OPA681N BURR-BROWN [Burr-Brown Corporation], OPA681N Datasheet - Page 12

OPA681N

Manufacturer Part Number

OPA681N

Description

Wideband, Current Feedback OPERATIONAL AMPLIFIER With Disable

Manufacturer

BURR-BROWN [Burr-Brown Corporation]

Datasheet

1.OPA681N.pdf (21 pages)

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SINGLE-SUPPLY A/D CONVERTER INTERFACE

Most modern, high performance A/D converters (such as the

Burr-Brown ADS8xx and ADS9xx series) operate on a

single +5V (or lower) power supply. It has been a consider-

able challenge for single-supply op amps to deliver a low

distortion input signal at the ADC input for signal frequen-

cies exceeding 5MHz. The high slew rate, exceptional out-

put swing and high linearity of the OPA681 make it an ideal

single-supply ADC driver. Figure 3 shows an example input

interface to a very high performance 10-bit, 60MSPS CMOS

converter.

The OPA681 in the circuit of Figure 3 provides > 180MHz

bandwidth operating at a signal gain of +4 with a 2Vp-p

output swing. One of the primary advantages of the current

feedback internal architecture used in the OPA681 is that

high bandwidth can be maintained as the signal gain is

increased. The non-inverting input bias voltage is referenced

to the mid-point of the ADC signal range by dividing off the

top and bottom of the internal ADC reference ladder. With

the gain resistor (R

gain of +1 to the output, centering the output voltage swing

as well. Tested performance at a 20MHz analog input

frequency and a 60MSPS clock rate on the converter gives

> 58dBc SFDR.

WIDEBAND INVERTING SUMMING AMPLIFIER

Since the signal bandwidth for a current feedback op amp

may be controlled independently of the noise gain (NG,

which is normally the same as the non-inverting signal gain),

very broadband inverting summing stages may be imple-

mented using the OPA681. The circuit on the front page of

this data sheet shows an example inverting summing ampli-

fier where the resistor values have been adjusted to maintain

both maximum bandwidth and input impedance matching. If

each RF signal is assumed to be driven from a 50

the NG for this circuit will be (1 + 100 /(100 /5)) = 6. The

total feedback impedance (from V

current) is the sum of R

FIGURE 3. Wideband, AC-Coupled, Single-Supply A/D Driver.

OPA681

) AC-coupled, this bias voltage has a

0.5Vp-p

+ (R

0.1 F

x NG) where R

120

0.1 F

to the inverting error

+2.5V DC Bias

+5V

OPA681

360

source,

is the

DIS

2Vp-p

impedance looking into the inverting input from the sum-

ming junction (see Setting Resistor Values to Optimize

Performance section). Using 100 feedback (to get a signal

gain of –2 from each input to the output pin) requires an

additional 20 in series with the inverting input to increase

the feedback impedance. With this resistor added to the

typical internal R

100

value to get a maximum bandwidth flat frequency response

for NG = 6. Tested performance shows more than 200MHz

small signal bandwidth and a –1dBm compression of 15dBm

at the matched 50

WIDEBAND VIDEO MULTIPLEXING

One common application for video speed amplifiers which

include a disable pin is to wire multiple amplifier outputs

together, then select which one of several possible video

inputs to source onto a single line. This simple “Wired-OR

Video Multiplexer” can be easily implemented using the

OPA681 as shown in Figure 4.

Typically, channel switching is performed either on sync or

retrace time in the video signal. The two inputs are approxi-

mately equal at this time. The “make-before-break” disable

characteristic of the OPA681 ensures that there is always

one amplifier controlling the line when using a wired-OR

circuit like that shown in Figure 4. Since both inputs may be

on for a short period during the transition between channels,

the outputs are combined through the output impedance

matching resistors (82.5 in this case). When one channel is

disabled, its feedback network forms part of the output

impedance and slightly attenuates the signal in getting out

onto the cable. The gain and output matching resistor have

been slightly increased to get a signal gain of +1 at the

matched load and provide a 75

cable. The video multiplexer connection (Figure 4) also

insures that the maximum differential voltage across the

inputs of the unselected channel do not exceed the rated

1.2V maximum for standard video signal levels.

Clock

+ (65

22pF

+3.5V

0.1 F

+1.5V

0.1 F

x 6) = 490 , which is equal to the required

= 41 , the total feedback impedance is

load through 100MHz.

Input

REFT

REFB

Input

+5V

ADS823

60MSPS

10-Bit

output impedance to the

OPA681N BURR-BROWN [Burr-Brown Corporation], OPA681N Datasheet - Page 12

OPA681N

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