications using a powerful 8-bit PIC microcontroller. Additionally, the Explorer 8 Development Kit also has a large capacity for expansion. Two Digilent Pmod™ interfaces, two MikroElectronika Click™ board sockets and two custom expansion headers allow you to quickly adapt as your development needs change. The Explorer 8 Development Kit supports several program and debug solutions including the PICkit™ 3, ICD 3 and MPLAB® REAL ICE™ In-Circuit Emulator.

Made for MPLAB® Code Configurator
The Explorer 8 Development Kit seamlessly integrates with MPLAB Code Configurator (MCC) for a modern embedded development experience. MCC is a free software plug-in that bridges our MCUs, development hardware and MPLAB X Integrated Development Environment (IDE). It allows you to generate easily modifiable, production-ready application code for many 8-bit PIC MCUs in just a few mouse clicks. Find out more at www.microchip.com/MCC

Please visit our Explorer 8 Design Center for more information.
Возможности:

    Please visit our Explorer 8 Design Center for more information.

    • Supports all 8-bit PIC microcontrollers from 8 to 80 pins
    • Programming headers and power connections for all MCU sockets
    • Three individual power supplies
    • 5V, 3.3V, variable (1.5-4.5V)
    • 16 × 2 character LCD module
    • External connections for industry-standard communications and expansion interfaces
    • RS232 and Bluetooth® Low Energy interfaces
    • Push button switches for device reset and user-defi ned inputs
    Connection Points

    The Explorer 8 Development Kit supports several options to easily add functionality to your design.

    • Micro USB to I2C or Serial - Use the USB interface for diagnostic or control interfaces. USB to I2C/serial conversion is handled automatically.
    • MikroElektronika Click Board Support - Two sockets provide access to nearly 100 add-on boards, with capabilities ranging from GPS to alcohol sensing.
    • Digilent Pmod Support - Two 12-pin interfaces provide access to expansion boards with options for communications, sensing and power conversion capability.
    • Multiple Expansion Options - A legacy expansion header for PICtail™ daughter card connectivity and a 120-pin edge connector enable you to expand the Explorer 8 Development Kit's capability to suit your needs.
    • 20-pin Add-On Board Connector - Design your own add-on boards for sensor interface or motor drive, and connect them with this simple header.

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The PICDEM LCD 2 Demonstration Board (DM163030) shows the main features of Microchip’s 28, 40, 64 and 80-pin LCD Flash PIC microcontrollers including the LCD voltage booster and contrast controller. It is populated with the PIC18F87J90. Other devices are supported via a transition socket and are available separately. A sample LCD glass display is included for custom prototyping. The glass features 7-segment displays, wipers, thermometers, star bursts, and other common icons.
Возможности:

    Included applications:
    в—Џ Voltmeter
    A/D module measures the voltage of the on board potentiometer and displays a voltage between 0.00V and 3.30V on the LCD.

    в—Џ Thermometer
    The A/D module measures the voltage of the thermistor and converts to temperature both in Celsius and Fahrenheit to continuously display the temperature.

    в—Џ Clock
    Timer/Clock function shows hours:minutes:seconds with a moving second hand using on board 32 kHz watch crystal.

    в—Џ Charge Pump and Software Contrast
    When using the PIC18F87J90 family of devices the LCD module can be configured as a charge pump and software contrast control is activated.

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Summary
The PICDEM™ Lab II Development Board is a development and teaching platform for use with 8-bit PIC® microcontrollers (MCUs). At its center, a large prototyping breadboard enables users to easily "experiment" with different values and configurations of analog components for system optimization. Several external connectors allow for user-customizable expansion, while our library of labs and application notes enrich the development experience. The PICDEM Lab II Development Board is also fully compatible with our latest software development environment.

Embedded Development Powerhouse
The original PICDEM Lab Development Board has remained one of the most popular development tools for PIC MCUs since its introduction. Microchip has taken this concept and expanded it for 21st century embedded development. The PICDEM Lab II Development Board supports any 8-bit PIC microcontroller (6-, 8-, 14-, 18-, 20-, 28- and 40-pin footprints), and provides an expansive array of connections for programming, I/O, analog and communications interfaces. The PICDEM Lab II Development Board will be a valuable resource to engineers across a broad spectrum of specialties, from analog designers looking to explore the power and flexibility of MCU-based systems to engineering professors seeking a flexible and relevant teaching tool that they can add to their curricula.

Hardware Flexibility Enables Experimentation
In keeping with the original, the PICDEM Lab II Development Board was designed to give you a simple development experience without the hassle of and expense of building a custom PCB in the early stages of your project. You can design a system with one or several PIC MCUs, since power and programming connections are replicated across all of the available sockets. Off- chip connections can be made in any manner, and the expansive breadboard provides a convenient area to add analog signal conditioning and drive components to a design. Three separate power supplies give the capability to provide fixed or variable voltage to a system. With several industry-standard interfaces in addition to a system of configurable conntectors, the off-board expansion possibilities are abundant.


Please visit our PICDEM Lab II Design Center for more information
Возможности:

    Please visit our PICDEM Lab II Design Center for more information

    • Supports all 8-bit PIC MCUs from 6 to 40 pins
    • Programming headers and power connections for all MCU sockets
    • Three individual power supplies
    • 5V, 3.3V, variable (1.5-4.5V)
    • Large breadboard area for external analog and sensor connections
    • External connections for industry-standard communications and expansion interfaces
    • Lab hardware and documentation for four labs included in the box
    • RS232 and Bluetooth® Low Energy interfaces
    Connection Points
    • Power Distribution Connectors - Supply power to other parts of your design using one of the PICDEM Lab II Development Board's on-board power supplies.
    • USB to I2C™ - Use the USB interface for diagnostic or control interfaces without worrying about the specifics of USB communication. USB to I2C conversion is handled automatically.
    • MikroElectronika Click Board Support - Two sockets give you access to nearly 100 inexpensive add-on boards, with capabilities ranging from GPS to alcohol sensing.
    • LCD Module Connector - A simple 16-pin connector supports a number of standard segment LCD module interfaces.
    • 20-pin Add-On Board Connector - Design your own add-on boards for sensor connectivity or motor drive, and connect them with this simple interface.

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This is a small demo board with a PIC18F45K20 device on board and a small, surface-mount prototype area. Use it with a PICkit 3 In-Circuit Debugger to program your code via a 6-pin ICSP header on the board. This product also includes two bare PCB boards for those interested in customizing their development. This 44-Pin Demo Board also comes bundled with the PICkit 3 Debug Express if you order the DV164131.

Newer version development tools are available now. Please consider Explorer 8 Development Board (DM160228) for new designs
Возможности:

    This is a small demo board with a PIC18F45K20 device on board and a small, surface-mount prototype area. Use it with a PICkit 3 In-Circuit Debugger to program your code via a 6-pin ICSP header on the board. This product also includes two bare PCB boards for those interested in customizing their development. This 44-Pin Demo Board also comes bundled with the PICkit 3 Debug Express if you order the DV164131.

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Описание:
The PIC18F4XK22 Development Board is a demonstration and development platform for Microchip’s new PIC18F4X/2XK22 series high performance 8-bit microcontrollers. The board provides a platform to highlight this family’s eXtreme Low Power benchmark for lower power consumption and high-performance operation. . It includes the development board, programming lessons, and demos.

The board is suitable for prototyping many low power applications including RF, temperature sensors, electronic door locks, LCD , remote controls, security sensors, smart cards. The PICtail™ interface supports Microchip’s extensive line of daughter cards for easy evaluation of your next low power application.
This low cost board is the ideal complement to the MPLAB® PICkit 3 or ICD 3 debugger and programmer realizing a fully-featured, economical, PIC18 architecture development environment.

Newer version development tools are available now. Please consider Explorer 8 Development Board (DM160228) for new designs
Возможности:

  • 128x64 Organic LED Display (SPI)
  • 32.768 kHz External Oscillator (Timer1)
  • Analog input filtering and gain control into RE1
  • PWM output filtering from RC2
  • 4 push buttons for user interfacing
  • 1 MCLR switch
  • 8 LEDs mapped to PORTD
  • Potentiometer
  • 1024 KB Serial EEPROM
  • MCP9700 temperature sensor
  • PICtail™ daughter board header (breaks out all pins)
  • 6-Pin ICSP™ programming capability header
  • 6-Pin PICkit Serial Analyzer interface
  • Current measurement jumper
  • RJ-11 ICSP programming header
    Power analyzer header

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Satisfy Your Curiosity
Your next embedded design idea has a new home. Curiosity is a cost-effective, fully integrated 8-bit development platform targeted at first-time users, Makers, and those seeking a feature-rich rapid prototyping board. Designed from the ground-up to take full advantage of Microchip's MPLAB X development environment, Curiosity includes an integrated programmer/debugger, and requires no additional hardware to get started.

Your Tool for Function Enablement
Curiosity is the perfect platform to harness the power of modern 8-bit PIC® Microcontrollers. Its layout and external connections offer unparalleled access to the Core Independent Peripherals (CIPs) available on many newer 8-bit PIC MCUs. These CIPs enable the user to integrate various system functions onto a single MCU, simplifying the design and keeping system power consumption and BOM cost low.

Internet of Things Ready
Have an IoT design idea? Curiosity can make it real. Out of the box, the development board offers several options for user interface - including physical switches, an mTouch™ capacitive button, and an on-board potentiometer. A full complement of accessory boards is available via the MikroElectronika Mikrobus™ interface footprint.
In addition, Bluetooth Low Energy communication can easily be added using an available Microchip RN4020 module.

Visit our Curiosity Design Center for Code Examples and other information.
Возможности:

    Visit our Curiosity Design Center for Code Examples and other information.


    • Supports 8-, 14-, 20-pin 8-bit PIC® Microcontrollers with low voltage programming capability
    • Integrated Programmer/Debugger with USB Interface
    • Integrates seamlessly with MPLAB X IDE and Code Configurator
    • Various user interface options - mTouch button, analog potentiometer, and physical switches
    • Mikrobus™ support with over 100 MikroElectronika Click™ add-on boards available
    • RN4020 Bluetooth module footprint
    Note: USB mini-B cable required, not included

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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 Evaluation Board (P/N: XXXXX) 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 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

The centerpiece of the MPLAB Xpress evaluation board is the PIC16F18855 MCU; an 8-bit device with the unique combination of low power consumption, performance to handle almost any application task, and on-chip peripherals that enable you to control your system with a minimal amount of code. The PIC16F18855’s peripherals can be set up graphically using the MPLAB Code Configurator plugin, saving you weeks of development time.

Easy System Expansion

Adding sensors, actuators, and drive circuitry to your design is a simple task using the on-board MikroBus expansion header. Over 180 MikroElektronika ClickTM expansion boards are available; options range from WiFi, Bluetooth, and GSM to relays, motor drivers, and sensors.

Drag-and-Drop Programming

Programming the MPLAB Xpress 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:

    • Compact, credit card sized footprint offers flexibility during prototyping phase
    • On-board PIC16F18855 MCU supports a wide range of applications
    • MikroBus Expansion Header with over 180 off-the-shelf options for adding functionality to your design
    • Integrated drag-and-drop Programmer with USB Interface – no drivers required!
    • Analog potentiometer and pushbutton switches for user input
    • Integrates seamlessly with MPLAB Xpress cloud-based IDE and MPLAB Code Configurator for the quickest development cycle

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

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The PIC18 Starter Kit functions as a USB mouse, joystick or mass storage device all using the on-board capacitive touch sense pads. It includes a MicroSD™ memory card, potentiometer, acceleration sensor, and OLED display. With on-board debugger and programming, and USB power, the starter kit is a low-cost way to get started with the PIC18 family.

This board features the PIC18F46J50 MCU with 64KB Flash, 4KB RAM, XLP low power, mTouch touch sensing and USB. The MCU is running Microchip’s FREE USB bootloader and software framework. The starter kit source code and other resources are included in the MCHPFSUSB Framework, which can be downloaded from Microchip Application Libraries.

Newer version development tools are available now. Please consider Explorer 8 Development Board (DM160228) for new designs
Возможности:

    • PIC18F46J50 MCU with 64KB Flash
    • 4KB RAM
    • XLP low power
    • mTouch touch sensing
    • USB.

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Описание:
The enhanced mTouch Capacitive Touch Evaluation Kit provides a simple platform for developing a variety of capacitive touch sense applications using PIC16F, PIC18F, PIC24F and PIC32 microcontrollers. The Diagnostic Tool provided allows the user to analyze application-critical information in real-time as it relates to touch sensor behavior.

Mother boards for PIC32MX CTMU (AC323027) and PIC24H (AC243026) as well as a Metal Over Cap Accessory kit (AC183026) are also available.

The mTouch Capacitive Touch SW package is included in Microchip Application Libraries.
Возможности:

    • Asimple platform
    • Diagnostic tool to analyze application-critical information
    • Real-time as it relates to touch sensor behavior

Документация:
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Описание:
This low-cost demo board is for evaluation of our PIC18 MCU families. The PIC18 is our highest performance 8-bit architecture and has three different families: standard PIC18, PIC18 J-series and PIC18 K-series. This single development board supports dozens of the general purpose PIC18 families using various processor Plug-In Modules (PIMs). PICtail daughter boards enable many different accessory boards to connect to the PIC18 Explorer board for a flexible and complete development environment. This board is the ideal complement to the MPLAB® PICkit 3 or ICD 3 debugger and programmer for a full-featured, economical, PIC18 development environment.

Newer version development tools are available now. Please consider Explorer 8 Development Board (DM160228) for new designs

Возможности:

    в—Џ Multiple PIC18 processors, both a PIC18F8722 on board (128KB Flash, 80 pins, superset of traditional PIC18 family), and a PIC18F87J11 Plug-In Module (128KB Flash, 80-pins, superset of J-series, PIM adjusts to accommodate 3V device). A switch selects the desired processor.
    в—Џ Supports many other PIC18 devices with Plug-In Modules, supporting 28 to 80-pin PIC18 devices
    в—Џ PICtail ™ daughter board connector for connection to standard expansion boards such as Ethernet, speech playback, and the many different sensors
    в—Џ Expansion connector accesses full device pin-out and breadboard prototype area
    в—Џ Convenient connection for MPLAB PICkit 3, ICD 3 or REAL ICE for in-circuit programming and debugging
    в—Џ Alpha-numeric LCD display
    в—Џ USB interface for USB to RS-232 communication
    в—Џ 25LC256 SPI EEPROM
    в—Џ Crystal oscillator
    в—Џ Potentiometer (connected to 10-bit A/D, analog input channel)
    в—Џ Analog output temperature sensor
    в—Џ LEDs
    в—Џ RS-232 port
    в—Џ Power supply connector and programmable voltage regulator, capable of operation from 2.0V to 5.5V
    в—Џ Demo software including temperature sensor demo included (illustrates Microchip’s analog temperature sensor MPC9701A) and 32 kHz crystal for Real Time Clock demonstration

Документация:
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Описание:
The Explorer 16 Development Board is a low-cost modular development system for Microchip’s 16-bit and 32-bit microcontrollers. It supports devices from the PIC24, dsPIC and PIC32 families. A variety of families are supported with processor Plug-In Modules (PIMs) for easy device swapping. The board includes a PICtail Plus daughter card connector for expansion boards including USB, CAN, Ethernet, wireless, graphics and many more. 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.

Recommendation for Migration:
For 'New Designs' or advanced features requirement, migrate to refreshed and cost effective "Explorer 16/32 Development Board" with several new features. Offering backwards compatibility, the Explorer 16/32 development board facilitates seamless migration from Explorer 16 development board to the new platform.
For further details explore:
Возможности:

  • Includesprocessor 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
  • PICTailTMPlus connector for expansion boards
  • Full documentation in download section below: user's guide, schematics

Документация:
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Описание:
The Explorer 16/32 Development Board is a flexible and convenientdevelopment, demonstration and testing platform for 16-bit PIC24 MCUs, dsPIC® DSCs and 32-bit PIC32 MCUs from Microchip Technology. It features all the necessary hardware to begin developing and debugging a complete embedded application. The board accepts Processor Plug-In Modules (PIMs) designed for the Explorer 16 or Explorer 16/32 development board for easy device swapping. In addition to the hardware features provided by the board, hardware expansion is possible through the use of PICtail™ Plus daughter cards and mikroBUS™ accessory boards. Coupled with the integrated PICkit™-On-Board (PKOB), MPLAB ICD 3 In-Circuit Debugger or MPLAB REAL ICE™ real-time emulation and debug facilities enable faster evaluation and prototyping of application.

Explorer 16/32 Development Board offers only the main board, giving the option to customize the other necessary components. Choose PIM of your choice based on MCUs and DSCs under consideration from wide range of Processor Plug-In Modules. This board is optimal for customers migrating from Classic Explorer 16 to new Explorer 16/32 platform, while all the necessary additional components like Processor Plug-In Modules and PICtail™ Plus Daughter Boards are already available


Also read about Explorer 16/32 Development Kit



Backwards Compatibility
Explorer 16/32 Development Board is completely backwards compatible with the Classic Explorer 16 Development Board (DM240001 and DM240002) and its associated ecosystem that include:
  • Processor Plug-In Modules (PIMs)
  • PICTail™ Plus Daughter Boards
  • Code Examples, Ptototypes and Software Libraries developed on Classic Explorer 16 development Board

Use all of existing codes, libraries, prototypes, PIMs and the PICtail Plus daughter cards interfaced via side PICtail Plus connector directly. Re-use the PICtail Plus daughter cards interfaced via vertical PICtail Plus connector using additional PICtail Plus Expansion Board (AC240100)


Getting Started
  • Read the Explorer 16/32 User's Manual (available at Documentation and Software section of this page)
  • Download the free MPLAB X IDE
  • Download the suitable MPLAB XC Compiler
  • Download and unzip the appropriate firmware demo code (available at Documentation & Software section of this page)
Возможности:

    • 100 pin Plug-In Module (PIM) socket, supporting a wide variety of 16-bit and 32-bit PIC® MCUs and dsPIC® DSCs
    • Power supply
      • USB Power through PICkit™-On-Board (PKOB), USB Type-C™ or USB-Serial Converter
      • 9-15V DC Power Supply
    • On board USB to UART/I2C™ adapter for data exchange with PC/Mac/Linux based host
    • USB Type-C™ (host/device) and Type-A (host) support for applications using USB microcontroller
    • Hardware functionality extension by attaching accessory boards via
      • PICtail™ Plus interface
      • 2x MikroElektronika mikroBUS™ interface
      • 2x Digilent Pmod™ footprint
    • Alpha-numeric 16 x 2 LCD display, 8x User LEDs, 4x Push Buttons, 10k potentiometer
    • Microchip's TC1047A high accuracy, analog output temperature sensor
    • Programmer/Debugger
      • Integrated USB programmer/debugger - PICkit™-On-Board (PKOB)
      • Interfaces to MPLAB ICD 3, MPLAB REAL ICE™, PICkit™ 3
    • Support for all the existing and new PICtail™ Plus Daughter Cards
      • Interface PICtail™ Plus Daughter Cards connected via side PICtail™ Plus connector directly
      • Interface PICtail™ Plus Daughter Cards connected via vertical PICtail™ Plus connector through additional accessory - PICtail™ Plus Expansion Board

Документация:
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Описание:
The Explorer 16/32 Development Kit is a flexible, convenient and ready to start development, demonstration and testing platform for 16-bit PIC24 MCUs, dsPIC® DSCs and 32-bit PIC32 MCUs from Microchip Technology. It features all the necessary hardware to begin developing and debugging a complete embedded application. The board accepts Processor Plug-In Modules (PIM) designed for the Explorer 16 or Explorer 16/32 development board for easy device swapping. In addition to the hardware features provided by the board, hardware expansion is possible through the use of PICtail™ Plus daughter cards and mikroBUS™ accessory boards. Coupled with the integrated PICkit™-On-Board (PKOB), MPLAB ICD 3 In-Circuit Debugger or MPLAB REAL ICE™ real-time emulation and debug facilities enable faster evaluation and prototyping of application.
The development kit comes with Explorer 16/32 main development board, PIC24FJ1024GB610 PIM (MA240023), USB A to micro-B cable, and USB A to Type-C Cable.For out of the box experience, Explorer 16/32 Development Kit is the right choice that comes with all the necessary components to get started with the evaluation and prototyping right away!

