EL2244CSZ Datasheet EL2244CSZ | P4-P6

Supply Current

(per amplifier)

= ±15V, no load 25°C 5.2 7 mA

MIN

7.6 mA

MAX

7.6 mA

= ±5V, no load 25°C 5.0 mA

Input Resistance Differential 25°C 150 kΩ

Common-mode 25°C 15 MΩ

Input Capacitance A

= +1 @10MHz 25°C 1.0 pF

OUT

Output Resistance A

= +1 25°C 50 mΩ

PSOR Power-Supply Operating

Range

Dual-supply 25°C ±2.0 ±18.0 V

Single-supply 25°C 2.5 36.0 V

NOTE:

1. Measured from T

MIN

to T

MAX

DC Electrical Specifications V

= ±15V, R

= 1kΩ, unless otherwise specified. (Continued)

PARAMETER DESCRIPTION CONDITION TEMP MIN TYP MAX UNIT

Closed-Loop AC Electrical Specifications V

= ±15V, A

= +1, R

= 1kΩ, unless otherwise specified.

PARAMETER DESCRIPTION CONDITION TEMP MIN TYP MAX UNIT

BW -3dB Bandwidth

OUT

= 0.4V

)

= ±15V, A

= +1 25°C 120 MHz

= ±15V, A

= -1 25°C 60 MHz

= ±15V, A

= +2 25°C 60 MHz

= ±15V, A

= +5 25°C 12 MHz

= ±15V, A

= +10 25°C 6 MHz

= ±5V, A

= +1 25°C 80 MHz

GBWP Gain-Bandwidth Product V

= ±15V 25°C 60 MHz

= ±5V 25°C 45 MHz

PM Phase Margin R

= 1kΩ, C

= 10pF 25°C 50 °

CS Channel Separation f = 5MHz 25°C 85 dB

SR Slew Rate (Note 1) V

= ±15V, R

= 1kΩ 25°C 250 325 V/µs

= ±5V, R

= 500Ω 25°C 200 V/µs

FPBW Full-Power Bandwidth

(Note 2)

= ±15V 25°C 4.0 5.2 MHz

= ±5V 25°C 12.7 MHz

, t

Rise Time, Fall Time 0.1V step 25°C 3.0 ns

OS Overshoot 0.1V step 25°C 20 %

Propagation Delay 25°C 2.5 ns

Settling to +0.1% (A

= +1) V

= ±15V, 10V step 25°C 80 ns

= ±5V, 5V step 25°C 60 ns

dG Differential Gain (Note 3) NTSC/PAL 25°C 0.04 %

dP Differential Phase (Note 3) NTSC/PAL 25°C 0.15 °

eN Input Noise Voltage 10kHz 25°C 15.0 nV/√Hz

iN Input Noise Current 10kHz 25°C 1.50 pA/√Hz

NOTES:

1. Slew rate is measured on rising edge

2. For V

= ±15V, V

OUT

= 20V

. For V

= ±5V, V

OUT

= 5V

. Full-power bandwidth is based on slew rate measurement using: FPBW = SR /

(2π * Vpeak).

3. Video performance measured at V

= ±15V, A

= +2 with 2 times normal video level across R

= 150Ω. This corresponds to standard video

levels across a back-terminated 75Ω load. For other values of R

, see curves.

EL2244, EL2444

Typical Performance Curves

Non-Inverting

Frequency Response

Inverting Frequency Response

Frequency Response for

Various Load Resistances

Equivalent Input Noise

Settling Time vs

Output Voltage Change

2nd and 3rd Harmonic

Distortion vs Frequency

CMRR, PSRR and Closed-Loop

Output Resistance vs Frequency

Open-Loop Gain and

Phase vs Frequency

Output Voltage Swing

vs Frequency

Common-Mode Input Range

vs Supply Voltage

Supply Current vs

Supply Voltage

Output Voltage Range

vs Supply Voltage

EL2244, EL2444

Typical Performance Curves (Continued)

Gain-Bandwidth Product

vs Supply Voltage

Open-Loop Gain

vs Supply Voltage

Slew-Rate vs

Supply Voltage

Bias and Offset Current

vs Input Common-Mode Voltage

Open-Loop Gain

vs Load Resistance

Voltage Swing

vs Load Resistance

Supply Current

vs Temperature

Bias and Offset

Current vs Temperature

Offset Voltage

vs Temperature

Gain-Bandwidth Product

vs Temperature

Open-Loop Gain, PSRR

and CMRR vs Temperature

Slew Rate vs

Temperature

Short-Circuit Current

vs Temperature

Large-Signal

Step Response

Small-Signal

Step Response

EL2244, EL2444

P1-P3 P4-P6 P7-P9 P10-P11

EL2244CSZ

Mfr. #:

Buy EL2244CSZ

Manufacturer:

Renesas / Intersil

Description:

IC OPAMP VFB 2 CIRCUIT 8SOIC

Lifecycle:

New from this manufacturer.

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EL2244CSZ