ELANT EL5196CW-T7, EL5196CW-T13, EL5196CS-T7, EL5196CS-T13, EL5196CS Datasheet

EL5196C - Preliminary

Single 400MHz Fixed Gain Amplifier

EL5196C - Preliminary

Features

• Gain selectable (+1, -1, +2)

• 400MHz -3dB BW (AV = 1, 2)

• 9mA supply current

• Single and dual supply operation,
from 5V to 10V

• Available in 5-pin SOT23 package

• Triple (EL5396C) available

• 200MHz, 4mA product available
(EL5197C, EL5397C)

Applications

• Video Amplifiers

• Cable Drivers

• RGB Amplifiers

• Test Equipment

• Instrumentation

• Current to Voltage Converters

Ordering Information

Part No Package

EL5196CW-T7 5-Pin SOT23 7” MDP0038

EL5196CW-T13 5-Pin SOT23 13” MDP0038

EL5196CS 8-Pin SO - MDP0027

EL5196CS-T7 8-Pin SO 7” MDP0027

EL5196CS-T13 8-Pin SO 13” MDP0027

Tape &

Reel Outline #

General Description

The EL5196C is a fixed gain amplifier with a bandwidth of 400MHz,
making these amplifiers ideal for today’s high speed video and moni­tor applications. The EL5196C features internal gain setting resistors
and can be configured in a gain of +1, -1 or +2. The same bandwidth is
seen in both gain-of-1 and gain-of-2 applications.

For applications where board space is critical, the EL5196C is offered
in the 5-pin SOT23 package, as well as an 8-pin SO. The EL5196C

operates over the industrial temperature range of -40°C to +85°C.

Pin Configurations

8-Pin SO

5-Pin SOT23

1

OUT

2

VS-

IN+

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.

© 2001 Elantec Semiconductor, Inc.

-+

3

EL5196CW

5

VS+

4

IN-

* This pin must be left disconnected

1

NC

2

IN-

3

IN+

4

VS- NC

EL5196CS

8

7

-

+

6

5

NC*

VS+

OUT

September 19, 2001

EL5196C - Preliminary

Single 400MHz Fixed Gain Amplifier

Absolute Maximum Ratings (T

Values beyond absolute maximum ratings can cause the device to be pre­maturely damaged. Absolute maximum ratings are stress ratings only
and functional device operation is not implied.

Supply Voltage between VS+ and VS- 11V

EL5196C - Preliminary

Maximum Continuous Output Current 50mA

Operating Junction Temperature 125°C

= 25°C)

A

Power Dissipation See Curves

Pin Voltages VS- - 0.5V to VS+ +0.5V

Storage Temperature -65°C to +150°C

Operating Temperature -40°C to +85°C

Lead Temperature 260°C

Important Note:

All parameters having Min/Max specifications are guaranteed. Typ values are for information purposes only. Unless otherwise noted, all tests are at the
specified temperature and are pulsed tests, therefore: TJ = TC = TA.

Electrical Characteristics

VS+ = +5V, VS- = -5V, R

Parameter Description Conditions Min Typ Max Unit

AC Performance

BW -3dB Bandwidth AV = +1 400 MHz

BW1 0.1dB Bandwidth 35 MHz

SR Slew Rate VO = -2.5V to +2.5V, AV = +2 2500 2900 V/µs

ts 0.1% Settling Time V

e

n

i

- IN- input current noise 25 pA/√Hz

n

i

+ IN+ input current noise 55 pA/√Hz

n

dG Differential Gain Error

dP Differential Phase Error

DC Performance

V

OS

TCV

OS

A

E

RF, R

G

Input Characteristics

CMIR Common Mode Input Range ±3V ±3.3V V

+I

IN

-I

IN

R

IN

C

IN

Output Characteristics

V

O

I

OUT

Supply

Is

ON

PSRR Power Supply Rejection Ratio DC, VS = ±4.75V to ±5.25V 55 75 dB

-IPSR - Input Current Power Supply Rejection DC, VS = ±4.75V to ±5.25V -2 2 µA/V

1. Standard NTSC test, AC signal amplitude = 286mV

= 150Ω, T

L

= 25°C unless otherwise specified.

A

AV = -1 400 MHz

AV = +2 400 MHz

= -2.5V to +2.5V, AV = -1 9 ns

OUT

Input Voltage Noise 3.8 nV/√Hz

[1]

[1]

AV = +2 0.035 %

AV = +2 0.04 °

Offset Voltage -15 1 15 mV

Input Offset Voltage Temperature Coefficient Measured from T

MIN

to T

MAX

5 µV/°C

Gain Error VO = -3V to +3V -2 1.3 2 %

Internal RF and R

G

320 400 480 Ω

+ Input Current -120 40 120 µA

- Input Current -40 4 40 µA

Input Resistance at I

+ 27 kΩ

N

Input Capacitance 0.5 pF

Output Voltage Swing R

Output Current R

Supply Current No Load, V

P-P

= 150Ω to GND ±3.4V ±3.7V V

L

R

= 1KΩ to GND ±3.8V ±4.0V V

L

= 10Ω to GND 95 120 mA

L

= 0V 8 9 10.5 mA

IN

, f = 3.58MHz

2

Typical Performance Curves

EL5196C - Preliminary

EL5196C - Preliminary

Single 400MHz Fixed Gain Amplifier

Frequency Response (Gain)
SOT23 Package

6

2

-2

-6

Normalized Magnitude (dB)

