MCP3421EV Microchip Technology, MCP3421EV Datasheet - Page 27

MCP3421EV

Manufacturer Part Number

MCP3421EV

Description

BOARD EVAL FOR MCP3421 SOT23-6

Manufacturer

Microchip Technology

Datasheets

1.MCP3421A2T-ECH.pdf (42 pages)

2.MCP3421EV.pdf (34 pages)

Specifications of MCP3421EV

Design Resources

MCP3421EV Gerber Files

Number Of Adc's

Number Of Bits

Sampling Rate (per Second)

Data Interface

Serial

Inputs Per Adc

1 Single Ended

Input Range

±2.5 V

Voltage Supply Source

Single Supply

Operating Temperature

-40°C ~ 125°C

Utilized Ic / Part

MCP3421

Silicon Manufacturer

Microchip

Application Sub Type

ADC

Kit Application Type

Data Converter

Silicon Core Number

MCP3421

Kit Contents

Board

Rohs Compliant

Yes

Lead Free Status / RoHS Status

Not applicable / Not applicable

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

MCP3421EV

Manufacturer:

Microchip Technology

Quantity:

135

Current page: 27 of 42
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6.0

The MCP3421 can be used for various precision

analog-to-digital converter applications. The device

operates with very simple connections to the

application circuit. The following sections discuss the

examples of the device connections and applications.

6.1

6.1.1

For an accurate measurement, the application circuit

needs a clean supply voltage and must block any noise

signal to the MCP3421 device.

example of using two bypass capacitors (a 10 µF

tantalum capacitor and a 0.1 µF ceramic capacitor) on

the V

helpful to filter out any high frequency noises on the

extra currents when the device needs from the supply.

These capacitors should be placed as close to the V

pin as possible (within one inch). If the application

circuit has separate digital and analog power supplies,

the V

on the analog plane.

6.1.2

The SCL and SDA pins of the MCP3421 are open-drain

configurations. These pins require a pull-up resistor as

shown in

resistors depends on the operating speed and loading

capacitance of the I

resistor consumes less power, but increases the signal

transition time (higher RC time constant) on the bus.

Therefore, it can limit the bus operating speed. The

lower value of resistor, on the other hand, consumes

higher power, but allows higher operating speed. If the

bus line has higher capacitance due to long bus line or

high number of devices connected to the bus, a smaller

pull-up resistor is needed to compensate the long RC

time constant. The pull-up resistor is typically chosen

between 5 kΩ and 10 kΩ ranges for standard and fast

modes.

line and also provide the momentary bursts of

and V

BASIC APPLICATION

CONFIGURATION

Connecting to the Application

Circuits

line of the MCP3421. These capacitors are

Figure

BYPASS CAPACITORS ON V

CONNECTING TO I

PULL-UP RESISTORS

of the MCP3421 device should reside

6-1. The value of these pull-up

C bus line. Higher value of pull-up

Figure 6-1

C BUS USING

shows an

FIGURE 6-1:

Example.

The number of devices connected to the bus is limited

only by the maximum bus capacitance of 400 pF. The

bus loading capacitance affects on the bus operating

speed.

connections.

FIGURE 6-2:

Connection on I

C1: 0.1 µF, Ceramic capacitor

C2: 10 µF, Tantalum capacitor

5 kΩ - 10 kΩ for f

is the pull-up resistor:

Microcontroller

(PIC16F876)

Figure 6-2

Input Signals

SCL

MCP3421

SDL

shows an example of multiple device

C Bus.

SCL

Typical Connection

Example of Multiple Device

SDA

= 100 kHz to 400 kHz

MCP3421

SCL

MCP4725

Temperature

(MCP9804)

DS22003E-page 27

Sensor

(MASTER)

MCU

MCP3421EV Microchip Technology, MCP3421EV Datasheet - Page 27

MCP3421EV

Specifications of MCP3421EV

Available stocks

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