Also read about Explorer 16/32 Development Board

Backwards Compatibility

Explorer 16/32 Development Board is completely backwards compatible with the Classic Explorer 16 Development Board (DM240001 and DM240002) and its associated ecosystem that include:
  • Process or Plug-In Modules (PIMs)
  • PICtail Plus Daughter Boards
  • Code Examples, Prototypes and Software Libraries developed on Classic Explorer 16 Development Board

Use all of existing codes, libraries, prototypes, PIMs and the PICtail Plus daughter cards interfaced via side PICtail Plus connector directly. Re-use the PICtail Plus daughter cards interfaced via vertical PICtail Plus connector using additional PICtail Plus Expansion Board (AC240100)

Getting Started
  • Read the Explorer 16/32 User’s Manual (available at Documentation & Software section of this page)
  • Download the free MPLAB X IDE
  • Download the suitable MPLAB XC Compiler
  • Download and unzip the appropriate firmware demo code (available at Documentation & Software section of this page)

Возможности:

    • 100 pin Plug-In Module (PIM) socket, supporting a wide variety of 16-bit and 32-bit PIC® MCUs and dsPIC® DSCs
    • Power supply
      • USB Power through PICkit™-On-Board (PKOB), USB Type-C™ or USB-Serial Converter
      • 9-15V DC Power Supply
    • On board USB to UART/I2C™ adapter for data exchange with PC/Mac/Linux based host
    • USB Type-C™ (host/device) and Type-A (host) support for applications using USB microcontroller
    • Hardware functionality extension by attaching accessory boards via
      • PICtail™ Plus interface
      • 2x MikroElektronika mikroBUS™ interface
      • 2x Digilent Pmod™ footprint
    • Alpha-numeric 16 x 2 LCD display, 8x User LEDs, 4x Push Buttons, 10k Potentiometer
    • Microchip's TC1047A high accuracy, analog output temperature sensor
    • Programmer/Debugger
      • Integrated USB programmer/debugger - PICkit™-On-Board (PKOB)
      • Interfaces to MPLAB ICD 3, MPLAB REAL ICE™, PICkit™ 3
    • Support for all the existing and new PICtail™ Plus Daughter Cards
      • Interface PICtail™ Plus Daughter Cards connected via sidePICtail™ Plus connector directly
      • Interface PICtail™ Plus Daughter Cards connected via vertical PICtail™ Plus connectorthrough additional accessory - PICtail™ Plus Expansion Board

Документация:
  • Даташит
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  • Програмное обеспечение
  • Тестирование
Описание:
The Explorer 16 Development Board is a low-cost modular development system for Microchip’s 16-bit and 32-bit microcontrollers. It supports devices from the PIC24, dsPIC and PIC32 families. A variety of families are supported with processor Plug-In Modules (PIMs) for easy device swapping. The board includes a PICtail Plus daughter card connector for expansion boards including USB, CAN, Ethernet, wireless, graphics and many more. 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.

Recommendation for Migration:
For 'New Designs' or advanced features requirement, migrate to refreshed and cost effective "Explorer 16/32 Development Board" with several new features. Offering backwards compatibility, the Explorer 16/32 development board facilitates seamless migration from Explorer 16 development board to the new platform.
For further details explore:

Возможности:

    • Includes processor PIMs for both 44 pin 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
    • Full documentation in download section below: user's guide, schematics

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The PIC24F Starter Kit contains everything needed to begin exploring the high performance and versatility of the PIC24F microcontroller family. This inexpensive kit includes an integrated in-circuit debugger and programmer, USB device and host connectors, tri color LED, capacitive touch pad and an OLED display. Menu driven demonstration software supports data logging, thumb drive, and graphics applications to test the PIC24F MCU.

Getting Started:
  • Connect the USB cable from the PC to the demo board, and interact with the custom demo application.
OR

  • MPLAB Start Kit for the PIC24F demo support is now distributed as part of the Legacy Microchip Application Libraries(v2013-06-15) :Legacy MLA.The link to the Legacy libraries can also be found in the Documents/Software section below.
  • Once downloaded and installed, demos for this start kit include ‘PIC24F Starter Kit 1’ and nearly all USB related demo projects, please see the USB library release note for details.
    Older software distribution can be found in our archives.
The PIC24F Starter Kit includes integrated hardware debug and programmer circuitry to develop, program and test applications on the board’s PIC24F MCU device --all from the MPLAB graphical development environment. A USB connection to a host computer supplies communications and power to the board --no additional external power supply is needed.

Demos included:
  • Interactive, menu driven display using Parallel Master Port (PMP)
  • Capacitive touch sensing with the Charge Time Measurement Unit (CTMU)
  • Time and data display using the Real Time Clock and Calendar (RTCC)
  • RGB LED Control with three PWMs and Peripheral Pin Select (PPS)
  • USB Flash drive interface with USB embedded host peripheral
  • Real-time data graphing using the ADC and display multi-tasking
  • Real-time data capture using multi-tasking with USB embedded host
Возможности:

    • Easy and inexpensive way to learn the PIC24F 16-bit MCU family
    • Starter kit features the PIC24FJ256GB106 MCU with 256KB Flash
    • Peripherals including CTMU for capacitive touch and USB OTG
    • Integrated debugger
    • Free MPLAB XC16 Compiler

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Описание:
The PIC24E USB Starter Kit provides a low cost method for the development and testing of USB OTG, Host and Device applications on the 60 MIPS PIC24E MCU family. The board contains an on-board programming/debugger, standard A USB and micro A/B connectors, three user-programmable LEDs, three push button switches and an expansion header compatible with the Multimedia Expansion Board (DM320005) and I/O Expansion Board (DM320002). The starter kit comes preloaded with basic Communication Device Class (CDC) demonstration software.
Возможности:

    • PIC24E USB Starter Kit Development Board with a PIC24EP512GU810-I/PT MCU
    • PIC24E USB Starter Kit Information Sheet
    • USB mini-B to standard A cable - USB debug cable to debug and power the board
    • USB micro-B to standard A cable - USB cable to communicate with the PIC24E USB

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Описание:
Microstick for 3V PIC24F K-series (Part #: DM240013-1) is a flexible USB powered development platform. It’s the perfect solution for those looking to get started with Microchip’s lowest cost 16-bit microcontroller families – PIC24F “KL” and “KA” – for extremely cost sensitive consumer, medical and industrial applications.

SUPPORTED PARTS:
Microstick for 3V PIC24F K-series supports the following 3V PIC24F “KL” and “KA” devices (28-pin SPDIP package only)
  • PIC24F16KL402 (included in package)
  • PIC24F16KA102 (included in package)
  • PIC24F08KL302
  • PIC24F08KL402
  • PIC24F08KA102
  • PIC24F16KA302
  • PIC24F32KA302
Возможности:

    • Low Cost
    • Compatible with Microchip’s popular 16-bit XLP Development Board (Part #: DM240311)
    • Integrated Programmer / Debugger – No External Debugger Required
    • USB Powered – Ease of Use, No External Power Supply Required
    • MPLAB IDE Support
    • DUT Socket – Flexible, Easy Device Swapping
    • Works Stand-alone or Plugged into a Prototyping Board
    • Easy Access to all Device Signals for Probing
    • Smaller than a Stick of Gum at 20mm x 69mm – Easily Portable
    • On Board User and Power LEDs
    • Reset Button
    • Demo Code

Документация:
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Описание:
Microstick for 5V PIC24F K-series (Part #: DM240013-2) is a flexible USB powered development platform. It’s the perfect solution for those looking to get started with Microchip’s low cost 16-bit microcontroller families – 5V PIC24FV “KM” and “KA” – for extremely cost sensitive consumer, medical and industrial applications.

SUPPORTED PARTS:
Microstick for 5V PIC24F K-series supports the following 5V PIC24FV “KM” and “KA” devices (28-pin SPDIP package only)
  • PIC24FV16KM202 (included in package)
  • PIC24FV08KM202
  • PIC24FV16KM102
  • PIC24FV08KM102
  • PIC24FV32KA302
  • PIC24FV16KA302
Возможности:

    • Low Cost
    • Integrated Programmer / Debugger – No External Debugger Required
    • USB Powered – Ease of Use, No External Power Supply Required
    • MPLAB IDE Support
    • DUT Socket – Flexible, Easy Device Swapping
    • Works Stand-alone or Plugged into a Prototyping Board
    • Easy Access to all Device Signals for Probing
    • Easily Portable
    • On Board User LED
    • Reset Button
    • Demo Code

Документация:
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Описание:
Showcasing PIC24F “GC” Family with High Resolution Analog, LCD, and USB

Visit theeXtreme Low Powerdesign center

Возможности:

    • 16-bit Sigma-Delta Analog to Digital Converter
    • 12-bit Pipeline 10 Msps Analog to Digital Converter
    • 10-bit 1 Msps Digital to Analog Converter (2)
    • Operational Amplifiers (2)
    • Comparators (3)
    • Voltage References (3)
    • Charge-Time Measurement Unit (CTMU)


    Included demos:

    • Analog 16-bit ADC – precision measurement and display to LCD
    • Analog 12-bit ADC – measure sensor data from Light Sensor, POT, Port Pin and stream via USB
    • Analog 10-bit DAC – generate audio tones
    • LCD Text – Left/Right Scrolling & menuing via touch button control
    • LCD Graphics – Bar graph indicator, Sine Wave
    • LCD Clock – Time, Set Time functions
    • LCD Test – Cycles through Icons and displays associated text
    • Microphone – 12-bit ADC measurement, display with bar graph on LCD
    • Temperature – Display current temperature in °C or °F
    • Sleep – Power down and display time

Документация:
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Описание:
The MPLAB Starter Kit for PIC24H MCUs is a complete hardware and software kit for exploring the power of PIC24H family of MCUs for multi-tasking needs. With a built-in debugger on the board, simply install the software and connect the USB cable to the PC. Start up MPLAB IDE and gain full control. Run the accelerometer based sample programs and check out the interaction of the accelerometer and the switches with the MCU on the visual display and listen to the speech playback. Connect your own analog sensor for sensor signal processing. Download and test your own applications.
The starter kit features PIC24HJ128GP504 MCU with 128 KB Flash and 8 KB RAM as the computational unit. A tri-axial accelerometer is provided for acceleration detection. The starter kit also showcases a low cost audio playback with an on-board speaker and an OLED display running Microchip Graphics library. A separate signal conditioning circuit is provided to plug-in a wide range of sensors.
Click here to see a video.
Возможности:

    • Board includes integrated debugger / programmer
    • USB powered
    • PIC24HJ128GP504 MCU with 128 KB Flash and 8 KB RAM
    • Features a tri-axial analog accelerometer, 128x64 OLED display, on-board speaker
    • Low cost speech play back of G.711 compressed speech
    • Visual display on OLED display using Microchip Graphics library
    • Switches for application utility
    • Separate analog conditioning circuitry to plug-in wide range of sensors for sensor signal processing
    • CD contains MPLAB IDE with full editor, programmer and debugger; MPLAB C Compiler; code examples and user’s guide

Документация:
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Описание:
The XLP 16-bit Development Board is designed with eXtreme Low Power in mind. Designed as a true platform for low power development, it enables designs with sleep currents as low as 20nA.

The board is suitable for prototyping many low power applications including RF sensors, data loggers, temperature sensors, electronic door locks, metering sensors, remote controls, security sensors, smart cards, and energy harvesting. The PICtail™ interface supports Microchip’s extensive line of daughter cards for easy evaluation of your next low power application.

This low cost board is the ideal complement to the MPLAB® PICkit 3 or ICD 3 debugger and programmer realizing a fully-featured, economical, PIC24 development environment.

Возможности:

    • PIC24F16KA102 (16KB Flash, 28-pins, XLP Device with 20nA Deep Sleep current )
    • Supports other PIC24F devices in 20 or 28-pins
    • Current measurement terminals allow device or board level current measurements (optional XLP Current Measurement Cable available)
    • PICtail ™ daughter board connector for connection to expansion boards such as RF, SD/MMC Cards, Speech Playback and more
    • mTouch™ capacitive sensing buttons for user input
    • Expansion connector accessing full device pin-out and breadboard prototype area
    • Convenient connections for MPLAB PICkit 3, ICD 3 or REAL ICE for in-circuit programming and debugging
    • USB interface for power and PC communication
    • 24AA256 Low Power (100nA Sleep, 1.7V Vdd) SPI serial-EEPROM
    • Crystal oscillators for main clock and Real-time Clock and Calendar
    • Potentiometer (connected to 10-bit A/D, analog input channel)
    • Analog output temperature sensor and CTMU based diode temperature sensor
    • LEDs for indication
    • Optional RS-232 port (not populated)
    • Power Options: AAA, CR2032, Energy Harvesting, USB, External, or 9V power supply

Документация:
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  • Тестирование
Описание:
The PIC24FJ256DA210 Development Board is a low cost and efficient development board to evaluate the features and performance of the PIC24FJ256DA210 with integrated graphics, mTouch™ and USB. This board is an ideal platform for developing graphical human interface applications.

The development board requires a display board to complete the 2-board setup. It has a Microchip display connector V1, and allows developers to match with any of the listed 3.2”, 4.3” TFT display, or the graphics prototype board available by Microchip.

  • 3.2” 320x240 Truly TFT Display Board (AC164127-4)
  • 4.3” 480x272 Powertip TFT Display Board (AC164127-6)
  • Display Prototype Board (AC164139)
The development board also provides a complete interface to MPLAB ICD-3, MPLAB REAL ICE, and MPLAB PICkit-3 Emulator and Debugger.

Microchip also offers the PIC24FJ256DA210 development kit (DV164039) option which includes the board, 3.2” TFT Sisplay, Graphics Display Prototype Board, and MPLAB ICD-3 Emulator and Debugger.
Возможности:

    • PIC24FJ256DA210 16-bit microcontroller
    • Capacitive touch pads and switches
    • Microchip display connector V1
    • USB connectors (embedded host/device/OTG)
    • PICtail™ Plus Modular expansion slot
    • RS-232 serial port and associated hardware
    • Debug connectors supporting MPLAB ICD-3, MPLAB REAL ICE and MPLAB PICkit-3

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Описание:
The LCD Explorer Development Board supports Microchip’s 100-pin Microcontrollers with x8 common Segment LCD Drivers. The LCD Explorer provides an ideal platform for a customer to evaluate a MCU with a x8 Common LCD Driver on a 38 segment x 8 common LCD display. PICtail Plus connections allow a customer to evaluate the selected MCU in a complex system by adding Microchip’s PICtail Plus daughter boards.


Возможности:

    Supports all 100-pin LCD Processor Plug-In Modules (PIM)
    - Includes 100-pin PIC24FJ128GA310 LCD PIM

    96 Segment 37 Segment x 8 Common LCD Glass
    Support 1/3 Biasing with:
    - External resistor ladder
    - Internal resistor ladder
    - Charge pump biasing with capacitor

    4 Buttons and 1 mTouch Capacitive Button
    Analog potentiometer and temperature sensor
    Power input from 9V power supply, battery or USB power source
    Separate Vbat battery supply
    Single UART communication channel via USB bridge
    RJ11 and 6 pin PICkit™ 3 programming and debug connectors
    PICtail™ Plus Vertical and Horizontal connections
    - All Pins populated with many used for other functions on board
    - Upper slot is open for use by end user

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Описание:
RF based Remote Controls are becoming more prevalent as they enable non line-of-sight and provide bi-directional communication. A high-end remote control typically has a graphics display, a number of keys and a radio to communicate with the target devices.

Microchip’s Remote Control Demo Board (Part # DM240315-2) integrates Graphics, mTouch, USB and RF4CE into a single demo. The board demonstrates a remote populated with PIC24FJ256DA210 MCU, 3.5" Graphical TFT LCD with resistive touch screen, capacitive touch keys with plastic overlay, MRF24J40 2.4 GHz transceiver and ZENATM wireless Adapter.

