OPA2652 Datasheet, PDF(10/23 Page) Burr-Brown (TI) – Dual, 700MHz, Voltage-Feedback OPERATIONAL AMPLIFIER

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OPA2652 Datasheet, PDF (10/23 Pages) Burr-Brown (TI) – Dual, 700MHz, Voltage-Feedback OPERATIONAL AMPLIFIER

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OPA2652

SBOS125A â JUNE 2000 â REVISED MAY 2006

APPLICATIONS INFORMATION

www.ti.com

Wideband Voltage Feedback Operation

The OPA2652 is a dual, low-power, wideband

voltage feedback operational amplifier. Each channel

is internally compensated to provide unity gain

stability. The OPA2652 voltage feedback architecture

features true differential and fully symmetrical inputs.

This architecture minimizes offset errors, making the

OPA2652 well-suited for implementing filter and

instrumentation designs. As a dual operational

amplifier, OPA2652 is an ideal choice for designs

that require multiple channels where reduction of

board space, power dissipation and cost are critical.

Its AC performance is optimized to provide a gain

bandwidth product of 200MHz and a fast rise time of

2.0ns, which is an important consideration in

high-speed data conversion applications. The low

DC input offset of Â±1.5mV and drift of Â±5ÂµV/Â°C

support high accuracy requirements. In applications

requiring a higher slew rate and wider bandwidth,

such as video and high bit rate digital

communications, consider the dual current feedback

OPA2694, or the OPA2691.

Figure 28 shows the DC-coupled, gain of +2, dual

power-supply circuit configuration used as the basis

of the Â±5V specifications and typical characteristics.

This configuration is for one channel. The other

channel is connected similarly. For test purposes, the

input impedance is set to 50â¦ with a resistor to

ground and the output impedance is set to 50â¦ with

a series output resistor.

+5V

0.1mF

6.8mF

50W Source

174W

49.9W

1/2

OPA2652

50W Load

VO 49.9W

0.1mF

402W

6.8mF

0.1mF

-5V

Figure 28. DC-Coupled, G = +2, Bipolar Supply,

Specification and Test Circuit

Voltage swings reported in the specifications are

taken directly at the input and output pins, while

output powers (dBm) are at the matched 50â¦ load.

For the circuit of Figure 28, the total effective load

will be 100â¦ || 804â¦. Two optional components are

included in Figure 28.

An additional resistor (174â¦) is included in series

with the noninverting input. Combined with the 25â¦

DC source resistance looking back towards the

signal generator, this additional resistor gives an

input bias current cancelling resistance that matches

the 201â¦ source resistance seen at the inverting

input (see the DC Accuracy and Offset Control

section). In addition to the usual power-supply

decoupling capacitors to ground, a 0.1ÂµF capacitor is

included between the two power-supply pins. In

practical printed circuit board (PCB) layouts, this

optional-added capacitor typically improves the

2nd-harmonic distortion performance by 3dB to 6dB.

Figure 29 shows the DC-coupled, gain of â1, bipolar

supply circuit configuration that is the basis of the

specifications and typical characteristics at G = â1.

The input impedance matching resistor (57.6â¦) used

for testing gives a 50â¦ input load. A resistor (205â¦)

connects the noninverting input to ground. This

configuration provides the DC source resistance

matching to cancel outputs errors arising from input

bias current.

+5V

0.1mF

6.8mF

0.1mF

205W

1/2

OPA2652

VO 49.9W

50W Load

50W

Source

402W

57.6W

402W

= -1

0.1mF

6.8mF

-5V

Figure 29. DC-Coupled, G = â1, Bipolar Supply,

Specification and Test Circuit

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