www.microchip.com/tools
Quick Guide to Microchip Development Tools
Development Tools
2 Quick Guide to Microchip Development Tools
MPLAB® IDE
MPLAB IDE is Microchip’s free, integrated toolset for
the development of PIC® microcontroller and dsPIC®
digital signal controller embedded applications. MPLAB
IDE runs as a 32-bit application on MS Windows®,
is easy to use and includes a host of free software
components for fast application development and super-
charged debugging. MPLAB IDE also serves as a single,
unifi ed graphical user interface for additional Microchip
and third-party software/hardware development tools.
Moving between tools is easy, and upgrading from the
free MPLAB SIM simulator to MPLAB ICD 3 In-Circuit
Debugger or the MPLAB REAL ICE™ In-Circuit Emulator is
effortless, since MPLAB IDE has the same user interface
for all tools.
Download MPLAB IDE and use the MPLAB IDE Quick
Start manual to discover how easy it is to create an
application. Write code, build and assemble your project
with MPLAB wizards, then test your code with the built-in
simulator and debugger. Explore the capabilities of all
Microchip microcontrollers. When you are ready to test
your application, use a PICkit™ 3 or MPLAB ICD3 to
program a device and analyze your hardware, or choose
a production-graded, universal MPLAB PM3 programmer
to program your code. For the ultimate in analysis, rely
upon the MPLAB REAL ICE in-circuit emulator to help fi nd
the toughest bugs and fi ne tune your application.
Integrated Development Environment and Software Tools
■ MPLAB SIM – High-speed software simulator features
peripheral simulation, complex stimulus injection and
register logging. MPLAB SIM executes your code and can be
exercised with stimulus signals from fi les, from mouse clicks
and from easily set up waveforms. The contents of variables
and special function registers can be logged to a fi le for
analysis.
■ Programmer’s Text Editor – Color-coded context easily
shows typos and incorrect assembler and C statements. Full
debugging is performed while in the editor window, including
setting breakpoints, displaying variable values with mouse
over and setting trace ranges.
■ Full-Featured Debugger – Watch windows show C structures
and arrays, as well as all variables from C and assembler
source. Step-over, step-into, step-out and run to cursor allow
quick inspection of code operations.
■ Data Monitor Control Interface (DMCI) – Provides a
graphical method to input and adjust software motor
parameters. Plots can be used to show a time history of
control variables so that the motor dynamic response can
by analyzed. Useful for tweaking software parameters and
visualizing historical data during debug sessions.
■ Version Control Support – For MS Source Safe, CVS, PVCS
and Subversion.
■ Macro Assembler – For all current Microchip devices, with
linker and librarian for building reusable code libraries. These
can be used for assembly language programming and are
also delivered with the Microchip C Compilers.
■ Graphical Project Manager – Source fi les can be instantly
opened and edited, different optimizations can be applied to
different source fi les and all project fi les are displayed in the
project window.
Powerful Project Manager handles
multiple projects and all file types
Color-keyed editor makes
source code debug easier
Status bar updates on
single step or run
Fully customizable watch windows to
view and modify registers and memory
locations
Simply move your mouse over a
variable to view or modify
Set break/trace points with a
click of the mouse
www.microchip.com/tools 3
Microchip offers
two C compiler
families: MPLAB
C Compiler
and HI-TECH
C® Compiler.
Both compilers
produces highly
optimized codes,
are integrated
with MPLAB IDE,
compatible with
Microchip debuggers and emulators and are available as the
freeware Lite and evaluation editions.
The Lite editions support the same devices and commands
as the Standard or PRO editions, and have no time or memory
restrictions, however code optimizations are limited. The Lite
editions offer unrestricted-use license so they are ideal as a
low-cost tool for academic or commercial use. The evaluation
editions enable full use of features and optimizations of the
compilers. After the evaluation period, the compiler will revert to
the Lite edition functionality. Both Lite and evaluation editions
are available for free download at www.microchip.com/free
HI-TECH C compilers are available for all Microchip
microcontrollers and DSCs. MPLAB C compilers are available for
8-bit PIC18, 16-bit and 32-bit microcontrollers.
MPLAB C® Compilers
High Optimization and Performance at a Low-cost
Microchip’s MPLAB C compilers are full-featured, ANSI- compliant
high-performance tools that are tightly integrated with MPLAB
IDE. Source level debugging allows single- stepping through C
source code and inspecting variables and structures at critical
points in the code. Being integrated with MPLAB IDE allows a
single environment to write source code, debug with the free
MPLAB SIM simulator, and full hardware debugging with MPLAB
ICD 3 and MPLAB REAL ICE. Compiler switches and linker
customizations are done within the MPLAB IDE to provide a full
graphical front end to these powerful compilers. Editing errors
and breakpoints instantly switch to the corresponding lines in
source code. Watch windows show data structures with defi ned
data types, including fl oating point.
Microchip’s C Compilers for 16-bit and 32-bit MCUs and DSCs
are based upon open source GCC code, and source code is
freely available.
■ ANSI-compliant, with standard math, memory, data conversion
and math libraries
■ Generates relocatable object modules and libraries for
enhanced code reuse
■ Strong support for in-line assembly when total control is
absolutely necessary
■ Allows complete freedom to mix C and assembler modules in
a single project
■ Extensive libraries including Microchip peripheral libraries
■ Full user control over data and code memory allocation
■ Full interrupt support
■ Free upgrades
■ Support for DSP intrinsics (for dsPIC DSCs)
HI-TECH C® Compilers
Featuring Omniscient Code Generation™
HI-TECH C compilers are enabled with Omniscient Code
Generation (OCG), a whole-program compilation technology, to
facilitate more intelligent, state-of-the-art code generation and
enhance product usability. Rather than relying completely on
the linker to uncover errors in independently compiled modules,
an OCG compiler completes the initial stages of compilation
for each module separately, but defers object code generation
until the point at which a view of the whole program is available.
Information gathered from a global view of the program, can be
used to provide better detection of potential errors in the user’s
code, and to better optimize the output. HI-TECH C compilers
can deliver denser code, improve RAM utilization and reduce
interrupt latency.
■ The all-seeing nature of OCG enables the compiler to
determine if a variable is being used in the program. Unused
variables are removed, thus saving RAM.
■ OCG enables a compiler to determine which variables are
used in a program. Those which are not used are removed to
save RAM.
■ The compiler knows exactly which registers are in both
interrupt and mainline context, so it can generate code
accordingly, minimizing both the code size and cycles required
to switch contexts.
■ OCG allows automatic allocation of data into RAM banks
eliminating the need for the programmer to specify the
location of the variables.
■ OCG has the ability to generate a printf function that is
customized for the program at hand. It does this by scanning
the user’s code and only includes those features of printf
that were detected. This results in a huge saving in program
memory but also saves you valuable RAM space.
■ By only including the features of printf in the user's code,
OCG has the ability to generate a printf function that is
customized for the program at hand, saving signifi cant
amounts of program memory and valuable RAM space.
■ The compiler detects how frequently each variable is used
and which are dependent, enabling it to optimize pointers
and position objects in the most effi cient memory spaces,
eliminating the need for this to be done manually with
non-standard C language extensions.
■ Fully ANSI-compliant
■ Includes Library source – for standard libraries and sample
code for I/O drivers
■ Includes macro assembler, linker, preprocessor and one-step
driver
■ Runs on Windows, Linux and Mac® OS X
Microchip Compilers
Relative Code Size of Compiler Editions
Lite
Standard PRO
Relative Code Size
0%
50%
100%
Compiler Editions
4 Quick Guide to Microchip Development Tools
In-Circuit Emulators and Debuggers
Microchip offers three universal debuggers. They share design
platforms, support all microcontroller and DSC families,
are USB-powered and fully integrated with MPLAB IDE.
MPLAB ICD3 offers debugging and hardware features that
would satisfy the needs of most users. PICkit 3 Debugger/
Programmer is the economical choice when basic debugging
functions are desired. MPLAB REAL ICE emulator offers
advanced features usually available only on expensive and
high-end emulators, like data capture, trace, logic triggers
and high-speed debugging up to 10 feet. Both MPLAB REAL
ICE and MPLAB ICD 3 can be used as programmers in a
production environment.
MPLAB®
ICD 3 Debugger/Programmer (DV164035)
MPLAB ICD 3 In-Circuit Debugger System is
Microchip's most cost effective high-speed
hardware debugger/programmer for
Microchip Flash Digital Signal Controller
(DSC) and microcontroller (MCU) devices.
It debugs and programs PIC Flash microcontrollers and
dsPIC DSCs with the powerful, yet easy-to-use graphical user
interface of MPLAB Integrated Development Environment (IDE).
The MPLAB ICD 3 In-Circuit Debugger probe is connected
to the design engineer's PC using a high-speed USB 2.0
interface and is connected to the target with a connector
compatible with the MPLAB REAL ICE systems (RJ-11).
■ MPLAB ICD 3 In-Circuit Debugger is designed to support
high-speed processors running at maximum speeds,
allowing embedded engineers to debug applications on
their own hardware in real time.
■ Protection circuitries are added to the probe drivers to
guard the probe kit from power surges from the target.
VDD and VPP voltage monitors protect against over-voltage
conditions, and all lines have over-current protection. The
unit can provide power to a target (up to 100ma).