The Remote Control Demo board offers the complete software and hardware including:
  • Bill of Materials
  • Schematics
  • Reference Code
Возможности:

    • Integrates Graphics, mTouch, USB and RF4CE
    • Stylish and Modern User Interface with colorful 3.5” QVGA graphical display, resistive touch screen and mTouch keys
    • Low cost Graphics and high integration with PIC24F “DA” family
    • Simple hardware layout
    • MRF24J40MA - A 2.4 GHz IEEE 802.15.4 radio transceiver
    • ZENATM wireless Adapter
    • Wireless Remote Control Utility that runs on the target computer

Документация:
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Описание:
The PIC32 Starter Kit provides the easiest and lowest cost method to experience the PIC32 microcontroller for the first time. From the over 35 source code examples to the getting started project, users quickly learn Microchip's 32-bit family of microcontrollers and development tools. The kit includes everything needed to write, program, debug, and execute code on a high performance PIC32 microcontroller.
Возможности:

    Write Code
    • Free MPLAB IDE X
    • Free MPLAB XC32 Compiler
    • Example source code for projects and all peripherals
    Program Memory
    • Integrated programmer - all you need is the included USB Cable
    • Program and verify a full 512k image in under 9 seconds
    Debug
    • Integrated debugger - all you need is the included USB cable
    • Full source based debugging in MPLAB X IDE
    Execute Code
    • PIC32 running at MHz with 512K Flash, 32K RAM, 4 ch. DMA · USB powered board
    • 3 user switches and 3 LEDs
    Customize
    • Expansion connector enables addition of Microchip expansion board or create your own
    • Majority of MCU signals are present on the connector [Hirose: FX10A-120P/12-SV1(71)]

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Описание:
The PIC32 USB Starter Kit II provides the easiest and lowest cost method to experience the USB and CAN functionality of the PIC32 microcontrollers. The board contains an on-board programming/debugger, standard A USB and micro A/B connectors, and an expansion header compatible with the PIC32 Starter Kit and expansion board such as I/O Expansion Board (DM320002) or for prototyping your own. Users can develop CAN applications using I/O expansion board (DM320002). The board contains everything needed to develop USB embedded host/device/OTG applications by combining this board with Microchip's free USB software.

The USB Starter Kit II has the same form factor and expansion connector as other PIC32 Starter Kits.
Возможности:

    DEVELOP. PROGRAM. RUN.

    Write Code

    • Free MPLAB IDE v8.41 or newer
    • Free MPLAB C32 C Compiler with no code size limit
    • Example project files for HID-class device mode, MSD-class host mode (see note below), CDC-class device mode. Additional projects will be available in the future.

    Program Memory
    • Integrated programmer - all you need is the included USB Cable
    • Program and verify a full 512k image in under 9 seconds

    Debug

    • Integrated debugger - all you need is the included USB cable
    • Full C source based debugging in MPLAB IDE

    Execute Code
    • PIC32 running at 80 MHz with 512K Flash, 128K RAM, 8 ch. DMA + 4 ch. DMA dedicated to USB and CAN
    • USB powered board
    • USB connectors, user switches, and LEDs

    Customize
    • Expansion connector enables addition of Microchip's PIC32 expansion board or create your own
    • Majority of MCU signals are present on the connector [Hirose: FX10A-120P/12-SV1(71)]

Документация:
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Возможности:

    • PIC32MX450/470 MCU
    • Integrated debugger/programmer
    • USB host, Device, Dual Role & OTG
    • Online tools & software download
    • Support for Windows XP and Windows Vista (32- & 64-bit)

Документация:
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Возможности:

    Write Code
    • Free MPLAB IDE v8.43 or newer
    • Free MPLAB C Compiler for PIC32 with no code size limit
    • Example project files for Ethernet and USB applications
    Program Memory
    • Integrated programmer - all you need is the included USB Cable
    • Program and verify a full 512k image in less than 9 seconds
    Debug
    • Integrated debugger - all you need is the included USB cable
    • Full C source-based debugging in MPLAB IDE
    Execute Code
    • PIC32 running at 80 MHz with 512K Flash, 128K RAM, 8 ch. DMA + 8 ch. DMA dedicated to Ethernet, CAN and USB
    • USB powered board
    • USB and Ethernet connectors, user switches, and LEDs
    Customize
    • Expansion connector enables addition of Microchip's PIC32 expansion boards or create your own
    • Majority of MCU signals are present on the connector [Hirose: FX10A-120P/12-SV1(71)]




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Описание:
The PIC32 Ethernet Starter Kit II provides the easiest and lowest-cost method to experience 10/100 Ethernet development with PIC32 microcontrollers. Combined with Microchip’s free TCP/IP software, this kit gets your project running quickly. The PIC32 microcontroller has an available CAN 2 0b peripheral and USB host/device/OTG. This starter kit features a socket that can accommodate various 10/100 Ethernet transceiver (RJ-45) PHY Daughter Boards for prototyping and development.

Ethernet PHY Daughter Boards compatible withPIC32 EthernetStarter Kit II are listed below
LAN8720A PHY Daughter Board (AC320004-3)
LAN9303 PHY Switch Daughter Board (AC320004-4)

FOR DEMONSTRATION SOFTWARE, PLEASE VISIT MPLAB HARMONY SOFTWARE FRAMEWORK

Возможности:

    • USB-powered board
    • Includes 10/100 Fast Ethernet LAN8740 PHY Daughter Board
      • Features Energy efficient Ethernet(IEEE 802.3az) and Wake-On-LAN functionality
    • USB and Ethernet connectors, user switches and LEDs
    • Integrated programmer/debugger
    • Standard A to mini-B cable for debugger
    • Standard A to micro-B cable for USB application development
    • PIC32 running at 80 MHz with 512K Flash, 128K RAM, 8 channel DMA + 8 channel DMA dedicated to Ethernet, CAN and USB
    • Expansion connector enables the addition of Microchip’s PIC32 expansion boards or the creation of your own board

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Описание:
The PIC32MZ EC Starter Kit provides the easiest and lowest cost method to experience the high performance and advanced peripherals integrated in the PIC32MZ Embedded Connectivity MCUs. This starter kit features a socket that can accommodate various 10/100 Ethernet transceiver (RJ-45) plug-in connectors for prototyping and development.

Ethernet PHY Daughter Boards compatible with PIC32MZ EC Starter Kitare listed below
LAN8720A PHY Daughter Board (AC320004-3)
LAN9303 PHY Switch Daughter Board (AC320004-4)

FOR DEMONSTRATION SOFTWARE, PLEASE VISIT MPLAB HARMONY SOFTWARE FRAMEWORK

This starter kit can also be used with Multimedia Expansion Board II

To get started quickly, refer the PIC32MZ EC Starter Kit Info Sheet in the documentation section below.
Возможности:

    • On-board PIC32MZ2048ECH144: 200 MHz, 2 MB Flash and 512 KB RAM
    • Includes 10/100 Fast Ethernet LAN8740 PHY Daughter Board
      • Features Energy Efficient Ethernet (IEEE 802.3az) and Wake-On-LAN functionality
    • Integrated debugger/programmer
    • USB powered
    • 10/100 Ethernet
    • CAN 2.0b, HI-Speed USB 2.0 host/device/dual-role/OTG
    • 4 MB SQI Flash
    • Can be used with Multimedia Expansion Board II
    • Can be used with PIC32 Expansion Board using a PIC32MZ adaptor board.

Документация:
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Описание:
The PIC32MZ EC Starter Kit with Crypto Engine provides the easiest and lowest cost method to experience the high performance and advanced peripherals integrated in the PIC32MZ Embedded Connectivity MCUs. It features PIC32MZ2048ECM144 with onboard crypto engine that reduces software overhead of actions such as encryption, decryption, and authentication. This starter kit features a socket that can accommodate various 10/100 Ethernet transceiver (RJ-45) plug-in connectors for prototyping and development.

Ethernet PHY Daughter Boards compatible with PIC32MZ EC StarterKit w/ Crypto Engineare listed below
LAN8720A PHY Daughter Board (AC320004-3)
LAN9303 PHY Switch Daughter Board (AC320004-4)


FOR DEMONSTRATION SOFTWARE, PLEASE VISIT MPLAB HARMONY SOFTWARE FRAMEWORK

This starter kit can also be used with Multimedia Expansion Board II

To get started quickly, refer the PIC32MZ EC Starter Kit Info Sheet in the documentation section below:
Возможности:

    • On-board PIC32MZ2048ECM144 with 200 MHz, 2 MB Flash and 512 KB RAM with crypto engine
    • Includes 10/100 Fast Ethernet LAN8740 PHY Daughter Board
      • Features Energy Efficient Ethernet (IEEE 802.3az) and Wake-On-LAN functionality
    • Integrated debugger/programmer
    • USB powered
    • 10/100 Ethernet
    • CAN 2.0b, Hi-Speed USB 2.0 host/device/dual-role/OTG
    • 4 MB SQI Flash
    • Can be used with Multimedia Expansion Board II
    • Can be used with PIC32 Expansion Board using a PIC32MZ adaptor board.

Документация:
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Описание:
The PIC32MZ Embedded Connectivity with Floating Point Unit (EF) Family Starter
Kit (DM320007 for non-Crypto development or DM320007-C for Crypto
development) provides a low-cost method for the development and testing of USB
and Ethernet-based applications with PIC32MZ EF family devices.

Ethernet PHY Daughter Boards compatible with PIC32MZ EF Starter Kit are listed below
LAN8720A PHY Daughter Board (AC320004-3)
LAN9303 PHY Switch Daughter Board (AC320004-4)

FOR DEMONSTRATION SOFTWARE and Board Support Packages, PLEASE VISIT MPLAB HARMONY SOFTWARE FRAMEWORK

This starter kit can also be used with Multimedia Expansion Board II
Возможности:

    The board features two Mini-B USB ports, one for debugging and one for USB-toUART
    or I2C™ communications, a Standard-A USB port for the embedded host,
    and a Micro-AB USB Host/Device/OTG port. The PHY daughter board features an
    RJ-45 Ethernet port for network connectivity.

Документация:
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Описание:
The PIC32MZ Embedded Connectivity with Floating Point Unit (EF) Family Starter
Kit (DM320007 for non-Crypto development or DM320007-C for Crypto
development) provides a low-cost method for the development and testing of USB
and Ethernet-based applications with PIC32MZ EF family devices.

Ethernet PHY Daughter Boards compatible with PIC32MZ EF Starter Kit are listed below
LAN8720A PHY Daughter Board (AC320004-3)
LAN9303 PHY Switch Daughter Board (AC320004-4)

FOR DEMONSTRATION SOFTWARE and Board Support Packages, PLEASE VISIT MPLAB HARMONY SOFTWARE FRAMEWORK

This starter kit can also be used with Multimedia Expansion Board II
Возможности:

    The board features two Mini-B USB ports, one for debugging and one for USB-toUART
    or I2C™ communications, a Standard-A USB port for the embedded host,
    and a Micro-AB USB Host/Device/OTG port. The PHY daughter board features an
    RJ-45 Ethernet port for network connectivity.

Документация:
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Описание:
The audio development board for PIC32 (DM320011) provides developers a flexible platform for 24-bit audio record and playback, USB Digital Audio, MP3 Decode and Sample Rate Conversion.

The audio board can be easily connected through the MFi dock edge connector to the accessory development platform for iPod and iPhone enabling users to develop applications for iPod and iPhone.
Возможности:

    • On-board PIC32MX795F512 with 80 MIPS of performance, 512KB Flash and 128KB of RAM
    • 24-bit Wolfson CODEC
    • USB Type A interface
    • On-board Microphone
    • Headphone out and Line in
    • High quality 2” Color LCD
    • Pre-loaded demo code
    • MFi Dock Edge Connector

Документация:
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Описание:
The PIC32 MX1/ MX2 Starter kit (DM320013) is a complete solution for exploring the low-cost, high-performance PIC32MX1/MX2 devices. This kit is perfect for development of basic user interfaces with mTouchTM buttons and high quality audio. The board is pre-loaded with demo code for an audio player. Simply download a free copy of MPLAB IDE and the demo code source from the web to jump start your development effort.
Возможности:

    • 24Bit Audio playback
    • Integrated Programmer Debugger
    • USB Powered
    • 2” Color TFT Dispaly – 220 x 176 pixel
    • mTouchTM slider and buttons
    • PIC32MX250F128 with 128KB of Flash, 32KB RAM
    • Micro SD Flash Card

Документация:
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Описание:
The PIC32 USB Digital Audio Accessory Board showcases a 16/24-bit quality digital stereo audio development platform using the PIC32 microcontroller (MCU). It can be used for 16/24-bit stereo audio playback and recording with a sample rate of up to 48 kHz. This accessory board is powered by the USB Host and can be used with any personal computer (PC), tablet, gaming station, or mobile device that supports the USB Audio Device Class. The digital audio stream is transferred over USB isochronous transfers. The PIC32 USB Digital Audio Accessory Board features the PIC32 MCU, which has a USB module with Host and Device capability, SPI module with Audio Mode that supports I2S, LJ, RJ, DSP/PCM modes, and a flexible audio reference clock output generation module that can be used as time base for the external codec or Digital-to-Analog Converter (DAC).
Возможности:

    • PIC32MX250F128B MCU: 128 KB of program memory and 32 KB of RAM
    • PIC32 I2S support (LJ, RJ, DSP/PCM modes supported) – all modes can be 16/24-bit
    • PIC32 reference clock output for codec master clock
    • Audio codec (AK4645A) with up to 48 kHz sampling rate and 16/24-bit resolution
    • Supported codec-based audio processing features:
      • 5-band equalizer
      • Analog output mixing
      • Stereo separation emphasis and wind-noise filtering
      • Auto-level control

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Описание:
The PIC32 GUI Development Board with Projected Capacitive Touch enables development of cost effective multi touch graphical user interfaces. It is based on PIC32MX795F512 with 105 DMIPS performance, 512KB Flash and 128KB RAM. The PIC32 is coupled with a low cost PSRAM as a high speed graphics frame buffering and a 4.3” WQVGA touch display enabling development of graphics solutions without an external graphics controller. Additionally the board provides USB host and device connectivity and supports I/O connections via through-hole pads for custom board attachment. Multi touch user input is supported by Microchip’s Turnkey Projected Capacitive Touch Controller, MTCH6301. The board is a standalone development platform that can be programmed/debugged via the on board 5-pin In-Circuit Serial Programmer interface designed for Microchip’s PICkit3 In-Circuit Debugger.
Возможности:

    • Based on PIC32MX795F512 device with 512KB Flash and 128KB RAM
    • Projected capacitive touch device MTCH6301
    • WQVGA 4.3” display
    • USB port for Device or Host functionality
    • Expansion header
      • Access to PIC32 I/O’s and peripherals

Документация:
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Описание:
The PIC32 Bluetooth Starter Kit is a low-cost Bluetooth development platform featuring the PIC32MX270F256D MCU. This kit features a HCI-based Bluetooth radio, pushbuttons, Cree high-output multi-color LED, standard single-color LEDs, accelerometer, temperature sensor and GPIO for rapid development of Bluetooth Serial Port Profile (SPP), USB and General Purpose applications.

The Starter kit offers an Android App, Demo code and Bluetooth Serial Port Profile stack for free to get you started.
The PIC32 MCU on the Starter kit executes Microchips’ Free Bluetooth SPP stack & Demo Code to perform full-duplex data transmission over the Bluetooth link to showcase:
• Color Mixing of Cree High Output Multi Color LED
• Temperature Display

Daughter cards compatible with PIC32 Bluetooth Starter Kit :
PIC32 Audio Codec Daughter Card - AK4642EN (AC320100)
PIC32 Audio DAC Daughter Board - AK4384VT (AC320032-2)


For more information on the demonstration of the PIC32 Bluetooth Starter Kit please click on the video below
PIC32 Bluetooth Starter Kit Demonstration Video

To get started quickly, download “PIC32 Bluetooth Starter Kit Quick Start Package” from the Documents below.

FOR SOURCE CODE on the Demo and Android Application please seethe Software Development Kit (SDK) located in the
<install-dir>/apps/bluetooth/data_temp_sens_rgb folder within your installation
of MPLAB® Harmony, which includes embedded source, Android source, and the Bluetooth
binary library and also the Board Support Package (BSPs).

The Android App is also available on the Google play
PIC32 BTSK Android App on Google play
Возможности:

    • PIC32MX270F256D for Central Processing
    • Bluetooth HCI module
    • Cree high output multi-color LED
    • Integrated 3-axis accelerometer and temperature sensor
    • 3 standard single color LEDs for display
    • 5 Push Buttons for user defined inputs
    • On Board Debugging

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Описание:
The PIC32MX1/2/5 Starter Kit provides the user with an easy and cost effective option to experience the USB and CAN functionality of the new PIC32MX1/2/5 family of microcontrollers. The board features a 50MHz/83DMIPS PIC32MX570F512L MCU with 512 KB Flash, 64KB RAM, USB Device/Host/OTG, CAN 2.0B, 48 Channel ADC, Analog Comparators, SPI Ports and UARTs. The starter kit has an onboard high-speed CAN transceiver which serves as an interface between a CAN protocol controller and the physical two wire bus. It also comes equipped with an onboard DB9 connector to interface with the CAN2.0B based applications.

For Demonstration Software and Board Support Packages, Please Visit http://www.microchip.com/harmony
Возможности:

    • PIC32MX570F512L MCU: 50MHz, 512 KB Flash/64 KB RAM
    • MCP2562: A High-Speed CAN Transceiver
    • DB9 Connector for CAN2.0B applications
    • USB receptacles for USB development
    • Expansion Connector to interface to PIC32 expansion boards
    • User definable LEDs & push buttons
    • Integrated Programmer/Debugger

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Описание:
The Curiosity PIC32 MZ EF Development Board is a fully integrated 32-bit development platform featuring the high performance PIC32MZ EF Series (PIC32MZ2048EFM) that has a 2MB Flash, 512KB RAM, integrated FPU, Crypto accelerator and excellent connectivity options.

The Curiosity Development Board includes an integrated programmer/debugger ,an on board Wi-Fi-N module MRF24WN0MA-I/RM100 and is fully integrated with Microchip’s MPLAB® X IDE.

Each board provides two MikroBus® expansion sockets from MicroElektronika and a Microchip X32 header to enable customers seeking accelerated application prototype development. Boards are fully integrated into PIC32’s powerful software framework, MPLAB ® Harmony that a provides flexible and modular interface to application development , a rich set of inter-operable software stack (TCP-IP,USB) and easy to use features.

X32 Boards compatible with Curiosity Board are :
PIC32 Audio Codec Daughter Card - AK4642EN (AC320100)
PIC32 Audio DAC Daughter Board - AK4384VT (AC320032-2)

The boards and ecosystem have been designed to provide an excellent out of the box experience. Customers would be able to download and run example applications /projects instantly on the boards without the need to install the entire ecosystem. The demos have been developed to showcase PIC32 MCU features and application development ecosystem.

The board offers expansion capabilities making it an excellent choice for a rapid prototyping board in Connectivity, IOT and general purpose applications.
Возможности:

    1. PIC32MZ2048EFM100 32-bit microcontroller with 2MB Flash, 512KB RAM, integrated FPU ,Crypto accelerator and excellent connectivity options.

