AD8651 Analog Devices, AD8651 Datasheet - Page 16

AD8651

Manufacturer Part Number

AD8651

Description

50 MHz, Precision, Low Distortion, Low Noise CMOS Amplifiers

Manufacturer

Analog Devices

Datasheet

1.AD8652.pdf (20 pages)

Specifications of AD8651

-3db Bandwidth

50MHz

Slew Rate

41V/µs

Vos

100µV

1pA

# Opamps Per Pkg

Input Noise (nv/rthz)

4.5nV/rtHz

Vcc-vee

2.7V to 5.5V

Isy Per Amplifier

9mA

Packages

SOIC,SOP

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AD8651/AD8652

Input Capacitance

Along with bypassing and grounding, high speed amplifiers can be

sensitive to parasitic capacitance between the inputs and ground. A

few picofarads of capacitance reduces the input impedance at high

frequencies, which in turn increases the amplifier gain, causing

peaking in the frequency response or oscillations. With the

AD865x, additional input damping is required for stability with

capacitive loads greater than 47 pF with direct input to output

feedback (see the Output Capacitance section).

Output Capacitance

When using high speed amplifiers, it is important to consider

the effects of the capacitive loading on amplifier stability.

Capacitive loading interacts with the output impedance of the

amplifier, causing reduction of the BW as well as peaking and

ringing of the frequency response. To reduce the effects of the

capacitive loading and allow higher capacitive loads, there are

two commonly used methods.

•

Table 5. Optimum Values for Driving Large Capacitive Loads

100 pF

500 pF

1.0 nF

As shown in Figure 56, place a small value resistor (R

series with the output to isolate the load capacitor from the

amplifier output. Heavy capacitive loads can reduce the

phase margin of an amplifier and cause the amplifier

response to peak or become unstable. The AD865x is able

to drive up to 47 pF in a unity gain buffer configuration

without oscillation or external compensation. However, if

an application requires a higher capacitive load drive when

the AD865x is in unity gain, the use of external isolation

networks can be used. The effect produced by this resistor

is to isolate the op amp output from the capacitive load.

The required amount of series resistance has been

tabulated in Table 5 for different capacitive loads. While

this technique improves the overall capacitive load drive

for the amplifier, its biggest drawback is that it reduces the

output swing of the overall circuit.

Figure 56. Driving Large Capacitive Loads

–

AD865x

–

50 Ω

35 Ω

25 Ω

OUT

) in

Rev. C | Page 16 of 20

•

Settling Time

The settling time of an amplifier is defined as the time it takes

for the output to respond to a step change of input and enter

and remain within a defined error band, as measured relative to

the 50% point of the input pulse. This parameter is especially

important in measurements and control circuits where amplifi-

ers are used to buffer A/D inputs or DAC outputs. The design of

the AD865x family combines a high slew rate and a wide gain

bandwidth product to produce an amplifier with very fast

settling time. The AD865x is configured in the noninverting

gain of 1 with a 2 V p-p step applied to its input. The AD865x

family has a settling time of about 130 ns to 0.01% (2 mV). The

output is monitored with a 10×, 10 M, 11.2 pF scope probe.

THD Readings vs. Common-Mode Voltage

Total harmonic distortion of the AD865x family is well below

0.0004% with any load down to 600 Ω. The distortion is a

function of the circuit configuration, the voltage applied, and

the layout, in addition to other factors. The AD865x family

outperforms its competitor for distortion, especially at

frequencies below 20 kHz, as shown in Figure 58.

0.0005

0.0002

0.0001

Another way to stabilize an op amp driving a large capacitive

load is to use a snubber network, as shown in Figure 57. Because

there is not any isolation resistor in the signal path, this method

has the significant advantage of not reducing the output swing.

The exact values of R

Figure 57, an optimum R

load drive ranging from 50 pF to 1 nF was chosen. For this,

0.005

0.002

0.001

0.05

0.02

0.01

0.1

= 3 Ω and C

200mV

Figure 58. Total Harmonic Distortion

100

= 10 nF were chosen.

AD865x

–

Figure 57. Snubber Network

OPA350

–

and C

FREQUENCY (Hz)

AD8651

and C

500

are derived experimentally. In

combination for a capacitive

OUT

= +3.5V/–1.5V

= 2.0V p-p

OUT

20k

AD8651 Analog Devices, AD8651 Datasheet - Page 16

AD8651

Specifications of AD8651

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