■ Housed in a small (3.7" x .8") and attractive enclosure, the
MPLAB ICD 3 In-Circuit Debugger is powered by the USB
port, so an external power adapter is not required. MPLAB
ICD 3 In-Circuit Debugger is CE and RoHS-compliant.
■ Fast programming allows both quick fi rmware reload for fast
debugging and for in-circuit re-programming. Programming
times are improved up to 15x over MPLAB ICD 2.
■ MPLAB ICD 3 supports target supply voltages from 2.0 to
5.5 volts.
■ Included with every MPLAB ICD3 is a test module to test
I/O lines to confi rm the unit is working properly.
■ Adding new device support and advanced features to
MPLAB ICD 3 In-Circuit Debugger is as simple as installing
later versions of the MPLAB IDE, downloadable free. MPLAB
ICD 3 In-Circuit Debugger is fi eld upgradeable through a
fi rmware download from MPLAB IDE.
■ Allows debugging with MPLAB IDE, supporting multiple
breakpoints, stopwatch, source code fi le debugging in
MPLAB’s editor for quick program modifi cation/debug.
PICkit™ 3 In-Circuit Debugger (PG164130)
The PICkit 3 Debug Express allows debugging
and programming of PIC Flash microcontrollers
and dsPIC DSCs using the powerful graphical
user interface of the MPLAB Integrated
Development Environment (IDE).
■ USB (Full speed 12 Mbits/s interface to host PC)
■ Real-time execution
■ Firmware upgradeable from PC/web download
■ Totally enclosed
■ Supports low voltage to 2.0 volts (2.0V 6.0V range)
■ Diagnostic LEDs (power, busy, error)
■ Read/write program and data memory of microcontroller
■ Erase of program memory space with verifi cation
■ Freeze-peripherals at breakpoint
MPLAB REAL ICE™ Emulator (DV244005)
MPLAB REAL ICE In-Circuit Emulator
System is Microchip’s next generation high
speed emulator for Microchip Flash DSC
and MCU devices. It debugs and programs
PIC and dsPIC Flash microcontrollers with
the easy-to-use but powerful graphical user interface of the
MPLAB Integrated Development Environment (IDE), included
with each kit. The MPLAB REAL ICE probe is connected
to the design engineer's PC using a high-speed USB 2.0
interface and is connected to the target with either a
connector compatible with the popular MPLAB ICD 3 system
(RJ11) or with the high speed, noise tolerant, low voltage
differential signal (LVDS) interconnection (CAT5).
MPLAB REAL ICE is fi eld upgradeable through future
fi rmware downloads in MPLAB IDE. In upcoming releases
of MPLAB IDE, new devices will be supported, and new
features added.
■ Real-time execution and real time trace collection
■ Stopwatch
■ Real time watch
■ Full hardware debugging: breakpoints, single-step,
variable inspect/modify
■ Logic probe inputs/outputs (8)
■ I/O Port trace and SPI trace options for high speed
upload of trace data
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In-Circuit Emulators and Debuggers
In-Circuit Emulators and Debuggers
Feature PICkit™ 3 MPLAB® ICD 3 MPLAB REAL ICE™
USB Speed Full Only High and Full High and Full
USB Driver HID Microchip Microchip
USB Powered Yes Yes Yes
Programmable VPP Yes Yes Yes
Power to Target Yes Yes No
Programmable VDD Yes Yes Yes
VDD Drain from Target 20 ma < 1 ma < 1 ma
Over Voltage/Current Protection Yes, SW Yes, HW Yes, HW
Emulation support Full Speed Full Speed Full Speed
Breakpoints Simple Complex Complex
Software Breakpoints Yes Yes Yes
Program Memory Image Size 512 Kbytes No No
Serialized USB Yes Yes Yes
Trace – Native No No Yes
Trace – Other (SPI, PORT, Inst) No No Yes
Data Capture No No Yes
Logic/Probe Triggers No No Yes
High Speed PAK (LVDS) No No Yes
Production Programmer No Yes Yes
Third Party Tools
Microchip also offers a great collection of tools from third
party vendors. These tools are carefully selected to offer
good value and unique functionality.
■ Device Programmers and Gang Programmers from
companies such as SoftLog, SMH Technologies and CCS
■ Compilers from companies such as CCS, microEngineering
Labs and IAR Systems
■ Software Tools from companies such as Gimpel and Trace
Systems
■ Protocol Analyzers from companies such as Saleae and
Total Phase
■ Demo Boards from companies such as Evidence SRL,
Nurve Networks, Bartek Technologies and Schmartboard
■ Embedded Ethernet and Connectivity Solutions from
companies such as CCS and Embed
■ Innovative Cable Solutions from companies such as
Tag-Connect
6 Quick Guide to Microchip Development Tools
MPLAB® Starter Kit for PIC24H MCUs (DM240021)
The PIC24H Starter Kit is a complete
hardware and software kit for exploring the
power of PIC24H family of MCUs including
a built-in debugger on the board. 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 the Microchip Graphics library.
