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LM592MNSN/a1042avaiDIFFERENTIAL VIDEO AMPLIFIER
LM592NNSCN/a3avaiDIFFERENTIAL VIDEO AMPLIFIER


LM592M ,DIFFERENTIAL VIDEO AMPLIFIERGeneral Description The LM592 is a two stage differential input, differential out- put, wideban ..
LM592N ,DIFFERENTIAL VIDEO AMPLIFIERElectrical Characteristics TA == 25°C, unless otherwise specified, see test circuits, Vs = 16.0V (N ..
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LM592M-LM592N
DIFFERENTIAL VIDEO AMPLIFIER
National .
Semiconductor
LM592 Differential Video Amplifier
General Description
The LM592 is a two stage differential input, differential out-
put, wideband video amplifier. The use of internal series-
shunt feedback gives wide bandwidth with low phase distor-
tion and high gain stability. Emitter follower outputs provide
low output impedances necessary to drive capacitive loads.
This device offers fixed gains of 100 and 400 with no exter-
nal components plus the flexibility of adjusting the gain from
0 to 400 with the addition of a single resistor. This flexibility
also allows the device to be configured as a high pass, low
pass, or band pass filter.
The LM592 is ideal for use in magnetic memory systems.
The device is also very useful as a video and pulse amplifier
in video recorders and other communications systems.
Features
a 120 MHz bandwidth
" Adjustable gains from 0 to' 400
II Adjustable pass band
" No frequency compensation required
Applications
In Disc file memories
I: Magnetic tape systems
I: Thin film or plated wire memories
I: Wide band video amplifiers
Connection Diagram
Dual-In-Llne and Small Outline Package
SELECT
NC on GM " NC
14 1sl 12] MI M al 8
INPUT 'T"'
12l3l4l5l617
INPUT NC 023 ths " NC OUTPUT
2 GAlN 2
SELECT TL/H/e7o1-1
Top View
Order Number LM592M or LM592N
See NS Package Number mm or N14A
Dlsc/Tape Phase Modulated Readback Systems
LM161I
AMPLITUDE: 1-10 mV p-p
FREQUENCY .. 1-4 MHZ
13.---.li
READ HEAD
DIFFERENTIATOR
AMPLIFIER
mo tmoss% ocrzcron
TL/H/8701-2
Absolute Maximum Ratings
If Mllltary/Aerospaco apttttlmtd devices are required,
please contact the Natlonal Stttttlttttrttiutttttr Sales
OfmttVDlatrlbutortt for avallablllty and ttpettlmrtttlorut.
Operating Temperature Range 0°C to + 70°C
Soldering Information
Dual-ln-Line Package
Differential Input Voltage i 5V Soldering (10 seconds) 26ty'C
Common Mode Input Voltage K6V Small Outline Package
Vsuppty iev Vapor Phase (60 seconds) 215°C
Output Current 10 mA Infrared (15 seconds) 220°C
Power Dissipation (Note 1) 500 mW See AN-450 "Surface Mounting Methods and Their Effect
Junction Temperature + 150°C on Product Reliability" for other methods of soldering sur-
face mount devices.
Storage Temperature Range --65% to + 150'C
Electrical Characteristics TA '= 25'C, unless otherwise specified, seetestcircuits, Vs == 16.0V (Note 5)
ZSSW‘I
Test Tested Deslgn Unlta
Charaeterltttitm Clrcult Test Conditions Typ Limit lelt (lelt)
(Note 6) (Note 7)
Differential Voltage Gain
Gain 1 (Note 2) 400 250 2 1 0 (Min)
1 RL = 2 kn, VOUT = 3 Vpp 600 620 (Max)
Gain 2 (Note 3) 100 80 " (Min)
1 20 1 20 (Max)
Bandwidth
Gain 1 40 MHz
Gain 2 2 90 MHz
Rise Time
Gain1 VOUT = 1 Vpp 10.5 ns
Gain 2 2 4.5 12 ns (Max)
Propagation Delay
Gain 1 VOUT = 1 Vpp 7.5 ns
Gain 2 2 6 10 ns (Max)
Input Resistance
Gain 1 4 kn
Gain 2 23 10 kn (Min)
Input Capacitance Gain 2 2 pF
Input Offset Current 0.4 5 6 p.A (Max)
Input Bias Current 9 26 3 1 pA (Max)
Input Noise Voltage BW = 1 kHz to 10 MHz 12 p,v rms
Input Voltage Range 1 AI 1 1 V (Min)
Common Mode Rejection Ratio
Gain 2 1 VCM = k1V 86 60 " dB (Min)
Gain 2 VCM = k1V,t = 5 mHz 60 dB
Supply Voltage Rejection Ratio
Gain 2 1 AVS = 10.5V 70 50 so dB (Min)
Output Offset Voltage
Gain1 1 RL == oo 0.35 0.75 0.75 V (Max)
Output Common Mode Voltage 1 Rt. = co 2.9 2.4 2.4 V (Min)
(Note 4) 3.4 3.4 V (Max)
OutputVoltaga Swing 1 RL = 2k 4 3 3 V (Min)
Output Sink Current 3.6 2.5 2.3 mA (Min)
Output Resistance 20 n
Power Supply Current 1 RL = 0° 18 24 24 mA (Max)
Not. 1: For operation at elevated 1emperaturea, these devices must be derated based on a 1hermal res1stance of 91A and Tynax. 9M =- 90'C/W In the "N" package
and 135'C/W In the "M" package. Tpus = 150'C.
Not. 2: Plns 61A and 618 connected together.
Not. 3: Plns 62A and 628 connected together.
