Semiconductor Components Industries NE592 Manual Download Page 1

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Semiconductor Components Industries, LLC, 2006

October, 2006

−

Rev. 4

Publication Order Number:

NE592/D

NE592

Video Amplifier

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.

Features

•

120 MHz Unity Gain Bandwidth

•

Adjustable Gains from 0 to 400

•

Adjustable Pass Band

•

No Frequency Compensation Required

•

Wave Shaping with Minimal External Components

•

MIL-STD Processing Available

•

−

Free Packages are Available

Applications

•

Floppy Disk Head Amplifier

•

Video Amplifier

•

Pulse Amplifier in Communications

•

Magnetic Memory

•

Video Recorder Systems

http://onsemi.com

See detailed ordering and shipping information in the package
dimensions section on page 8 of this data sheet.

ORDERING INFORMATION

SOIC

−

D SUFFIX

CASE 751

PDIP

−

N SUFFIX

CASE 626

MARKING

DIAGRAMS

NE592N8

AWL

YYWWG

= Assembly Location

L, WL = Wafer Lot
Y, YY

= Year

W, WW = Work Week

or G = Pb

−

Free Package

http://onsemi.com

NE592

ALYW

SOIC

−

D SUFFIX

CASE 751A

PDIP

−

N SUFFIX

CASE 646

NE592D14G

AWLYWW

NE592N14

AWLYYWWG

OUTPUT 1

OUTPUT 2

R10

R11

R12

Q11

Q10

R13

R14

R16

R15

R7B

R7A

Q7B

Q7A

G2A

G1A

INPUT 1

INPUT 2

G1B

G2B

-V

Figure 1. Block Diagram

Summary of Contents for NE592

Page 1: ...o 0 with one external resistor Features 120 MHz Unity Gain Bandwidth Adjustable Gains from 0 to 400 Adjustable Pass Band No Frequency Compensation Required Wave Shaping with Minimal External Components MIL STD Processing Available Pb Free Packages are Available Applications Floppy Disk Head Amplifier Video Amplifier Pulse Amplifier in Communications Magnetic Memory Video Recorder Systems http onse...

Page 2: ...0 to 70 C Operating Junction Temperature TJ 150 C Storage Temperature Range TSTG 65 to 150 C Maximum Power Dissipation TA 25 C Still Air Note 1 D 14 Package D 8 Package N 14 Package N 8 Package PD MAX 0 98 0 79 1 44J1 17 W Thermal Resistance Junction to Ambient D 14 Package D 8 Package N 14 Package N 8 Package RqJA 145 182 100 130 C W Stresses exceeding Maximum Ratings may damage the device Maximu...

Page 3: ...MRR 60 50 86 60 dB Supply Voltage Rejection Ratio Gain 2 Note 4 DVS 0 5 V PSRR 50 70 dB Output Offset Voltage Gain 1 Gain 2 Note 4 Gain 3 Note 5 Gain 3 Note 5 RL R RL R RL R TA 25 C RL R 0 C v TA v 70 C VOS 0 35 1 5 1 5 0 75 1 0 V Output Common Mode Voltage RL R TA 25 C VCM 2 4 2 9 3 4 V Output Voltage Swing Differential RL 2 0 kW TA 25 C RL 2 0 kW 0 C v TA v 70 C VOUT 3 0 2 8 4 0 V Output Resista...

Page 4: ...30 35 TIME ns GAIN 2 TA 25oC RL 1kW VS 8V VS 3V VS 6V TA 70oC Tamb 0oC OUTPUT VOLTAGE V 1 6 1 4 1 2 1 0 0 8 0 6 0 4 0 2 0 0 2 0 4 15 10 5 0 5 10 15 20 25 30 35 TIME ns GAIN 2 VS 6V RL 1kW TA 25oC Figure 5 Supply Current as a Function of Temperature Figure 6 Pulse Response as a Function of Supply Voltage Figure 7 Pulse Response as a Function of Temperature RELATIVE VOLTAGE GAIN 1 10 1 08 1 06 1 04 ...

Page 5: ... DIFFERENTIAL INPUT VOLTAGE mV VS 6V TA 25oC GAIN 2 OUTPUT VOLTAGE SWING V OR OUTPUT SINK CURRENT mA 7 0 6 0 5 0 4 0 3 0 2 0 1 0 0 3 0 4 0 5 0 6 0 7 0 8 0 SUPPLY VOLTAGE V TA 25oC VOLTAGE CURRENT OUTPUT VOLTAGE SWING Vpp 7 0 6 0 5 0 4 0 3 0 2 0 1 0 0 10 50 100 500 1K 5K 10K LOAD RESISTANCE W VS 6V TA 25oC Figure 14 Supply Current as a Function of Temperature Figure 15 Differential Overdrive Recove...

