EL5410CR Intersil, EL5410CR Datasheet - Page 11

EL5410CR

Manufacturer Part Number

EL5410CR

Description

IC OP AMP QUAD 30MHZ R-R 14TSSOP

Manufacturer

Intersil

Datasheet

1.EL5210CY.pdf (16 pages)

Specifications of EL5410CR

Amplifier Type

Voltage Feedback

Number Of Circuits

Output Type

Rail-to-Rail

Slew Rate

33 V/µs

Gain Bandwidth Product

20MHz

-3db Bandwidth

30MHz

Current - Input Bias

2nA

Voltage - Input Offset

3000µV

Current - Supply

2.5mA

Current - Output / Channel

30mA

Voltage - Supply, Single/dual (±)

4.5 V ~ 16.5 V, ±2.25 V ~ 8.25 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

14-TSSOP

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Meier Automation Equipment Co., Limited

Part Number:

EL5410CR

Manufacturer:

INTERSIL

Quantity:

20 000

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

EL5410CRZ

Manufacturer:

Intersil

Quantity:

1 950

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Applications Information

Product Description

The EL5210 and EL5410 voltage feedback amplifiers are

fabricated using a high voltage CMOS process. They exhibit

Rail-to-Rail input and output capability, are unity gain stable

and have low power consumption (2.5mA per amplifier).

These features make the EL5210 and EL5410 ideal for a

wide range of general-purpose applications. Connected in

voltage follower mode and driving a load of 1kΩ and 12pF,

the EL5210 and EL5410 have a -3dB bandwidth of 30MHz

while maintaining a 33V/µS slew rate. The EL5210 is a dual

amplifier while the EL5410 is a quad amplifier.

Operating Voltage, Input, and Output

The EL5210 and EL5410 are specified with a single nominal

supply voltage from 5V to 15V or a split supply with its total

range from 5V to 15V. Correct operation is guaranteed for a

supply range of 4.5V to 16.5V. Most EL5210 and EL5410

specifications are stable over both the full supply range and

operating temperatures of -40°C to +85°C. Parameter

variations with operating voltage and/or temperature are

shown in the typical performance curves.

The input common-mode voltage range of the EL5210 and

EL5410 extends 500mV beyond the supply rails. The output

swings of the EL5210 and EL5410 typically extend to within

100mV of positive and negative supply rails with load

currents of 5mA. Decreasing load currents will extend the

output voltage range even closer to the supply rails. Figure 1

shows the input and output waveforms for the device in the

unity-gain configuration. Operation is from ±5V supply with a

1kΩ load connected to GND. The input is a 10V

The output voltage is approximately 9.8V

Short Circuit Current Limit

The EL5210 and EL5410 will limit the short circuit current to

±120mA if the output is directly shorted to the positive or the

negative supply. If an output is shorted indefinitely, the power

dissipation could easily increase such that the device may

be damaged. Maximum reliability is maintained if the output

FIGURE 1. OPERATION WITH RAIL-TO-RAIL INPUT AND

OUTPUT

10µs

=±5V

=25°C

=10V

P-P

sinusoid.

EL5210, EL5410

continuous current never exceeds ±30mA. This limit is set by

the design of the internal metal interconnects.

Output Phase Reversal

The EL5210 and EL5410 are immune to phase reversal as

long as the input voltage is limited from V

+0.5V. Figure 2 shows a photo of the output of the device

with the input voltage driven beyond the supply rails.

Although the device's output will not change phase, the

input's overvoltage should be avoided. If an input voltage

exceeds supply voltage by more than 0.6V, electrostatic

protection diodes placed in the input stage of the device

begin to conduct and overvoltage damage could occur.

Power Dissipation

With the high-output drive capability of the EL5210 and

EL5410 amplifiers, it is possible to exceed the 125°C

'absolute-maximum junction temperature' under certain load

current conditions. Therefore, it is important to calculate the

maximum junction temperature for the application to

determine if load conditions need to be modified for the

amplifier to remain in the safe operating area.

The maximum power dissipation allowed in a package is

determined according to:

Where:

The maximum power dissipation actually produced by an IC

is the total quiescent supply current times the total power

supply voltage, plus the power in the IC due to the loads, or:

FIGURE 2. OPERATION WITH BEYOND-THE-RAILS INPUT

JMAX

AMAX

DMAX

= Thermal Resistance of the Package

= Maximum Ambient Temperature

= Maximum Junction Temperature

= Maximum Power Dissipation in the Package.

Σi V

[

DMAX

SMAX

-------------------------------------------- -

JMAX

(

10µs

+ V

–

AMAX

OUT

=±2.5V

=25°C

i )

- -0.5V to V

=6V

P-P

LOAD

July 5, 2007

]

FN7185.3

EL5410CR Intersil, EL5410CR Datasheet - Page 11

EL5410CR

Specifications of EL5410CR

Available stocks

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