LTC6404IUD-2#PBF Linear Technology, LTC6404IUD-2#PBF Datasheet - Page 7

IC AMP/DRIVER DIFF 16-QFN

LTC6404IUD-2#PBF

Manufacturer Part Number

LTC6404IUD-2#PBF

Description

IC AMP/DRIVER DIFF 16-QFN

Manufacturer

Linear Technology

Type

ADC Driverr

Datasheets

1.LTC6404CUD-1PBF.pdf (28 pages)

2.LTC6404IUD-2PBF.pdf (20 pages)

Specifications of LTC6404IUD-2#PBF

Applications

Data Acquisition

Mounting Type

Surface Mount

Package / Case

16-WQFN Exposed Pad

Current - Supply

30.4mA

Operating Temperature

-40°C ~ 85°C

Output Type

Differential, Rail-to-Rail

Number Of Circuits

1

Current - Output / Channel

85mA

Amplifier Type

Differential

Voltage - Supply, Single/dual (±)

2.7 V ~ 5.5 V, ±1.35 V ~ 2.75 V

-3db Bandwidth

600MHz

Slew Rate

700 V/µs

Gain Bandwidth Product

900MHz

Current - Input Bias

23µA

Voltage - Input Offset

500µV

Number Of Channels

1

Number Of Elements

1

Power Supply Requirement

Single

Common Mode Rejection Ratio

60dB

Voltage Gain Db

90dB

Unity Gain Bandwidth Product (typ)

900MHz

Input Resistance

1@3V@-40C TO 85CMohm

Single Supply Voltage (typ)

3/5V

Dual Supply Voltage (typ)

Not RequiredV

Power Supply Rejection Ratio

60dB

Rail/rail I/o Type

Rail to Rail Output

Single Supply Voltage (min)

2.7V

Single Supply Voltage (max)

5.25V

Dual Supply Voltage (min)

Not RequiredV

Dual Supply Voltage (max)

Not RequiredV

Operating Temp Range

-40C to 85C

Operating Temperature Classification

Industrial

Mounting

Surface Mount

Pin Count

16

Package Type

QFN EP

No. Of Amplifiers

1

Input Offset Voltage

2mV

Gain Db Max

2dB

Bandwidth

900MHz

Supply Voltage Range

2.7V To 5.25V

Supply Current

30.4mA

Amplifier Case Style

QFN

Rohs Compliant

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Part Number:

LTC6404IUD-2#PBFLTC6404IUD-2

Manufacturer:

LT

Quantity:

10 000

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TYPICAL PERFORMANCE CHARACTERISTICS

–100

–110

–10

–20

–25

–10

–15

–20

–25

–30

–40

–50

–60

–70

–80

–90

15

10

–5

15

10

–5

5

0

5

0

10

10

0.1

Small Signal Frequency Response

vs Gain Setting Resistor Values

Small Signal Frequency

Response vs Temperature

Distortion vs Frequency

UNFILTERED OUTPUTS

V

T

V

UNFILTERED DIFFERENTIAL

OUTPUT

V

R

V

T

V

V

R

V

CM

A

S

CM

S

A

I

S

CM

I

IN

= 100Ω, R

= 25°C

= 3V AND V

= 100Ω, R

= 3V

= 25°C

= 3V

= 1V

= V

R

= V

= V

I

= 200Ω, R

FILTERED

DIFFERENTIAL

OUTPUT

OCM

OCM

OCM

P-P

R

, SINGLE-ENDED INPUT

= MID-SUPPLY

I

FREQUENCY (MHz)

= MID-SUPPLY

F

FREQUENCY (MHz)

= MID-SUPPLY

FREQUENCY (MHz)

F

= 100Ω, R

1

S

= 200Ω

R

= 200Ω

I

= 5V

= 499Ω, R

F

= 400Ω

100

T

100

A

= 25°C

F

= 200Ω

T

T

A

T

HD2

A

F

A

= 25°C

10

= 1kΩ

= 90°C

= –45°C

HD3

64042 G10

64042 G13

64042 G16

1000

1000

100

–100

–110

–0.5

–1.0

–1.5

–10

–15

–40

–50

–60

–70

–80

–90

1.5

1.0

0.5

25

20

15

10

–5

DC COMMON MODE INPUT (AT IN+ AND IN– PINS) (V)

5

0

0

10

0

0

Small Signal Frequency

Response vs C

Large Signal Step Response

Distortion vs Input Common Mode

Voltage

UNFILTERED OUTPUTS

V

T

R

V

R

(EACH OUTPUT TO GROUND)

V

V

R

V

f

IN

A

CM

I

S

LOAD

S

CM

I

IN

= 100Ω, R

= 25°C

= 100Ω, R

= 3V AND V

= 3V

= 10MHz

= 1V

= V

= VO

DIFFERENTIAL INPUT

SINGLE-ENDED INPUT

= 200Ω,

0.5

OCM

3

P-P

CM

C

LOAD

HD2

= MID-SUPPLY

F

FREQUENCY (MHz)

= MID-SUPPLY

F

= 200Ω

S

= 200Ω

HD3

= 5V

1.0

V

R

= 5pF

6

TIME (ns)

CM

I

LOAD

= 100Ω, R

100

= V

C

LOAD

OCM

1.5

C

9

LOAD

= 10pF

= MID-SUPPLY

F

= 200Ω

V

V

OUTDIFF

= 0pF

INDIFF

HD2

2.0

12

64042 G11

64042 G14

64042 G17

HD3

1000

2.5

15

–0.25

–0.50

–0.75

–1.00

–100

–110

–120

–10

–15

1.00

0.75

0.50

0.25

–40

–50

–60

–70

–80

–90

15

10

–5

5

0

0

10

0

0

Small Signal Frequency

Response vs Temperature

Small Signal Step Response

Distortion vs Output Amplitude

UNFILTERED OUTPUTS

V

T

R

V

R

(EACH OUTPUT TO GROUND)

V

V

R

V

f

CM

A

S

I

LOAD

IN

S

CM

IN

= 100Ω, R

I

= 25°C

= 3V AND V

= 100Ω, R

= 3V

= 10MHz

= V

= DIFFERENTIAL INPUT

= V

= 200Ω,

1

OCM

3

OCM

= MID-SUPPLY

F

FREQUENCY (MHz)

= MID-SUPPLY

F

= 200Ω

S

2

= 200Ω

V

LTC6404-2

= 5V

OUTDIFF

V

R

6

TIME (ns)

CM

I

= 100Ω, R

100

= V

T

3

A

(V

= 25°C

OCM

9

P-P

)

= MID-SUPPLY

HD3

4

F

T

A

= 200Ω

= 90°C

T

A

V

V

12

OUTDIFF

INDIFF

= –45°C

5

HD2

64042 G12

64042 G15

64042 G18

64042f

7

1000

15

6

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