TC1303B-PI0EMFTR Datasheet, PDF(10/12 Page) Microchip Technology – Quick Guide to Microchip Development Tools

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TC1303B-PI0EMFTR Datasheet, PDF (10/12 Pages) Microchip Technology – Quick Guide to Microchip Development Tools

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Analog Development Tools

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" Ã 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

configuration 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.

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 âwindowedâ potentiometer using a 2.5 kâ¦

pull-up and a 2.5 kâ¦ pull-down resistor. The PCB supports

the 8-pin SOIC, SOT-23-6 and SOT-23-5 package variations.

The unpopulated PCB allows userâs 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.

10 Quick Guide to Microchip Development Tools

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