    2. X32 header for audio I/O using Microchip audio daughter boards
    PIC32 Audio Codec Daughter Card - AK4642EN (AC320100)
    PIC32 Audio DAC Daughter Board - AK4384VT (AC320032-2)

    3.On Board WI-FI N Module, MRF24WN0MA, 2.4 GHz IEEE 802.11n compliant wireless module

    4. Header for flexible Ethernet PHY
    Compatible with ETHERNET PHY DAUGHTER BOARD AC320004-3
    The Microchip LAN8720A PHY Daughter Board is populated with a small footprint RMII10/100 Ethernet transceiver (LAN8720A).

    5. GPIO expansion header

    6. Debug USB connector for programming/debugging

    7. Target USB connector for PIC32 USB connectivity (Device/Host mode).

    8. Two mikroBUS click sockets to expand functionality using MikroElektronika ClickAdapter Boards

    9.Header for external 5V input .

    10. On-Board Debugger.

    11. ICSP header for external debugger, such as MPLAB® REAL ICE™ or MPLABICD 3

    12. Three user LEDs , One RGB LED.

    13. One User and Reset Button.

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Описание:
The Microchip PIC32 Accessory Development Start Kit for Android™ is used for evaluating and developing accessories for Google’s Android operating system for smartphones and tablets.
Возможности:

    PIC32 PIC® MCU with USB OTG
  • Type A USB connector and micro A/B/ connectors
  • I/O expansion board
  • On-board programming/debugging

Документация:
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Описание:
The dsPIC33E USB Starter Kit provides a low cost method for the development and testing of USB OTG, Host and Device applications on the 60 MIPS dsPIC33E DSC family. The board contains an on-board programming/debugger, standard A USB and micro A/B connectors, three user-programmable LEDs, three push button switches and an expansion header compatible with the Multimedia Expansion Board (DM320005) and I/O Expansion Board (DM320002). The starter kit comes preloaded with basic Communication Device Class (CDC) demonstration software.

Programming, Running and Debugging Applications

Use the following procedure for programming/debugging your application programs (the dsPIC33E Start Kit CDC USB Device Demo software available from the link below is mentioned here as an example):

  • Using MPLAB IDE, open the project C:\dsPIC33E PIC24E USB Starter Kit Demo\Firmware\ USB Device - CDC - Basic Demo - dsPIC33E USB Starter Kit.mcp. (This assumes that the demo was installed in the default location)
  • Connect the starter kit to your PC using the provided USB mini-B to full-sized A cable. Note that the jumper in J5 should not be installed.
  • Choose “Starter Kit On Board” as the debugger tool in MPLAB IDE by selecting Debugger > Select Tool> Starter Kit On Board.
  • Choose the debug build configuration by selecting Project > Build Configuration > Debug.
  • Build the project by selecting Project > Build All.
  • Download the code into the starter kit by selecting Debugger > Program.
  • Run the downloaded application software by selecting Debugger > Run. At this time LED2 on the starter kit should turn on.
  • This demo allows the Starter Kit to appear as a serial (COM) port to the host. The instructions for this demo can be found at C:\dsPIC33E PIC24E USB Starter Kit Demo\Documentation\Getting Started\Getting Started - Running the Device - CDC - Basic Demo. See the Running the Demo section.

Возможности:

    • On-board programming/debugger
    • Standard A USB and micro A/B connectors
    • Three user-programmable LEDs
    • Three push button switches

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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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Microstick II delivers a complete development hardware platform for Microchip’s 16-bit and 32-bit microcontrollers and digital signal controllers. It’s the perfect solution to those looking for a low-cost, easy-to-use development platform. (Note: Go to Microstick for dsPIC33F and PIC24H Development Board for information on the Microstick tool.)

The USB-powered kit includes an on-board debugger/programmer, a DUT socket for easy device swapping, a user LED and reset button. It is designed for insertion into a standard prototyping board for easy connection to additional circuitry. The kit is extremely portable as well and is still about the size of a stick of gum!

Supported Parts:
Microstick II supports 3.3V PIC24FJ, PIC24E, PIC24H, dsPIC33, and PIC32 28-pin SPDIP packaged devices shown in the table to the right (see images).
Возможности:

    • Low Cost
    • Integrated USB programmer / debugger – No external debugger required
    • USB Powered – Ease of use, No external power required
    • MPLAB support.
    • DUT Socket – 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 User LED and Reset Switch
    • Free demo code

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LED lighting designers are being challenged to meet the rapidly expanding demand for green, smart energy technologies while differentiating their products. Microchip’s Digital LED Lighting Development Kit (DM330014) enables designers to quickly leverage the capabilities and performance of the dsPIC33 ‘GS’ series of Digital Signal Controllers (DSCs), to develop LED lighting products. The dsPIC33 ‘GS’ DSC and this reference design allow developers to create a 100% digitally controlled ballast function, while including advanced features such as dimming and color hue control. The dsPIC33 ‘GS’ DSCs can support an entire system implementation for LED lighting products, including power-conversion circuits, such as AC-to-DC and DC-to-DC conversion, along with functions such as Power Factor Correction (PFC), which are necessary for a complete product and lower the overall system cost.

Benefits offered by the digital-power techniques in this reference design and the dsPIC33 ‘GS’ series of DSCs include:

  • Reduced System Cost via higher integration
  • Higher Efficiency using digital-control techniques
  • Flexible and reusable designs
  • Advanced features implemented in software
Возможности:

    Key features of Microchip’s Digital LED Lighting Development Kit include:

    • Color control for RGB LEDs
    • Supports DMX512 Standard for brightness control
    • Flexible input voltage support, including both Buck and Boost topologies
    • Fully dimmable
    • Full digital control
    • Fault protection
    • Fully controlled with a single dsPIC33FJ16GS504 DSC.

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Описание:
The audio development board for dsPIC33E (DM330016) provides developers a flexible platform for 24-bit audio record and playback, USB digital audio and sample rate conversion.
Возможности:

    - On-board dsPIC33EP512MU810 with 60 MIPS of performance, 512 KB Flash, 24 KB Auxiliary Flash and 52KB of RAM
    - 24-bit Wolfson codec
    - USB Type A interface
    - On-board microphone
    - Headphone out and Line in
    - High quality 2” Color LCD
    - Pre-loaded demo code
    - iPod®, iPhone® dock edge connector

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The MPLAB Starter Kit for Digital Powerkit uses the dsPIC33EP64GS502 DSC to implement a buck converter and a boost converter. It is a digitally controlled power supply board that consists of one independent DC/DC synchronous Buck converter and one independent DC/DC Boost converter.Each convertercan drive its on-board MOSFETcontrolled resistive load or an external load. The board hasan LCD display for voltage, current, temperature and faultconditions, and an integrated programmer/debugger, allpowered by the included 9 V power supply.



Возможности:

    • dsPIC33EP64GS502 – Low-cost 16-bit digital power conversion DSC
    • One independent DC/DC synchronous Buck converter
    • One independent DC/DC Boost converter.
    • LCD display for voltage, current, temperature and fault conditions
    • On-board In-Circuit Debugger /Programmer via USB
    • On-board programmable resistive loads of up to 3W (0.5W, 1.25W, 1.25W)
    • Hardware slope compensation for peak current mode implementations
    • On-board temperature sensor
    • Compact Design – 4” x 2.5” board
    • Powered via 9V power supply (included)

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The dsPIC33EV 5V CAN-LIN starter Kit features thedsPIC33EV256GM106 Digital Signal Controller (DSC) for automotive and motorcontrol applications. The Starter Kit contains serial data ports for CAN, LIN and SENT, a self-contained USB programming/debug interface, and an expansion footprint forflexibility in application hardware development.This board allowsusers to explore three popular automotive and industrial serial data formats (CAN, LINand SENT).The PICkit On-Board (PKOB) USB programmer anddebugger allows simple programming without the need for an additional hardwareinterface. No other external tools are required to program the device.
Возможности:

    • Features dsPIC33EV256GM106 microcontroller
    • PICkit On-Board (PKOB) USB programmer and debugger
    • CAN, LIN & SENT Inferfaces
    • USB Powered

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The dsPICDEM™ MCLV-2 Development Board provides a cost-effective method of evaluating and developing sensored or sensorless Brushless DC (BLDC) and permanent magnet synchronous motor control applications. The board supports Microchip’s 100-pin Plug-In-Modules with dsPIC33E or dsPIC33F Digital Signal Controllers. The board supports the use of the internal, on chip OpAmps found on certain dsPIC® devices or the external OpAmps found on the MCLV-2 board. A dsPIC33EP256MC506 Internal OpAmp PIM (MA330031) is included. The board is capable of controlling motors rated up to 48V and 15A, with multiple communication channels such as USB, CAN, LIN and RS-232.

The dsPICDEM™ MCLV-2 Development Board is targeted to control a Brushless DC (BLDC) motor or Permanent Magnet Synchronous Motor (PMSM) in sensor or sensorless operation. This flexible and cost-effective board can be configured in different ways for use with Microchip’s specialized motor control digital signal controllers. The dsPICDEM™ MCLV-2 Development Board supports the dsPIC33E or dsPIC33F motor control device family. It offers a mounting option to connect a generic 100-pin Plug-In Module (PIM).

The MCLV-2(DM330021-2) replaces the previous MCLV (DM330021) and is fully backwards compatible with the previous MCLV(DM330021) and all motor control PIMs
Возможности:

    Motor Control Interfaces:
    • Three-phase inverter bridge with a power rating of 48V/15A
    • Ability to use internal OpAmps found on certain dsPIC33E devices or external OpAmps on the MCLV-2 board for current sensing
    • Hall sensors/quadrature encoder interface for sensored motor control
    • Phase voltage feedback for sensorless BLDC operation
    • DC bus current sense resistor for single shunt vector control
    • Phase current sense resistor for dual shunt vector control
    • Overcurrent protection
    • Input/output control switches
    • Potentiometer
    • LED indicator for PWM outputs

    Power Supply Connectors:
    • Auxiliary power tab “fast-on” connectors for the controller and power stage
    • 24V power input connector for the controller
    • Dedicated power input connector for the power stage

    Communication Interfaces:

    • CAN interface port
    • LIN interface port
    • UART communication via USB
    • UART communication via RS-232


    Programming Interfaces
    :

    • ICSP™ connector for programming a dsPIC® DSC device
    • RJ11 connector for programming a dsPIC® DSC device
    • ICSP™ connector for programming the PIC18LF2450 USB to UART bridge

    Full Backwards Compatibility with MCLV

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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 dsPIC33F 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 dsPIC33FJ32MC204 DSC PIM (MA330017) is included.

The dsPICDEM MCSM Development Board supports terminal voltages up to 80V and currents up to 3A. The dsPIC33F device uses the MOSFET driver to drive the two full-bridge inverters that power the motor windings. The board includes various circuitries 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 dsPIC DSC devices feature an 8-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.

The MCSM Development Board is available in two configurations:
  • dsPICDEM MCSM Development Board : DM330022
  • dsPICDEM MCSM Development Board Kit : DV330021
Возможности:

    Motor control interfaces:
  • Two full-bridge inverters
  • Two phase current sense resistors
  • DC bus voltage sense resistor
  • Over-current protection

    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
  • Auxiliary Power Tab Fast-On connectors (BP1 and BP2) for the power stage
    Motor control device (U2) socket:
  • The dsPIC33FJ12MC202 Motor Control device in SOIC package (U3) footprint

    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)

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The Microchip dsPICDEM™ MCHV-2 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-2 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-2 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-2(DM330023-2) replaces the previous MCHV (DM330023) and is fully backwards compatible with the previous MCHV(DM330023) 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 either internal, on chip opamps or external opamps on the MCHV-2 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

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The DM990004 : IoT Ethernet Kit powered by AWS IoT uses an Ethernet LAN8740A which features deterministic loop back delay, assuring real-time system performance as well as cable diagnostics which reduce network installation costs.The kit is controlled by a PIC32MZ EF 32-bit micro-controller that offers 2MB Flash and provides plenty of memory space for your application and provides a smooth user experience with a preloaded firmware allowing the communication with AWS IoT. Additionally, the kit makes use of MPLAB®Harmony, FreeRTOS™, WolfMQTT.The security is addressed using WolfSSL features. The wolfSSL embedded SSL library is a lightweight, portable, C-language-based SSL/TLS library targeted at IoT, embedded, and RTOS environments primarily because of its size, speed, and feature set.
The connection to the Cloud is achieved leveraging theAWS IoT service. AWS IoT is a managed cloud platform that lets connected devices easily and securely interact with cloud applications and other devices. AWS IoT can support billions of devices and trillions of messages, and can process and route those messages to AWS endpoints and to other devices reliably and securely. With AWS IoT, your applications can keep track of and communicate with all your devices, all the time, even when they aren’t connected.
Regarding the sensors, hundreds of different sensors can be plugged into the MikroElektronka mikroBUS™ footprint allowing for prototyping a large variety of IoT proof-of-concepts. The sensors will have to be purchased separately at www.mikroe.com
Возможности:

    • Connect your PIC32MZ EF to AWS IoT and start prototyping your IoT solution from sensor to Cloud
    • Use a stable connection benefiting from the Ethernet LAN8740A port
    • Setup an AWS IoT account to work with the IoT Ethernet Kit
    • Reduce your time to market by leveraging the firmware as a base for your IoT solution and add your code to address the targeted use cases.
    • Use the board design as a foundation to your solution
    • Customize the Insight on Things Desktop Application to achieve your prototyping goals
    • Developed as a prototyping kit for industrial Ethernet environments 

    • Easy setup out of the box with your own AWS account
    • JSON-based data payload 

    • MPLAB Harmony: integrated software framework 


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The mTouch AR1100 Development Kit provides everything designers need to get started using AR1100 analog resistive touch controllers for a turnkey, cost effective touch solution. The kit includes the production ready AR1100BRD controller board, USB and Serial communication cables, a 5-wire 7” touch screen, and extra touch screen pinout adapter cables to quickly test most any manufacturer’s 4, 5, or 8 wire touch screen. A CD is also included with the full suite of AR1100 utilities and all the documentation for the chip and board options of the AR1100 touch screen controller.
Возможности:

    • Supports any manufacturer's 4-, 5-, or 8-wire analog resistive touch screen
    • RS-232/UART or USB communication
    • Full suite of software drivers
    • 1024x1024 resolution
    • EEPROM calibration retention
    • Supports any size analog resistive touch screen, 1.5" - 24"
    • Kit includes a 7" 5-wire touch screen and PICKit Serial Analyer

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As an alternative to the Wi-Fi Comm Demo board, we suggest customers purchase the DV102412 for evaluating the MRF Wi-Fi series of modules.

The Wi-Fi Comm Demo board provides a compact development platform for customers to evaluate Microchip’s MRF24WB0MA Wi-Fi module. The demo board comes with onboard MRF24WB0MA Wi-Fi module which is FCC/IC/ETSI certified along with a PIC32 MCU.
Возможности:

    • WiFi solution compatible with IEEE 802.11 b/g/n Access Points
    • Supports Infrastructure and Ad hoc networks
    • MRF24WB0MA module is FCC, IC, Wi-Fi® certified and ETSI compliant
    • Powered by 2 AAA batteries
    • Supports WEP, WPA and WPA2 security protocols
    • The board has sensor I/O interface enabling application specific demos
    • The Wi-Fi Comm Demo Board offers the complete software and hardware including
      • Schematics
      • Reference source code

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The Wi-Fi® G Demo Board is a compact demonstration platform for customers to easily evaluate and configure Microchip’s new MRF24WG0MA Wi-Fi module. The demo board is a fully-functional standalone web server powered by 2 AAA batteries. It comes with a PIC32 pre-programmed with the Microchip TCP/IP stack, connected to an onboard, fully-certified MRF24WG0MA Wi-Fi module.

The Wi-Fi G Demo Board Offers:
  • Schematics
  • Complete applications compliant with Microchip TCP/IP reference source code library
  • Reference application source code
Возможности:

    • Complete IEEE 802.11 b/g Wi-Fi Solution
    • Supports Infrastructure/Ad hoc networks and SoftAP networking
    • Web server allows for configuration of network settings
    • Headers bring out signals for quick prototyping

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The PIC24FJ256DA210 Development Kit is a low cost and efficient development kit to evaluate the features and performance of the PIC24FJ256DA210 with integrated graphics, mTouch™ and USB.

This kit is an ideal platform for new graphical human interface developers. It bundles four major components and other accessories as listed below. For those who are not looking to purchase the kit with all the components, each can also be purchased separately.
  • PIC24FJ256DA210 Development Board (DM240312)
  • 3.2” Truly 240x320 TFT Display Board (AC164127-4)
  • Graphics Display Prototype Boards - 3x (AC164139)
  • MPLAB ICD-3 Emulator and Debugger with USB Cable (DV164035)
  • 9V Power Supply (AC162039)
  • USB A-miniB Cable
  • Serial Cable
Возможности:

    • PIC24FJ256DA210 16-bit microcontroller
    • Capacitive touch pads and switches
    • 3.2” Truly TFT Display with resistive touch screen support
    • Prototype graphics boards for prototyping LCD panels of choice
    • USB connectors (embedded host/device/OTG)
    • PICtail™ Plus Modular expansion slot
    • RS-232 serial port and associated hardware
    • MPLAB ICD-3 Emulator and Debugger
    • 9V Power Supply

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The F1 Evaluation Platform is a simple development tool for Enhanced Mid-range PIC microcontrollers (PIC12F1xxx/PIC16F1xxx) and demonstrates the capabilities & low power enhancements of these new PIC microcontrollers. Included with a PICkit3 for quick programming, this kit provides a platform for general purpose development and gives you the ability to develop code for any PIC12F1xxx/PIC16F1xxx microcontroller. Quick & easy development is ensured with the integrated functionality including: prototyping area, LCD control, system current monitoring, temperature sensing, Real-Time-Clock, LED drive, button control, and BLDC motor control.

