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TC4428AEJA Datasheet, PDF (42/44 Pages) Microchip Technology – Analog & Interface Product Selector Guide Thermal Management • Motor Driver • Interface Peripherals Power Management • Linear & Mixed Signal • Safety & Security
Featured Analog Development Tools
Thermal Management Products
MCP9700 Thermistor Demo Board (MCP9700DM-TH1)
The MCP9700 Thermistor Demo Board
contains the 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 .
PT100 RTD Evaluation Board (TMPSNS-RTD1)
This board demonstrates how to bias a
Resistive Temperature Detector (RTD)
and accurately measure temperature .
Up to two RTDs can be connected .
The RTDs are biased using constant
current source and the output voltage is scaled using
a differential amplifier . The output is then connected
to a 12-bit differential Analog-to-Digital Converter (ADC)
MCP3301 . The ADC outputs serial data to a PIC18F2550
device using a Serial Peripheral Interface (SPI) . The data
is transmitted to a PC using a USB interface . A Microsoft
Excel®macro is used as a Graphical User Interface (GUI)
to acquire the data . The acquired data is stored in an Excel
worksheet and graphed as a real-time strip chart display .
MCP9800 Temperature Data Logger Demo Board
(MCP9800DM-DL)
Allows users to store up to 128,000
temperature readings from the
MCP9800 sensor to the 24LC1025,
Microchip’s 1024 Kbit EEPROM .
A PIC16F684 MCU communicates
with the sensor and EEPROM . In addition, the PIC MCU
interfaces to a PC using the PICkit™ 1 Flash Starter Kit
and transfers the temperature readings from the EEPROM
to the PC . Microsoft Excel®can be used to view the data .
Mixed Signal Products
MCP3901 and PIC18F65J90 Shunt Meter
Reference Design (ARD00342)
The MCP3901 and PIC18F65J90 Energy
Meter Reference Design is a fully functional
IEC Class 0 .5 compliant single-phase
meter . This low-cost design does not use
any transformers and requires few external
components . The PIC18F65J90 directly
drives the LCD and includes both an isolated USB
connection for meter calibration and access to the device
power calculations . The system calculates active energy,
active power, RMS current, RMS voltage, reactive energy,
reactive power, apparent power, and other typical power
quantities .
MCP3421 Battery Fuel Gauge Demonstration Board
(MCP3421DM-BFG)
This board is used to demonstrate
the MCP3421 18-bit delta-sigma ADC
for battery fuel gauging applications .
It includes two MCP3421 devices,
MCP73831 (single cell Li-Ion/
Li-Polymer Charger) and PIC18F4550 MCU . The board
measures: (1) the battery voltage and (2) the current
coming out from the battery in the discharging mode and
into the battery in the charging mode using the ADC device
(if charging mode is enabled (optional)) . It calculates the
total fuel used and also fuel remaining .
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 .
MCP42XX PICtail Plus Daughter Board
(MCP42XXDM-PTPLS)
The MCP42XX PICtail Plus 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 .
Power Management Products
MCP1631HV Multi-Chemistry Battery Charger
Reference Design (MCP1631RD-MCC1)
This reference design is a complete stand-
alone constant current battery charger for
NiMH, NiCd or constant current/constant
voltage for Li-Ion battery packs . When
charging NiMH or NiCd batteries, the
reference design is capable of charging one,
two, three or four batteries connected in series and one
or two series batteries for Li-Ion . This board utilizes the
MCP1631HV (high-speed PIC MCU PWM TSSOP-20) and
PIC16F883 (28-pin SSOP) .
MCP73871 Demo Board with Voltage Proportional
Current Control (MCP73871DM-VPCC)
The MCP73871 Demo Board with Voltage
Proportional Current Control is designed to
demonstrate Microchip’s stand-alone linear
Li-Ion battery charger with system power
path and load sharing management control
solution . The MCP73871 integrates the required elements
to meet design challenges when developing new Li-Ion/
Li-Polymer battery powered products .
42 Analog & Interface Product Selector Guide