MCP3304-CI/SL Microchip Technology, MCP3304-CI/SL Datasheet - Page 17

MCP3304-CI/SL

Manufacturer Part Number

MCP3304-CI/SL

Description

IC ADC 13BIT 2.7V 4CH SPI 16SOIC

Manufacturer

Microchip Technology

Datasheets

1.MCP3302-CIST.pdf (46 pages)

2.MCP3304-CIP.pdf (40 pages)

Specifications of MCP3304-CI/SL

Package / Case

16-SOIC (0.154", 3.90mm Width)

Number Of Bits

Sampling Rate (per Second)

100k

Data Interface

Serial, SPI™

Number Of Converters

Voltage Supply Source

Single Supply

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Architecture

SAR

Conversion Rate

100 KSPs

Resolution

12 bit

Input Type

Voltage

Snr

80.02 dB

Maximum Operating Temperature

+ 85 C

Mounting Style

SMD/SMT

Minimum Operating Temperature

- 40 C

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Lead Free Status / RoHS Status

Lead free / RoHS Compliant, Lead free / RoHS Compliant

Other names

MCP3304CI/SL

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6.0

6.1

The MCP3302/04 A/D converters employ a conven-

tional SAR architecture. With this architecture, the

potential between the IN+ and IN- inputs are simulta-

neously sampled and stored with the internal sample

circuits for 1.5 clock cycles. Following this sampling

time, the input hold switches of the converter open and

the device uses the collected charge to produce a

serial 13-bit binary two’s complement output code. This

conversion process is driven by the external clock and

must include 13 clock cycles, one for each bit. During

this process, the most significant bit (MSB) is output

first. This bit is the sign bit and indicates if the IN+ or IN-

input is at a higher potential.

FIGURE 6-1:

IN+

IN-

2002 Microchip Technology Inc.

Hold

APPLICATIONS INFORMATION

Conversion Description

SAMP

Simplified Block Diagram.

Comp

CDAC

13-Bit SAR

OUT

Shift

6.2

The analog input of the MCP3302/04 is easily driven,

either differentially or single ended. Any signal that is

common to the two input channels will be rejected by

the common mode rejection of the device. During the

charging time of the sample capacitor, a small charging

current will be required. For low source impedances,

this input can be driven directly. For larger source

impedances, a larger acquisition time will be required

due to the RC time constant that includes the source

impedance. For the A/D Converter to meet specifica-

tion, the charge holding capacitor (C

given enough time to acquire a 13-bit accurate voltage

level during the 1.5 clock cycle acquisition period.

An analog input model is shown in Figure 6-3. This

model is accurate for an analog input, regardless if it is

configured as a single ended input, or the IN+ and IN-

input in differential mode. In this diagram, it is shown

that the source impedance (R

sampling switch (R

time that is required to charge the capacitor (C

Consequently, a larger source impedance with no addi-

tional acquisition time increases the offset, gain and

integral linearity errors of the conversion. To overcome

this, a slower clock speed can be used to allow for the

longer charging time. Figure 6-2 shows the maximum

clock speed associated with source impedances.

FIGURE 6-2:

vs. Source Resistance (R

INL.

2.5

2.0

1.5

1.0

0.5

0.0

100

Driving the Analog Input

Source Resistance (ohms)

1000

) impedance, directly affecting the

MCP3302/04

Maximum Clock Frequency

) to maintain ±1 LSB

) adds to the internal

10000

DS21697B-page 17

SAMPLE

) must be

SAMPLE

100000

MCP3304-CI/SL Microchip Technology, MCP3304-CI/SL Datasheet - Page 17

MCP3304-CI/SL

Specifications of MCP3304-CI/SL

Available stocks

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