ISL59441 datasheet, PDF - EEWORLD Datasheet

ISL59441

900MHz Multiplexing Amplifier

S

D E S I GN

OR N E W

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EN DED

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E PL ACE e r a t

N OT R

E NDED R

ent

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ersil.co

ur Tech

ontact o RSIL or www.int

c

TE

1-888-IN

DATASHEET

FN6163

Rev 2.00

September 21, 2005

The ISL59441 is 900MHz bandwidth 4:1 multiplexing

amplifier designed primarily for video switching. This Mux

amp has a user-settable gain and also features a high speed

three-state function to enable the output of multiple devices

to be wired together. All logic inputs have pull-downs to

ground and may be left floating. The ENABLE pin, when

pulled high, sets the ISL59441 to the low current power-down

mode for power sensitive applications - consuming just 5mW.

TABLE 1. CHANNEL SELECT LOGIC TABLE

S1

0

1

X

S0

0

1

0

1

X

ENABLE

0

1

0

HIZ

0

X

1

OUTPUT

IN0

IN1

IN2

IN3

Power Down

High Z

Features

• 900MHz (-3dB) Bandwidth (A

V

= 1, V

OUT

= 100mV

P-P

)

• 230MHz (-3dB) Bandwidth (A

V

= 2, V

OUT

= 2V

P-P

)

• Slew Rate (A

V

= 1, R

L

= 500



V

OUT

= 4V) . . . . .1349V/µs

• Slew Rate (A

V

= 2, R

L

= 500



V

OUT

= 5V) . . . . .1927V/µs

• Adjustable Gain

• High Speed Three-State Output (HIZ)

• Low Current Power-Down . . . . . . . . . . . . . . . . . . . . .5mW

• Pb-Free Plus Anneal Available (RoHS Compliant)

Applications

• HDTV/DTV Analog Inputs

• Video Projectors

• Computer Monitors

• Set-top Boxes

• Security Video

• Broadcast Video Equipment

Pinout

NIC

IN0

NIC

IN1

GND

IN2

NIC

IN3

1

2

3

4

5

6

7

8

ISL59441 (16 LD QSOP)

TOP VIEW

16 ENABLE

15 HIZ

14

-

+

IN-

Ordering Information

PART

TAPE &

PART NUMBER MARKING REEL

ISL59441IA

ISL59441IA-T7

ISL59441IA-T13

ISL59441IAZ

(Note)

ISL59441IAZ-T7

(Note)

59441IA

59441IAZ

-

7”

13”

-

7”

13”

PACKAGE

16 Ld QSOP

(Pb-free)

16 Ld QSOP

(Pb-free)

16 Ld QSOP

(Pb-free)

PKG.

DWG. #

MDP0040

13 OUT

12 V+

11

V-

10 S1

9

S0

Functional Diagram

EN0

S0

EN1

S1

DECODE

IN0

IN1

EN2

EN3

IN2

IN3

- OUT

+

IN-

ISL59441IAZ-T13 59441IAZ

(Note)

NOTE: Intersil Pb-free plus anneal products employ special Pb-free

material sets; molding compounds/die attach materials and 100%

matte tin plate termination finish, which are RoHS compliant and

compatible with both SnPb and Pb-free soldering operations. Intersil

Pb-free products are MSL classified at Pb-free peak reflow

temperatures that meet or exceed the Pb-free requirements of

IPC/JEDEC J STD-020.

AMPLIFIER BIAS

HIZ

ENABLE

ENABLE pin must be low in order to activate the HIZ state

FN6163 Rev 2.00

September 21, 2005

Page 1 of 12

ISL59441

Absolute Maximum Ratings

(T

A

= 25°C)

Supply Voltage (V+ to V-). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11V

Input Voltage . . . . . . . . . . . . . . . . . . . . . . . . . . . . V- -0.5V, V+ +0.5V

Supply Turn-on Slew Rate . . . . . . . . . . . . . . . . . . . . . . . . . . . 1V/s

IN- Input Current (Note 1) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5mA

Digital & Analog Input Current (Note 1) . . . . . . . . . . . . . . . . . . 50mA

Output Current (Continuous) . . . . . . . . . . . . . . . . . . . . . . . . . . 50mA

ESD Rating

Human Body Model (Per MIL-STD-883 Method 3015.7). . . . 2.5kV

Machine Model . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .300V

Storage Temperature Range . . . . . . . . . . . . . . . . . .-65°C to +150°C

Ambient Operating Temperature . . . . . . . . . . . . . . . .-40°C to +85°C

Operating Junction Temperature . . . . . . . . . . . . . . .-40°C to +125°C

Power Dissipation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . See Curves



JA

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . See Curves

CAUTION: Stresses above those listed in “Absolute Maximum Ratings” may cause permanent damage to the device. This is a stress only rating and operation of the

device at these or any other conditions above those indicated in the operational sections of this specification is not implied.

