MAX4350EUK-T Maxim Integrated, MAX4350EUK-T Datasheet - Page 7

MAX4350EUK-T

Manufacturer Part Number

MAX4350EUK-T

Description

High Speed Operational Amplifiers

Manufacturer

Maxim Integrated

Datasheet

1.MAX4350EXK-T.pdf (11 pages)

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The MAX4350/MAX4351 are single-supply, rail-to-rail,

voltage-feedback amplifiers that employ current-feed-

back techniques to achieve 485V/µs slew rates and

210MHz bandwidths. Excellent harmonic distortion and

differential gain/phase performance make these ampli-

fiers an ideal choice for a wide variety of video and RF

signal-processing applications.

The output voltage swings to within 125mV of each sup-

ply rail. Local feedback around the output stage

ensures low open-loop output impedance to reduce

gain sensitivity to load variations. The input stage per-

mits common-mode voltages beyond the negative sup-

ply and to within 2.25V of the positive supply rail.

The MAX4350/MAX4351 are internally compensated for

unity gain. When configured for unity gain, a 24Ω resis-

tor (R

performance. This resistor improves AC response by

reducing the Q of the parallel LC circuit formed by the

parasitic feedback capacitance and inductance.

MAX4350

—

) in series with the feedback path optimizes AC

Ultra-Small, Low-Cost, 210MHz, Dual-Supply

MAX4351

—

Applications Information

_______________________________________________________________________________________

Detailed Description

Choosing Resistor Values

NAME

OUTA

OUTB

INA+

INB+

OUT

INA-

INB-

IN+

IN-

Unity-Gain Configuration

Pin Description

Amplifier Output

Negative Power Supply

or Ground (in single-

supply operation)

Noninverting Input

Inverting Input

Positive Power Supply

Amplifier A Output

Amplifier A Inverting

Input

Amplifier A Noninverting

Input

Amplifier B Output

Amplifier B Inverting

Input

Amplifier B Noninverting

Input

Op Amps with Rail-to-Rail Outputs

FUNCTION

Select the gain-setting feedback (R

resistor values to fit your application (Figures 1a and

1b). Large resistor values increase voltage noise and

interact with the amplifier’s input and PC board capaci-

tance. This can generate undesirable poles and zeros

and decrease bandwidth or cause oscillations. For

example, a noninverting gain-of-two configuration (R

input capacitance and 1pF of PC board capacitance,

causes a pole at 159MHz. Since this pole is within the

amplifier bandwidth, it jeopardizes stability. Reducing

the 1kΩ resistors to 100Ω extends the pole frequency

to 1.59GHz, but could limit output swing by adding

200Ω in parallel with the amplifier’s load resistor.

These amplifiers operate from dual ±5V supplies. Bypass

each supply with a 0.1µF capacitor to ground.

Maxim recommends using microstrip and stripline tech-

niques to obtain full bandwidth. To ensure that the PC

board does not degrade the amplifier’s performance,

design it for a frequency greater than 1GHz. Pay care-

Figure 1a. Noninverting Gain Configuration

Figure 1b. Inverting Gain Configuration

TIN

) using 1kΩ resistors, combined with 1pF of amplifier

Layout and Power-Supply Bypassing

TIN

Inverting and Noninverting Configurations

MAX435 _

) and input (R

OUT

)

MAX4350EUK-T Maxim Integrated, MAX4350EUK-T Datasheet - Page 7

MAX4350EUK-T

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