Page 6: ...quency Figure 21 Phase Shift as a Function of Frequency Figure 22 Voltage Gain as a Function of Frequency PHASE SHIFT DEGREES 0 50 100 150 200 250 300 350 1 10 100 1000 FREQUENCY MHz VS 6V TA 25oC GAIN 1 GAIN 2 VOLTAGE GAIN dB 01 1 1 10 100 1000 40 30 20 10 0 10 20 30 40 50 FREQUENCY MHz VS 6V TA 25oC GAIN 3 Figure 23 Voltage Gain as a Function of Frequency VIN VOUT RL 592 51W 51W 51W 51W ein eout...

Page 7: ... 10 8 7 5 4 1 6 AMPLITUDE 1 10 mV p p FREQUENCY 1 4 MHz 592 0 2mF 6 0 2mF 2KW 2KW V0 V1 C 14 1 11 4 10 5 7 8 6 592 V0 s v1 s 1 4 104 Z S 2re 1 4 104 Z S 32 Figure 25 Typical Applications NOTES In the networks above the R value used is assumed to include 2re or approximately 32W S jW W 2πf 1 4 104 L ƪ 1 s RńL ƫ 1 4 104 R ƪ s s 1ńRC ƫ 1 4 104 L ƪ s s2 RńLs 1ńLC ƫ 1 4 104 R ƪ s2 1ńLC s2 1ńLC sńRC ƫ Z...

Page 8: ...b Free NE592N8 PDIP 8 50 Units Rail NE592N8G PDIP 8 Pb Free NE592D14 SOIC 14 55 Units Rail NE592D14G SOIC 14 Pb Free NE592D14R2 SOIC 14 2500 Tape Reel NE592D14R2G SOIC 14 Pb Free NE592N14 PDIP 14 25 Units Rail NE592N14G PDIP 14 Pb Free For information on tape and reel specifications including part orientation and tape sizes please refer to our Tape and Reel Packaging Specification Brochure BRD8011...

Page 9: ...751 06 ARE OBSOLETE NEW STANDARD IS 751 07 A B S D H C 0 10 0 004 DIM A MIN MAX MIN MAX INCHES 4 80 5 00 0 189 0 197 MILLIMETERS B 3 80 4 00 0 150 0 157 C 1 35 1 75 0 053 0 069 D 0 33 0 51 0 013 0 020 G 1 27 BSC 0 050 BSC H 0 10 0 25 0 004 0 010 J 0 19 0 25 0 007 0 010 K 0 40 1 27 0 016 0 050 M 0 8 0 8 N 0 25 0 50 0 010 0 020 S 5 80 6 20 0 228 0 244 X Y G M Y M 0 25 0 010 Z Y M 0 25 0 010 Z S X S ...

Page 10: ...ANCING PER ANSI Y14 5M 1982 1 4 5 8 F NOTE 2 A B T SEATING PLANE H J G D K N C L M M A M 0 13 0 005 B M T DIM MIN MAX MIN MAX INCHES MILLIMETERS A 9 40 10 16 0 370 0 400 B 6 10 6 60 0 240 0 260 C 3 94 4 45 0 155 0 175 D 0 38 0 51 0 015 0 020 F 1 02 1 78 0 040 0 070 G 2 54 BSC 0 100 BSC H 0 76 1 27 0 030 0 050 J 0 20 0 30 0 008 0 012 K 2 92 3 43 0 115 0 135 L 7 62 BSC 0 300 BSC M 10 10 N 0 76 1 01 ...

Page 11: ...L 14 8 7 1 M 0 25 0 010 B M S B M 0 25 0 010 A S T T F R X 45 SEATING PLANE D 14 PL K C J M _ DIM MIN MAX MIN MAX INCHES MILLIMETERS A 8 55 8 75 0 337 0 344 B 3 80 4 00 0 150 0 157 C 1 35 1 75 0 054 0 068 D 0 35 0 49 0 014 0 019 F 0 40 1 25 0 016 0 049 G 1 27 BSC 0 050 BSC J 0 19 0 25 0 008 0 009 K 0 10 0 25 0 004 0 009 M 0 7 0 7 P 5 80 6 20 0 228 0 244 R 0 25 0 50 0 010 0 019 _ _ _ _ 7 04 14X 0 5...

Page 12: ...t convey any license under its patent rights nor the rights of others SCILLC products are not designed intended or authorized for use as components in systems intended for surgical implant into the body or other applications intended to support or sustain life or for any other application in which the failure of the SCILLC product could create a situation where personal injury or death may occur S...

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