MPLAB® Starter Kit for PIC24F MCUs (DM240011)
This 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.
Explorer 16 Starter Kit (DV164037)
This kit is a complete set of tools for
application development supporting
Microchip’s PIC24F, PIC24H and dsPIC33
16-bit and PIC32 32-bit microcontrollers.
This kit includes a MPLAB ICD 3 In-Circuit
Debugger, an Explorer16 Development Board, a 9V universal
power supply for use with either the Explorer 16 board or the
MPLAB ICD, a serial cable and both a PIC24FJ128GA010 and
a dsPIC33F256GP710 device (mounted on plug-in modules
for quick replacement).
MPLAB® Starter Kit for dsPIC DSCs (DM330011)
This starter kit introduces users to the
dsPIC Digital Signal Controller device
using its speech and audio processing
capabilities. The kit is USB-powered, has
on-board debug circuitry and 24-bit codec
for high-quality audio applications. Also on the board are
reconfi gurable switches, potentiometers, a temperature
sensor and a 4 Mb serial EEPROM to store data such as
audio samples.
Getting Started
Starter Kits
Starter Kits are complete, affordable, turnkey solutions
consisting of hardware and software sufficient for exploring
specific applications or the features of the device family
they represent. Most kits include an on-board or separate
debugger, a CD containing MPLAB IDE and Lite compiler
editions and tutorials. To get started, simply install the
software, start MPLAB IDE, connect the hardware and step
through the easy-to-follow tutorials.
F1 Evaluation Kit (DV164132)
The F1 Evaluation Kit is a demonstration/
development tool for Enhanced Mid-Range
PIC microcontrollers (PIC12F1XXX/
PIC16F1XXX) and includes the PICkit 3
for quick programming and development.
Populated with a PIC16LF1937 featuring XLP technology,
this platform consists of a 44-pin development board with
prototyping space, 3V LCD glass, support for the Motor
Control add-on and support for PICkit 3 and PICkit Serial
Analyzer. This kit provides a platform for general purpose
development, and includes demonstrations focusing on low
power, LCD and motor control.
MPLAB® Starter Kit for PIC18 MCU (DM180021)
This kit includes an on-board debugger/
programming capability as well as USB
communication, a capacitive touch pad,
potentiometer, acceleration sensor,
MicroSD™ memory card and an OLED
display. The board can function as a USB mouse, joystick
or mass storage device (thumb drive) all using the on-board
capacitive touch sense pads.
PIC18 Development Kit (DV164136)
This kit includes a PIC18 Explorer board,
PICkit 3 Debugger/Programmer, USB
cable and a 9V universal power supply.
The PIC18 Explorer board includes both
the PIC18F8722 and PIC18F87J11
microcontrollers and supports dozens of 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.
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PIC32 I/O Expansion Board (DM320002)
This I/O expansion board provides PIC32
starter board (DM320001, DM320003)
users with full access to MCU signals,
JTAG debugging, ICSP™ development and
connection of PICtail Plus daughter cards.
PICkit™ 3 Debug Express (DV164131)
The PICkit 3 Debug Express combines a
44-pin demo board with a PIC18F45K20
microcontroller and a PICkit 3 debugger/
programmer.
MPLAB® Starter Kit for Serial Memory Products
(DV243003)
This kit includes everything necessary to
quickly develop a robust and reliable Serial
EEPROM design, and greatly reduces the
time required for system integration and
hardware/software fine-tuning. Supports
Microchip UNI/O bus, I²C™, SPI and Microwire Serial
EEPROMs.
PIC32 Starter Kit (DM320001)
With over 35 source code examples to the
getting started project, this kit includes
everything needed to write, program, debug
and execute code on a high performance
PIC32 microcontroller.
PIC32 USB Starter Kit II (DM320003-2)
This kit provides the easiest and lowest cost
method to experience the USB and CAN
functionality of the PIC32 microcontrollers.
Users can develop CAN applications
using PIC32 expansion boards. The board
contains everything need to develop USB
embedded host/device/OTG applications by combining this
board with Microchip's free USB software.
PIC32 Ethernet Starter Kit (DM320004)
The PIC32 Ethernet Starter Kit provides
the easiest and lowest cost method to
experience 10/100 Ethernet development
with PIC32. Combined with Microchip's free
TCP/IP software, your project will be running
in no time. The PIC32 has an available CAN2.0b peripheral
and USB host/device/OTG.
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Getting Started
Development Tools Selector
Microchip's Development Tools
Selector (DTS) is software that
allows a user to view development
tools through a graphical user
interface (GUI) with fi lter and
search capabilities to easily fi nd
development tools associated to
the silicon products. Just enter
either a development tool or silicon
device in the search box and it
quickly displays all related tools
and devices. Updated after every
MPLAB® IDE release, it is available
online and offl ine at:
www.microchip.com/select
1. Enter the development
tool or silicon device
here.
