MAX4238_11 Datasheet, PDF(7/9 Page) Maxim Integrated Products – Ultra-Low Offset/Drift, Low-Noise,Precision SOT23 Amplifiers

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MAX4238_11 Datasheet, PDF (7/9 Pages) Maxim Integrated Products – Ultra-Low Offset/Drift, Low-Noise,Precision SOT23 Amplifiers

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Ultra-Low Offset/Drift, Low-Noise,

Precision SOT23 Amplifiers

Typical Operating Characteristics (continued)

(VCC = 5V, VCM = 0V, RL = 10kâ¦ connected to VCC/2, SHDN = VCC, TA = +25Â°C, unless otherwise noted.)

DC TO 10Hz NOISE

MAX4238/39 toc19

SHUTDOWN WAVEFORM

MAX4238/39 toc20

SHDN

2V/div

OUT

2ÂµV/div

1V/div

OUT

VCC = 2.5V

VEE = -2.5V

1s/div

RL = 10kâ¦

CL = 100pF

10Âµs/div

Pin Description

NAME

TDFN SOT23 SO

FUNCTION

6 OUT Amplifier Output

4 GND Ground

3 IN+ Noninverting Input

IN- Inverting Input

Shutdown Input. Active-low

1 SHDN shutdown, connect to VCC

for normal operation.

7 VCC Positive Power Supply

5, 8

N.C.

No Connection. Not

internally connected.

Exposed Pad (TDFN only).

Connect EP to GND.

Detailed Description

The MAX4238/MAX4239 are high-precision amplifiers

that have less than 2.5ÂµV of input-referred offset and

low 1/f noise. These characteristics are achieved

through a patented autozeroing technique that samples

and cancels the input offset and noise of the amplifier.

The pseudorandom clock frequency varies from 10kHz

to 15kHz, reducing intermodulation distortion present in

chopper-stabilized amplifiers.

Offset Error Sources

To achieve very low offset, several sources of error

common to autozero-type amplifiers need to be consid-

ered. The first contributor is the settling of the sampling

capacitor. This type of error is independent of input-

source impedance, or the size of the external gain-set-

ting resistors. Maxim uses a patented design technique

to avoid large changes in the voltage on the sampling

capacitor to reduce settling time errors.

The second error contributor, which is present in both

autozero and chopper-type amplifiers, is the charge

injection from the switches. The charge injection

appears as current spikes at the input, and combined

with the impedance seen at the amplifierâs input, con-

tributes to input offset voltage. Minimize this

feedthrough by reducing the size of the gain-setting

resistors and the input-source impedance. A capacitor

in parallel with the feedback resistor reduces the

amount of clock feedthrough to the output by limiting

the closed-loop bandwidth of the device.

The design of the MAX4238/MAX4239 minimizes the

effects of settling and charge injection to allow specifi-

cation of an input offset voltage of 0.1ÂµV (typ) and less

than 2.5ÂµV over temperature (-40Â°C to +85Â°C).

1/f Noise

1/f noise, inherent in all semiconductor devices, is

inversely proportional to frequency. 1/f noise increases

3dB/octave and dominates amplifier noise at lower fre-

quencies. This noise appears as a constantly changing

voltage in series with any signal being measured. The

MAX4238/MAX4239 treat 1/f noise as a slow varying

offset error, inherently canceling the 1/f noise.

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