NOTE:

1. If an input signal is applied before the supplies are powered up, the input current must be limited to these maximum values.

IMPORTANT NOTE: All parameters having Min/Max specifications are guaranteed. Typical values are for information purposes only. Unless otherwise noted, all tests

are at the specified temperature and are pulsed tests, therefore: T

J

= T

C

= T

A

Electrical Specifications

PARAMETER

GENERAL

V+ = +5V, V- = -5V, GND = 0V, T

A

= 25°C, R

L

= 500 to GND unless otherwise specified.

CONDITIONS

MIN

TYP

MAX

UNIT

DESCRIPTION

±

I

S

Enabled

I

S

Disabled

Supply Current

Disabled Supply Current I+

Disabled Supply Current I-

No load, V

IN

= 0V, ENABLE Low

No load, V

IN

= 0V, ENABLE High

No load, V

IN

= 0V, ENABLE High

V

IN

= 2V, R

L

= 500A

V

= 2

V

IN

= -2V, R

L

= 500A

V

= 2

R

L

= 10 to GND

15

0.6

17

1

3

19.5

1.5

10

mA

A

V

OUT

Positive Output Swing

Negative Output Swing

2.8

3.9

-4

-3.5

V

mA

mV

A

M



M

I

OUT

V

OS

Ib+

Ib-

R

out

Output Current

Output Offset Voltage

Input Bias Current

Feedback Input Bias Current

Output Resistance

±

80

0

±

130

9

-2.5

16

1.4

0.2

10

±

180

18

-1.5

28

V

IN

= 0V

V

IN

= 0V

HIZ = logic high, (DC), A

V

= 1

HIZ = logic low, (DC), A

V

= 1

-4

-28

R

IN

A

CL

or A

V

I

TRI

LOGIC

V

H

V

L

I

IH

I

IL

AC GENERAL

- 3dB BW

Input Resistance

Voltage Gain

Output Current in Three-State

V

IN

=

±

3.5V

V

IN

=

±

1.5V, R

L

= 500R

F

= R

G

= 600

V

OUT

= 0V

1.99

-35

2

2.01

35

V/V

A

Input High Voltage (Logic Inputs)

Input Low Voltage (Logic Inputs)

Input High Current (Logic Inputs)

Input Low Current (Logic Inputs)

2

0.8

55

90

2

135

10

V

A

-3dB Bandwidth

A

V

= 1, R

F

= 301, V

OUT

= 200mV

P-P

,

C

L

= 1.6pF, C

G

= 0.6pF

A

V

= 2, R

F

= R

G

= 205, V

OUT

= 2V

P-P

,

C

L

= 1.6pF, C

G

= 0.6pF

900

230

MHz

FN6163 Rev 2.00

September 21, 2005

Page 2 of 12

ISL59441

Electrical Specifications

PARAMETER

0.1dB BW

V+ = +5V, V- = -5V, GND = 0V, T

A

= 25°C, R

L

= 500 to GND unless otherwise specified.

(Continued)

