OP260 ,DUAL / HIGH-SPEED / CURRENT FEEDBACK / OPERATIONAL AMPLIFIERGENERAL DESCRIPTION Continued
employs current feedback to provide consistently wideband opera-
..
OP260GS ,DUAL, HIGH-SPEED, CURRENT FEEDBACK, OPERATIONAL AMPLIFIERCHARACTERISTICS at VS a: A15V, l/cs, = 0V, R, " 2.5m, T, = +25"C, unless otherwise noted.
8-pin ..
OP260GS ,DUAL, HIGH-SPEED, CURRENT FEEDBACK, OPERATIONAL AMPLIFIERGENERAL DESCRIPTION Continued
employs current feedback to provide consistently wideband opera-
..
OP262 ,15 MHz Rail-to-Rail Operational Amplifier, DualCHARACTERISTICSOffset Voltage V OP162G, OP262G, OP462G 50 325 mVOSH Grade, –40∞C £ T £ +125∞C1mVAD ..
OP262 ,15 MHz Rail-to-Rail Operational Amplifier, DualCHARACTERISTICSOffset Voltage V OP162G, OP262G, OP462G, 45 325 mVOS–40∞C £ T £ +125∞C 800 mVAH Grad ..
OP262DRU ,15 MHz Rail-to-Rail Operational Amplifiersapplications; more output current can (S Suffix) (P Suffix)be s ..
P3100SC , DO-214AA Package Symbolization
P3100SC , DO-214AA Package Symbolization
P3100SC , DO-214AA Package Symbolization
P3100SC , DO-214AA Package Symbolization
P3100SC RP , Low voltage overshoot, Low on-state voltage, Low capacitance
P3100SCL , gas plasma arresters-package dimensions/specifications
OP260
DUAL / HIGH-SPEED / CURRENT FEEDBACK / OPERATIONAL AMPLIFIER
OP-260
DUAL, HIGH-SPEED, CURRENT FEEDBACK)
OPERATIONAL AMPLIFIER
1iJtrs=tgmiitsiihtsuiti_ty 1
FEATURES PIN CONNECTIONS
°Very High Slew Rate ................................... 1 OOOVIps Typ
. -adB Bandwidth (Av=+1) ................................ 90MHz Typ
q Bandwidth Independent of Galn
. Unlty-Galn Stable 7 ours
. Low Supply Current .......................... 4.5mA per amp Typ
. Available In Dle Form -m 2 e-mn
ORDERING INFORMATION t +MA a 6 MN B EPOXY mm-mp
T, * o2St PACKAGE OPERATING v- (CASE) (P-Suffix)
Vos MAX CERDIP LCC TEMPERATURE CERDIP
tm10 34m 10-99 PLASTIC 20.CONTACT RANGE T099 (z-Suffix)
" 0P260AZ' OPZSOAJ' - DP260ARO883 Mk, Gl-suffix)
" OP260EZ 0P260EJ - - XIND
5.0 OPZGOFZ OPZGOFJ - - XlND G"-' -
M - - OPZGOGP - XIND -m A I: q " out A
m - - opai0Gstt - XIND +m A CE " N.c.
. F or devices processed in total compliance to MIL-STD-883, add 1883 alter part N.C. Li: u N.th
number. Consult factory for 883 data sheet. lf- " W
t Bum-in is available on commercial and industrial temptrrature range parts in f,')
CerDlP, plastic DIP, and TO-can packages. For ordering information, see me. 5 E N.C.
PMts Data Book, Section 2. ma 3 LE n N.c.
tt For availability and burn-in information on SO and PLCC packages, contact -m a E " OUT .
your local sales office. N.C. E YE N.C.
