ELANT EL2099CT Datasheet

EL2099C

Video Distribution Amplifier

EL2099C January 1996 Rev D

Features

# 50 MHzb3 dB bandwidth,

ea

A

2

V

#Differential gain 0.03%
# Differential phase 0.05

§

# Output short circuit current

800 mA

# Can drive six 75 X double

terminated cables

# Slew rate

e

g

11V

1000V/ms

# Wide supply voltage range

g

5V tog15V

Applications

# Video line driver
# ATE pin driver
# High speed data acquisition

Ordering Information

Part No. Temp. Range Pkg. Outline

EL2099CT 0§Ctoa75§C 5-Pin TO-220 MDP0028

General Description

The EL2099C is a high speed, monolithic operational amplifier*
featuring excellent video performance and high output current
capability. Built using Elantec’s Complementary Bipolar pro­cess, the EL2099C uses current mode feedback to achieve wide
bandwidth, and is stable in unity gain configuration.

Operation from power supplies ranging from

g

5V tog15V

makes the EL2099C extremely versatile. With supplies at

g

15V, the EL2099C can deliverg11V into 25X at slew rates of

1000V/ms. At

g

5V supplies, output voltage range isg3V into
25X. Its speed and output current capability make this device
ideal for video line driver and automatic test equipment appli­cations.

Differential Gain and Phase of the EL2099C are 0.03% and

0.05

respectively, andb3 dB bandwidth is 50 MHz. These fea-

§

tures make the EL2099C especially well suited for video distri­bution applications.

Elantec products and facilities comply with MIL-I-45208A, and
other applicable quality specifications. For information on

Ý

Elantec’s processing, see Elantec document, QRA-1: Elantec’s
Processing, Monolithic Integrated Circuits.

Connection Diagram

5-Pin TO-220

2099– 1

Manufactured under U.S. Patent Nos. 5,179,355, 4,893,091, U.K. Patent No.

2261786.

Note: All information contained in this data sheet has been carefully checked and is believed to be accurate as of the date of publication; however, this data sheet cannot be a ‘‘controlled document’’. Current revisions, if any, to these
specifications are maintained at the factory and are available upon your request. We recommend checking the revision level before finalization of your design documentation.

©

1992 Elantec, Inc.

EL2099C

Video Distribution Amplifier

Absolute Maximum Ratings

Voltage between V
Voltage at V
Voltage at V
Voltage between V
Current into V

Important Note:
All parameters having Min/Max specifications are guaranteed. The Test Level column indicates the specific device testing actually
performed during production and Quality inspection. Elantec performs most electrical tests using modern high-speed automatic test
equipment, specifically the LTX77 Series system. Unless otherwise noted, all tests are pulsed tests, therefore T

Test Level Test Procedure

I 100% production tested and QA sample tested per QA test plan QCX0002.

II 100% production tested at T

III QA sample tested per QA test plan QCX0002.
IV Parameter is guaranteed (but not tested) by Design and Characterization Data.

V Parameter is typical value at T

a

S

aa

S

bb

S

IN

or V

a

IN

ba

and V

S

and V

a

T

IN

MAX

b

IN

and T

b

A

per QA test plan QCX0002.

MIN

e

(T

25§C)

A

Internal Power Dissipation See Curves

33V

16.5V

16.5V

g

g

10 mA

e

25§C and QA sample tested at T

e

25§C for information purposes only.

A

Operating Ambient Temperature Range 0
Operating Junction Temperature 150

6V

Storage Temperature Range

Ctoa75§C

§

b

65§Ctoa150§C

e

e

T

TA.

