LT6600-10 Linear Technology, LT6600-10 Datasheet - Page 10

LT6600-10

Manufacturer Part Number

LT6600-10

Description

Very Low Noise Differential Amplifier and 10MHz Lowpass Filter

Manufacturer

Linear Technology

Datasheet

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LT6600-10

Example: With the IC removed and the 25

grounded, measure the total integrated noise (e

spectrum analyzer from 10kHz to 10MHz. With the IC

inserted, the signal source (V

input resistors grounded, measure the total integrated

noise out of the filter (e

nected, set the frequency to 1MHz and adjust the ampli-

tude until V

amplitude, V

A = V

noise (e

Table 1 lists the typical input referred integrated noise for

various values of R

Figure 8 is plot of the noise spectral density as a function

of frequency for an LT6600-10 with R

fixture of Figure 7 (the instrument noise has been sub-

tracted from the results).

Table 1. Noise Performance

The noise at each output is comprised of a differential

component and a common mode component. Using a

transformer or combiner to convert the differential out-

puts to single-ended signal rejects the common mode

APPLICATIO S I FOR ATIO

PASSBAND

GAIN (V/V)

OUT

) as:

( ) – ( )

. Now compute the input referred integrated

OUT

100

200

402

measures 100mV

, and compute the passband gain

LT6600-10

–

– 2.5V

INTEGRATED NOISE

2.5V

INPUT REFERRED

10kHz TO 10MHz

–

Figure 7

0.1 F

). With the signal source con-

24 V

34 V

56 V

RMS

) disconnected, and the

P-P

. Measure the output

COILCRAFT

TTWB-1010

= 402 using the

1:1

INPUT REFERRED

NOISE dBm/Hz

SPECTRUM

–149

–146

–142

ANALYZER

INPUT

resistors

) of the

6600 F07

noise and gives a true measure of the S/N achievable in the

system. Conversely, if each output is measured individu-

ally and the noise power added together, the resulting

calculated noise level will be higher than the true differen-

tial noise.

Power Dissipation

The LT6600-10 amplifiers combine high speed with large-

signal currents in a small package. There is a need to

ensure that the dies’s junction temperature does not

exceed 150 C. The LT6600-10 package has Pin 6 fused to

the lead frame to enhance thermal conduction when

connecting to a ground plane or a large metal trace. Metal

trace and plated through-holes can be used to spread the

heat generated by the device to the backside of the PC

board. For example, on a 3/32" FR-4 board with 2oz

copper, a total of 660 square millimeters connected to Pin

6 of the LT6600-10 (330 square millimeters on each side

of the PC board) will result in a thermal resistance,

about 85 C/W. Without extra metal trace connected to the

Table 2. LT6600-10 SO-8 Package Thermal Resistance

TOPSIDE

(mm

1100

330

COPPER AREA

)

BACKSIDE

(mm

1100

0.1

330

SPECTRAL DENSITY

)

INTEGRATED

BOARD AREA

FREQUENCY (MHz)

1.0

NOISE

(mm

2500

Figure 8

)

www.DataSheet4U.com

(JUNCTION-TO-AMBIENT)

THERMAL RESISTANCE

6600 F08

100 C/W

105 C/W

65 C/W

85 C/W

95 C/W

100

140

120

100

, of

6600f

LT6600-10 Linear Technology, LT6600-10 Datasheet - Page 10

LT6600-10

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