Newer version development tools are available now. Please consider Curiosity Development Board (DM164137) or Explorer 8 Development Board (DM160228) for new designs


Note: The PICkit 3 In-Circuit Debugger/Programmer is NOT a production programmer. It should be used for development purposes only.
Возможности:

    • 44-pin development board with generous prototyping area
    • Populated with a PIC16LF1937 featuring nanoWatt XLP technology
    • 3 Volt, 40 segment multimeter LCD glass
    • Potentiometer
    • Mechanical button
    • MCP9800 temperature sensor
    • 32kHz low power crystal
    • LEDs
    • Current monitoring connector to measure low power XLP capabilities
    • In Circuit Serial Programming Interface for PICkit3
    • PICkit serial interface
    • Expansion header for the F1 BLDC Motor add-on (other motor add-ons not supported)
    Included Demos:
    Low Power Demonstration
    LCD Demonstration
    Brushless DC (BLDC) motor control (requires F1 BLDC motor add-on)

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Описание:
The PIC32 Bluetooth® Audio Development Kit provides a comprehensive solution to develop Bluetooth A2DP audio streaming solutions and applications. The board is coupled with two daughter cards: the Bluetooth HCI Radio Daughter Card that demonstrates a low cost Bluetooth implementation and the Audio DAC Daughter Card that demonstrates a high quality 16/24-bit, 32-192 KHz audio conversion/amplification for line or headphones. The kit ships with demo code that enables wireless streaming digital audio from any Bluetooth enabled Smartphone or portable music player or over USB.

Daughter cards compatible with PIC32 Bluetooth Audio Development Kit :
PIC32 Audio Codec Daughter Card - AK4642EN (AC320100)
PIC32 Audio DAC Daughter Board - AK4384VT (AC320032-2)

Plug-In Module compatible with PIC32 Bluetooth Audio Development Kit (Only Compatible with BLUE PIMs) :
PIC32MZ Audio 144pin - PIM for Bluetooth Audio Development Kit (MA320016)
PIC32MX270F256D PIM (MA320013)
PIC32MX270F512L PIM (MA320017)

Click here for information on PIC32 Bluetooth Audio Suites

Click on the below Bluetooth Software & Decode Library to purchase
AAC Decode Library Buy it now!
PIC32 Bluetooth Audio Software Suite 1 Buy it now!
PIC32 Bluetooth Audio Software Suite 2 Buy it now!

FOR DEMONSTRATION SOFTWARE and Board Support Packages, PLEASE VISIT MPLAB HARMONY SOFTWARE FRAMEWORK
Возможности:

    • PIC32MX450/470 MCU
    • HCI Bluetooth module Daughter Card (QDID Certified Module)
    • 16/24-bit, 32-192KHz DAC/Amp Daughter Card
    • USB Host/Device audio support
    • USB Charging
    • 2 inch color LCD Display
    • Headphone/Line Out
    • Audio Control function

    Bluetooth /USB Audio Software Support for:
    • Apple*
    • Samsung Audio
    • Google/Android AOA Audio
    • Bluetooth Audio w/ SBC & AAC Decode
    • Bluetooth Stack QDID Certified
    Additional software support included in v2.0 for:
    • Parametric and Graphical EQ functions
    • User configurable voice prompts
    • User configurable button press
    • Removed RTOS requirement
    Please note that there has been a major software change to the demo firmware shipped with original kits. The current software suite is revision v2.0. Please click here for more information on the software suites.

    *For Apple USB Authenticated applications contact applesupport@microchip.com

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The Low Voltage Motor Control Development Bundle provides a cost-effective method of evaluating and developing dual/single motor control power stage targeted to drive two Brushless DC (BLDC) motors or Permanent Magnet Synchronous Motors (PMSM) concurrently. The bundle comes with adsPIC DSC Signal board, Motor Control 10-24V Driver Board and dsPIC33EP512GM710 Dual Motor Control PIM.

The dsPIC (DSC) Signal Board supports both 3.3V and 5V operated devices for various applications andfrequently used human interface features along with the communication ports. The Signal Board has two major connectors, a 120-pin connector and a 60-pin connector to enable connection to the plug-in boards.

The Motor Control 10V–24V Driver Board (Dual/Single) along with the compatible dsPIC DSC Signal Board provides a software development platform to build and evaluate embedded motor control application software using Microchip’s high performance motor control Digital Signal Controllers (DSCs) and Microcontrollers (MCUs).
Возможности:

    dsPIC DSC Signal Board :

    120-pin power board interface connector for power application board
    60-pin expansion connector for adds-on boards
    Two 30-pin connectors for signal monitoring or expansion
    100/105 PIM header that support MCUs and dsPIC DSCs PIM with internal or external Opamp configurations
    Human Interfaces include reset and power buttons along with LED indicators for debugging purposes
    24V power input connector

    10-24V Power Board:

    Two PMSM/BLDC motor control power stages with electrical specifications:
    - Input DC Voltage: 10V–24V DC ±10%
    - Output Phase RMS Current: 10A nominal @ 25°C per phase
    MCP8024 gate drivers with under voltage, over voltage, over current, shoot through and short circuit protection
    Hall sensors or quadrature encoder interface in each motor control stages to enable sensor-based motor control algorithms
    Phase voltage and reconstructed neutral feedback signals in each motor control stages to enable sensorless BLDC operation
    DC bus current sense resistor for over current protection, torque control of BLDC motor and single shunt vector control of PMSMs.
    Phase current sensing resistors for vector control
    DC bus voltage sensing
    Dynamic brake chopper circuit with hardware and software brake control for both the inverter stages
    Over current protection and LED indication for PWM signals and power on status



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Microchip’s Grid-Connected Solar Microinverter Reference Design demonstrates the flexibility and power of SMPS dsPIC® Digital Signal Controllers in Grid-Connected Solar Microinverter systems. This reference design has a maximum output power of 215 Watts and ensures maximum power point tracking for PV panel voltages between 20V to 45V DC. High efficiency was achieved by implementing a novel interleaved active-clamp flyback topology with Zero Voltage Switching (ZVS).

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 as well as all system management functions. As shown in this reference design the dsPIC33F ‘GS’ devices enable designers to easily and cost effectively develop products using advanced switching techniques / topologies that lower switching losses and improve overall system efficiency. The Grid-Connected Solar Microinverter 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.
Click here to find worldwide network of Sales & Support
Возможности:

    • High efficiency: 94.5% @ nominal conditions (230Vac systems)
    • Maximum power point tracking: 99.5%
    • Full digital control
    • Burst mode operation @ low output power
    • Output power de-rating @ low PV panel voltages
    • Protection against various current and voltage faults
    • System Islanding to detect grid failure

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Описание:
The PIC32MZ2048EFH144 PIM is designed to demonstrate the audio capabilities of the PIC32MZEF family of devices using PIC32 Bluetooth Audio Development Kit. A 200 MHz PIC32MZ2048EFH144 MCU with 2 MB Flash, 512 KB RAM, FPU, 48 ch. ADC, Hi-Speed USB, CAN 2.0b and 10/100 Ethernet is installed on the PIM.

FOR DEMONSTRATION SOFTWARE and Board Support Packages, PLEASE VISIT MPLAB HARMONY SOFTWARE FRAMEWORK
Возможности:

    • PIC32MZ2048EFH144
    • 200 MHz
    • 2MB Flash and 512 KB RAM
    • Floating Point Unit
    • Hi-speed USB
    • 10/100 Ethernet
    • 12-bit 18 MSPS 48 channel ADC
    • CAN 2.0

Документация:
  • Тестирование
Описание:
The PIC32MZ EF PIM is designed to demonstrate the capabilities of the PIC32MZEF family of devices using explorer 16 Development Board. It enables USB, Ethernet, and CAN development with PIC32MZ Series. A 200 MHz PIC32MZ2048EFH100 MCU with 2 MB Flash, 512 KB RAM, FPU, 48 ch. ADC, Hi-Speed USB, CAN 2.0b and 10/100 Ethernet is installed on the PIM.

FOR DEMONSTRATION SOFTWARE and Board Support Packages, PLEASE VISIT MPLAB HARMONY SOFTWARE FRAMEWORK
Возможности:

    • PIC32MZ2048EFH100
    • 200 MHz
    • 2MB Flash and 512 KB RAM
    • Floating Point Unit
    • Hi-speed USB
    • 10/100 Ethernet
    • 12-bit 18 MSPS 48 channel ADC
    • CAN 2.0

Документация:
  • Тестирование
Описание:
PIC32MM0064GPL036 General Purpose PIM is designed to plug into the Explorer 16 Development Board and demonstrates the capabilities of the PIC32MM “GPL” family of low-power and low-cost devices.

This PIM can be used to evaluate the following MCUs:

PIC32MM0064GPL036
PIC32MM0064GPL028
PIC32MM0064GPL020
PIC32MM0032GPL036
PIC32MM0032GPL028
PIC32MM0032GPL020
PIC32MM0016GPL036
PIC32MM0016GPL028
PIC32MM0016GPL020
Возможности:

    Here are some of the key features of this Plug-in-module:

    • The PIM includes the 64K flash PIC32MM0064GPL036, 40-pin UQFN device
    • PIM is supported by Microchip’s development ecosystem including the MPLAB X IDE and the MPLAB XC32 Compilers
    • Due to the flexibility allowed by the PPS feature, the 40-pin device is capable of performing all of the base functions on the 100-pin Explorer 16 board

Документация:
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Описание:
With the common use of cards instead of cash, Credit Card Reader (MSR, mag stripe/swipe readers) are an essential part of any POS system. MSRs can read any card with magnetic stripes, including some driver's licenses, gift cards, and other IDs.

Magnetic Card Readers (also known as Magnetic Stripe Readers or MSRs) read data from a 3-track magnetic stripe via a peak detection circuit and process that data for downstream users. After extracting data from the magnetic stripe, it is converted to binary data and formatted for encryption. They feed the swiped information to applications management software and connect through USB, RS-232, or PS/2 connections.

Microchip Magnetic card reader solution reads ISO/IEC-7811 cards (also known as “Frequency/double Frequency” (F2F) encoding standard).The data format encodes 7-bit data on Track1, 5-bit data for Track 2 and 3. Please refer to the features section for an in depth description of the Magnetic card readers capabilities.

Microchip offers 2 solutions, one using the dsPIC33EP family and the other using the PIC24F family of PIC's

  • For card readers that need to optimize for lowest possible power, the PIC24 XLP solution offers the lowest current consumption with sleep currents (Ipd) as low as 20uA
  • For card readers the need to optimize for lowest cost, maximumperformanceand highest level of integration, the dsPIC33 solution provides integrated op amps to save board space and component cost
This demo is not for sale, but can be easily created from components listed in the user's guide.

Возможности:

    Below are the key features of this swipe demo:

    Swipe Feature:

    • Single chip solution for reading all the 3 tracks(Note: some cards may have only Track1 and Track2 and in those cases, an error message “Track Not present” will be shown for Track3)
    • The software solution is tuned to read the swipe speeds anywhere between 60ms - 2 seconds
    • Reads both forward and reverse swipe directions
    Low Power Feature:

    • In order to reduce the power consumption, the device is put into sleep mode after every swipe
    • Even after the device is put to sleep, the swipe speed read range of 60ms - 2 seconds still holds good
    • The device wakes up during swipes by using the on-chip comparator as the wake-up source
    Software solution:

    • Exponential average mechanism is used to design the software filter
    • Interrupt based decoding of tracks
    • Integrated with MCHP AES-128 library where the user can key-in AES key on every power-up
    • The decoded data is presented either on the pin or can be dumped on a serial terminal
    • Calculates and displays the card swipe time
    Hardware Features:

    • No shielded cables are required
    • USB powered
    • On-board MCP2200
    • USB cable for the demo
    On-chip Peripherals used for the demo:

    • ADC
    • Three op-amps (one for each track)
    • Comparator to wake up from sleep
    • Timers (Four 16-bit timers)

Документация:
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Описание:
Microchip’s PICkit™ 3 In-Circuit Debugger/Programmer uses in-circuit debugging logic incorporated into each chip with Flash memory to provide a low-cost hardware debugger and programmer. In-circuit debugging offers these benefits:
  • Low cost
  • Minimum of additional hardware needed for debug
  • Expensive sockets or adapters are not required
The PICkit 3 can now also reprogram any PIC microcontroller with a simple push of a button: Find out more about Programmer-To-Go function*
*Please consult the PICkit 3 readme to determine Programmer To Go device support limitations.

Note: The PICkit 3 In-Circuit Debugger/Programmer is NOT a production programmer. It should be used for development purposes only.

The MPLAB PICkit 3 allows debugging and programming of PIC® and dsPIC® Flash microcontrollers at a most affordable price point using the powerful graphical user interface of the MPLAB X Integrated Development Environment (IDE). The MPLAB PICkit 3 is connected to the design engineer's PC using a full speed USB interface and can be connected to the target via an Microchip debug (RJ-11) connector (compatible with MPLAB ICD 2, MPLAB ICD 3 and MPLAB REAL ICE). The connector uses two device I/O pins and the reset line to implement in-circuit debugging and In-Circuit Serial Programming™.

If you need older software for programming with your PICkit 3, please visit our archives.

Header Information

Some 8-, 14- and 18-pin devices use small header boards with a special MCU for debugging. This special MCU has extra pins for PICkit 3 communication and therefore allows the use of all pins on the part for the application. The header board is not used or needed for programming. However, when debugging these devices the header must be used. See the "Header Specification" document below.
Возможности:

    • USB (Full speed 12 Mbits/s interface to host PC)
    • Real-time execution
    • MPLAB IDE compatible (free copy included)
    • Built-in over-voltage/short circuit monitor
    • Firmware upgradeable from PC/web download
    • Totally enclosed
    • Supports low voltage to 2.0 volts (2.0v to 6.0v range)
    • Diagnostic LEDs (power, busy, error)
    • Read/write program and data memory of microcontroller
    • Erase of program memory space with verification
    • Freeze-peripherals at breakpoint
    • Program up to 512K byte flash with the Programmer-to-Go*
    • Header Information

    *Please consult the PICkit 3 readme to determine Programmer To Go device support limitations.

    Some 8-, 14- and 18-pin devices use small header boards with a special MCU for debugging. This special MCU has extra pins for PICkit 3 communication and therefore allows the use of all pins on the part for the application. The header board is not used or needed for programming. However, when debugging these devices the header must be used. See the "Header Specification" document below.

Документация:
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Описание:
Bluetooth® has emerged as a standard of choice for connecting local embedded applications through a smartphone or tablet. Many applications only need simple command and control, or a quick status update from a sensor. By catering to these needs, Bluetooth Low Energy (BLE) has evolved to support these low-duty cycle applications with lower power consumption. Microchip’s eXtreme Low Power PIC® Microcontrollers and RN4020 Bluetooth low energy module help in achieving low power consumption.The PIC24FJ128GB204 or PIC24FJ256GB410devices used in this demo have an integrated hardware Crypto engine.This demonstration shows the simple communication between the RN4020 module and a Bluetooth Low Energy (BLE) supporting smartphone or tablet. The RN4020 module is controlled by the PIC24FJ128GB204 or PIC24FJ256GB410 MCU which include a hardware crypto engine used for AES encryption in the demonstration. The demo is built using standard development tools from Microchip including the Explorer 16 Board, PIC24FJ128GB204or PIC24FJ256GB410Processor Plug-In Module (PIM), and Bluetooth LE PICtail Plus Daughter Card. These readily available tools can be used to easily replicate this demo on your own. The demo is supported by MCU firmware and an app that will run on an Android phone or tablet. The first application is turning the LEDs on and off using the touch buttons on the tablet. The app can also show the state of the switches on the board, toggling on and off. The demo also includes data security using the crypto engine integrated on the PIC24FJ128GB204 or PIC24FJ256GB410 MCU, with up to128-bit AES. This demo shows a PIC24 XLP MCU working with Bluetooth LE talking to an Android tablet to show basic command and control similar to what would be used for a simple IoT sensor node. This demo can also be built using thePIC24FJ256GB410 Processor Plug-In Module in place of the PIC24FJ128GB204 Processor Plug-in Module.
Возможности:

    • PIC24FJ128GB204 or PIC24FJ256GB410 XLP MCU Plug-In Module
    • Explorer 16 Development Board
    • RN4020 Bluetooth LE Module on PICtail Daughter Card
    • Android Tablet with App
    • Integrated Hardware Encryption / Decryption
    • Bi-directional Communication
      • Basic Command & Control
      • LEDs, Switches, Temp sensor

Документация:
  • Даташит
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Описание:
The PMP10100 reference design uses the LM5023 flyback controller for the Quasi-Resonant Flyback Topology. It generates an isolated output (19.5V@3.84A) from an universal input (85VAC - 265VAC).

Возможности:

Quasi-Resonant Flyback Topology Four Point Average Efficiency = 89.3% (Vin=110VAC) Four Point Average Efficiency = 89.4% (Vin=230VAC) 10% Load Efficiency = 89.6% (Vin=110VAC) 10% Load Efficiency = 87.2% (Vin=230VAC)

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Описание:
This reference design is an isolated Fly-Buck converter with an extend industrial input voltage range from 12 to 36V. It provides two outputs with +17V/45mA and -17V/30mA.

Возможности:

Single Input - Dual Bipolar Output Built and Tested, Test Report included Isolated design works from 24V Industrial Bus Voltage

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Описание:
This reference design is a complete power solution for the Hercules™ Safety MCU. The input voltage can be in the range of 48..60V and it provides five different output rails with 12.0V @ 30mA, 5.0V @ 240mA, 3.3V @ 620mA, 3.3V @ 230mA and 1.2V @ 700mA.

Возможности:

Complete power solution for the Hercules™ Safety MCU Small & compact Robust Competetive price

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Описание:
The wide 9-36Vdc input range of this design is well suited for applications operating from 12V/24V dc inputs. The synchronous rectifier provides excellent efficiency over the full input range.
Возможности:

Excellent efficiency (89% at 3A) 1500VRMS isolation Small size (32 x 35mm) 8.4mm max transformer height

Документация:
  • Схемотехника
  • BOM
Описание:
The PMP10532 reference design is an isolated Fly-Buck power supply for industrial applications. It takes 24V nominal input and provides three isolated outputs: +5V@1A and +/-15V@200mA. The design is suitable for providing isolated power supply to MCU and control circuits and positive/negative bias to Op Amps in PLC applications. The cross regulation of each output over line and load variation maintains about +/-5% tolerance, and the input voltage range of the supply is from 19V to 30V. The design features the LM5160 synchronous buck converter configured as a Fly-Buck regulator. The LM5160 has a wide Vin range of 4.5V to 65V and 1.5A output current capability with integrated switch FETs. It employs the Constant On-Time (COT) control scheme suitable for the Fly-Buck. With the benefit of primary side regulation, the Fly-Buck converter makes a compact and cost effective solution for multiple isolated output power supply without the opto-coupler feedback.

Возможности:

Three isolated outputs, +5V@1A and +/-15V@200mA, are ideal for PLC and industrial applications Fly-Buck converter design, primary side regulation Compact solution for multiple isolated output supplies 19V to 30V input voltage range, +/-5% Vout cross regulation LM5160 sync buck regulator, up to 65V wide Vin range, 1.5A capability Constant On Time control, no loop compensation and fast transient response This circuit board is tested, and the design files and test report are included.

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Описание:
PMP10571 is a sync isolated Flybuck-boost converter with a negative primary voltage. The power supply has a synchronous buck regulator, LM5160, and a versa pack transformer. The synchronous rectifier on the secondary improves efficiency and regulation under heavy load. The design accepts an input voltage of 18V to 30V, and outputs 5V, capable of providing 3A of current to the load, making it suitable for 24V input industrial application. The Fly-Buck topology can regulate the secondary side outputs without opto-coupler or aux winding, and is capable of achieving good regulation within ±5%. With LM5160's Constan On-Time control, no loop compensation is required, which simplifies the design and helps reducing the external part count and BOM cost.

Возможности:

Versa pack transformer increase design versatility +5V/3A with LM5160 capable of 4.5V to 65V input Primary Side Regulation without Opto, Good Regulation, within +/-5% Synchronous rectifier on the secondary winding improves efficiency and regulation. Constant On Time Control, No Loop Compensation Required, and Fast Transient Response No primary winding snubber is required

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Описание:
PMP10698 is a synchronous 4-switch buck-boost converter which utilizes the LM5175 controller for USB type C applications. The output voltage can be selected for 5V, 12V or 20V at 5A using jumpers or open drain control switches. The LM5175 average current loop sets a maximum output current of 6.25A.

Возможности:

Three selectable output configurations High power density Cycle-by-Cycle current limit Sync to external clock Input and output current limit option Synchronous for maximum efficiency

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Описание:
PMP10725 is an isolated flyback solution which accepts an input voltage of 15 to 36VIN and provides multiport output to the load. This reference design compares primary and secondary control solutions. With primary control, it can achieve higher efficiency with lower BOM cost, but the regulation performance is not so good. With secondary control, it can achieve great load regulation performance by controlling the 24V-rail voltage. This LM3481 flyback reference design can be used for supplying the digital output module in industrial PLC application.
Возможности:

Multiport isolated output Primary control with low BOM cost Secondary control with great regulation performance Peak current mode control Flexible for other isolate application

Документация:
  • Схемотехника
  • BOM
Описание:
The PMP10736 reference design is a single isolated outputs Fly-Buck power module. The Fly-Buck design with the LM5160 regulator provides a simple and compact solution for isolated power supply.

Возможности:

+5V, 500mA isolated output, 5V to 15V input range Miniature power module design, SIP-7 footprint Output variation within 9%, 83% peak efficiency Isolation voltage 2500VAC/1sec, Basic insulation LM5160 wide input 65V, 1.5A sync buck / Fly-Buck regulator The reference board is tested, and the test report and design files are included

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Описание:
The TPS54061 is used in a buck topology with an auxillary winding providing power to the primary side and isolated side of a isolated system. The high efficiency of this topology provides more output current from a system powered from a current limited input source. The isolated output is post regulated with an LDO for best regulation.

Возможности:

• Synchronous buck for high integration and high efficiency • 60-V wide input voltage range • 90-µA non-switching input current • Auxillary winding provides a highly efficient low current isolated output • Built and tested circuit and PCB design

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Описание:
PMP11184 is a chipset solution for high current ASIC core rail regulation. It utilizes TPS53647 4-phase controller for 120A high current rail, which employs DCAP+ control for fast transient response and TI's proprietary AutoBalance for tight steady and dynamic phase-to-phase current balance. It also utilizes TPS40428 dual controller for dual 30A rails. Both controllers drive TI NexFET smart power stages for high power density and efficiency. PMBus capability and on-board NVM enable easy design, configuration, and customization, with telemetry of output voltage, current, temperature, and power.

Возможности:

Detached layout enables flexible placement High efficiency 91% at 1V/120A, 300kHz, 12Vin Excellent thermal performance (72C FET temperature at full load with 200LFM air flow) Combined ripple and transient response within +/-2%. Full PMBus telemetry of output voltage, current, power and temperature

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Описание:
The PMP11328 is a high power density 30A PMBus power supply meeting the Xilinx Ultrascale+ ZU9EG FPGA core rail power specifications for Base Station Remote Radio Unit (RRU) applications. The power supply regulates 0.85V for the core rail at 25A in 55mm x 40mm total power supply PCB area. PMBus capability enables easy programming, and custom configuration of the power supply through on-board Non-Volatile Memory (NVM), as well easy Adaptive Voltage Scaling (AVS), and Voltage Margining. The power supply also enables monitoring of the output voltage, current, and external hot spot temperature through PMBus. Overall ±3% tolerance is met while efficiency is >82%.

Возможности:

12V input, 0.85V/25A PoL in 40mm x 55mm PCB area High efficiency >82% at 0.85V/25A, 500kHz Adaptive Voltage Scaling (AVS), Voltage Margining, and Output Voltage/Current/Temperature monitoring through PMBus and TI's Fusion GUI 4W Power Loss at 12VIN, 0.85V/25A 12mV overshoot/undershoot during a 8A load transient at 10A/µs ±3% total load regulation (AC and DC)

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Описание:
PMP11399 is a complete PMBus power system for 3 ASIC/FPGA cores, DDR3 core memory, VTT termination, and auxiliary voltages commonly found on high-performance Ethernet Switches. The hardware is accompanied by a GUI that allows the user to perform real-time configuration and monitoring of the power supplies.

Возможности:

12V / 300W system power solution with nine point-of-load buck converters PMBus communication configures hot-swap, SWIFT buck converters, multiphase PWM controller, and power sequencer/supervisor High-density power conversion utilizing Inductor On Top of IC layouts Voltage margining through PMBus and PWM UCD90240 GPIs allow for event-based power supply control

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Описание:
The PMP15012 reference design is a DC/DC buck-boost solution which accepts an input voltage of 18V to 36V and provides negative 15V/200mA output to the load. This reference design adds an external UVLO circuit to narrow the UVLO hysteresis because a buck-boost converter is difficult to shut down. This LMR16020 buck-boost reference design can be used for supplying the DAC/ADC/OA in an industrial application.
Возможности:

18V to 36V Wide Vin 15V negative output External UVLO circuit to narrow the buck-boost UVLO hysteresis Peak current mode control OCP for transformer saturation protection Internal compensation for easy of use

Документация:
  • Схемотехника
  • BOM
Описание:
The PMP15013 reference design is a 5V/3A output power supply using the LMR16030 DC/DC buck regulator. This design uses a 4-layer board and is intended for industrial applications with a 24V input bus. LMR16030 is a 4.5V to 60V input, 3A output capable, and 200 kHz to 2.5MHz non-synchronous buck regulator. This reference design has an input voltage range of 18V to 36V, covering the widely-varying input voltage condition commonly seen in industrial applications with a loosely-regulated nominal 24V input voltage. The reference board includes an input EMI filter, and the layout is optimized for improved EMI performance on a 4-layer PCB. The board was tested to the CISPR-22 standard, and the conducted emissions (CE) and radiated emissions (RE) were in compliance with the CISPR-22 Class-B requirement with 10dB of margin.
Возможности:

18V to 36V Wide Vin, 5V/3A output, support 24V bus In compliance with CISPR 22 Class B both conducted emissions and radiated emissions standard with 10dB+ margin Peak current control, OCP function, inductor saturation protection Ease of use

Документация:
  • Схемотехника
  • BOM
Описание:
The PMP15016 reference design is a 5V/3A output power supply using the LMR23630 DC/DC buck regulator IC. This design uses a 4-layer board and is intended for industrial applications with a 24V input bus. LMR23630 is a 4.0V to 36V input, 3A output capable, and 400 kHz fixed synchronous buck regulator. This reference design has an input voltage range of 9V to 36V, covering the widely-varying input voltage condition commonly seen in industrial applications with a loosely-regulated nominal 24V input voltage. The reference board includes an input EMI filter section. Thelayout is optimized for improved EMI performance on a 4-layer PCB. The board was tested to the CISPR-22 standard. The conducted emissions (CE) and radiated emissions (RE) are in compliance with the CISPR-22 Class-B requirement with 10dB of margin.
Возможности:

Wide 9V to 36V input voltage range for nominal 24V input bus, 5V/3A output Compliantwithboth CISPR-22 Class-B conducted and radiated emissions standards with 10dB+ margin Peak current mode control, OCP function, inductor saturation protection Easy to use 8-pin SOIC package

Документация:
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Описание:
This TI Design showcases a TPS92515 small-form factor LED driver optimized to drive up to 5 infrared (IR) LEDs for industrial cameras and other general lighting designs. It can drive up to 1A through LED loads of up to 9.5V from a 24V input source. The buck topology is implemented as a secondary-stage LED driver which offers a simple, high performance and a cost effective lighting solution. Additional design flexibility includes analog and PWM dimming (including shunt FET dimming) support as well as EMI filtering designed to meet FCC part 15 class B conduction requirements.
Возможности:

Optimized for infrared LEDs and other small form factor LED lighting applications FCC part 15 class B tested EMI Small inductor size (4mm X 4mm) Analog and PWM dimming Supports high frequency shunt FET dimming up to 30 kHz

Документация:
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Описание:
The PMP15025 comprises a single phase synchronous buck converter that supplies a stable 5V @ 4A solution from a 24V input. The design features high efficiency and power density, which are suitable for industrial automation applications, such as robotics and motor drives.
Возможности:

90% efficiency at 24VIN, 5V/4A at 390kHz 4.44mV of Output Ripple at full load current Minimal Phase Ringing at full load current 30kHz Loop Bandwidth with 75° of Phase Margin for fast, stable, transient response

Документация:
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Описание:
This DDR reference design provides a VDDQ of 2.5V @ 6A and a VTT of 1.25V. The 2.5V sync buck converter achieves an efficiency of 92% while the 1.25V minimizes area by implementing a built-in LDO and has excellent tracking performance.

Возможности:

Complete power solution for DDR or DDR2 memory applications High efficiency (92%) synchronous controller with integrated LDO Adaptive on-time control for fast transient response Supports all three sleep states, suspend to RAM, soft-off, suspend to disk

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Описание:
PMP3130 uses the TPS51116 to generate a DDR3 supply for VDDQ and VTT. The VDDQ supply is generated from single cell lithium ion battery to 1.5V at 4A using a synchronous buck converter. The VTT supply is generated using a LDO from 1.5V to 0.75V at up to 3A load current. The TPS51116 is designed to operate in low power skip mode to keep light load efficiency high for portable applications.
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Описание:
The PMP4405 reference design uses the UCC28740 Flyback controller with valley-switching controller to generate dual DC output 5V/2A and 26V/0.3A from a universal AC input. The design is suited for auxiliary power for industrial applications and appliances. The design is fully tested and compliant with EMI regulations

Возможности:

Two isolated rails delivering 18W power Valley switching for high efficiency Output OVP,OCP and SCP protoction Single layer board for low cost SSR control with good cross-regulation EMI compliance

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Описание:
The PMP4412 is a 24Vin +5Vout, 1W reference design module which is implemented in an industry-standard SIP pinout. It includes a constant on-time synchronous Flybuck controller LM25018. The solution has high efficiency, good line and load regulation with 1,500V DC isolation. The power module was designed with minimized components for cost sensitive applications. PMP4394, PMP4401, PMP4412-PM4415 have the same pinout and can be replaced by each other without modification.

Возможности:

Flybuck™topology with 1,500V DC isolation High efficiency Good line and load regulation Low cost solution with minimized component numbers Industry standard Pinout Size: 19.8 X 9 X 5.8mm

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Описание:
The PMP4413 is a 24Vin ±15Vout, 1W reference design module which is implemented in an industry standard SIP pinout. It includes a constant on-time synchronous Flybuck controller LM25018. The solution has high efficiency, good line and load regulation with 1,500V DC isolation. The power module was designed with minimized components for cost sensitive applications. PMP4394, PMP4401, PMP4412-PM4415 have the same pinout and can be replaced by each other without modification.

Возможности:

Flybuck™topology with 1,500V DC isolation High efficiency Good line and load regulation Low cost solution with minimized component numbers Industry standard Pinout Size: 19.8 X 9 X 5.8mm

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Описание:
The PMP4414 is a 24Vin +15Vout 83mA, -15Vout 50mA, 2W reference design module which is implemented in an industry standard SIP pinout. It includes a constant on-time synchronous Flybuck controller LM25017. The solution has high efficiency, good line and load regulation with 1,500V DC isolation. The power module was designed with minimized components for cost sensitive applications. PMP4394, PMP4401, PMP4412-PM4415 have the same pinout and can be replaced by each other without modification.

Возможности:

Flybuck™topology with 1,500V DC isolation High efficiency Good line and load regulation Low cost solution with minimized component numbers Industry standard Pinout Size: 19.8 X 9 X 5.8mm

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The PMP4415 is a 24Vin +15Vout 150mA, -15Vout 50mA, 3W reference design module which is implemented in an industry standard SIP pinout. It includes a constant on-time synchronous Flybuck controller LM25017. The solution has high efficiency, good line and load regulation with 1,500V DC isolation. The power module was designed with minimized components for cost sensitive applications. PMP4394, PMP4401, PMP4412-PM4415 have the same pinout and can be replaced by each other without modification.

Возможности:

Flybuck™topology with 1,500V DC isolation High efficiency Good line and load regulation Low cost solution with minimized component numbers Industry standard Pinout Size: 19.8 X 9 X 5.8mm

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This 5V / 6A solution implements a high efficiency active clamp controller LM5025A and self-drive synchronous rectifier. Input voltage is 18V-40V as typical industrial request and efficiency is 89.5%@24Vin full load. The transformer is embeded into the PCB and 8mm height can be met. The design is suitable for height limited industial applications.

Возможности:

Wide input range from 18V to 40V Adjustable Dual Mode Over-Current Protection Active Clamp Forward +S.R controller for high efficiency Lower output ripple voltage with less output capacitor Small form factor: 60mm x 40mm x 8mm Low cost through self-drive secondary synchronous rectifier circuit

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The PMP4460 is a 24Vin 24Vout 50mA, 5Vout 100mA reference design module which is implemented in an industry standard SIP pinout. It includes a constant on-time synchronous Flybuck controller LM25017. The solution has high efficiency, good line and load regulation with 1,500V DC isolation. The power module was designed with minimized components for cost sensitive applications. PMP4394, PMP4401, PMP4412-PM4415 have the same pinout and can be replaced by each other without modification.

Возможности:

Flybuck™topology with 1,500V DC isolation High efficiency Good line and load regulation Low cost solution with minimized component numbers Industry standard Pinout Size: 20.6 X 9.4 X 6mm

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The PMP4486 is a GaN-based reference design solution for telecom and computing applications. The GaN module LMG5200 enables a high efficiency single stage conversion with an input range from 36 to 60V down to 29V, 12V and 1.0V. This design shows the benefits of a GaN based design with high integration and low switching losses. A low cost ER18 planar PCB transformer is embedded on the board. The design was achieved in a compact form factor (56mmX86mmX16mm).
Возможности:

Extra high efficiency up to 98.4% High operating frequency for small size Ease of design using LMG5200 GaN FET module Full digital control with UCD3138A enable flexible design S.R buck topology and half-bridge current-doubler

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This primary-side regulated, isolated flyback converter provides two independent 5V@150mA outputs. One output can be referenced to ground to make a negative output, allowing for a +/-5V split rail design.

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This reference design is a multi-output output isolated flyback, working from universal line. The main regulated output is 3.3V@350mA; the 5V and 12V outputs are regulated by means of linear regulators and the 24V output has been generated with a small charge pump. The converter takes advantage of the cascode-flyback topology and quasi-resonant working mode to deliver low EMI and good efficiency at light load.
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Описание:
high efficient synchronous buck converter, steps down 28V to 3.3V
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This Active clamp Forward supplies two outputs, 12V @ 7.5A and 5V @ 100mA, with a LDO, starting from a 14V…35V input source, reaching 94% efficiency with sync. Rectification.
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Simple, low cost automotive buck to provide I/O voltage 3.3V @1A w/ TPS54060
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The PMP6938 design uses the TPS54062 synchronous step-down DC/DC converter as an alternative to a linear regulator for 2 wire 4-20mA current loop applications. The design is optimized for small size and fits within 7mm x 15.5mm x 0.8mm board area. The input voltage withstands line transients up to 60V and is configured to deliver 3.3V/30mA at 400kHz. The output filter employs a 4.7uF ceramic output capacitor and a 1mH inductor in a small 1812 package. The efficiency peaks at 70% at 20mA from 12Vin to 3.3Vout.
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This reference design uses the BQ24640 super cap charging controller to charge a large bank of super caps to a voltage below the input bus voltage. During an input bus dropout, the energy from the super caps is used to power a boost converter that can supply 10A of output current at 26.2V. This output can be used to hold up the bus voltage for up to 10 seconds (260W for 10 sec).

Возможности:

Boost Converter efficiency greater than 95% at Vin = 18V and 1A - 10A loads Boost holdup supports 28V bus for longer than 27 seconds using a large 28F super cap bank while delivering 260W Super cap charger provides a constant 3A charge current for a controlled startup time Low cost design requires less than 100mm x 100mm

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The PMP7338 reference design uses the LM5022 in a SEPIC configuration to generate 12V@4A. The design offers efficiency up to 90% and small size.
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The LM5017 Flybuck reference design provides multiple isolated outputs to supply the bias voltage needed in a PLC I/O module. It generates 4 isolated outputs: ±15V@50mA and ±5V@100mA; it can cover most of the required voltage rails in the I/O module, such as the OP-AMP, DAC bias, RS-485 transmitter and digital isolator power supplies. In the Flybuck, the regulation is done on the primary side, and thus no opto-coupler is needed. The overall load/line regulation for each output is within +/-5%. The input voltage range is from 17V to 32V.

Возможности:

Ideal for PLC I/O modules, or industrial applications requiring multiple bias supplies Quad isolated outputs, +/-15V@50mA, +/-5V@100mA Designed for an operating range of 17-32V Uses the LM5017 capable of 9 to 100V Input operation for withstanding transients and surge voltage +/-5% Vout regulation accuracy across line and load variations Tested and supported with design files, reference board available upon request

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This simple isolated flyback converts 50V…600Vin to 15V@200mA. The LM5021-1 controller is suitable for green mode converters due to pulse skip mode. Since the input maximum voltage is 600V, the pulse skip mode improves the efficiency due to the reduction of the switching losses.

