BUF03EJ Datasheet, PDF(2/7 Page) Analog Devices – High-Speed Voltage Follwer/Buffer

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BUF03EJ Datasheet, PDF (2/7 Pages) Analog Devices – High-Speed Voltage Follwer/Buffer

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- ANALOGDEVICESfA~-ON-DEMANDHOTLINE Page 3

BUF-O3

ABSOLUTE MAXIMUM RATINGS

Supply Voltage """"""""""""""""'"

Internal Power Dissipation (Pd)

. In Still Air Without Heat Sink (Note 1) """"'"

:t16V

l.00W

Input Voltage (Note 2)

,.. :t18V

Continuous Output Current (Note 3)

Peak Output Current (Note 3)

70mA

100mA

Short Circuit Protection (Note 3)

Indefinite (Note 4)

Maximu.p_JunctionTemperature(Tj)

175Â°C

Storage Temperature Range. . . . . . . . . . .. -65Â°C to + 175Â°C

Operating Temperature Range (Note 5)

' -55Â°C to + 125Â°C

Lead Temperature (Soldering, 60 sec)

300.C

DiceJunction Temperature(Tj)

Thermal Resistance OJA(Note 1)

Thermal Resistance8JC(Note 1)

-65Â°C to +175Â°C

150Â°CIW

18Â°CIW

NOTES:

1. Basedon MIL-STD-38510 published thermal resistance specification for 8

lallo can-case oulline C.

2. When Vcc.-.:t 18V. the maximum input 'ollage is equal to tho supply 'oltage.

3. The maximum Pa or Tj are not to be exce.;ded.

4. At SOmA.

= 5. When operating at TA > +25'C. heat sinking is required to insure TiMAX

= + 175'C specification is notexceedeo using theequetton Tjw.x- TA+ (Pa x

6JCMAX + 6SAi where 8M sink to ambient thermal resistance. PMI

recommenos using either the Thermalloy 2227 or 1101or equivalent when

= operating up to TA + 12S'C.

ELECTRICAL CHARACTERISTICS at Vs"" :t15V. Rs'" DO,T" '" Tj = 25Â°C, unless otherwise noted. (Note 1)

OBSOLETE PARAMETER

AC SPECIFICATIONS

SYMBOL

Slew Rate

POWilTBandwidtl'l

Bandwidlh

Settling Tim.

Capaeltl... Load Capability

Propagation Delay

Rise Time

Wide Band InpUI Noise Voltage

Inpul Noi.. Voltage Density

DC SPECIFICATIONS

Input Offset Voltage

PBW

CLOAO

Vas

CONDITIONS

Rl ~ 2kO. Cl = 50pF.

= = fA fJ 75'C

VIN= 10Vp-pR' l ~ 2kl!

= ~V'N ~ 2VÂ£:p,

To 0..1%,:t 10V step

No Osciltations

Step Inpul

= ~V 0.5V

DC to 50MHz

I = 10kHz

RS~ 20kCl (Note 21

BUF.O3A/E

MIH TYP MAX

220 250

-9

-63

-90

-1

-7

-350

BUF.O3B/F

IIIN TVP MAX

UNITS

180 250

-8

-50

100

400

VII's

-MHz

M-Hz

-ns

-..F

-ns

- ns

I'VRMS

nVI.jH'l

Inpul Bias Current

Input Resistance

A'N

Voltage Gain (V'N= :t1DV)

Ava

At ~ 10kO

Rl ~ 2kl)

Rl<: 11<Cl

150 400

- sx lO'l

160 700

- 4x1011

- Cl

0.9960 0.9975

0.9940 0.9970

0.9945 0.9960

0.9930 0.9950

V/V

0.9925 0.91045

0.9905 0.9930

Nonlinearity iNote 2)

VIN= :t10V, Rl~ 2kl! {Note 31

VIN=:!:7V.Rl21kCl

0..015 0.023

0..013 0.023

0.017 0..03

Om5 0..03

%F.S

Maximum Output error

"-'--'........._.._-.."-'_.

Power Supply Rejection Ralio

Supply Current

Peak Loed Current

. .-.......-----

Output Resistance

Ollsel Voltage Nulling Range

OUT error

PSRR

'SY

'ltPK.

dVos

V'N=+10V,OV.-10V

Rs = 0 1020kCl(Note 2)

Rl ,,2kn in all combinations

VS=:t6VIO:t1I1V

No Load

Rp ~ IkO

0.10 0.71

19 25

:tSO -

- 0.15 1,42

19 25

- :t80

mV/V

Input Voltage Range

IVA

(Reduced Accuracy)

......-........-...

NOTES:

1. Electricalparameters are pulse tested on automated test equipment. Total

teSt time at eaCh temperature is limited to less than one second maximum

- to keep Tj approximately equal to TA

2.. Parameters specified with Rs~ 20kn are testedat As on. Limits in lest

program are adjusled to lake into account worst clSe voltage offset

:tl1.5 -

- :t11,S

- induced by As 20kfl. 1.8.. Ie max x 20kll.

3. Nonlineartty is computed using linear regression techniques with data

from ti,e points (e.g., -10V. -5V. OV.+5V. + 10Vfor t tOVfull-scale linearity;

- 7V, -3.5V. OV.+3.5V. and + 7V lor :t7V lull-scale linearity).

-2- .

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