20.CONTACT
GENERAL DESCRIPTION 1:31; ”33mg"
ThedualOP-260 representsanew concept in monolithic operational
amplifiers. Built on PMl's high-speed bipolar process, the 0P-260
continued
SIMPLIFIED SCHEMATIC (One of Two Amplifiers)
5/90, Rev. C1
Eiiily
OP-260 DUAL, HIGH-SPEED, CURRENT FEEDBACK, OPERATIONAL AMPLIFIER
GENERAL DESCRIPTION Continued
employs current feedback to provide consistently wideband opera-
tion regardless of gain. The OP-tttm -3dB bandwidth of 90MHz at
Av=+1 combines with a slew rate of 1000V/us for extremely high-
speed operation. For its high-speed bandwidth, theOP-260 requires
ortly4.5mAofsupplycurtentperamplifkmatxmsidemNepowersavings
over other high-speed operational amplifiers.
The OP-260 is easyto design with, since mostofthe cimuitassump-
tions for voltage feedback amplifiers can also be used for current
feedback amplifiers. The two independent amplifiers ofthe OP-260
allow two channel amplification with matched AC performance. It is
also ideal for high-speed instrumentation amplifiers. Other applica-
tions for the OP-260 include ultrasound and sonar systems, video
amplifiers and high-speed data acquisition systems.
ABSOLUTE MAXIMUM RATINGS (Note 1)
Supply Voltage .................................................................. =18V
Input Voltage q................................................... Supply Voltage
Differential Input Voltage ................................................... sl V
Inverting Input Current ................................ s7mA Continuous
........................................ :20mA Peak
Output Short-Circuit Duration ........................................ 10 sec
Operating Temperature Range
OP-260A, (J, RC, Z) .................................... Hi5oC to +125°C
OP-260E/F (J, Z) .......................................... -Mty'C to +85''C
OP-260G (P, S) ....................... .... -dty'C to +85°C
Storage Temperature Range ......................... -65''C to +175°C
Junction Temperature Range (J, RC) ............ -ti5'rC to +175°C
Junction Temperature Range (P, S) ......'. .. --65oC to +150°C
Lead Temperature (Soldering, 10 sec) ......................... +300°C
PACKAGE TYPE 8” (Note 2) 91c UNITS
T0-99(dl 145 16 W
8-Pin Hermetic DIP (Z) _ 134 12 W
8-Pin Plastic DIP (P) 95 37 W
20.Ctmtaet LCC(HC) 88 as W
16-Pin SOL (S) 92 27 W
NOTES:
1. Absolute maximum ratings apply to both DICE and packaged parts, unless other-
wise noted.
2. 61 A is spsscired tor worsunse mounting conditions. i.e.. 8. A is spodNsd for device
in socket for TO, P-DIP. and LCC packages; 'b is specified for device soldered to
printed circuit board for SOL package.
ELECTRICAL CHARACTERISTICS at VS a i15V. l/cu " OV, RF " 2.5m. T, a +25°C, unless otherwise noted.
OP-260AIE OP-260F OP-ZGOG
PARAMETER SYMBOL CONDITIONS MIN TYP MAX MIN TYP MAX MIN TYP MAX UNITS
Input Offset
Voltage v.05 - 1 3.5 2 5 3 7 mV
Input Bias Its + Noninverting Input - 0.2 1 - 0.3 2 - 0.5 3 HA
Current B-. lnvening Input - 3 - 4 10 - 5 15
Input Bias
Current Common- Inverting Input - _ -
Mode Rejection CMRRIB_ l/cu-KI 1V 0.04 0.1 0.06 0.2 0.1 0.5 pA/V
Input Bias .