Возможности:

Wide Vin capability (50 to 600V DC) Duty cycle restriction to 80% 84% full load efficiency Less than 70mW consumed at no load Pulse skipping mode resulting in reduction of switching losses Low component count (as there is no need for external slope compensation) with LM5021-1

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Данный изолированный обратноходовой преобразователь генерирует регулируемый выход 5 В/ 1 А из низковольтного выхода (3,5 – 5,5 В). PMP8871 построен на отладочном модуле повышающего преобразователя TPS55340.

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The PMP9044 reference design uses the UCC28720 primary-side regulated flyback controller to generate a 3.3V/0.5A output from a 3-phase univeral AC input. A bipolar transistor is used as the switch on the primary side to minimize the circuit cost.
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В данном источнике питания используется неизолированный понижающий преобразователь UCC28880 для преобразования универсального переменного входного напряжения (от 85 до 265 В) в постоянный выход 18 В / 130 мА. В UCC28880 встроен MOSFET, что оптимизирует суммарную стоимость компонентов и размер решения.

 

Возможности:

  • Универсальный переменный вход: 85-264 В
  • Интегрированный MOSFET
  • Оптимизированная стоимость решения
  • Минимальное количество внешних компонентов

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The PMP9243 reference design uses the UCC28720 primary-side regulated flyback controller to generate a 15V/0.25A output from an industrial AC input (up to 583VAC). A bipolar transistor is used as the switch on the primary side to minimize the circuit cost.

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The reference design provides a compact power solution (20x20mm board size) for the Aptina AR0132 image sensor in automotive camera modules. The design comes with a power supply board and a filter board. The power board has two sync-buck regulators, LM34919C and TPS62231, to provide 1.8V and 2.8V outputs. RC output filters are designed for the core, analog and I/O supply rails required by the image sensor in order to reduce the ripple and ensure proper power-up sequencing. The input voltage range is from 4.5V to 50V suitable for 12V automotive battery supply. The filter board is designed to enable the power over coax cable configuration, which allows transferring power and the FPD-Link III signal over one cable. There is also an input line filter option on both boards in case the power-over-coax configuration is not desired.

Возможности:

Power supply designed for Aptina AR0132 image sensor in automotive camera Miniature solution size 20x20mm 1.8V and 2.8V output with output filter to cover the core, analog, I/O rails and ensure high image quality 4.5-50V operating input voltage range, ideal for 12V automotive battery Filter board allows transferring power and FPD-Link III signal over coax cable configuration

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PMP9335 is designed for Xilinx Zynq FPGA applications utilizing the TPS84A20 and TPS84320. This design uses an external timer to synchronize the switching frequency to 300 kHz. It also employs a controlled power up and power down sequence.

Возможности:

Designed for Xilinx Zynq FPGA applications Compact solution and easy-to-use design with TPS84A20 and TPS84320 buck regulator modules Controlled power up and power down sequence To be used as a “plug in” module, the use of extra bulk capacitance on external pcb is assumed

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The PMP9409 reference design is an 4-output isolated Fly-Buck power supply for PLC applications. It takes 24V nominal input and provides 4 isolated sets of (+15V) bias voltage, Each rail has a load of 30mA. Each set of rails is generated from one single transformer windings on the secondary side. A compact solution size is achieved (56x43mm). The design features the LM5017 synchronous buck converter configured as a Fly-Buck regulator. With the benefit of primary side regulation, the supply has the outputs regulated without the opto-coupler or additional transformer winding. The LM5017 has a wide Vin range which is up to 100V and 600mA output current capability with integrated switch FETs. The input voltage to the reference board can be loosely regulated with a range of 17V to 36V.

Возможности:

Four isolated outputs, 4x(+15V@30mA) Fly-Buck converter design, primary side regulation, compact solution for multiple isolated output supply Wide input voltage range of 17V to 36V 85% peak efficiency. LM5017 sync buck regulator, up to 100V wide Vin range, 600mA capability This circuit board is tested, and the design files and test report are included.

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The PMP9474 reference design is Fly-Buck solution, with two outputs, one non-isolated power supply, 3.3V@300mA, for MCU, one isolated power supply, 5V@100mA, for RS-485. The most important feature of this design is ultra compact solution size, which is only 26mmx14.5mm. The design uses the LM5017 synchronous buck converter configured as a Fly-Buck regulator. With the benefit of primary side regulation, the supply has the output regulated without the opto-coupler or additional transformer winding. The LM5017 has a wide Vin range which is up to 100V and 600mA output current capability with integrated switch FETs. The input voltage to the reference board can be loosely regulated with a range of 18V to 36V.

Возможности:

One non-isolated 3.3V output, one isolated 5V output; Fly-Buck converter design; Ultra compact size, only 26mm x 14.5mm; 83% peak efficiency. LM5017 sync buck regulator, up to 100V wide Vin range, 600mA capability This circuit board is tested, and the design files and test report are included.

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PMP9492 is a conducted EMI optimized (CISPR 25 Class 5) 9 W Multi output Design for Wide Range Vin automotive ADAS application that supports Cold –Cranking Conditions . The design uses an LM53603 regulator IC (used as Buck), LM26420 (used as dual Buck) and TPS60150 regulator IC (used as Charge pump for 5V output). The design accepts an input voltage of 4.5Vin to 20Vin and provides the outputs of 3.3V @ 1.0A, 2.5V @ 1.0A, 1.8V @ 1.0A, and 5V @ 100mA.It features a small size and is an inexpensive and more efficient solution customized for ADAS and other Automotive related applications. The Board dimension of PMP9492 PCB is 2600mil × 4000mil. Four layer PCB was used for the design.

Возможности:

Triple Buck + Charge Pump for Lower Power Rear Camera ADAS Application In compliance with the CISPR 25 Class 5 conducted emissions standard, passing both AM & FM radio band tests All devices Switching frequency 2.1MHz EMI performance optimized layout Single Differential Filter for all the Switching Converters 4.5V to 20V wide Vin range- Supports Cold Cranking Conditions

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This reference design generates an isolated 2W dual output (+3.3V & -3.3V) from AC line 88 - 269VAC. The UCC28910 incorporates a 700V power MOSFET and PSR controller. It saves PCB space and reduces assembly time.

Возможности:

Dual output Small solution size Wide input voltage Fast turn on time Low output ripple voltage

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Типовое решение схемы управления питанием всех шин CMOS датчика камер. Решение обеспечивает передачу высокочувствительного сигнала датчика изображений без использования дополнительных фильтров. Таким образом достигается высокая эффективность системы.

Решение построено на 3-х полностью интегрированных понижающих преобразователях, что обеспечивает компактность схемы и ее способность поддерживать до 200 мА на каждом из выходов.

 

Возможности:

  • 3 шины напряжения с низким уровнем шума;
  • Высокая эффективность всех 3-х шин выходного напряжения;
  • Небольшие габариты;
  • До 200 мА выходного тока на каждой шине;
  • Простая конструкция из нескольких компонентов;
  • Качественные Automotive qualified компоненты.

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This reference design describes a backup power circuit which addresses instantaneous protection against power interruptions by using a buck-boost converter and two stacked supercapacitors. The implementation is based on a completely integrated TPS63020 buck-boost converter circuit enabling a small total solution size. The design also provides an active cell balancing circuit. This configuration has been tested with a full test report and operation explanation.

Возможности:

No glitches at the automatic transition from main power to backup power operation Active cell balancing Backup-capacitor type and size are selectable to meet backup power needs Up to 15 Watt output power Small and high efficiency single converter solution Support of pulsed loads connected to a weak supply

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This reference design details a display power circuit which generates a bipolar voltage rail for source drivers and additional supplies for gate drivers. Charge pumps are used to generate the voltage supply for gate drivers, which makes this design easy to implement. By using only one dc-dc converter to generate four voltage rails and therefore minimizing the amount of inductances, this circuit allows small design size.

Возможности:

Complete power supply solution for TFT LCD display bias 4 output voltage rails Low quiescent current less than 0.5 mA Load regulation less than 2% on all rails Automotive qualified components

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Описание:
This reference design provides an easy method to evaluate the power, and features of SMPS dsPIC® Digital Signal Controllers in high density quarter brick DC-DC converters for intermediate bus architectures(IBA). 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 Phase Shift Full Bridge (PSFB) topology that lower switching losses and enable efficiencies as high as 94%. The reference design also supports the Full Bridge topology through minor hardware modifications. The Quarter brick DC to DC Converter Reference Design is royalty free when used in accordance with the licensing agreement.

This reference design works with telecom input range 36V – 76V DC and provides 12V with 200W power. Designed with planar magnetics, this reference design implements various non-linear techniques, which improves the performance and efficiency.

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Возможности:

    • Primary and Secondary MOSFET control
    • Active Current Share
    • Remote ON/OFF
    • Programmable soft start
    • Controlled Fall time
    • Voltage, Current, Temperature monitoring & Protection
    • Configurable output voltage
    • Full Digital Control
    • Supports both Full Bridge and Phase Shifted Full Bridge topologies

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Описание:
This reference design provides an easy method to evaluate the power, and features of SMPS dsPIC® Digital Signal Controllers for high wattage AC - DC conversion application. Discover the many benefits of digital power control implementation in this reference design. The SMPS AC - DC Reference Design unit works with universal input voltage range, and produces multiple DC outputs. The design is based on a modular structure, which features three major power stages; the input stage, intermediate stage and the third stage, a Point of Load. The input stage is a PFC Boost Converter, the intermediate stage is a Phase-Shifted Zero Voltage Transition (ZVT) Converter, which includes ZVT Full Bridge Converter and Synchronous Rectification, and the third stage is Single-phase and Multi-phase Buck Converters. This reference design uses two dsPIC33F16GS504 devices; one used for the PFC Boost Converter and ZVT Full Bridge Converter, while the other dsPIC® DSC is used for Single-phase and Multi-phase Buck Converters.


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Возможности:

    • Primary and Secondary MOSFET control
    • Operates at universal input voltage (85-265Vac, 45-65Hz)
    • Operates up to 300W sustained output
    • Full Load operation on 3.3V and 5V outputs when loaded individually and/or simultaneously:
      • 3.3V output @ 56A
      • 5V output @ 23A
    • Power Factor Performance of 0.99 at full load (110Vac/220Vac)
    • Fault Indication and Protection
    • Excellent Dynamic Load Performance and Output Sequencing
    • Separate boards, one for digital signals (Signal Board) and the other for the Power stages (Power Board)
    • Signal Board has two dsPIC33F16GS504 devices controlling different power stages
    • MPLAB® ICD 2 or REAL ICE support

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The chipKIT™ Starter Pak contains everything you need to develop applications with the Arduino-compatible chipKIT platform. The Uno32 (TDGL002) includes an 80 MHz PIC32 processor with 128K Flash and 16K RAM. The Basic I/O shield (TDGL005) adds a variety of useful I/O devices such as buttons, switches, OLED graphic display, temp sensor, EEPROM, transistor outputs and more. A prototype shield kit from NKC Electronics is included, along with an innovative key that can be used to separate shields easily.

chipKIT boards work with a Multi-Platform IDE (MPIDE) and software framework that is compatible with most Arduino-based applications.
Возможности:

    • Pin-out compatibility with many existing Arduino™ shields that can operate at 3.3V
    • Lower price -point at four times the performance than existing solutions

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Описание:
chipKIT™ Pi (Designed for Raspberry Pi) is the latest Arduino® compatible chipKIT platform from Microchip and element14. It features a 32-bit PIC32 microcontroller in a prototyping-friendly, low pin count SPDIP package. The PIC32’s performance, memory and integrated peripherals allow users to create applications including touch sensing, audio processing and advanced control. The board is supported by the free chipKIT Multi-Platform IDE (MPIDE) that can be hosted on the Raspberry Pi.

For additional information, visit element14.com/chipkit_pi

element14 is a trusted Third Party Tool provider.

Getting Started with chipKIT Pi
Возможности:

    • Designed exclusively for the Raspberry Pi and Arduino ecosystems
    • Includes a PIC32MX250F128B MCU [in socket] with 128K Flash, 32K RAM
    • USB, ICSP and JTAG connectors for maximum compatibility
    • Create, compile and program Arduino sketch-based chipKIT applications within the Raspberry Pi operating system
    • Develop 3.3V Arduino compatible applications for the Raspberry Pi

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Описание:
The chipKIT™ Basic I/O Shield is an input/output expansion board designed for use with chipKIT microcontroller boards such as the Uno32™ and the Max32™.

The Basic I/O Shield is designed to provide a range of input/output devices suitable for beginners learning about microcontrollers and various types of I/O devices, or for use by more advanced user to provide inputs or outputs for their own projects.

The Basic I/O Shield provides simple digital input devices such as switches and buttons, and digital output devices such as discrete LEDs and high current open FET drivers. It provides more advanced devices such as an I2C EEPROM, an I2C temperature sensor, and organic LED graphic display. A potentiometer is also provided for use as an analog input device.

The Basic I/O Shield is designed to the same form factor as the Uno32 and uC32 boards, but is also usable with the Max32 board.
Возможности:

    • Usable with either the Uno32™ or the Max32™
    • 256Kbit I2C EEPROM
    • 128x32 pixel OLED graphic display
    • I2C temperature sensor
    • I2C daisy chain connector
    • 4 open drain FET drivers
    • Analog potentiometer
    • 4 push buttons & 4 slide switches
    • 8 discrete LEDs

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The chipKIT™ Network Shield is an input/output expansion board designed for use with the chipKIT Max32™. It provides the additional circuitry and connectors to allow the advanced communications features of the PIC32MX795F512L on the Max32 to be utilized.

The Network Shield provides a 10/100 Mbps Ethernet PHY to allow connection to an Ethernet network. It provides the connectors and load switch to support use of the USB 2.0 OTG controller to implement USB device, USB host or OTG operation. It also provides two CAN transceivers and connectors to allow connection to two independent CAN networks. Connectors are provided to allow connection to two of the I2C busses supported by the Max32.

In addition to the communications features, the Network Shield also adds a 256Kbit I2C EEPROM for non-volatile data storage and a 32.768Khz oscillator to allow use of the Real Time Clock/Calendar (RTCC) peripheral in the PIC32 microcontroller.

The Network Shield is designed to the same form factor as the Max32 board.
Возможности:

    • Usable with the chipKIT Max32™
    • SMSC LAN8720 10/100 Ethernet PHY
    • RJ45 connector with integral magnetics
    • USB Device and Host Connectors
    • Two MCP2551 CAN Transceivers
    • Two 12-pin header connectors for CAN
    • Two I2C daisy chain connectors
    • 256Kbit I2C EEPROM
    • 32.768 Khz Oscillator

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The chipKIT™ WiFi Shield is an interface board designed for use with the chipKIT line of microcontroller boards such as the Uno32™, uC32™, or Max32™. The chipKIT line is a family of microcontroller boards based on the high performance Microchip PIC32 family of microcontrollers.

The WiFi Shield makes use of the Microchip MRF24WB0MA WiFi module and provides chipKIT microcontroller boards the ability to connect to and communicate via IEEE 802.11 compatible wireless networks.

The WiFi Shield is intended for use with the Digilent network libraries, DNETcK and DWIFIcK, available for free download from the Digilent web site. These libraries make use of, and include a custom version of the Microchip Applications Library licensed from Microchip.

The WiFi Shield also provides a micro-SD card connector for use with micro-SD flash memory cards. The chipKIT MPIDE SD library can be used to read/write files stored on the micro-SD card.
Возможности:

    • IEEE 802.11b-compliant RF transceiver
    • Serialized unique MAC address
    • 1 and 2Mbps data rates
    • IEEE 802.11b/g/n-compatible
    • Integrated PCB antenna
    • Range: up to 400m (1300 ft.)
    • Radio regulation certification for the United States (FCC), Canada (IC), Europe (ETSI), and Japan (ARIB)
    • Wi-Fi certified (WFA ID: WFA7150)
    • Micro SD card connector
    • Four LEDs

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  • Тестирование
Описание:
The chipKIT™ uC32™ is based on the popular Arduino® open-source hardware prototyping platform and adds the performance of the Microchip PIC32 microcontroller. The uC32 is the same form factor as the Arduino Uno board and is compatible with Arduino shields. It features a USB serial port interface for connection to the IDE and can be powered via USB or an external power supply.

The uC32 board takes advantage of the powerful PIC32MX340F512 microcontroller. This microcontroller features a 32-bit MIPS processor core running at 80 MHz, 512K of Flash program memory and 32K of SRAM data memory.

The uC32 can be programmed using the Multi-Platform Integrated Development Environment (MPIDE), an environment based on the original Arduino IDE modified to support PIC32. It contains everything needed to start developing embedded applications. In addition, the uC32 is fully compatible with the advanced Microchip MPLAB® IDE and the PICKit3™ in-system programmer/debugger.

The uC32 is easy to use and suitable for both beginners and advanced users experimenting with electronics and embedded control systems.

The uC32 provides 42 I/O pins that support a number of peripheral functions, such as UART, SPI, and I2C™ ports and pulse width modulated outputs. Twelve of the I/O pins can be used as analog inputs or as digital inputs and outputs.
Возможности:

    • Microchip PIC32MX340F512H microcontroller (80 MHz 32-bit MIPS, 512K Flash, 32K SRAM)
    • Arduino Uno form factor; compatible with many shields that can operate at 3.3V
    • Multi-platform IDE and software framework are compatible with many existing Arduino code samples and other resources
    • 42 available I/O pins; two user LEDs
    • Requires a USB A to mini B cable (not included)
    • 7V to 15V input voltage (recommended); 20V maximum

Документация:
  • Схемотехника
  • Тестирование
Описание:
The chipKIT™ WF32™ by Digilent is an easy-to-use platform for developing Wi-Fi® applications. As with other chipKIT boards, it uses a modified version of the original Arduino® IDE for compatibility with existing code examples, tutorials and resources. Also compatible with MPLAB® X IDE.

The WF32 includes several peripherals on board, including Wi-Fi radio module, USB OTG (host or device) interface, microSD™ card slot, buttons, LEDs, potentiometer and lots of extra I/O. A full-featured HTML server application is available by download. Can be powered by USB, or an external power supply.

Digilent is a trusted 3rd Party Tool provider.

