EL5171(2010) 데이터 시트보기 (PDF) - Intersil

부품명

상세내역

제조사

EL5171
(Rev.:2010)

250MHz Differential Twisted-Pair Drivers

Intersil 

EL5171, EL5371

Simplified Schematic

R1

VS+

R3

R4

R2

R7

R8

IN+

IN-

FBP FBN

VB1

CC

R5

R6

VS-

VB2

CC

OUT+

RCD

RCD

R9

OUT-

REF

R10

Description of Operation and Application

Information

Product Description

The EL5171 and EL5371 are wide bandwidth, low power

and single-ended to differential output amplifiers. The

EL5171 is a single channel differential amplifier. Since the

IN- pin and REF pin are tied together internally, the EL5171

can be used as a single-ended to differential converter. The

EL5371 is a triple channel differential amplifier. The EL5371

has a separate IN- pin and REF pin for each channel. It can

be used as a single/differential ended to differential

converter. The EL5171 and EL5371 are internally

compensated for closed loop gain of +1 or greater.

Connected in gain of 1 and driving a 1kΩ differential load,

the EL5171 and EL5371 have a -3dB bandwidth of 250MHz.

Driving a 200Ω differential load at gain of 2, the bandwidth is

about 30MHz. The EL5371 is available with a power-down

feature to reduce the power while the amplifier is disabled.

Input, Output, and Supply Voltage Range

The EL5171 and EL5371 have been designed to operate with

a single supply voltage of 5V to 10V or split supplies with its

total voltage from 5V to 10V. The amplifiers have an input

common mode voltage range from -4.5V to 3.4V for ±5V

supply. The differential mode input range (DMIR) between the

two inputs is from -2.3V to +2.3V. The input voltage range at

the REF pin is from -3.3V to 3.8V. If the input common mode

or differential mode signal is outside the above-specified

ranges, it will cause the output signal to become distorted.

The output of the EL5171 and EL5371 can swing from -3.9V

to +3.9V at 1kΩ differential load at ±5V supply. As the load

resistance becomes lower, the output swing is reduced.

Differential and Common Mode Gain Settings

For EL5171, since the IN- pin and REF pin are bound together

as the REF pin in an 8 Ld package, the signal at the REF pin is

part of the common mode signal and also part of the differential

mode signal. For the true balance differential outputs, the REF

pin must be tied to the same bias level as the IN+ pin. For a ±5V

supply, just tie the REF pin to GND if the IN+ pin is biased at 0V

with a 50Ω or 75Ω termination resistor. For a single supply

application, if the IN+ is biased to half of the rail, the REF pin

should be biased to half of the rail also.

The gain setting for EL5171 is expressed in Equation 1:

VODM

=

VI

N

+

×

⎛

⎜

⎝

1

+

R-----F----1-R---+--G---R-----F---2- ⎠⎟⎞

VODM

=

VI

N

+

×

⎛

⎜

⎝

1

+

2--R--R---G--F- ⎠⎟⎞

VOCM = VREF = 0V

(EQ. 1)

Where:

• VREF = 0V

• RF1 = RF2 = RF

The EL5371 has a separate IN- pin and REF pin. It can be

used as a single/differential ended to differential converter.

The voltage applied at REF pin can set the output common

mode voltage and the gain is one.

The gain setting for EL5371 is expressed in Equation 2:

VODM

=

(

VIN

+

–

VI

N

-

)

×

⎛

⎜1

⎝

+

-2-R--R---G--F- ⎠⎟⎞

(EQ. 2)

VOCM = VREF

VODM

=

(

VIN

+

–

VI

N

-

)

×

⎛

⎜1

⎝

+

-R----F----1--R--+--G---R-----F---2- ⎠⎟⎞

Where:

• RF1 = RF2 = RF

10

FN7307.7

August 10, 2010

Share Link: