MCP3302-I/P MICROCHIP [Microchip Technology], MCP3302-I/P Datasheet - Page 18

MCP3302-I/P

Manufacturer Part Number

MCP3302-I/P

Description

13-Bit Differential Input, Low Power A/D Converter with SPI Serial Interface

Manufacturer

MICROCHIP [Microchip Technology]

Datasheet

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MCP3302/04

FIGURE 6-3:

6.2.1

When the MCP3302/04 initiates, charge is stored on

the sample capacitor. When the sample period is com-

plete, the device converts one bit for each clock that is

received. It is important for the user to note that a slow

clock rate will allow charge to bleed off the sample cap

while the conversion is taking place. For the MCP330X

devices, the recommended minimum clock speed dur-

ing the conversion cycle (T

meet this criteria may induce linearity errors into the

conversion outside the rated specifications. It should

be noted that during the entire conversion cycle, the

A/D converter does not have requirements for clock

speed or duty cycle, as long as all timing specifications

are met.

6.3

For pseudo-differential bipolar operation, the biasing

circuit (shown in Figure 6-4) shows a single ended

input AC coupled to the converter. This configuration

will give a digital output range of -4096 to +4095. With

the 2.5V reference, the LSB size equal to 610 V.

Although the ADC is not production tested with a 2.5V

reference as shown, linearity will not change more than

0.1 LSB. See Figure 2-2 and Figure 2-9 for DNL and

INL errors versus V

between the high pass corner and the acquisition time.

The value of C will need to be quite large in order to

DS21697B-page 18

Legend

LEAKAGE

SAMPLE

Biasing Solutions

CHx

MAINTAINING MINIMUM CLOCK

SPEED

CHx

signal source

source impedance

input channel pad

input pin capacitance

threshold voltage

leakage current at the pin

due to various junctions

sampling switch

sampling switch resistor

sample/hold capacitance

REF

Analog Input Model.

at V

CONV

7 pF

= 5V. A trade-off exists

) is 105 kHz. Failure to

= 0.6V

±1 nA

LEAKAGE

bring down the high pass corner. The value of R will

need to be 1 k , or less, since higher input impedances

require additional acquisition time. Using the RC values

in Figure 6-4, we have a 100 Hz corner frequency. See

Figure 2-12 for relation between input impedance and

acquisition time.

FIGURE 6-4:

circuit for bipolar operation.

Using an external operation amplifier on the input

allows for gain and also buffers the input signal from the

input to the ADC allowing for a higher source imped-

ance. This circuit is shown in Figure 6-5.

10 µF

Sampling

Switch

1 k

1 µF

= 1 k

Pseudo-differential biasing

IN+

IN-

OUT

MCP1525

2002 Microchip Technology Inc.

MCP330X

= DAC capacitance

= 25 pF

0.1 µF

SAMPLE

REF

0.1 µF

= 5V

MCP3302-I/P MICROCHIP [Microchip Technology], MCP3302-I/P Datasheet - Page 18

MCP3302-I/P

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