MCP4821T-E/MC Microchip Technology, MCP4821T-E/MC Datasheet - Page 17

MCP4821T-E/MC

Manufacturer Part Number

MCP4821T-E/MC

Description

Single 12-bit DAC With SPI Interace And Internal Vref 8 DFN 2x3mm T/R

Manufacturer

Microchip Technology

Datasheet

1.MCP4821-EMS.pdf (48 pages)

Specifications of MCP4821T-E/MC

Settling Time

4.5µs

Number Of Bits

Data Interface

Serial, SPI™

Number Of Converters

Voltage Supply Source

Single Supply

Operating Temperature

-40°C ~ 125°C

Mounting Type

Surface Mount

Package / Case

8-DFN

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Power Dissipation (max)

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Available stocks

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Price

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Part Number:

MCP4821T-E/MC

Manufacturer:

MICROCHIP

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4.0

The MCP4801, MCP4811 and MCP4821 are single

channel voltage-output 8-bit, 10-bit and 12-bit DAC

devices, respectively. These devices include rail-to-rail

output amplifier, internal voltage reference, shutdown

and reset-management circuitry. The devices use an

SPI serial communication interface and operate with a

single supply voltage from 2.7V to 5.5V.

The DAC input coding of these devices is straight

binary.

voltage calculation.

EQUATION 4-1:

The ideal output range of each device is:

• MCP4801 (n = 8)

(a) 0.0V to 255/256 * 2.048V when gain setting = 1x.

(b) 0.0V to 255/256 * 4.096V when gain setting = 2x.

• MCP4811 (n = 10)

(a) 0.0V to 1023/1024 * 2.048V when gain setting = 1x.

(b) 0.0V to 1023/1024 * 4.096V when gain setting = 2x.

• MCP4821 (n = 12)

(a) 0.0V to 4095/4096 * 2.048V when gain setting = 1x.

(b) 0.0V to 4095/4096 * 4.096V when gain setting = 2x.

 2010 Microchip Technology Inc.

Note:

Where:

2.048V

Equation 4-1

GENERAL OVERVIEW

See the output swing voltage specification in

Section 1.0 “Electrical Characteristics”.

OUT

Internal voltage reference

DAC input code

Gain selection

2 for <GA> bit = 0

1 for <GA> bit = 1

DAC Resolution

8 for MCP4801

10 for MCP4811

12 for MCP4821

shows the DAC analog output



---------------------------------- -

ANALOG OUTPUT

VOLTAGE (V

2.048V







OUT

)

1 LSb is the ideal voltage difference between two

successive codes.

calculation of each device.

TABLE 4-1:

4.0.1

Integral Non-Linearity (INL) error is the maximum

deviation between an actual code transition point and

its corresponding ideal transition point once offset and

gain errors have been removed. The two endpoints

method (from 0x000 to 0xFFF) is used for the

calculation.

A positive INL error represents transition(s) later than

ideal. A negative INL error represents transition(s) ear-

lier than ideal.

FIGURE 4-1:

MCP4801/4811/4821

Digital

Input

Code

MCP4801

MCP4811

MCP4821

(n = 10)

(n = 12)

Device

(n = 8)

INL ACCURACY

Figure 4-1

111

110

101

100

011

010

001

000

Selection

LSb OF EACH DEVICE

Gain

Actual

Transfer

Function

Table 4-1

Example for INL Error.

shows the details.

DAC Output

2.048V/4096 = 0.5 mV

INL < 0

4.096V/256 = 16 mV

2.048V/1024 = 2 mV

4.096V/1024 = 4 mV

4.096V/4096 = 1 mV

2.048V/256 = 8 mV

INL < 0

illustrates the LSb

LSb Size

DS22244B-page 17

Ideal Transfer

Function

MCP4821T-E/MC Microchip Technology, MCP4821T-E/MC Datasheet - Page 17

MCP4821T-E/MC

Specifications of MCP4821T-E/MC

Available stocks

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