J

C

e

25§C,

A

§

Open Loop DC Electrical Characteristics

e

g

V

S

Parameter Description Temp Min Typ Max

V

OS

TC V

a

I

IN

b

I

IN

CMRR Common Mode Rejection

PSRR Power Supply Rejection

R

OL

a

R

IN

a

C

IN

CMIR Common Mode Input Range 25§C

15V, R

OS

e

L

25X,T

e

25§C unless otherwise specified

A

Test

Level

Units

Input Offset Voltage 25§C 5 20 I mV

T

MIN,TMAX

25 IV mV

Average Offset Voltage Drift Full 20 V mV/§C

a

Input Current 25§C 5 20 I mA

T

MIN,TMAX

b

Input Current 25§C 8 35 I mA

T

MIN,TMAX

25

C5060 IdB

Ratio (Note 1)

Ratio (Note 2)

§

25

C6070 IdB

§

30 IV mA

50 IV mA

Transimpedance 25§C 85 140 I kX

a

Input Resistance 25§C 700 1000 I kX

(Note 3)

a

Input Capacitance 25§C3VpF

T

MIN,TMAX

600 IV kX

g

12.5 V V

C

TDis 3.2in

2

EL2099C

Video Distribution Amplifier

Open Loop DC Electrical Characteristics

e

g

V

S

Parameter Description Temp Min Typ Max

V

O

I

OUT

I

SC

I

S

15V, R

e

L

e

25X,T

25§C unless otherwise specified

A

Output Voltage Swing

e

g

15V

V

S

Output Voltage Swing

e

g

5V

V

S

25

C

§

25

C

§

Output Current 25§C 360 440 I mA

Output Short-Circuit 25§C 600 800 I mA
Current

T

MIN,TMAX

Supply Current 25§C3245ImA

Ð Contd.

g

9

g

2.4

Test

Level

g

11 I V

g

3.0 I V

800 V mA

Closed Loop AC Electrical Characteristics

e

g

V

S

Paremeter Description Min Typ Max

SR Slew Rate (Notes 4, 7) 500 1000 IV V/ms

BW

Peaking (Note 7) 0.3 V dB

tr,t

f

dG Differential Gain; DC Input Offset

dP Differential Phase; DC Input Offset

Note 1: The input is moved fromb10V toa10V.
Note 2: The supplies are moved from
Note 3: V
Note 4: Slew Rate is with V
Note 5: Rise and Fall Times are with V
Note 6: See typical performance curves for other conditions.
Note 7: All AC tests are performed on a ‘‘warmed up’’ part, except for Slew Rate, which is pulse tested.

15V, A

V

ea

e

2, R

510X,R

F

b

3 dB Bandwidth (Note 7) 50 V MHz

e

L

25X,T

e

25§C unless otherwise specified

A

Rise Time, Fall Time
(Notes 5, 7)

from 0V through
Amplitude 286 mV
(Notes 6, 7)

a

0.714V, AC
,fe3.58 MHz

p-p

from 0V througha0.714V, AC
Amplitude 286 mV
(Notes 6, 7)

e

g

5V. See typical performance curve for larger values of VIN.

IN

froma5V tob5V and measured at 20% and 80%.

OUT

,fe3.58 MHz

p-p

g

5V tog15V.

betweenb0.5V anda0.5V and measured at 10% and 90%.

OUT

Test

Level

7Vns

0.03 V %

0.05 V deg. (

Units

Units

TDis 1.7inTDis 2.4in

)

§

3

EL2099C

Video Distribution Amplifier

Typical Performance Curves

Non-Inverting
Frequency Response (GAIN)

Inverting Frequency
Response (GAIN)

e

(T

A

25§C, R

L

e

25X,A

V

ea

e

2, R

510 unless otherwise specified)

F

Non-Inverting
Frequency Response (PHASE)

Inverting Frequency
Response (PHASE)

Frequency Response for Various R

L

4

Frequency Response for Various C

L

2099– 2

Typical Performance Curves

e

(T

25§C, R

A

e

L

Frequency Response for
Various RF&R

25X,A

V

ea

G

2, R

e

510 unless otherwise specified) Ð Contd.

F

EL2099C

Video Distribution Amplifier

Transimpedance (R

OL

)

PSRR & CMRR vs Frequency Impedance vs Frequency

2nd and 3rd Harmonic
Distortion vs Frequency

Closed-Loop Output

Voltage and Current
Noise vs Frequency

2099– 3

5