OPA4820ID Datasheet, PDF(21/34 Page) Texas Instruments – Quad, Unity-Gain Stable, Low-Noise, Voltage-Feedback Operational Amplifier

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OPA4820ID Datasheet, PDF (21/34 Pages) Texas Instruments – Quad, Unity-Gain Stable, Low-Noise, Voltage-Feedback Operational Amplifier

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OPA4820

www.ti.com

Another type of filter, a high-Q bandpass filter, is shown in

Figure 16. The transfer function for this filter is:

V OUT

V IN

)

s R3)R4

R1R4C1

) 1

R1C1

R2R4R5C1C2

(5)

with

wO2

R2R4R5C1C2

(6)

and

R1C1

(7)

For the values chosen in Figure 16:

fO +

]

1MHz

(8)

and Q = 100

See Figure 17 for the frequency response of the filter

shown in Figure 16.

1/4

OPA4820

1000pF

500â¦

158â¦

15.8kâ¦

VIN

158â¦

1000pF

1/4

OPA4820

VOUT

Figure 16. High-Q 1MHz Bandpass Filter

â6

â12

â18

â24

â30

â36

â42

â48

â54

â60

â66

â72

100k

10M

Frequency (Hz)

100M

Figure 17. High-Q 1MHz Bandpass Filter

Frequency Response

SBOS317D â SEPTEMBER 2004 â REVISED AUGUST 2008

DESIGN-IN TOOLS

DEMONSTRATION FIXTURES

Two printed circuit boards (PCBs) are available to assist

in the initial evaluation of circuit performance using the

OPA4820 in its two package options. Both of these are

offered free of charge as unpopulated PCBs, delivered

with a userâs guide. The summary information for these

fixtures is shown in the table below.

LITERATURE

PRODUCT PACKAGE ORDERING NUMBER NUMBER

OPA4820ID

SO-14

DEM-OPA-SO-4A

SBOU016

OPA4820IPW TSSOP-14 DEM-OPA-TSSOP-4A SBOU017

The demonstration fixtures can be requested at the Texas

Instruments web site (www.ti.com) through the OPA4820

product folder.

MACROMODELS AND APPLICATIONS

SUPPORT

Computer simulation of circuit performance using SPICE

is often a quick way to analyze the performance of the

OPA4820 and its circuit designs. This is particularly true for

video and RF amplifier circuits where parasitic capaci-

tance and inductance can play a major role on circuit

performance. A SPICE model for the OPA4820 is

available through the TI web page (www.ti.com). The

applications department is also available for design

assistance. These models predict typical small-signal AC,

transient steps, DC performance, and noise under a wide

variety of operating conditions. The models include the

noise terms found in the electrical specifications of the

data sheet. These models do not attempt to distinguish

between the package types in their small-signal AC

performance.

OPERATING SUGGESTIONS

OPTIMIZING RESISTOR VALUES

Since the OPA4820 is a unity-gain stable, voltage-feed-

back op amp, a wide range of resistor values may be used

for the feedback and gain-setting resistors. The primary

limits on these values are set by dynamic range (noise and

distortion) and parasitic capacitance considerations. Usu-

ally, the feedback resistor value should be between 200â¦

and 1kâ¦. Below 200â¦, the feedback network will present

additional output loading which can degrade the harmonic

distortion performance of the OPA4820. Above 1kâ¦, the

typical parasitic capacitance (approximately 0.2pF)

across the feedback resistor may cause unintentional

band limiting in the amplifier response. A 25â¦ feedback

resistor is suggested for AV = +1V/V.

A good rule of thumb is to target the parallel combination

of RF and RG (see Figure 1) to be less than about 200â¦.

The combined impedance RF || RG interacts with the

inverting input capacitance, placing an additional pole in

the feedback network, and thus a zero in the forward

▷