3. Hover over icon or
text for pop-up detail
of actual tool and
status.
4. Click through tabs
to view different tools,
software and demo
boards.
2. Select a package to
view.
8 Quick Guide to Microchip Development Tools
PICDEM PIC18 Explorer Board (DM183032)
This low-cost demo board features a PIC18F8722 MCU which
is the superset of the traditional PIC18 general purpose
5V family. The board also comes with the PIC18F87J11
processor PIM which is the superset of the PIC18 J-series
of 3V MCUs for cost sensitive applications. This single
development board supports dozens of general purpose
PIC18 families using various processor Plug-In Modules
(PIMs).
PIC18F4XK20 Starter Kit (DM164124)
This starter kit is a demonstration and development platform
for Microchip's K20 series microcontrollers. The board
provides a platform to highlight this families benchmark for
lower power consumption, low-cost and high-performance
operation. It includes the development board, PICkit 3
development programmer/debugger and programming
lessons.
Graphics and LCD
Graphics PICtail™ Plus Daughter Board with
3.2˝ Display Kit (AC164127-3)
This kit provides a cost-effective method
for evaluating and developing graphics
display applications for 16- and 32-bit
microcontrollers. It includes a Graphics
LCD Controller PICtail Plus SSD1926
board (AC164127-5) and a Graphics Display Truly 3.2˝
240x320 board (AC164127-4). The kit is compatible with
the Explorer 16 development board (DM240001) or one of
the PIC32 starter boards (DM320001, DM320003).
Graphics Display Powertip 4.3˝ 480 x 272 Board
(AC164127-6)
This demonstration board is used to evaluate Microchip's
graphic display solution and graphics library for 16- and 32-
bit microcontrollers. It is an expansion board compatible with
the LCD controller boards such as Graphics LCD Controller
PICtail Plus SSD1926 board (AC164127-5)
Motor Control and Power Conversion
dsPICDEM™ MCLV Development Board (DM330021)
This development board is intended for
low-voltage (up to 48 volts at 10 amps)
BLDC sensored or sensorless applications.
It provides a low-cost system for users to
evaluate and develop applications using
dsPIC33F motor control DSCs via a Plug-
In Module (PIM) or 28-pin SOIC socket. Serial interfaces
include: RS-232C, CAN, LIN and USB (for RTDM). Feedback
support includes: Hall-Effect Sensors, Shaft Encoder, Back
EMF voltages and single or dual shunt resistors for current.
PICkit™ 3 In-Circuit Debugger, MPLAB ICD 3 In-Circuit
Debugger or REAL ICE In-Circuit Emulator is required for
programming or debugging operations..
Application Specific Development Tools
Ethernet
Ethernet PICtail™ Plus Daughter Board (AC164123)
This board is populated with the 28-pin
ENC28J60 Ethernet controller which
interfaces to the RJ-45 connector. It
can be plugged into the Explorer 16
development board (DM240001), allowing
connection to any of Microchip’s 16- and 32-bit products
when used in conjunction with the free Microchip TCP/IP
stack.
Fast 100 Mbps Ethernet PICtail™ Plus
Daughter Board (AC164132)
This board is populated with a 64-pin ENC624J600
Ethernet controller and interfaces to the RJ-45 connector.
It can be plugged into the Explorer 16 development board
(DM240001) and the PIC18 Explorer board (DM183032)
allowing connection to any of Microchip’s 8, 16- and 32-bit
products.
PICDEM.net™ 2 Development Board (DM163024)
This Internet/Ethernet development board supports both the
ENC28J60 Ethernet controller and the single-chip Ethernet
PIC18F97J60 MCU. With this board and Microchip’s free
TCP/IP stack, a web server can be developed showcasing
the capability to remotely monitor and control embedded
applications over the Internet.
Ethernet PICtail™ Daughter Board (AC164121)
Provides a cost-effective method of evaluating and developing
Ethernet-control applications. This board is populated with
a 28-pin Ethernet controller, which interfaces to the RJ-45
female connector. Designed for flexibility, this board can
be plugged into the popular PICDEM HPC Explorer board
(DM183022).
eXtreme Low Power
nanoWatt XLP 16-bit Development Board (DM240311)
This development board provides a low-cost,
highly configurable development system
for Microchip's line of extreme low power
16-bit PIC24F microcontrollers featuring
sleep currents down to 20 nA. The board
supports development on PIC24F16KA102,
PIC24FJ64GA102 and PIC24F64GB002 families of MCUs.
This board can be powered by more than five sources
including batteries and energy harvesting modules and
supports a variety of common components that can be
selectively enabled.