invernng Input - 0.02 0.1 - 0.04 0.2 - 0.05 0.5
2,r,'2t2i1g,'trion 'e/dy- Noninvening Input - 0.002 0.02 - 0.004 0.04 - 0.01 0.1 MN
up.p'y A Be v -:t9VIot18V
Ratio s
'Yee"" CMR v " Alll/ 56 62 - so so - 50 so - dB
Rejection c M
PM" 1upply PSR v " MN to :10V 66 72 - 60 66 - 60 66 - dB
Rejection s
Open-Loop h " 1m - -
Transimpedance R, Vo = ttOV 5 7 4 5 4 5 - Mn
Input Voltage NR :11 - - MI - - 111 - - v
Output Voltage V RL " 1m 112 212.6 - 112 112.6 - 1:12 $12.6 - V
Swing 0 IOUT=120mA All 111.5 - All 111.5 - *11 111.5 -
Supply No Load, -
Current G Both Amplifiers 9 IO 5 9 10.5 - 9 10 5 mA
A I ol V I t10V
v ' o , - - _ - - -
has1kn,Testat1/ozseN 1000 1000 1000
A " +10 V = AIO)
v ' o ' - - -
RI. " Ikn, Test at V0 = MN 375 550 300 550 300 550
. Slew Rate SR AV-+10.V°=:10V, V/ps
R -1kn Teslatv '
L ' o - - - - - - -
8-pin Hermetic DIP (2) 300 300
Package
5/90, Rev. C1
OP-260 DUAL, HIGH-SPEED, CURRENT FEEDBACK, OPERATIONAL AMPLIFIER
ELECTRICAL CHARACTERISTICS at VS = 115V, IG, = 0V, RF = 2.5kQ, T, = 25°C, unless otherwise noted. Continued
OP-260A/E OP-260F OP-260G
PARAMETER SYMBOL oouomous MN TYP MAX MIN TYP MAX MIN TYP MAX UNITS
- - . AV " -1 - 55 - 55 - 55 -
tf, dwidth aw Radesm Av=+1 - 90 - so - 90 - MHz
an , " Av-+1O - 40 - 40 V - 40 -
s ttli Tim t Av-l, - 250 - 250 - 250 - ns
', mg ° 5 10V step, 0.1%
Input Noninverting - - - -
Capacitance tN and Inverting Inputs 4.5 4.5 4.5 p F
t n100kHz
It,':',",'),,,,,, cs Vo " 10Vp-p, - 100 - 100 - 100 - dB
p A. .1009
ELECTRICAL CHARACTERISTICS at Vs = A15V, IG, = 0V, R, = 2.5m, --55oC 5 T, S +125°C, for the OP-260A, unless other-
wise noted.
OP-260A
PARAMETER SYMBOL CONDITIONS MN TYP MAX UNITS
Input Offset Voltage VIOS - 1.8 6 mV
Average input Offset
Voltage Drift ch,os a uVPC
. l Noninverting Input - 0.3 2
Input Bias Current C' Inverting Input - 4 12 "A
Input Bias
Current Common Inverting Input
Mode Rejection CMRR'B- VCM=111V - 0.05 0.2 "AN
Input Bias .
Current Power PSRRIB_ lmefung [n9u.t - 0.03 0.2
Suppty Rejection PSRRI Ntmimnrrting Input - o 003 o 05 w “ v
. Be V " 19V to t18V . .
Ratio s
Common Mode
Rehab" CMR vCM .111v .52 58 - dB
Power Suppiy
Rejection PSR Vs a 19V to t18V 62 70 - dB
Open-loop Rum.
TransirrTedance RT Vo " t10V 3 4.8 Mn
Input Voltage
NR tl 1 - - V
Output Voltage V h " ten 111.5 112.4 - v
Swing o Iour"20tnA $10.5 $11.1 -
No load.
Supply Current ls, Both Amplifiers - 9 11.5 (M
Klan Rm: (:1
OP-260 DUAL, HIGH-SPEED, CURRENT FEEDBACK, OPERATIONAL AMPLIFIER
ELECTRICAL CHARACTERISTICS at VS = i15V. IG,
= 0V, RF = 2.5m, -4tPC s: T, g +85°C for the OP-260E/F/G, unless other-
wise noted.
