ISL28110 INTERSIL [Intersil Corporation], ISL28110 Datasheet - Page 15

ISL28110

Manufacturer Part Number

ISL28110

Description

Precision Low Noise JFET Operational Amplifiers

Manufacturer

INTERSIL [Intersil Corporation]

Datasheet

1.ISL28110.pdf (19 pages)

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rails but damage to the internal ESD protection diodes

can result unless these input currents are limited.

Maximizing Dynamic Signal Range

The amplifiers maximum undistorted output swing is a

figure of merit for precision, low distortion applications.

Audio amplifiers are a good example of amplifiers that

require low noise and low signal distortion over a wide

output dynamic range. When these applications operate

from batteries, raising the amplifier supply voltage to

overcome poor output voltage swing has the penalty of

increased power consumption and shorter battery life.

Amplifiers whose input and output stages can swing

closest to the power supply rails while providing low

noise and undistorted performance, will provide

maximum useful dynamic signal range and longer

battery life.

Rail-to-rail input and output (RRIO) amplifiers have the

highest dynamic signal range but their added complexity

degrades input noise and amplifier distortion. Many

contain two input pairs, one pair operating to each supply

rail. The trade-offs for these are increased input noise

and distortion caused by non-linear input bias current

and capacitance when amplifying high impedance

sources. Their rail-to-rail output stages swing to within a

few millivolts of the rail, but output impedances are high

so that their output swing decreases and distortion

increases rapidly with increasing load current. At heavy

load currents the maximum output voltage swing of RRO

op amps can be lower than a good emitter follower

output stage.

The ISL28110 and ISL28210 low noise input stage and

high performance output stage are optimized for low

THD+N into moderate loads over the full -40°C to

+125°C temperature range. Figures 17 and 18 show the

1kHz THD+N unity gain performance vs output voltage

swing at load resistances of 2kΩ and 600Ω. Figure 41

shows the unity-gain THD+N performance driving

600Ω from ±5V supplies.

FIGURE 41. UNITY-GAIN THD+N vs OUTPUT VOLTAGE

0.0001

0.001

0.01

0.1

= ±5V

= 600Ω

= 1

vs TEMPERATURE AT V

LOAD

P-P

+25°C

(V)

+85°C

+125°C

= ±5V FOR 600Ω

-40

ISL28110, ISL28210

°C

0°C

Power Dissipation

It is possible to exceed the +150°C maximum junction

temperatures under certain load and power supply

conditions. It is therefore important to calculate the

maximum junction temperature (T

applications to determine if power supply voltages, load

conditions, or package type need to be modified to

remain in the safe operating area. These parameters are

related using Equation 1:

where:

• P

• PD

where:

• T

• θ

• PD

• V

• I

• V

• R

JMAX

dissipation of each amplifier in the package (PD

Equation 2:

amplifier

application

qMAX

MAX

DMAXTOTAL

MAX

OUTMAX

MAX

= Load resistance

= Total supply voltage

= Thermal resistance of the package

= Maximum ambient temperature

= Maximum quiescent supply current of 1

for each amplifier can be calculated using

= Maximum power dissipation of 1 amplifier

MAX

= Maximum output voltage swing of the

is the sum of the maximum power

qMAX

xPD

(

MAXTOTAL

- V

OUTMAX

JMAX

)

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

) for all

OUTMAX

September 13, 2010

(EQ. 1)

(EQ. 2)

FN6639.0

MAX

)

ISL28110 INTERSIL [Intersil Corporation], ISL28110 Datasheet - Page 15

ISL28110

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