MAX4208 Datasheet, PDF(12/17 Page) Maxim Integrated Products – Ultra-Low Offset/Drift, Precision Instrumentation Amplifiers with REF Buffer

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MAX4208 Datasheet, PDF (12/17 Pages) Maxim Integrated Products – Ultra-Low Offset/Drift, Precision Instrumentation Amplifiers with REF Buffer

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Ultra-Low Offset/Drift, Precision

Instrumentation Amplifiers with REF Buffer

Table 1. REFIN/MODE Pin Functions

REFIN/MODE VOLTAGE*

VDD (typically +5V)

Between VSS + 200mV and

(VDD - 1.3V)

STATE OF MAX4208/MAX4209 and REFIN BUFFER

The entire IC is in SHDN mode and draws 1.4ÂµA of supply current.

The internal REF buffer is activated. REF MUST NOT be fed by any external source. The voltage

at REFIN/MODE is transferred to REF within Â±40ÂµV, max (VOS of the internal REF buffer).

VSS (typically ground)

The internal REF buffer is OFF with its output in a high-impedance state to allow direct drive of

REF (or connection to ground). REF must be directly connected to an external voltage reference

capable of sinking and sourcing the load current.

*See the Electrical Characteristics table for detailed specifications.

In a conventional instrumentation amplifier, a simple

method to apply a reference voltage is the use of a volt-

age-divider to set the REF level (often halfway between

ground and VDD). The voltage-divider should be made

of higher value resistors to minimize current consump-

tion, but the sinking and sourcing current from the load

and gain-setting resistors create a significant common-

mode signal at the divider midpoint. The MAX4208/

MAX4209 precision REFIN buffer essentially eliminates

the error voltage at REF.

The REFIN buffer is a unity-gain op amp that has a guar-

anteed VOS of less than 40ÂµV with a CMOS input bias

current of only 1pA, to allow setting REFIN with a simple

resistive divider with minimum errors.

REFIN/MODE is a triple function input (see Table 1). To

use the internal REFIN buffer, connect REFIN/MODE to

an external reference or a simple resistive divider at

any voltage between (VSS + 0.2V) and (VDD - 1.3V).

These voltages represent the minimum and maximum

for the REFIN bufferâs input common-mode range (see

the Electrical Characteristics table). To use ground at

REF or to use an external low-impedance reference

directly at REF without the internal REFIN buffer, con-

nect REFIN/MODE to VSS. This disables the REFIN

buffer, dropping the IDD to 750ÂµA and puts the REFIN

buffer output in a high-impedance state to allow exter-

nal direct drive of REF. To put the MAX4208/MAX4209

into shutdown and reduce the supply current to less

than 5ÂµA, drive REFIN/MODE to VDD.

Note: When driving REF directly, REFIN/MODE must be

at VSS and shutdown mode is NOT available.

Input Differential Signal Range

The MAX4208/MAX4209 feature a proprietary input

structure optimized for small differential signals of up to

Â±100mV. The output of the MAX4208/MAX4209 allows

for bipolar input signals. The output voltage is equal to

the voltage at REF for zero differential input. The gain

accuracy of these devices is laser trimmed to better

than 0.1% (typ).

Output Swing

The MAX4208/MAX4209 are designed specifically for

small input signals (Â±100mV) from sensors, strain

gauges, etc. These instrumentation amplifiers are

capable of rail-to-rail output-voltage swings; however,

depending on the selected gain and REF level, the rail-

to-rail output swing may not be required or desired.

For example, consider single-supply operation of the

MAX4208 in a unity-gain configuration with REF con-

nected to a voltage at half of the supply voltage (VDD /

2). In this case, the output-voltage swing would be

Â±100mV around the REF level and would not need to

reach either rail.

Another example is the MAX4209T (gain internally set

to 10) also operating with a single-supply voltage and

REF set externally to ground (VSS). REFIN/MODE must

also be connected to ground (VSS). In this case, an

input voltage of 0 to 100mV differential would ideally

drive an output-voltage swing of 0 to 1V. However, the

output swing can only get to within 40mV of ground

(VSS) (see the VOL specifications in the Electrical

Characteristics table). It is recommended that for best

accuracy and linearity, the lowest differential input volt-

age for unipolar operation is usually picked to be a

nonzero value (a millivolt or more).

Another remedy is to use REFIN/MODE of 250mV (see

the REFIN/MODE Buffered Reference Input Range in the

Electrical Characteristics table), which causes a 0 to

100mV input to start OUT at 250mV and swing to 1.25V,

to prevent the output from going into its bottom nonlinear

range. An ADC with differential input can be connected

between OUT and REF to record the true 0 to 1V swing.

Devices with higher gain and bipolar output swing can

be configured to approach either rail for maximum

dynamic range. However, as the output approaches with-

in VOL or VOH of the supply voltages, the linearity and

accuracy degrades, especially under heavy loading.

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