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PIC10F Capacitive Touch Board (AC103003)
This board demonstrates the simple implementation of
a single capacitive touch key or proximity sensor using a
PIC10F204/6 MCU.
mTouch AR1000 Development Kit (DV102011)
This kit provides everything designers need to get
started using AR1000 resistive controllers for a turn-key,
cost-effective solution. The kit includes the AR1000
development board, a 7 four-wire resistive touch screen, a
PICkit Serial Analyzer and all necesssary interface cables,
as well as a CD containing technical documentation and all
necessary software.
PICDEM™ Inductive Touch Development Kit
(DM183027)
This kit is an evaluation and development platform for
Microchip's Inductive Touch Technology. Factory programmed
fi rmware provides immediate access to all board features
using the MPLAB mTouch plug-in. Using a PICkit Serial
analyzer to communicate with the PC, it allows the user
to analyze application critical information in real-time as it
relates to sensor behavior.
USB
PIC32 I/O Expansion Board (DM320002)
This I/O expansion board provides PIC32
starter board (DM320001, DM320003)
users with full access to MCU signals,
JTAG debugging, ICSP development and
connection of PICtail Plus daughter cards.
PICDEM™ FS-USB Demonstration Kit (DM163025)
This demo kit is an easy-to-use evaluation platform for
Microchip's Full-Speed USB solution. The family of full-speed
USB microcontrollers fully support USB 2.0 and serial
communications of up to 12 Mbit/s. All of the hardware and
software needed to demonstrate and develop a complete
USB communication solution is included.
PIC18F14K50 Low Pin Count USB Development Kit
(DV164126)
This development kit provides an easy, low cost way to
evaluate the functionality of Microchip's PIC18F14K50 and
PIC18F13K50 20-pin USB microcontrollers. The kit contains
the hardware, software and code examples necessary to take
your USB design from concept to prototype.
USB PICtail™ Plus Daughter Board (AC164131)
This daughter board enables USB connectivity when using a
PIC24 or PIC32 USB PIM in conjunction with the Explorer 16
board.
Application Specific Development Tools
dsPICDEM™ MCHV Development System (DM330023)
This development system is intended for high-voltage (up to
400 volts at 6.5 amps) BLDC, PMSM and ACIM sensored
or sensorless applications. It provides a low-cost Integrated
Power Module (IPM) based system for users to evaluate
and develop applications using dsPIC33F motor control
DSCs via a Plug-In Module (PIM) or a 28-pin SOIC socket.
Isolated serial interfaces include RS-232C and USB (for
RTDM). Feedback support includes: Hall-Effect Sensors,
Shaft Encoder, Back EMF voltages and single or dual current
shunt resistors. A PFC circuit is provided to meet regulatory
requirements. An isolated built-in debugger (similar to a
starter kit programmer/debugger) permits a direct connection
with a PC.
dsPICDEM™ MCSM Development Board (DM330022)
This development board is intended for low-voltage (up to
80 volts at 3 amps) 2-phase uni-polar or bi-polar stepper
motor (4, 6 or 8 wire) applications. It provides a low-cost
system for users to evaluate and develop applications using
dsPIC33F motor control DSCs via a Plug-In Module (PIM)
or 28-pin SOIC socket. A USB serial interface for RTDM is
provided. Feedback support includes current and voltage.
Demo software to run motors in open-loop or closed-loop with
full or variable micro-stepping is provided. A DMCI/RTDM GUI
for controlling step commands, motor parameter input and
operation modes is included.
dsPICDEM™ MCSM Stepper Motor Development
Board Kit (DV330021)
The kit includes the dsPICDEM MCSM board, a stepper
motor and a 24-volt power supply. PICkit 3 In-Circuit
Debugger, MPLAB ICD 3 In-Circuit Debugger or REAL ICE
In-Circuit Emulator is required for programming or debugging
operations.
Buck/Boost Converter PICtail™ Plus Card
(AC164133)
A low-cost development platform for dsPIC33FGS SMPS
devices, the buck/boost converter PICtail Plus card has two
buck stage outputs and one boost stage output. This board
can be used with either the Explorer 16 board or the 16-bit
28-pin starter board and the dsPIC33FGS SMPS and digital
power conversion devices.
Touch Sensing Technology
mTouch™ Capacitive Touch Evaluation Kit
(DM183026)
Includes two main boards: one populated
with a PIC16F72X 8-bit MCU and the
other with a PIC24F256GB110 16-bit
MCU; and four daughter boards for
developing keys, sliders and a matrix.