-10
RL=150Ω

-14

1M 10M 100M 1G

Frequency (Hz)

Frequency Response for Various C

14

AV=2
RL=150Ω

10

6

2

Normalized Magnitude (dB)

-2

-6
1M 10M 100M 1G

Frequency (Hz)

AV=-1

AV=2

AV=1

L

8pF added

4pF added

0pF added

Frequency Response (Phase)
SOT23 Package

90

0

-90

Phase (°)

-180

-270
RL=150Ω

-360

1M 10M 100M 1G

Frequency (Hz)

Group Delay vs Frequency, All Gains

-3.5
RL=150Ω

-3

-2.5

-2

-1.5

Delay (ns)

-1

-0.5

0

1M 10M 100M 1G

Frequency (Hz)

All Gains

All Gains

Frequency Response for Various Common-mode Input
Voltages

6

2

-2

-6

Normalized Magnitude (dB)

-10
AV=2

RL=150Ω

-14

1M 10M 100M 1G

Frequency (Hz)

VCM=3V

VCM=-3V

VCM=0V

Transimpedance (ROL) vs Frequency

10M

1M

100k

10k

Magnitude (Ω)

1k

100

1k

10k 100k 1M 10M 100 1G

Phase

Gain

Frequency (Hz)

0

-90

-180
Phase (°)

-270

-360

3

EL5196C - Preliminary

Single 400MHz Fixed Gain Amplifier

Typical Performance Curves

EL5196C - Preliminary

PSRR and CMRR vs Frequency

20

0

-20

-40

PSRR/CMRR (dB)

-60

-80
10k 100k 1M 10M 1G100M

Peaking vs Supply Voltage

4

3

2

Peaking (dB)

1

RL=150Ω

0

5 6 7 108 9

PSRR-

Frequency (Hz)

AV=1

AV=2 AV=-1

Total Supply Voltage (V)

PSRR+

CMRR

-3dB Bandwidth vs Supply Voltage

450

AV=-1AV=1

400

350

-3dB Bandwidth (MHz)

RL=150Ω

300

5 6 7 10

Total Supply Voltage (V)

-3dB Bandwidth vs Temperature

600

500

400

300

200

-3dB Bandwidth (MHz)
100

RL=150Ω

0

-40 10 60 160
Ambient Temperature (°C)

AV=2

8 9

110

Peaking vs Temperature

0.6
RL=150Ω

0.5

0.4

0.3

Peaking (dB)

0.2

0.1

0

-40 10 60 160110
Ambient Temperature (°C)

Voltage and Current Noise vs Frequency

1000

in-

in+

e

n

Frequency (Hz)

100

10

Voltage Noise (nV/√Hz)

, Current Noise (pA/√Hz)

1
100

1000 10k 100k 10M1M

4

Typical Performance Curves

EL5196C - Preliminary

EL5196C - Preliminary

Single 400MHz Fixed Gain Amplifier

Closed Loop Output Impedance vs Frequency

100

10

1

0.1

Output Impedance (Ω)

0.01

0.001
100 10k 100M 1G1M

2nd and 3rd Harmonic Distortion vs Frequency

-10
AV=+2

-20
V

=2V

OUT

RL=100Ω

-30

-40

-50

-60

-70

Harmonic Distortion (dBc)

-80

-90

1

Frequency (Hz)

P-P

Frequency (MHz)

2nd Order
Distortion

3rd Order
Distortion

10 100

200

Supply Current vs Supply Voltage

10

8

6

4

2

Supply Current (mA)

0

-2
0

Two-tone 3rd Order
Input Referred Intermodulation Intercept (IIP3)

30
25
20
15
10

5
0

-5

Input Power Intercept (dBm)

AV=+2

AV=+2
RL=150Ω

RL=100Ω

-10

-15
10

Supply Voltage (V)

Frequency (MHz)

122 10864

100 200

Differential Gain/Phase vs DC Input
Voltage at 3.58MHz

0.03
AV=2

0.02

RF=RG=250Ω
RL=150Ω

0.01

0

-0.01

-0.02

dG (%) or dP (°)

-0.03

-0.04

-0.05

-1 -0.5 0 0.5 1
DC Input Voltage

Differential Gain/Phase vs DC Input
Voltage at 3.58MHz

0.03

dP

dG

AV=1

0.02

RF=375Ω
RL=500Ω

0.01

0

-0.01

dG (%) or dP (°)

-0.02

-0.03

-0.04

-1 -0.5 0 0.5 1
DC Input Voltage

dP

dG

5