MPLAB Harmony support available:
  • One Board Support Package (BSP)
  • One TCP/IP demonstration
  • Two USB demonstrations
Возможности:

    • PIC32MX695F512L processor with 512K Flash, 128K RAM
    • Up to 80 MHz operating speed
    • MRF24WG0MA Wi-Fi module
    • microSD card connector
    • USB 2.0 OTG interface
    • Four user LEDs, two buttons
    • 42 available I/O lines

Документация:
  • Тестирование
Описание:
The chipKIT™ Wi-Fire board enables rapid prototyping with Microchip’s latest PIC32MZ architecture and Imagination Technologies' Flow Cloud Internet connectivity development software.

Digilent is a trusted 3rd Party Tool provider.

MPLAB Harmony Support available:
  • One Board Support Package (BSP)
  • Two USB demonstrations.

Возможности:

    • Microchip PIC32MZ Processor: PIC32MZ2048EFG100
    • Much faster than its WF32™ counterpart with 200 MHz operation speed, 2 MB of Flash, and 50 MHz SPI
    • Microchip MRF24WG0MA Wi-Fi® module
    • USB 2.0 Full-Speed / Hi-Speed OTG controller with A and micro-AB connectors
    • Micro SD card connector
    • High efficiency 3.3V switching power supply for low-power operation
    • Supported by Imagination Technologies' Flow Cloud Software for your IoT projects
    • Fully supported by MPIDE

Документация:
  • Тестирование
Описание:
This reference design provides an isolated, 40-Mbps, 3.3-V to 5-V Profibus interface using the ISO1176T, isolated Profibus transceiver and the TPS76350 high-accuracy linear regulator. This circuit achieves signal and power isolation and at the same time decreases board space and power consumption.

Возможности:

4000V peak isolation, 560V peak VIORM Signaling rates up to 40Mbps Differential output exceeds 2.1V (54 Ohm load) Low bus capacitance of 10pF (Max) Fail-safe receiver for bus open, short, or idle This reference design is orderable

Документация:
  • Схемотехника
  • BOM
  • Тестирование
Описание:

Проект решения высокоэффективного изолированного интерфейса CAN-Profibus от TI был разработан для применения в промышленных системах, требующих подачи изолированного питания на приёмопередатчики CAN и/ или Profibus. В данном проекте от TI стоит выделить возможность полного отключения как преобразователя энергии, так и приёмопередатчиков данных с помощью всего лишь одного сигнала с вывода GPIO микроконтроллера (например, при входе в режим малого энергопотребления). Данное изолированное интерфейсное решение организует шины с точной регулировкой как для основного, так и для второстепенного питания приёмопередатчиков Profibus и CAN от TI без использования дорогостоящих цепей обратной связи с оптроном, что делает данное решение наиболее простым, эффективным и гибким изолированным интерфейсным решением для промышленной автоматизации на рынке на сегодняшний день. Другие решения, в которых используются драйверы трансформаторов, не являются эффективными и не имеют возможности простого отключения, а также требуют дополнительных компонентов для управления второстепенной шиной питания. Наконец, данный проект TI имеет дополнительную особенность, заключающуюся в передаче данных только при детектировании микроконтроллером стабильного уровня питания или прекращении передачи данных при потере питания в интерфейсе.

Форм-фактор LaunchPad Tiva серии C данного проекта TI позволяет легко подключаться к печатной плате LaunchPad с целью использования микроконтроллера Tiva C для управления протоколом связи интерфейса. Комбинации двух печатных плат представляют собой полноценное и недорогое решение связи по CAN и Profibus.

Возможности:

  • Функции разрешения, мягкого старта и детектирования ошибки TPS55010 позволяют МК полностью управлять шинами питания интерфейса связи, тем самым минимизируя общее энергопотребление системы
  • Возможность настраивания частоты переключения повышает КПД, уменьшает габариты решения и позволяет избежать чувствительных диапазонов частот
  • Технология гальванической развязки, применённая в приёмопередатчиках Profibus и CAN от TI, отличается проверенной надёжностью и стабильностью по времени, температуре и влажности

Документация:
  • Схемотехника
  • BOM
  • Тестирование
Описание:

Данное решение от TI – 8-канальный модуль цифровых входов, готовый к применению в ПЛК.  Он разработан и протестирован в соответствии с IEC61000-4 EMC и требованиями к индустриальной автоматике, что позволяет разработчикам сократить время выхода на рынок. 8 цифровых входов, до 34 В каждый, подключаются к ПЛК через последовательный интерфейс, что сокращает количество занимаемых выводов контроллера и количество изоляторов. Технология цифровой изоляции с пиковым напряжением 4242 В от TI позволяет изолировать последовательный интерфейс данных и управления от ПЛК. Модуль включает в себя защиту от превышения по току и изолированный блок питания для нужд модуля. Для данного решения доступны полная документация, результаты тестирования, файлы проекта и встроенное программное обеспечение. 

Возможности:

  • Полностью протестировано на соответствие с IEC61000-4 для ESD, EFT
  • Схема защиты входов и ESD защита на 15 кВ
  • Программируемый пользователем предельный ток 2 мА на входах для защиты от превышения тока
  • Гальваническая изоляция шины данных и SPI интерфейса до 4242 В в пике
  • Встроенный индикатор перегрева для отключения входов при возникновении неисправности
  • Тонкий форм фактор 95 x50 x10 мм (ДxШxВ)

Документация:
  • Схемотехника
  • BOM
  • Топология платы
Описание:

Типовое решение TIDA-00018 позволяет быстро разрабатывать устройства для точного измерения температур с использованием 24-битного дельта-сигма АЦП и широко используемых датчиков температур, таких как термопары и RTD. Руководство разработчика описывает сигналы датчиков, термопар, методики измерения коэффициентов RTD, рекомендуемые программные потоки, датчики линеаризации, диагностику датчиков, защиту от переходных процессов, печатные платы и другие практические рекомендации для достижения высокой точности и надежности устройств для измерения температуры в промышленных приложениях.

Модуль интерфейса температурного датчика имеет полностью изолированную конструкцию, что очень важно для компактных измерительных датчиков. Основой этого решения является 24-битный дельта-сигма АЦП, что обеспечивает высокое разрешение, высокую степень интеграции, низкий уровень шума и низкую стоимость аналогового фронт-энд датчика (AFE) для приложений измерений постоянного напряжения. Данный АЦП подходит для взаимодействия с различными типами датчиков, тем самым экономя место на печатной плате, уменьшая усилия по проектированию, сокращая время выхода на рынок и снижая стоимость BOM.

Кроме того, внешняя схема защиты была успешно протестирована на соответствие нормативным стандартам IEC61000-4 EFT, ESD и защиты. Соответствие со стандартом iec61000-4 предполагает, что устройство не только продолжит работу, но анализирует работу в жестких/шумных промышленных условиях.

Возможности:

  • Два разных входных канала для подключения датчиков: термопар K-типа с CJC;
  • Совместим с 2-,3- и 4-хпроводных датчиков RTD;
  • Коэффициенты измерений для RTD;
  • Точность измерений более чем:
    • для термопар: ±1°C,
    • для RTD: ±0,4°C;
  • Обнаружение разрыва цепи или сигнала вне диапазона измерений;
  • Соответствует стандартамIEC-61000-4:
    • IEC-61000-4-4: EFTдо ±1 кВ @ 5 КГц для сигнальных разъемов,
    • IEC-61000-4-2: ESDдо 4 кВ (контакт) & 8 кВ (воздушный зазор),
    • IEC-61000-4-5: Защита до ±1 кВ (земля) на сигнальный разъем.

Возможность заказа
  • Заказать BOM
  • Заказать PCB
Документация:
  • Схемотехника
  • BOM
  • Топология платы
Описание:
This reference design utilizes the TPS65310A-Q1 device which is a power management unit ideally suited for camera or radar based vision system to support features like lane departure warning, collision avoidance systems, blindspot detection or night vision. Alongside ADAS end-equipment applications, this PMIC is also suitable for safety applications.

Возможности:

The dual synchronous buck converter with adjustable output removes the need for external diodes or FETs and reduces inductor size The frequency spread spectrum reduces radiated noise at unwanted frequencies Wide input voltage range from 4V to 40V

Документация:
  • Схемотехника
  • BOM
  • Тестирование
Описание:
The Intel Core i7 power management design is a complete solution for Intel IMVP-7 SVID. A GUI communication program is available along with several test points on the board to evaluate the static and dynamic performance of the CPU's DC/DC Controller. The design features an IMVP-7 3-Phase CPU supply, a 2 Phase GPU Vcore supply, a 1.05VCCIO supply, and a DDR3L/DDR4 memory rail. To greatly improve power density and thermal performance, TI's 5-mm x 6mm NEXFET Power Block MOSFETs are used.

Возможности:

• Design supports a 9-20V input from Vbatt • Small high-density power solution for Ivy Bridge • 3 Phase CPU supply supports up to 94A • 90% peak (80% full-load) efficiency from 12Vin to 1.05Vout - CPU Supply • Low CPU supply ripple: 25mV • Design has been built and tested. Board available.

Документация:
  • Даташит
  • Схемотехника
  • BOM
  • Тестирование
Описание:
Reference Design for a Low Power Fully Differential Programmable Gain Amplifier using the TI OPA2683 Low Power Dual Current Feedback Amplifier. This design guide reviews some of the design challenges necessary to create such a circuit. The design guide reviews the results and provides some recommendations for using/designing a Low Power FDA PGA.

Возможности:

Low Power Fully Differential Amplifier Low Power Programmable Gain Amplifier Wide Bandwidth Relative to High Gain +/-5V supply voltage Gains of 2, 21, 50, and 70 V/V This reference design has been lab tested and is supported with design files and a design guide

Документация:
  • Схемотехника
  • BOM
  • Тестирование
Описание:
This reference design is a complete charger module for evaluating a multi-cell synchronous notebook turbo boost charge using the bq24735 devices. It is designed to deliver up to 4 A of charge current to Li-ion or Li-polymer applications. The charge current is programmable by SMBus interface through the EV2300 interface board. The reference design does not include the EV2300 interface board. In order to evaluate the this solution, a user must order the EV2300 interface board separately.

Возможности:

# Series Cells: 1 to 4S Max Input Volts: 24V Max Charge Current: 8A Topology: Switch mode

Документация:
  • Схемотехника
  • BOM
  • Тестирование
Описание:
This reference design is a solution for singlecell Li-ion and Li-Polymer battery fuel gauges in consumer electronic applications. The reference design package contains a BQ27010 circuit module, an EV2300 PC interface board for gas gauge evaluation, a USB cable, CD ROM including Windows™-based PC software and support documentation. The design solution includes one bq27x10, a current sense resistor, and all other components on board necessary to calculate remaining battery capacity and predict system run-time to empty.

Возможности:

# Series Cells: 1S Max Input Volts: 4.5V Max Charge Current: 3A Communication: HDQ CEDV

Документация:
  • Схемотехника
  • BOM
  • Тестирование
Описание:
TIDA00056 — решение для маломощного беспроводного датчика газа. Устройство поддерживает все виды электрохимических датчиков газа. Универсальный интерфейс платформы работает с Bluetooth® Low Energy (BLE), Zigbee RF4CE, 6LoWPAN или ANT. Это гибкое и сертифицированное решение датчиков газов подходит для приложений безопасности зданий, управления технологическими процессами, горнодобывающей промышленности, медицинские приложения и др. Решение используется для мониторинга таких газов, как: окись углерода (CO), кислород (O2), аммиак (NH3), хлор (Cl), двуокись хлора (ClO2) и др. Bluetooth® Low Energy добавляет в изделие функцию беспроводной передачи данных для легкой интеграции с IPhone, IPad и т.д. Пользователь может легко заменить целевой датчик, сохраняя при этом аналоговый front-end (AFE) и BLE. Электрохимический датчик газа напрямую подключается к LMP91000. Кроме того, LMP91000 имеет интерфейс для подключения системы-на-кристалле (SoC) CC2541 — Bluetooth® Low Energy с ядром 8051. Для питания используется батарея CR2032. Тестовое приложение для iOS совместимо с IPhone4S, IPad3 и др. моделями. Открытые исходники СС2541 (аппаратная и программная платформы) упрощает создание собственного приложения для iOS.
Возможности:

  • Определение концентрации газов:
    — окись углерода, кислород, аммиак, хлор, двуокись хлора.
    — Поддержка 2- и 3-выводных электрохимических датчиков газа.
  • Соответствие нормативам стандартов FCC и IC
  • Работа от литиевого элемента питания CR2032
  • Мобильное приложение TI’s Gas Sensor iOS Mobile App.
Примечание:
  • Рекомендуемые разработчиком датчики кислорода O2 : серия Alphasense A2
  • Рекомендуемые разработчиком датчики окиси углерода CO: серия Alphasense CO-AF
  • Датчик газа и элемент питания CR2032 в BOM не включены

Возможность заказа
  • Заказать BOM
  • Заказать PCB
Документация:
  • Даташит
  • Схемотехника
  • BOM
  • Топология платы
  • Тестирование
Описание:
This reference design demonstrates how to implement redundant (parallel) CAN for functional safety at the physical layer. It includes two SN65HVD257 CAN transceivers and additional logic to ensure both transceivers are receiving the same data.

Возможности:

Short propagation delays and fast loop times FAULT output pin I/O voltage range supports 3.3V and 5V MCU's TXD and RXD dominant time out HBM ESD protection exceeds 12kV This reference design is orderable

Документация:
  • Схемотехника
  • BOM
  • Тестирование
Описание:

Референс дизайн, и связанный с ним код Verilog, может быть исользован в качестве отправной точки для взаимодействия ПЛИС Altera c высокоскоростными LVDS интерфейсами аналого-цифровых и цифро-аналоговых преобразователей.

 

Возможности:

  • Этот дизайн представляет собой исключительно прошивку и детельно обсуждается в целях понимания;
  • Пример кода Verilog является простой отправной точкой для высокоскоростных решений на основе ПЛИС;
  • Дизайн легко распространяется на другие высокоскоростные преобразователи данных TI;
  • АЦП и ЦАП разделены между собой на тот случай, если требуется только одно решение;
  • Временные ограничения интерфейса подробно обсуждаются для АЦП и ЦАП;
  • Прошивка протестирована с помощью доступных оценочных плат TI.

Возможность заказа
  • Заказать BOM
Документация:
  • Схемотехника
  • BOM
  • Тестирование
Описание:

Высокоэффективное решение модуля питания IP-камер, позволяющее производительные 1080p операции на 1 классе мощности PoE. Он основан на высокоэффективных, но при этом бюджетных коммутаторах TPS5432. Как результат – повышение производительности при одновременном снижении мощности системы.

Примечание: Этот модуль можно использовать для питания маломощной видеокамеры DM385-AR331.

 

Возможности:

  • Обеспечивает 1 класс мощности PoE при разрешении 1080p;
  • Мощность <2,2 Вт для 1080p30 при входном напряжении 5 В, КПД 90%;
  • Эффективность 78% при PoE операциях;
  • Низкое тепловыделение;
  • Экономичность, по сравнению со многими решениями PMIC.

Документация:
  • Схемотехника
  • BOM
  • Топология платы
Описание:
This reference design shows the ability of the high-speed amplifier, LMH6554, to perform single-ended to differential conversion to drive high-speed analog-to-digital converters (ADCs) while maintaining excellent noise and distortion performance. Performance versus input frequency is shown for both AC and DC coupled applications while interfaced to the ADS4449 quad, 250-MSPS, 14-bit ADC. Various options for common-mode voltages, power supplies, and interfaces are discussed and measured to meet the requirements of a variety of applications. Anti-aliasing filter examples are shown along with the performance improvements that they provide.

Возможности:

High-speed single-ended to differential conversion while maintain excellent performance System performance results for LMH6554 driving ADS4449 SFDR > 82 dBFs, SNR > 71 dBFS in first Nyquist zone SFDR > 80 dBFs, SNR > 68 dBFS in second Nyquist zone Examples of both AC and DC coupled interfaces Demonstrates anti-aliasing filter design and performance gains Amplifier power supply design considerations for best performance are discussed

Документация:
  • Даташит
  • Схемотехника
  • BOM
  • Топология платы
Описание:
This reference design shows the ability of the high-speed amplifier, THS4509 to perform single-ended to differential conversion to drive high-speed analog-to-digital converters (ADCs) while maintaining excellent noise and distortion performance. Performance versus input frequency is shown for both AC and DC coupled applications while interfaced to the ADS4449 quad, 250-MSPS, 14-bit ADC. Various options for common-mode voltages, power supplies, and interfaces are discussed and measured to meet the requirements of a variety of applications. Anti-aliasing filter examples are shown along with the performance improvements that they provide.

Возможности:

High-speed single-ended to differential conversion while maintain excellent performance System performance results for THS4509 driving ADS4449 -SFDR > 77 dBFs, SNR > 71 dBFS in first Nyquist zone -SFDR > 69 dBFs, SNR > 67 dBFS in second Nyquist zone Examples of both AC and DC coupled interfaces Demonstrates anti-aliasing filter design and performance gains Amplifier power supply design considerations for best performance are discussed

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

Референс дизайн TIDA-00095 обеспечивает законченное решение для измерения и обработки температуры с 2-х, 3-х и 4-х проводного резистивного детектора температуры и передачи показаний по токовой петле 4…20 мА. Решение может быть использовано в приложениях обработки измерений в промышленной автоматизации, полевых передатчиках и автоматизации зданий. При ошибке измерения температуры менее чем 0,017 °C в диапазоне температур -200…+850°C, сверхнизким потреблением 1,4 мА (включая ток через резисторный датчик температуры) и соответствие IEC61000, этот дизайн значительно уменьшает время проектирования и разработки высокоточных систем передачи температуры. Он также адресует системный уровень калибровки смещения и усиления, которые могут быть использованы для улучшения точности АЦП и ЦАП, а также осуществлять линейную интерполяцию для адресации нелинейного элемента (резистивного термодетектора).

 

Возможности:

  • Совместимость 2-,3- и 4-проводными RTD датчиками;
  • Низкое энергопотребление 1,4 мА (включая ток через  RTD) делает дизайн идеальным для питания от токовой петли;
  • Выходной сигнал – токовая петля 4…20 мА с разрешением 0,25 мкА;
  • Максимальная ошибка измерения: 0,11°C в диапазоне -200…+200°C и 0,17°C в диапазоне -200…+850°C;
  • Соответствие IEC61000-4-2 по ESD: воздушный пробой ±8 кВ класс А, пробой при контакте ±4 кВ класс А;
  • Соответствие IEC61000-4-4 по EFT: ±2 кВ класс А.

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