CONDITIONS

A

V

= 1, R

F

= 301, V

OUT

= 200mV

P-P

,

C

L

= 1.6pF, C

G

= 0.6pF

A

V

= 2, R

F

= R

G

= 205, V

OUT

= 2V

P-P

,

C

L

= 1.6pF, C

G

= 0.6pF

dG

Differential Gain Error

NTC-7, R

L

= 150, C

L

= 1.6pF, A

V

= 1

NTC-7, R

L

= 150, C

L

= 1.6pF, A

V

= 2

dP

Differential Phase Error

NTC-7, R

L

= 150, C

L

= 1.6pF, A

V

= 1

NTC-7, R

L

= 150, C

L

= 1.6pF, A

V

= 2

+SR

Slew Rate

Low to High

25% to 75%, A

V

= 1, V

OUT

= 5V, R

L

= 500,

C

L

= 1.6pF

25% to 75%, A

V

= 2, V

OUT

= 5V, R

L

= 500,

C

L

= 1.6pF

-SR

Slew Rate

High to Low

25% to 75%, A

V

= 1, V

OUT

= 5V, R

L

= 500,

C

L

= 1.6pF

25% to 75%, A

V

= 2, V

OUT

= 5V, R

L

= 500,

C

L

= 1.6pF

PSRR

ISO

Power Supply Rejection Ratio

Channel Isolation

DC, PSRR V+ and V- combined

f = 10MHz, Ch-Ch X-Talk and Off Isolation,

C

L

= 1.6pF

-50

MIN

TYP

90

32

0.01

0.02

1349

1927

1135

1711

-57

75

MAX

UNIT

MHz

%

°

V/s

dB

DESCRIPTION

0.1dB Bandwidth

SWITCHING CHARACTERISTICS

V

GLITCH

Channel-to-Channel Switching Glitch

ENABLE Switching Glitch

HIZ Switching Glitch

t

SW-L-H

t

SW-H-L

Channel Switching Time Low to High

Channel Switching Time High to Low

V

IN

= 0V, C

L

= 1.6pF, A

V

= 2

V

IN

= 0V, C

L

= 1.6pF, A

V

= 2

V

IN

= 0V, C

L

= 1.6pF, A

V

= 2

1.2V logic threshold to 10% movement of

analog output

1.2V logic threshold to 10% movement of

analog output

1

935

255

24

19

mV

P-P

mV

P-P

mV

P-P

ns

TRANSIENT RESPONSE

t

R,

t

F

Rise & Fall Time, 10% to 90%

A

V

= 1, R

F

= 301, V

OUT

= 100mV

P-P

,

C

L

= 1.6pF, C

G

= 0.6pF

A

V

= 2, R

F

= R

G

= 205, V

OUT

= 2V

P-P

,

C

L

= 1.6pF, C

G

= 0.6pF

t

S

O

S

0.1% Settling Time

Overshoot

A

V

= 2, R

F

= R

G

= 205, V

OUT

= 2V

P-P

,

C

L

= 1.6pF, C

G

= 0.6pF

A

V

= 1, R

F

= 301, V

OUT

= 100mV

P-P

,

C

L

= 1.6pF, C

G

= 0.6pF

A

V

= 2, R

F

= R

G

= 205, V

OUT

= 2V

P-P

,

C

L

= 1.6pF, C

G

= 0.6pF

t

PLH

Propagation Delay - Low to High,

10% to 10%

A

V

= 1, R

F

= 301, V

OUT

= 100mV

P-P

,

C

L

= 1.6pF, C

G

= 0.6pF

A

V

= 2, R

F

= R

G

= 205, V

OUT

= 2V

P-P

,

C

L

= 1.6pF, C

G

= 0.6pF

t

PHL

Propagation Delay- High to Low,

10% to 10%

A

V

= 1, R

F

= 301, V

OUT

= 100mV

P-P

,

C

L

= 1.6pF, C

G

= 0.6pF

A

V

= 2, R

F

= R

G

= 205, V

OUT

= 2V

P-P

,

C

L

= 1.6pF, C

G

= 0.6pF

0.44

1.23

4.5

9.52

8.81

0.48

0.69

0.54

0.74

ns

%

ns

FN6163 Rev 2.00

September 21, 2005

Page 3 of 12

ISL59441

Typical Performance Curves

V

S

=

±

5V, R

L

= 500 to GND, T

A

= 25°C, unless otherwise specified.

5

4

3

NORMALIZED GAIN (dB)

2

1

0

-1

-2

-3

-4

-5

1

10

FREQUENCY (MHz)

C

L

INCLUDES 1.6pF

BOARD CAPACITANCE

100

1000

C

L

= 5.5pF

C

L

= 1.6pF

A

V

= 1

V

OUT

= 200mV

P-P

R

F

= 301

C

L

= 7.2pF

NORMALIZED GAIN (dB)

C

L

= 9.7pF

5

A

V

= 1

V

OUT

= 200mV

P-P

3 C

L

= 1.6pF

R

F

= 301

2

4

1

0

-1

-2

-3

-4

-5

1

10

100

R

L

= 150

R

L

= 75

R

L

= 500

R

L

= 1k

1000

FREQUENCY (MHz)

FIGURE 1. SMALL SIGNAL GAIN vs FREQUENCY vs C

L

FIGURE 2. SMALL SIGNAL GAIN vs FREQUENCY vs R

L

5

4

3

NORMALIZED GAIN (dB)

2

1

0

-1

-2

-3

-4

-5

1

5

A

V

= 2

V

OUT

= 2V

P-P

R

G

= R

F

= 205

NORMALIZED GAIN (dB)

