AD8554ARUZ Analog Devices Inc, AD8554ARUZ Datasheet - Page 19
AD8554ARUZ
Manufacturer Part Number
AD8554ARUZ
Description
IC OPAMP CHOPPER R-R 14TSSOP
Manufacturer
Analog Devices Inc
Datasheet
1.AD8551ARMZ-REEL.pdf
(24 pages)
Specifications of AD8554ARUZ
Slew Rate
0.4 V/µs
Amplifier Type
Chopper (Zero-Drift)
Number Of Circuits
4
Output Type
Rail-to-Rail
Gain Bandwidth Product
1.5MHz
Current - Input Bias
10pA
Voltage - Input Offset
1000µV
Current - Supply
850µA
Current - Output / Channel
30mA
Voltage - Supply, Single/dual (±)
2.7 V ~ 5.5 V
Operating Temperature
-40°C ~ 125°C
Mounting Type
Surface Mount
Package / Case
14-TSSOP
Op Amp Type
Zero Drift
No. Of Amplifiers
4
Bandwidth
1.5MHz
Supply Voltage Range
2.7V To 5.5V
Amplifier Case Style
TSSOP
No. Of Pins
14
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
-3db Bandwidth
-
Lead Free Status / RoHS Status
Lead free / RoHS Compliant, Lead free / RoHS Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Part Number:
AD8554ARUZ
Manufacturer:
ADI/亚德诺
Quantity:
20 000
Company:
Part Number:
AD8554ARUZ-REEL
Manufacturer:
AD
Quantity:
1 450
OUTPUT PHASE REVERSAL
Output phase reversal occurs in some amplifiers when the input
common-mode voltage range is exceeded. As common-mode
voltage moves outside of the common-mode range, the outputs
of these amplifiers suddenly jump in the opposite direction to
the supply rail. This is the result of the differential input pair
shutting down and causing a radical shifting of internal
voltages, resulting in the erratic output behavior.
The AD855x amplifiers have been carefully designed to prevent
any output phase reversal, provided both inputs are maintained
within the supply voltages. If there is the potential of one or
both inputs exceeding either supply voltage, place a resistor in
series with the input to limit the current to less than 2 mA to
ensure the output does not reverse its phase.
CAPACITIVE LOAD DRIVE
The AD855x family has excellent capacitive load driving
capabilities and can safely drive up to 10 nF from a single 5 V
supply. Although the device is stable, capacitive loading limits
the bandwidth of the amplifier. Capacitive loads also increase
the amount of overshoot and ringing at the output. An R-C
snubber network, shown in Figure 61, can be used to
compensate the amplifier against capacitive load ringing and
overshoot.
Although the snubber does not recover the loss of amplifier
bandwidth from the load capacitance, it does allow the
amplifier to drive larger values of capacitance while maintaining
a minimum of overshoot and ringing. Figure 62 shows the
output of an AD855x driving a 1 nF capacitor with and without
a snubber network.
Figure 61. Snubber Network Configuration for Driving Capacitive Loads
SNUBBER
SNUBBER
WITHOUT
WITH
Figure 62. Overshoot and Ringing are Substantially Reduced
200mV p-p
V
IN
10µs
Using a Snubber Network
5V
V
C
SY
LOAD
AD8551/
AD8552/
AD8554
= 5V
= 4.7nF
R
60Ω
C
0.47µF
X
X
C
4.7nF
L
100mV
V
OUT
Rev. D | Page 19 of 24
The optimum value for the resistor and capacitor is a function
of the load capacitance and is best determined empirically because
actual C
substantially from the nominal capacitive load. Table 5 shows
some snubber network values that can be used as starting points.
Table 5. Snubber Network Values for Driving Capacitive Loads
C
1 nF
4.7 nF
10 nF
POWER-UP BEHAVIOR
At power-up, the AD855x settles to a valid output within 5 μs.
Figure 63 shows an oscilloscope photo of the output of the
amplifier with the power supply voltage, and Figure 64 shows
the test circuit. With the amplifier configured for unity gain, the
device takes approximately 5 μs to settle to its final output
voltage. This turn-on response time is much faster than most
other autocorrection amplifiers, which can take hundreds of
microseconds or longer for their output to settle.
LOAD
V
OUT
0V
V+
0V
LOAD
BOTTOM TRACE = 2V/DIV
TOP TRACE = 1V/DIV
100kΩ
100kΩ
Figure 63. AD855x Output Behavior on Power-Up
Figure 64. AD855x Test Circuit for Turn-On Time
(C
L
) includes stray capacitances and may differ
5µs
R
200 Ω
60 Ω
20 Ω
X
AD8551/AD8552/AD8554
AD8551/
AD8552/
AD8554
V
SY
= 0V TO 5V
V
C
1 nF
0.47 μF
10 μF
OUT
X
1V
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