MCP3202-BIST Microchip Technology, MCP3202-BIST Datasheet - Page 16

MCP3202-BIST

Manufacturer Part Number

MCP3202-BIST

Description

2.7V Dual Channel 12-Bit A/D Converter with SPI Serial Interface

Manufacturer

Microchip Technology

Datasheet

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MCP3202

6.2

When the MCP3202 initiates the sample period,

charge is stored on the sample capacitor. When the

sample period is complete, 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. At 85°C (worst case condition), the part will

maintain proper charge on the sample capacitor for at

least 1.2ms after the sample period has ended. This

means that the time between the end of the sample

period and the time that all 12 data bits have been

clocked out must not exceed 1.2ms (effective clock fre-

quency of 10kHz). Failure to 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

require a constant clock speed or duty cycle, as long as

all timing specifications are met.

6.3

If the signal source for the A/D Converter is not a low

impedance source, it will have to be buffered or inaccu-

rate conversion results may occur. It is also recom-

mended that a filter be used to eliminate any signals

that may be aliased back into the conversion results.

This is illustrated in Figure 6-3 below where an op amp

is used to drive the analog input of the MCP3202. This

amplifier provides a low impedance output for the con-

verter input and a low pass filter, which eliminates

unwanted high frequency noise.

Low pass (anti-aliasing) filters can be designed using

Microchip’s interactive FilterLab

will calculate capacitor and resistor values, as well as,

determine the number of poles that are required for the

application. For more information on filtering signals,

see the application note AN699 “Anti-Aliasing Analog

Filters for Data Acquisition Systems.”

FIGURE 6-3: The MCP601 Operational Amplifier is

used to implement a 2nd order anti-aliasing filter for

the signal being converted by the MCP3202.

DS21034A-page 16

Maintaining Minimum Clock Speed

Buffering/Filtering the Analog Inputs

0.1µF

Reference

4.096V

MCP601

REF198

ADI

Tant.

1µF

0.1µF

™

IN+

software. FilterLab

IN-

MCP3202

REF

10uF

1µF

Preliminary

6.4

When laying out a printed circuit board for use with ana-

log components, care should be taken to reduce noise

wherever possible. A bypass capacitor should always

be used with this device and should be placed as close

as possible to the device pin. A bypass capacitor value

of 1µF is recommended.

Digital and analog traces should be separated as much

as possible on the board and no traces should run

underneath the device or the bypass capacitor. Extra

precautions should be taken to keep traces with high

frequency signals (such as clock lines) as far as possi-

ble from analog traces.

Use of an analog ground plane is recommended in

order to keep the ground potential the same for all

devices on the board. Providing V

devices in a “star” configuration can also reduce noise

by eliminating current return paths and associated

errors. See Figure 6-4. For more information on layout

tips when using A/D Converters, refer to AN688 “Lay-

out Tips for 12-Bit A/D Converter Applications” .

FIGURE 6-4: V

configuration in order to reduce errors caused by

current return paths.

FilterLab is a trademark of Microchip Technology Inc. in

Layout Considerations

Device 1

Device 2

traces

Connection

1999 Microchip Technology Inc.

arranged

Device 3

Device 4

connections to

‘Star’

MCP3202-BIST Microchip Technology, MCP3202-BIST Datasheet - Page 16

MCP3202-BIST

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