OP-260E OP-260F OP-ZGOG
PARAMETER SYMBOL CONDITIONS MIN TYP MAX MIN TYP MAX MIN TYP MAX UNITS
Input Offset
Voltage v.OS 1.4 6 2.5 a 3.7 10 mV
Average Input
Offset Voltage TCVIos - 6 - - 8 - - 10 - pV/°C
Input Bias lB . Noninverting Input - 0.3 2 - 0.4 3 - 0.6 5 A
Current ' Inverting Input - 4 12 - 5 15 - 7 20 "
Input Bias
Current Common Inverting Input
- .05 .2 - .7 .4 - . . pA/V
Mode Rejection CMRR'B- vCM = 111v 0 o o o o 15 1 0
input Bias
Current Power PSRRIB_ Inverting Input - 0.03 0.2 - 0.05 0.4 - 0.1 1.0 AN
Supply Rejection PSFIRI8+ Noninyerting Input - 0.003 0.05 - 0.005 0.1 - 0.01 0.2 "
Common Mode
Rejection CMR IG, = 111V 52 60 - 50 58 - 50 58 - dB
Pm" 39pm PSR Vs = WN to A15V 62 70 - so 64 - so 64 - dB
Reiection
Open-Loop RL " 1m.
Transimpedance R, Vo " 110V 3 5 2 4 2 4 Mn
Input Voltage NR tll - - All - - 111 - - v
Output Voltage V BL =1kf2 111.5 112.5 - t11.5 $12.5 - $11.5 $12.5 - V
Swing o IOUT " t20mA t10.5 111.1 - 110.5 $11.1 - 110.5 $11.1 -
Supply No Load, -
Current ISV Both Amplifiers 9 1 1.5 9 11.6 9 11.5 mA
CHANNEL SEPARATION TEST CIRCUIT BURN-IN CIRCUIT
2.5m nav
gu, '--or, 'mbro 1m
1000 gu,
2.5m "en
Mort ttt
'gas, r-ee, -
= + an
CHANEL SEPARATIW . 20 log (rd-s)
5/90, Rev. C1
OP-260 DUAL, HIGH-SPEED, CURRENT FEEDBACK, OPERATIONAL AMPLIFIER
DICE CHARACTERISTICS
, Rr u 't . ' 1 OUT A
© a 2. - IN A
"%, ca," 3. olN A
5. +IN B
6. -IN B
7. OUT B
I " 6 8. Ve
I 3 k H 5
I 4 For addltlonal DICE ordering information,
refer to PMI's Data Book, Section 2.
DIE SIZE 0.089 x 0.086 Inch, 7,654 sq. mils
(2.26 It 2.18 mm, 4.93 sq. mm)
WAFER TEST LIMITS at Vs = i15V, ch = 0V, RF = 2.5kQ, T, = 25°C, unless otherwise noted.
OP-260GBC
PARAMETER SYMBOL CONDITIONS LIMITS UNITS
Input Offset Voltage hos 5 mV MAX
. I Noninvtrrting Input 2
Input Bias Current ' lnvening Input 10 “A MAX
Input Bias
Current Common lnverting Input
ModeRejection CMRRIB VCM-HW 0.2 'll V ' MAX
Input Bias .
Inverting Input
Current Power PSRRIB . ' 0.2
' . - Noninvetting Input pA/V MAX
Supply Rejection PSRRIB. Vs = MN 1011 8V 0.04
Common Mode
Rejection CMR Vc M = KI 1V 50 dB MIN
Power Supply
Rejection PSR Vs " MN toi18V 60 dB MIN
Open-Loop RL " 1m.
Transimpedance RT Vo " 110V 4 Mn MIN
Input Voltage NR All VMIN
Output Voltage R " len Mil
. V L VMIN
Swing 0 IOUT " t20mA All
No Load,
Supply Current lsv Both Amplifiers 10.5 m MAX
Elem tests are performed at wafer probe to the limits shown. Due to variations in assembly methods and normal yield loss. yield after padcaging is not guaranteed for standard
product dice. Consult factory to negotiate specifications based on dice lot msalificaton through sample lot assembly and testing.