10 Quick Guide to Microchip Development Tools
Digital Potentiometers
MCP402X Non-Volatile Digital Potentiometer
Evaluation Board (MCP402XEV)
This low-cost board demonstrates the features
of the MCP401X and MCP402X devices. Kit
includes one populated and one unpopulated
PCB. The populated board has an MCP4021-
103E/SN digital potentiometer configured as
a “windowed” potentiometer using a 2.5 kΩ pull-up and a
2.5 kΩ pull-down resistor. The PCB supports the 8-pin SOIC,
SOT-23-6 and SOT-23-5 package variations. The unpopulated
PCB allows user’s to build the exact combination of
components their application requires.
MCP42XX PICtail™ Plus Daughter Board
(MCP42XXDM-PTPLS)
This daughter board is used to demonstrate the operation
of the MCP42XX Digital Potentiometers. The operation of
the MCP41XX devices is similar to the MCP42XX devices.
Therefore, this demo board can be used as a development
platform for either device family. This board is designed to
be used in conjunction with either the PIC24 Explorer 16
demo board or the PICkit Serial Analyzer.
Digital-to-Analog Converters
MCP4725 PICtail™ Plus Daughter Board
(MCP4725DM-PTPLS)
This daughter board demonstrates the
MCP4725 (12-bit DAC with non-volatile
memory) features using the Explorer 16
development board and the PICkit Serial
Analyzer.
MCP4728 Evaluation Board (MCP4728EV)
This evaluation board allows quick and easy evaluation of
the MCP4728 4-channel 12-bit DAC device. It contains the
MCP4728 device and connection pins for Microchip's PICkit
Serial Analyzer. Connect the MCP4728 evaluation board to
the PICkit Serial Analyzer and enter the DAC input data in the
PC Graphical User Interface program. The serial analyzer then
sends the user's data to the DAC device automatically.
Energy Meters
MCP3905A Energy Meter Reference Design
(MCP3905RD-PM1)
This low-cost energy meter board acts as a
stand-alone energy meter or as the analog-
front-end design for LCD microcontroller-
based meters. The MCP3905A design is
specified with an energy measurement error of 0.1% typical
across 1:500 dynamic range for high accuracy energy meter
designs. The board is compliant with EMC requirements per
energy metering standards IEC62053 and legacy IEC61036,
IEC1046 and IEC687.
Analog-to-Digital Converters
MCP3901 ADC Evaluation Board for 16-bit MCUs
(MCP3901EV-MCU16)
This evaluation board for 16-bit MCUs
provides the ability to evaluate the
performance of the MCP3901 Dual Channel
ADC. It also provides a development platform
for 16-bit PIC MCU based applications.
MCP3421 Battery Fuel Gauge Demo Board
(MCP3421DM-BFG)
This board demonstrates how to measure the battery voltage
and discharging current using the MCP3421. The MCU
algorithm calculates the battery fuel being used.
MCP355X Tiny Application Sensor Demo Board
(MCP355XDM-TAS)
This 1˝x 1˝ board is designed to demonstrate the
performance of the MCP3550/1/3 devices in a simple
low-cost application. The circuit uses a ratiometric sensor
confi guration and uses the system power supply as the
voltage reference. The extreme common mode rejection
capability of the MCP355X devices, along with their excellent
normal mode power supply rejection at 50 and 60 Hz, allows
for excellent system performance.
CAN & LIN Interface Products
MCP2515 PICtail™ Plus Daughter Board
(MCP2515DM-PTPLS)
This daughter board is a simple Controller
Area Network (CAN) board designed to be
used with boards containing the PICtail Plus
connector. The board also has the PICkit
Serial connector for interfacing to the PICkit
Serial Analyzer tool. The CAN node consists of the MCP2515
stand-alone CAN controller and MCP2551 CAN transceiver.
The PICkit Plus and PICkit Serial connectors allow the board
to be interfaced to a variety of PIC MCUs so that the user
can develop a CAN node.
MCP2515 CAN Bus Monitor Demo Board
(MCP2515DM-BM)
The MCP2515 CAN Bus Monitor demo board kit contains two
identical boards which can be connected together to create
a simple two node Controller Area Network (CAN) bus, which
can be controlled and/or monitored via the included PC
interface. The board(s) can also be connected to an existing
CAN bus.
PICDEM™ CAN-LIN Demo Board (DM163011)
This demo board supports: 28-pin SDIP PIC18F258
and PIC18F268X devices, 40-pin PDIP PIC18F458 and
PIC18F468X devices and 20-pin PDIP PIC16C432 with
integrated LIN Bus transceiver.
Analog Development Tools
ifi d i h
www.microchip.com/tools 11
MCP3909 3-Phase Energy Meter Reference Design
(MCP3909RD-3PH1)
This reference design is a fully functional 3-phase
energy meter including PC software used for automated
calibration. The reference design consists of two boards:
the main metering board with the MCP3909 devices and
PIC18F2520 that performs the power calculations, and the
USB interface module which uses the PIC18F4550. The
meter design contains serially accessible registers and is
intended to be flexible and upgraded with a variety of PIC
microcontrollers using the included firmware.