4

3

2

1

0

-1

-2

-3

-4

-5

1000

1

10

R

L

= 150

R

L

= 75

100

1000

R

L

= 1k

R

L

= 500

A

V

= 2

V

OUT

= 2V

P-P

C

L

= 1.6pF

R

G

= R

F

= 205

C

L

= 9.7pF

C

L

= 7.2pF

C

L

INCLUDES 1.6pF

BOARD CAPACITANCE

10

FREQUENCY (MHz)

C

L

= 5.5pF

C

L

= 1.6pF

100

FREQUENCY (MHz)

FIGURE 3. LARGE SIGNAL GAIN vs FREQUENCY vs C

L

FIGURE 4. LARGE SIGNAL GAIN vs FREQUENCY vs R

L

0.8

A =1

0.7 V

V

OUT

= 200mV

P-P

R

F

= 301

0.6

0.5

0.4

0.3

0.2

0.1

0

-0.1

-0.2

1

C

L

INCLUDES 1.6pF

BOARD CAPACITANCE

10

C

L

= 9.7pF

0.8

0.7

NORMALIZED GAIN (dB)

C

L

= 5.5pF

0.6

0.5

0.4

0.3

0.2

A

V

= 1

0 V

OUT

= 200mV

P-P

C

L

= 1.6pF

-0.1

R

F

= 301

-0.2

1

10

0.1

R

L

= 150

R

L

= 1k

R

L

= 500

NORMALIZED GAIN (dB)

C

L

= 7.2pF

C

L

= 1.6pF

R

L

= 75

100

1000

100

1000

FREQUENCY (MHz)

FIGURE 5. SMALL SIGNAL 0.1dB GAIN vs FREQUENCY vs C

L

FIGURE 6. SMALL SIGNAL 0.1dB GAIN vs FREQUENCY vs R

L

FN6163 Rev 2.00

September 21, 2005

Page 4 of 12

ISL59441

Typical Performance Curves

V

S

=

±

5V, R

L

= 500 to GND, T

A

= 25°C, unless otherwise specified.

(Continued)

0.2

0.1

0

NORMALIZED GAIN (dB)

-0.1

-0.2

-0.3

-0.4

-0.5

-0.6

-0.7

-0.8

1

10

A

V

= 2

V

OUT

= 2V

P-P

R

G

= R

F

= 205

C

L

= 7.2pF

C

L

= 5.5pF

C

L

= 1.6pF

NORMALIZED GAIN (dB)

C

L

= 9.7pF

0.2

0.1

0

-0.1

-0.2

-0.3

-0.4

-0.5

-0.6

-0.7

-0.8

100

1000

1

10

100

1000

FREQUENCY (MHz)

A

V

= 2

V

OUT

= 2V

P-P

C

L

= 1.6pF

R

G

= R

F

= 205

R

L

= 75

R

L

= 150

R

L

= 1k

R

L

= 500

C

L

INCLUDES 1.6pF

BOARD CAPACITANCE

FIGURE 7. LARGE SIGNAL 0.1dB GAIN vs FREQUENCY vs C

L

FIGURE 8. LARGE SIGNAL 0.1dB GAIN vs FREQUENCY vs R

L

-10

20

10

0

-10

PSRR (dB)

-20

(dB)

-30

-40

-50

-60

-70

-80

0.3

1

10

FREQUENCY (MHz)

PSRR (V-)

100

1000

PSRR (V+)

A

V

= 2

V

IN

= 200mV

P-P

C

L

= 1.6pF

R

G

= R

F

= 205

-20

-30

-40

-50

-60

-70

-80

-90

-100

-110

0.001

A

V

= 2

V

IN

= 1V

P-P

C

L

= 1.6pF

R

G

= R

F

= 205

CROSSTALK

OFF ISOLATION

0.01

0.1

1

3

6 10

100

500

FREQUENCY (MHz)

FIGURE 9. PSRR CHANNELS

FIGURE 10. CROSSTALK AND OFF ISOLATION

24

-I

IN

CURRENT NOISE (pA/Hz)

A

V =

1, R

F

= 500

INPUT VOLTAGE NOISE (nV/Hz)

60

A

V =

1, R

F

= 500

20

50

16

40

12

30

8

20

4

0

0.1

10

0

0.1

1

10

100

1

10

100

FREQUENCY (kHz)

FIGURE 11. INPUT NOISE vs FREQUENCY

FIGURE 12. INPUT NOISE vs FREQUENCY

FN6163 Rev 2.00

September 21, 2005

Page 5 of 12

ISL59441

ISL59441 Overview

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