5/90, Rev. C1
TYPICAL ELECTRICAL CHARACTERISTICS
SLEW RATE vs GAIN
"ttttf
1 1 0 I oo
GAIN (ABSOLUTE)
PHASE SHIFT " FREQUENCY
Av = -1
PHASE SIIF!’ (DEGREES)
t " 100
FREQUENCY MM)
PHASE " FREQUENCY
Av = MO
il -135
tt 400
FREQUENCY MM)
smunxrzmu)
§ § 5 § § 5‘
OUTPUT STEP (VOLTB)
ourpur STEP (voum
OP-260 DUAL, HIGH-SPEED, CURRENT FEEDBACK, OPERATIONAL AMPLIFIER
SLEW RATE vs
SUPPLY VOLTAGE
n...um
i-tire',
vom-msmna
0 " Ito :15
SUPPLY VOLTAGE (VOLT!)
SETTLING TIME " OUTPUT STEP
A V = -1
v3.11“
It n-m
160 100 220 250 zoo
SETTuNGTTMEinB)
SE1TLING TIME
" OUTPUT STEP
AV = MO
nusoon
V3.11“
tt 1,.3‘1:
100 too 160 "o no 30 M
1WTTUMTueEttts)
tro-Sao
GAIN " FREQUENCY
Av = -1
n,. 2m
v,.215v
WEDTOM
am (an)
In. mm
FREQUENCY (um)
GAIN " FREQUENCY
Av = MO
FREQUENCY (W1)
GAIN " FREQUENCY
Av = +1
" I ITI ITT
w .mv n... um--\
" -Taoftt .- soon "N
Toads ft
i tt n. R
3:2 a
1 " mo
msoueucv (ma)
5/90. Rev- C1
SMALL-SIGNAL
-3dB BANDWIDTH
" SUPPLY VOLTAGE
Av--ot
0 " " t. t. 210:1 314216 " tat
SUPPLY VQTAGE (VOLTS)
PHASE SHIFT " FREQUENCY
Av = "
PHASESHFHDEOREES)
a é § 6: £1 é a a
1 " too
mzoumcv (nu)
GAIN vs FREQUENCY
Av=+10
IO I l I IIII
' -raor0
WDTONB
, " I I X --e
MO "L'wJ// --
',i,'iii'j)''
MS yi''" "
"', " too
FREQUENYM)
PHASE SHIFT (DEGREES)
am (6!)
PHASE W (DEGREES)
. OP-260 DUAL, HIGH-SPEED, CURRENT FEEDBACK, OPERATIONAL AMPLIFIER
C) TYPICAL ELECTRICAL CHARACTERISTICS Continued
PHASE SHIFT " FREQUENCY
Av = +1
t " too
mmmvmu)
GAIN " FREQUENCY
Av = +5
" I I I I I I I
9,-2.5“:
V3331"
" -Tar2SNt
WDTONB
R" 'illllr)
tt -- m-x
.10 ""iltlvi)
MS J 1
1 " too
FREtWENtWtMHat
PHASE SHIFT " FREQUENCY
Av = +10
FREQUENCY M)
GAIN " FREQUENCY
Av = "
n,.z§am
va .31“
NORMUZEDTDNB
GAIN (Ill)
t , O 100
FREOUEWV (I‘ll)
PHASE SHIFT " FREQUENCY
Av = "
mmmeansem
éééééésa.
, 1 tt too
FREOUEMV (Ill!)
GAIN " FREQUENCY
Av = +50
" I I IIIII
v, .msv
._7 we
,'tkrilu,,oam
am (a)
M6 'tfl" l
m lllll \M
1 , tt ra,
FREQUENCY M)
5/90, Rev. C1