I/O Expanders
MCP23X17 16-bit GPIO Expander Evaluation Board
(MCP23X17EV)
This board demonstrates the simple
input/output functionality of the
MCP23017 (I2C interface) and the
MCP23S17 (SPI interface). The
system demonstrates the simplicity of
monitoring four pins configured as inputs and applying a
predetermined pattern on LEDs connected to the remaining
12 pins configured as outputs.
IrDA®
MCP212X Developer’s Daughter Board
(MCP212XEV-DB)
Evaluates and demonstrates the MCP2122
or MCP2120 IrDA Standard Encoder/
Decoder devices. A header allows the
MCP212X daughter board to be easily
jumpered into systems for development
purposes. This board also interfaces with the PICDEM HPC
Explorer, PICDEM FS USB and PICDEM LCD demo boards.
MCP215X/40 Developer’s Daughter Board
(MCP215X/40EV-DB)
This daughter board evaluates and demonstrates the
MCP2150, MCP2155 or the MCP2140 IrDA Standard
Protocol Handler with Encoder/Decoder devices. Headers
allow the MCP215X/40 Developer’s daughter board to be
easily jumpered into systems for development purposes.
This board also interfaces with the PICDEM HPC Explorer,
PICDEM FS USB and PICDEM LCD demo boards.
Operational Amplifi ers
MCP6V01 Thermocouple Auto-Zeroed Reference
Design Board (MCP6V01RD-TCPL)
The MCP6V01 design board
demonstrates how to use a difference
amplifier system to measure
Electromotive Force (EMF) voltage at the
cold junction of thermocouple in order
to accurately measure temperature of the thermocouple
bead. This can be done by using the MCP6V01 auto-
zeroed op amp because of its ultra low offset Voltage (VOS)
and high Common Mode Rejection Ratio (CMRR).
Analog Development Tools
MCP651 Input Offset Evaluation Board (MCP651EV-VOS)
This evaluation board provides a simple means to measure the
boards op amp input offset voltage under a variety of operating
conditions. The measured input offset voltage (VOST) includes
the input offset voltage specified in the data sheet (VOS) plus
changes due to: power supply voltage (PSRR), common mode
voltage (CMRR), output voltage (AOL), input offset voltage drift
over temperature (ΔVOS/ΔTA) and 1/f noise.
MCP6V01 Input Offset Demo Board (MCP6V01DM-VOS)
This demo board provides a simple means to measure the
MCP6V01/2/3 op amps input offset voltage under a variety
of bias conditions. This VOS includes the specifi ed input offset
voltage value found in the data sheet plus changes due to
power supply voltage, common mode voltage, output voltage
and temperature.
Power Management
MCP1640 Synchronous Boost Converter Evaluation
Board (MCP1640EV-SBC)
This board uses the MCP1640 in a high-efficiency
(up to 96%), fixed frequency (500 MHz), step-up
DC-DC converter. It demonstrates a minimum
number of external component power supply
solutions for applications powered by alkaline,
NiCd/NiMH or one-cell Li-Ion or Li-Polymer batteries.
MCP1630 Boost Mode LED Driver Demo Board
(MCP1630DM-LED2)
This demo board is a step-up, switch-mode, DC-DC converter
used for power LED applications. The demo board provides
a 350 mA or 700 mA constant current source with a jumper
selection. The input operating voltage range is 9-16V DC and
the board can supply up to 30W to a string of power LEDs.
MCP1631HV Multi-Chemistry Battery Charger
Reference Design (MCP1631RD-MCC2)
This reference design board is used to charge one to fi ve NiMH
or NiCd batteries, charge one or two cell Li-Ion batteries, or
drive one or two 1W LEDs. The board uses the MCP1631HV
high speed analog PWM and PIC16F833 to generate the charge
algorithm for NiMH, NiCd or Li-Ion batteries.
Thermal Management
TC1047A Temp-to-Voltage Converter PICtail™
Demo Board (TC1047ADM-PICTL)
This board demonstrates how to interface the
TC1047A device to a MCU. Connects directly to
the PICkit 3 Starter Kit, providing a platform for
code development and evaluation. Demonstrates
a good example of how to integrate an analog
temperature sensor into a system.
MCP9700 Thermistor Demo Board (MCP9700DM-TH1)
This demo board contains analog circuitry to measure
temperature. The board uses BC Components’ 232264055103
NTC thermistor to convert temperature to resistance. The
thermistor is placed in a voltage divider which converts
resistance to voltage. This voltage is filtered and placed at the
MCP6S22 Programmable Gain Amplifier’s (PGA) CH0 input. The
PGA gains and buffers the thermistor.
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