Datasheet
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Analog & Interface Product Selector Guide
LIN Serial Analyzer (APGDT001)
The LIN Serial Analyzer development
system enables a Personal Computer
(PC) to communicate with a LIN (Local
Interface Network) bus. The PC program
uses a graphical user interface to enter
and display message frames occurring on the target bus.
USB to UART Converter Evaluation Board
(MCP2200EV-VCP)
The MCP2200EV-VCP is a USB-to-RS232
development and evaluation board for
the MCP2200 USB-to-UART device. The
board allows for easy demonstration and
evaluation of the MCP2200. The accompanying software
allows the special device features to be configured and
controlled. The board is powered from USB and has a test
point associated with each GPIO pin. In addition, two of
these pins are connected to LEDs which can be used to
indicate USB-to-UART traffic when the associated pins are
configured as TxLED and RxLED pins respectively.
Linear Products
MCP6V01 Thermocouple Auto-Zeroed
Ref 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).
MCP6N11 and MCP6V2X Wheatstone Bridge
Reference Design (ARD00354)
This board demonstrates the performance
of Microchip’s MCP6N11 instrumentation
amplifier (INA) and a traditional three op
amp INA using Microchip’s MCP6V26
and MCP6V27 auto-zeroed op amps. The
input signal comes from an RTD temperature sensor in
a Wheatstone bridge. Real world interference is added
to the bridge’s output, to provide realistic performance
comparisons. Data is gathered and displayed on a PC, for
ease of use.
MCP6H04 Evaluation Board (ADM00375)
The MCP6H04 Evaluation Board is intended
to support an instrumentation amplifier
and show the capability of the MCP6H04
operational amplifier. It uses a quad op amp
in a difference amplifier configuration with
input buffers and voltage reference. The test points for the
power supply, ground, input signals, output signals, and
voltage reference allow lab equipment to be connected to
the board.
MCP73X23 OVP Lithium Iron Phosphate Battery
Charger Evaluation Board (MCP73X23EV-LFP)
The MCP73X23 Lithium Iron
Phosphate Battery Charger Evaluation
board demonstrates the features of
Microchip’s MCP73123 and MCP73223
Lithium Iron Phosphate (LiFePO4) Battery Charge
Management Controller with Input Overvoltage Protection.
MCP7383X Li-Ion System Power Path Management
Reference Design (MCP7383XRD-PPM)
This reference design is developed to
assist product designers in reducing
product design cycle and time by
utilizing Microchip’s stand-alone Li-Ion
battery charge management controllers
with system power path management. Due to the natural
characteristics of Li-Ion/Li-Polymer batteries, they are the
most popular power sources for mobile devices, however,
extra care in design is always important. System Power
Path Management allows end-users to charge their
batteries without interruption.
MCP1640 Sync Boost Converter Evaluation Board
(MCP1640EV-SBC)
The MCP1640 Synchronous Boost
Converter Evaluation board demonstrates
the MCP1640 in two boost-converter
applications with multiple output voltages.
It can be used to evaluate both package
options (SOT-23-6 and 2×3-8 DFN). This
board was developed to help engineers
reduce the product design cycle time.
MCP1252 Charge Pump Backlight Demo Board
(MCP1252DM-BKLT)
The MCP1252 board demonstrates
the use of a charge pump device in
an LED application and acts as a
platform to evaluate the MCP1252
device in general. Light intensity is
controlled uniformly through the use of ballast resistors.
A PIC10F206 MCU provides an enable signal to the
MCP1252 and accepts a push-button input that allows the
white LEDs to be adjusted to five different light intensities.
Interface Products
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.
controlled uniformly through the use of ballast resistors.
Featured Analog Development Tools