Note 4: Gain select pins open. Output Common Mode Voltage = M" + V02)/2.
Note 5: Boldfac- numb»: apply .1 tomporuturo oxmmn.
Not. lk Guaranteed and 100% production tested.
Not. r.. Guaranteed (but not 100% production tested) over the operating temptrratum and supply voltage ranges. These limits are not used to calculate outgoing
quallty levels.
Typical Applications
Filter Networks
TL/H/6701-3
Vo(S) = 1.4 x104
VAS) - Zis) + 2re
--- 1.4 M 104
= 2ts) + 32
BASIC CONFIGURATION
Test Circuits
Test Clrcult 1
TL/H/6701-12
Impedance Deslred Vo(5) Transfer
Network Fitter IHS) Function
ous,-epvvs.o LowPass 1.4 x104[ 1 ]
TLfH/6701-10 L s + R/L
o-dk-i (i-o 1 4 104 1
High Pass -...._ [s+1-,mt)
iH/6701-11 R 3 + I/RC
: J, U L Fo Band Pass L104 [s-s-i-i-il,--,
L 52+ R/Ls+1/LC
TL/H/6701-13
Band Reject
1.4 M 104[
si? +1/LC ]
$2 +1/LC + s/RC
Note: In the networks above, the R value used is assumed to include 2ra, or approximately 320
YL/H/6701-4
Voltage Gain Adjust Clrcult
Test Circuit 2
0.2 pr
TL/H/6701-6
"a6?sr trap,
TL/H/6701-5
Schematic Diagram
Typical Performance Characteristics
Pulse Response
OUTPUT VOLTAM (V)
ééoseaaaa
'15-10-5 0 5 IO ts 20 $5035
Phase snm "
0 Frequency
GhlN 2
vs a: ' w
-s TA: MN
PHASE SHIT (°)
. 1 .-.
s u. o
rmumcuunz)
OUTPUT VOLTAGS (V)
PHASE SHIT (°)
"ht, OUTPUT 1
R12 OUTPUTZ
e''t'no rc,
R15 R14
300it 4003 won
TL/H/6701-7
Pulse Response vs Pulse Response "
u Temperature " Supply Voltage
M vim», M P'a
" R4}! " A u Vs=23V- =telt
w P... w
on g on Fsaew
M '! " vsasv
M E 02
0 CF 0
-o.z -o.2
-0.4 -04
45-10-50 510152353035 45-10-50 5101511251)!
ms (nu) WE (M)
Phase Shift " Dlmtrttrttlal Overdrlve
0 Frequency
CAIN 1
1 10 1M 1M
FREOUDJCY MM
Recovery Tlme
s= ' w
mmmnwvmmum)
8 s 8 8 8 a
0 40 no Ito 160 200
mam NPUT VOLTAE (mV)
TL/ro6701-8
ZBSW'I
Typical Performance Characteristics (Continued)
smu-mnm VOLTAGE CAN (dB)
omrur vomc: swmc (VH)
COMMON MOM Ramon RAM (d8)
Voltage Gain "
60 Frequency
T =25°C
$0 GAINI
FREQUENCY (NH!)
OK Voltage Galn " RAD;
vs=zev
t --2se
Rm (a)
Output Voltage Swlng "
m requency
IV-ttry
TP25'T
RL=IKA
1 5 10 501W
rmumv (am)
500 ttm
Common Mode
Rejection Ratlo "
Frequency
o3888883888
1M 1M Ill ttht
FREQUENCY (Hz)
SUPPLY CURRENT 0R OUTPUT
$04K cum)" (mA) WM YOLYAGE Gm m—nm VOIJMI CAN (d3)
NPUI’ NOSE VOLTAGE (d8)
Temperature
oasssssass§
Galn " Frequency
Temperature
Vs=26V
TA=0°C
, 10 SO we
FREQUENCY MM
Voltage Galn "
Supply Current, Output
mymm: (e)
Voltage and Current
Input Nolse Voltage "
owl“ stlK
" " an 1.0
SUPPLY vows: (v)
Source Realstance
SOURCE RBISTANCi (ti)
ra--2se
Swing " Supply Voltage
2 ta = we 6
Womnumuumo
oumn VOLTMI SWING (VP—P) WM MUSE CAN sucu—anm MIMI MI (0)
SUPPLY wanna (mA)
Galn " Fraquoncy "
Supply Voltage
1 s ttt so too
moumcr (um)
Voltage Galn "
u Supply Voltage
ta = NN
3 4 ' e 7 a
surm vomcc (M)
Output Voltage Swing "
Load Resistance
vs =asv
TAI25°C
1 s 10
LOAD mmmc: (a)
so mo 500i000
Supply Current and
input Reslstance "
”Temperature
vsaasv
20 GAIN 2
(vnmmum
INPUT RESISTANCE
(110203040506070
mpzwun: (N)
TL/H/8701 "
This datasheet has been :
www.ic-phoenix.com
Datasheets for electronic components.
National Semiconductor was acquired by Texas Instruments.
corp/docs/irwestor_relations/Pr_09_23_201 1_national_semiconductor.html
This file is the datasheet for the following electronic components:
LM592M - product/Im592m?HQS=T|-nu|l-nulI-dscatalog-df-pf—nuII-wwe
LM592N - product/Im592n?HQS=Tl-null-null-dscatalog-df—pf—nuII-wwe
LM592M - product/Im592m?HQS=T|-nu|I-null-dscatalog-df—pf—nuII-wwe
LM592N - product/Im592n?HQS=TI-nu|I-null-dscatalog-df—pf—nuII-wwe
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