NE592.PDF

Philips Semiconductors RF Communications Products

Product specification

Video amplifier

NE592

DESCRIPTION

The NE592 is a monolithic, two-stage, differential output, wideband

video amplifier. It offers fixed gains of 100 and 400 without external

components and adjustable gains from 400 to 0 with one external

resistor. The input stage has been designed so that with the addition

of a few external reactive elements between the gain select

terminals, the circuit can function as a high-pass, low-pass, or

band-pass filter. This feature makes the circuit ideal for use as a

video or pulse amplifier in communications, magnetic memories,

display, video recorder systems, and floppy disk head amplifiers.

Now available in an 8-pin version with fixed gain of 400 without

external components and adjustable gain from 400 to 0 with one

external resistor.

PIN CONFIGURATIONS

D, N Packages

INPUT 2

INPUT 1

G 2B GAIN SELECT

G 2A GAIN SELECT

G 1B GAIN SELECT

G 1A GAIN SELECT

V-

V+

OUTPUT 2

OUTPUT 1

TOP VIEW

FEATURES

•

120MHz unity gain bandwidth

D , N P ackages

•

Adjustable gains from 0 to 400

INPUT 2

INPUT 1

•

Adjustable pass band

G 1B GAIN SELECT

G 1A GAIN SELECT

•

No frequency compensation required

V-

OUTPUT 2

V+

OUTPUT 1

•

Wave shaping with minimal external components

•

MIL-STD processing available

TOP VIEW

APPLICATIONS

•

Floppy disk head amplifier

•

Video amplifier

•

Pulse amplifier in communications

•

Magnetic memory

•

Video recorder systems

BLOCK DIAGRAM

R10

R11

OUTPUT 1

INPUT 2

INPUT 1

G1A

G1B

R12

OUTPUT 2

G2A

G2B

Q7B

Q10

Q7A

Q11

R7A

R7B

R15

R16

R13

R14

-V

April 15, 1992

250

853-0911 06456

Philips Semiconductors RF Communications Products

Product specification

Video amplifier

NE592

ORDERING INFORMATION

DESCRIPTION

TEMPERATURE RANGE

ORDER CODE

DWG #

14-Pin Plastic Dual In-Line Package (DIP)

0 to +70

NE592N14

0405B

14-Pin Small Outline (SO) package

0 to +70 ° C

NE592D14

0175D

8-Pin Plastic Dual In-Line Package (DIP)

0 to +70 ° C

NE592N8

0404B

8-Pin Small Outline (SO) package

0 to +70

NE592D8

0174C

NOTES:

N8, N14, D8 and D14 package parts also available in “High” gain version by adding “H” before

package designation, i.e., NE592HDB

ABSOLUTE MAXIMUM RATINGS

T A =+25

C, unless otherwise specified.

SYMBOL

PARAMETER

RATING

UNIT

V CC

Supply voltage

± 8

V IN

Differential input voltage

± 5

V CM

Common-mode input voltage

I OUT

Output current

T A

Operating ambient temperature range

0 to +70

° C

T STG

Storage temperature range

-65 to +150

° C

P D MAX

Maximum power dissipation,

T A =25 ° C (still air) 1

D-14 package

0.98

D-8 package

0.79

N-14 package

1.44

N-8 package

1.17

NOTES:

1. Derate above 25 ° C at the following rates:

D-14 package at 7.8mW/ ° C

D-8 package at 6.3mW/

N-14 package at 11.5mW/

N-8 package at 9.3mW/

April 15, 1992

251

Philips Semiconductors RF Communications Products

Product specification

Video amplifier

NE592

DC ELECTRICAL CHARACTERISTICS

T A =+25 ° C V SS = ± 6V, V CM =0, unless otherwise specified. Recommended operating supply voltages V S = ± 6.0V. All specifications apply to both

standard and high gain parts unless noted differently.

NE592

SYMBOL

PARAMETER

TEST CONDITIONS

UNIT

SYMBOL

PARAMETER

TEST CONDITIONS

UNIT

Min

Typ

Max

A VOL

Differential voltage gain,

standard part

Gain 1 1

R L =2k W , V OUT =3V P-P

250

400

600

V/V

Gain 2 2, 4

100

120

V/V

R IN

Input resistance

Gain 1 1

4.0

Gain 2 2, 4

C IN

Input capacitance 2

Gain 2 4

2.0

I OS

Input offset current

0.4

5.0

m A

I BIAS

Input bias current

9.0

V NOISE

Input noise voltage

BW 1kHz to 10MHz

V RMS

V IN

Input voltage range

± 1.0

CMRR

Common-mode rejection ratio

Gain 2 4

V CM ± 1V, f<100kHz

Gain 2 4

V CM ±

1V, f=5MHz

PSRR

Supply voltage rejection ratio

Gain 2 4

D V S = ± 0.5V

V OS

Output offset voltage

Gain 1

R L =

1.5

Gain 2 4

R L =

1.5

Gain 3 3

R L = 8

0.35

0.75

V CM

Output common-mode voltage

R L = 8

2.4

2.9

3.4

V OUT

Output voltage swing

R L =2k

3.0

4.0

differential

R OUT

Output resistance

I CC

Power supply current

R L = 8

NOTES:

1. Gain select Pins G 1A and G 1B connected together.

2. Gain select Pins G 2A and G 2B connected together.

3. All gain select pins open.

4. Applies to 14-pin version only.

April 15, 1992

252

Philips Semiconductors RF Communications Products

Product specification

Video amplifier

NE592

DC ELECTRICAL CHARACTERISTICS

DC Electrical CharacteristicsV SS =

6V, V CM =0, 0

T A 3

C, unless otherwise specified. Recommended operating supply voltages V S =

6.0V.

All specifications apply to both standard and high gain parts unless noted differently.

NE592

SYMBOL

PARAMETER

TEST CONDITIONS

UNIT

SYMBOL

PARAMETER

TEST CONDITIONS

UNIT

Min

Typ

Max

A VOL

Differential voltage gain,

standard part

Gain 1 1

R L =2k

, V OUT =3V P-P

250

600

V/V

Gain 2 2, 4

120

V/V

R IN

Input resistance

Gain 2 2, 4

8.0

I OS

Input offset current

6.0

I BIAS

Input bias current

m A

V IN

Input voltage range

± 1.0

CMRR

Common-mode rejection ratio

Gain 2 4

V CM ±

1V, f<100kHz

PSRR

Supply voltage rejection ratio

Gain 2 4

D V S = ± 0.5V

V OS

Output offset voltage

Gain 1

Gain 2 4

Gain 3 3

R L = 8

1.5

1.0

V OUT

Output voltage swing differential

R L =2k W

2.8

I CC

Power supply current

R L = 8

NOTES:

1. Gain select Pins G 1A and G 1B connected together.

2. Gain select Pins G 2A and G 2B connected together.

3. All gain select pins open.

4. Applies to 14-pin versions only.

AC ELECTRICAL CHARACTERISTICS

T A =+25 ° C V SS = ± 6V, V CM =0, unless otherwise specified. Recommended operating supply voltages V S = ± 6.0V. All specifications apply to both

standard and high gain parts unless noted differently.

SYMBOL

PARAMETER

TEST CONDITIONS

NE/SA592

UNIT

Min

Typ

Max

Bandwidth

Gain 1 1

Gain 2 2, 4

MHz

Rise time

t R

Gain 1 1

Gain 2 2, 4

V OUT =1V P-P

10.5

4.5

Propagation delay

t PD

Gain 1 1

Gain 2 2, 4

V OUT =1V P-P

7.5

6.0

NOTES:

1. Gain select Pins G 1A and G 1B connected together.

2. Gain select Pins G 2A and G 2B connected together.

3. All gain select pins open.

4. Applies to 14-pin versions only.

April 15, 1992

253

Philips Semiconductors RF Communications Products

Product specification

Video amplifier

NE592

TYPICAL PERFORMANCE CHARACTERISTICS

Common-Mode Rejection Ratio

as a Function of Frequency

Output Voltage Swing as

a Function of Frequency

Pulse Response

100

7.0

1.6

1.4

1.2

1.0

0.8

0.6

0.4

0.2

-0.2

-0.4

GAIN 2

V S = + 6V

T A = 25 o C

6.0

V S = +6 V

T A = 25 o C

R L = 1k W

V S = + 6V

T A = 25 o C

R L = 1k

5.0

4.0

GAIN 2

3.0

GAIN 1

2.0

1.0

10k

100k

10M

100M

5 10

50 100

500 1000

-15 -10 -5 0 5 10 15 20 25 30 35

FREQUENCY – Hz

FREQUENCY – MHz

TIME – ns

Supply Current as a

Function of Temperature

Pulse Response as a

Function of Supply Voltage

Pulse Response as a

Function of Temperature

1.6

1.4

1.2

1.0

0.8

0.6

0.4

0.2

-0.2

-0.4

1.6

1.4

1.2

1.0

0.8

0.6

0.4

0.2

-0.2

-0.4

T A = 25 o C

GAIN 2

T A = 25 o C

R L = 1k

GAIN 2

V S = + 6V

R L = 1k

V S = + 8V

V S = + 6V

T amb = 0 o C

V S = +3V

T A = 25 o C

T A = 70 o C

-15 -10 -5 0 5 10 15 20 25 30 35

SUPPLY VOLTAGE – + V

TIME – ns

Voltage Gain as a

Function of Temperature

Gain vs. Frequency as a

Function of Temperature

Voltage Gain as a

Function of Supply Voltage

1.10

1.08

1.06

1.04

1.02

1.00

0.98

0.96

0.94

0.92

0.90

1.4

1.3

1.2

1.1

1.0

0.9

0.8

0.7

0.6

0.5

0.4

V S = + 6V

GAIN 2

V S = + 6V

R L = 1k

T amb = 25 o C

GAIN 2

T A = –55 o C

T A = 25 o C

GAIN 1

T A = 125 o C

-10

10 20 30

40 50 60

5 10

50 100

500 1000

TEMPERATURE – o C

FREQUENCY – MHz

SUPPLY VOLTAGE – +V

April 15, 1992

254

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