AD8310-EVAL Analog Devices Inc, AD8310-EVAL Datasheet - Page 12

AD8310-EVAL

Manufacturer Part Number

AD8310-EVAL

Description

BOARD EVAL FOR AD8310

Manufacturer

Analog Devices Inc

Datasheet

1.AD8310ARMZ.pdf (24 pages)

Specifications of AD8310-EVAL

Rohs Status

RoHS non-compliant

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AD8310

Occasionally, it might be desirable to use the dc-coupled

potential of the AD8310 in baseband applications. The main

challenge here is to present the signal at the elevated common-

mode input level, which might require the use of low noise, low

offset buffer amplifiers. In some cases, it might be possible to

use dual supplies of ±3 V, which allow the input pins to operate

at ground potential. The output, which is internally referenced

to the COMM pin (now at −3 V), can be positioned back to

ground level, with essentially no sensitivity to the particular

value of the negative supply.

OFFSET INTERFACE

The input-referred dc offsets in the signal path are nulled via

the interface associated with Pin 3, shown in Figure 25. Q1

and Q2 are the first-stage input transistors, having slightly

unbalanced load resistors, resulting in a deliberate offset voltage

of about 1.5 mV referred to the input pins. Q3 generates a small

current to null this error, dependent on the voltage at the

OFLT pin. When Q1 and Q2 are perfectly matched, this voltage

is about 1.75 V. In practice, it can range from approximately

1 V to 2.5 V for an input-referred offset of ±1.5 mV.

INLO

INHI

COM

4kΩ

DETECTORS

2kΩ

FROM ALL

Figure 24. Signal Input Interface

COMM

VPOS

TYP 2.2V FOR

3V SUPPLY,

3.2V AT 5V

DETECTORS

TOP-END

LGP

LGN

BIAS

60μA

COMM

0.4pF

6kΩ

~3kΩ

1.25kΩ

125Ω

2.4mA

1.25kΩ

Figure 26. Simplified Output Interface

VPOS

2μA/dB

3kΩ

0.4pF

Rev. F | Page 12 of 24

BFIN

4kΩ

STAGE

In normal operation using an ac-coupled input signal, the

OFLT pin should be left unconnected. The g

gated off when the chip is disabled, converts a residual offset

(sensed at a point near the end of the cascade of amplifiers) to

a current. This is integrated by the on-chip capacitor, C

any added external capacitance, C

that is applied back to the input stage in the polarity needed to

null the output offset. From a small-signal perspective, this

feedback alters the response of the amplifier, which exhibits a

zero in its ac transfer function, resulting in a closed-loop, high-

pass −3 dB corner at about 2 MHz. An external capacitor lowers

the high-pass corner to arbitrarily low frequencies; using 1 μF,

the 3 dB corner is at 60 Hz.

OUTPUT INTERFACE

The nine detectors generate differential currents, having an

average value that is dependent on the signal input level, plus a

fluctuation at twice the input frequency. These are summed at

nodes LGP and LGN in Figure 26. Further currents are added at

these nodes to position the intercept by slightly raising the

output for zero input and to provide temperature compensation.

INPUT

BIAS,

4kΩ

1.2V

125Ω

Figure 25. Offset Interface and Offset-Nulling Path

BIAS

BALANCE

36kΩ

16μA AT

0.2pF

48kΩ

MAIN GAIN

OFLT

STAGES

1kΩ

3kΩ

OFLT

, to generate the voltage

OFLT

VOUT

cell, which is

33pF

AVERAGE

ERROR

CURRENT

TO LAST

DETECTOR

VPOS

COMM

, plus

AD8310-EVAL Analog Devices Inc, AD8310-EVAL Datasheet - Page 12

AD8310-EVAL

Specifications of AD8310-EVAL

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