OPA681N BURR-BROWN [Burr-Brown Corporation], OPA681N Datasheet - Page 17

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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reduce the available output voltage swing. A 5

resistor in each power supply lead will limit the internal

power dissipation to less than 1W for an output short circuit

while decreasing the available output voltage swing only

0.5V for up to 100mA desired load currents. Always place

the 0.1 F power supply decoupling capacitors after these

supply current limiting resistors directly on the supply pins.

DRIVING CAPACITIVE LOADS

One of the most demanding and yet very common load

conditions for an op amp is capacitive loading. Often, the

capacitive load is the input of an A/D converter—including

additional external capacitance which may be recommended

to improve A/D linearity. A high speed, high open-loop gain

amplifier like the OPA681 can be very susceptible to de-

creased stability and closed-loop response peaking when a

capacitive load is placed directly on the output pin. When

the amplifier’s open-loop output resistance is considered,

this capacitive load introduces an additional pole in the

signal path that can decrease the phase margin. Several

external solutions to this problem have been suggested.

When the primary considerations are frequency response

flatness, pulse response fidelity and/or distortion, the sim-

plest and most effective solution is to isolate the capacitive

load from the feedback loop by inserting a series isolation

resistor between the amplifier output and the capacitive

load. This does not eliminate the pole from the loop re-

sponse, but rather shifts it and adds a zero at a higher

frequency. The additional zero acts to cancel the phase lag

from the capacitive load pole, thus increasing the phase

margin and improving stability.

The Typical Performance Curves show the recommended

at the load. Parasitic capacitive loads greater than 2pF can

begin to degrade the performance of the OPA681. Long PC

board traces, unmatched cables, and connections to multiple

devices can easily cause this value to be exceeded. Always

consider this effect carefully, and add the recommended

series resistor as close as possible to the OPA681 output pin

(see Board Layout Guidelines).

DISTORTION PERFORMANCE

The OPA681 provides good distortion performance into a

100

tions, it provides exceptional performance into lighter loads

and/or operating on a single +5V supply. Generally, until the

fundamental signal reaches very high frequency or power

levels, the 2nd harmonic will dominate the distortion with a

negligible 3rd harmonic component. Focusing then on the

2nd harmonic, increasing the load impedance improves

distortion directly. Remember that the total load includes the

feedback network—in the non-inverting configuration (Fig-

ure 1) this is the sum of R

configuration it is just R

supply de-coupling capacitor (0.1 F) between the supply

pins (for bipolar operation) improves the 2nd-order distor-

tion slightly (3dB to 6dB).

vs Capacitive Load and the resulting frequency response

load on 5V supplies. Relative to alternative solu-

. Also, providing an additional

+ R

, while in the inverting

series

In most op amps, increasing the output voltage swing in-

creases harmonic distortion directly. The Typical Perfor-

mance Curves show the 2nd harmonic increasing at a little

less than the expected 2X rate while the 3rd harmonic

increases at a little less than the expected 3X rate. Where the

test power doubles, the difference between it and the 2nd

harmonic decreases less than the expected 6dB while the

difference between it and the 3rd decreases by less than the

expected 12dB. This also shows up in the 2-tone, 3rd-order

intermodulation spurious (IM3) response curves. The 3rd-

order spurious levels are extremely low at low output power

levels. The output stage continues to hold them low even as

the fundamental power reaches very high levels. As the

Typical Performance Curves show, the spurious

intermodulation powers do not increase as predicted by a

traditional intercept model. As the fundamental power level

increases, the dynamic range does not decrease significantly.

For two tones centered at 20MHz, with 10dBm/tone into a

matched 50

which requires 8Vp-p for the overall 2-tone envelope at the

output pin), the Typical Performance Curves show 62dBc

difference between the test-tone power and the 3rd-order

intermodulation spurious levels. This exceptional perfor-

mance improves further when operating at lower frequen-

cies.

NOISE PERFORMANCE

Wideband current feedback op amps generally have a higher

output noise than comparable voltage feedback op amps.

The OPA681 offers an excellent balance between voltage

and current noise terms to achieve low output noise. The

inverting current noise (15pA/ Hz) is significantly lower

than earlier solutions while the input voltage noise

(2.2nV/ Hz) is lower than most unity gain stable, wideband,

voltage feedback op amps. This low input voltage noise was

achieved at the price of higher non-inverting input current

noise (12pA/ Hz). As long as the AC source impedance

looking out of the non-inverting node is less than 100 , this

current noise will not contribute significantly to the total

output noise. The op amp input voltage noise and the two

input current noise terms combine to give low output noise

under a wide variety of operating conditions. Figure 9 shows

the op amp noise analysis model with all the noise terms

FIGURE 9. Op Amp Noise Analysis Model.

4kTR

4kT

load (i.e., 2Vp-p for each tone at the load,

OPA681

4kT = 1.6E –20J

at 290°K

4kTR

OPA681N BURR-BROWN [Burr-Brown Corporation], OPA681N Datasheet - Page 17

OPA681N

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