HCPL-7860 Datasheet, PDF(23/28 Page) Agilent(Hewlett-Packard) – Isolated 15-bit A/D Converter

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HCPL-7860 Datasheet, PDF (23/28 Pages) Agilent(Hewlett-Packard) – Isolated 15-bit A/D Converter

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periodic, then the pre-trigger

circuit should be disabled by

selecting pre-trigger mode 0. If

the most time-accurate sampling

of the input signal is desired,

then mode 1 should be selected.

If the shortest possible conver-

sion time is desired, then mode 2

should be selected.

The pre-trigger circuit functions

only with channel 1; the circuit

ignores any convert start signals

while channel 2 is selected with

the CHAN input. This allows

conversions on channel 2 to be

performed between conversions

on channel 1 without affecting

the operation of the pre-trigger

circuit. As long as the convert

start signals are periodic while

channel 1 is selected, then the

pre-trigger circuit will function

properly.

The three different pre-trigger

modes are selected using bits 6

and 7 of register 3, as shown in

Table 5 below.

Table 5. Pre-Trigger Mode Configuration.

Pre-Trigger Mode

0

1

2

Configuration Data Bits

Bit 7

Bit 6

Low

Low

Low

High

High

Donât Care

Note: Bold italic type indicates default values.

Offset Calibration

The offset calibration circuit can

be used to separately calibrate

the offsets of both channels 1 and

2. The offset calibration circuit

contains a separate offset register

for each channel. After an offset

calibration sequence, the offset

registers will contain a value

equal to the measured offset,

which will then be subtracted

from all subsequent conversions.

A hardware reset (bringing the

RESET pin high for at least

100 ns) is required to reset the

offset calibration registers to

zero.

The following sequence is

recommended for performing an

offset calibration:

1. Select the appropriate channel

using the CHAN pin (low =

channel 1, high = channel 2).

2. Force zero volts at the input of

the selected isolated

modulator.

3. Send a configuration data byte

to the appropriate register for

the selected channel (register

0 for channel 1, register 1 for

channel 2). Bit 3 of the

configuration byte should be

set high to enable offset

calibration mode and bits 4

through 7 should be set to

select conversion mode 1 to

achieve the highest resolution

measurement of the offset.

4. Perform one complete conver-

sion cycle by bringing CS low

until SDAT goes high, indicat-

ing completion of the conver-

sion cycle. Because bit 3 of the

configuration has been set

high, the uncalibrated output

data from the conversion will

be stored in the appropriate

offset calibration register and

will be subtracted from all

subsequent conversions on

that channel. If multiple

conversion cycles are

performed while the offset

calibration mode is enabled,

the uncalibrated data from the

last conversion cycle will be

stored in the offset calibration

register.

5. Send another configuration

byte to the appropriate regis-

ter for the selected channel,

setting bit 3 low to disable

calibration mode and setting

bits 4 through 7 to select the

desired conversion mode for

subsequent conversions on

that channel.

To calibrate both channels,

perform the above sequence for

each channel. The offset

calibration sequence can be

performed as often as needed.

The table below summarizes how

to turn the offset calibration

mode on or off using bit 3 of

configuration registers 0 and 1.

Table 6. Offset Calibration

Configuration.

Offset

Calibration

Mode

Off

On

Configuration

Data Bits

Bit 3

Low

High

Note: Bold italic type indicates default

values.

1-282

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