ADA4858-3ACPZ-R2 Analog Devices Inc, ADA4858-3ACPZ-R2 Datasheet - Page 16
ADA4858-3ACPZ-R2
Manufacturer Part Number
ADA4858-3ACPZ-R2
Description
IC, OP-AMP, 600MHZ, 600V/µs, LFCSP-16
Manufacturer
Analog Devices Inc
Datasheet
1.ADA4858-3ACPZ-R7.pdf
(20 pages)
Specifications of ADA4858-3ACPZ-R2
Op Amp Type
High Speed
No. Of Amplifiers
3
Bandwidth
600MHz
Slew Rate
600V/µs
Supply Voltage Range
3V To 5.5V
Amplifier Case Style
LFCSP
No. Of Pins
16
Amplifier Type
Current Feedback
Number Of Circuits
3
-3db Bandwidth
600MHz
Current - Input Bias
8µA
Voltage - Input Offset
500µV
Current - Supply
19mA
Current - Output / Channel
21mA
Voltage - Supply, Single/dual (±)
3 V ~ 5.5 V
Operating Temperature
-40°C ~ 105°C
Mounting Type
Surface Mount
Package / Case
16-LFCSP
Rohs Compliant
Yes
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Output Type
-
Gain Bandwidth Product
-
Lead Free Status / RoHS Status
Lead free / RoHS Compliant, Lead free / RoHS Compliant
ADA4858-3
PD (POWER-DOWN) PIN
The ADA4858-3 is equipped with a PD (power-down) pin for
all three amplifiers. This allows the user to reduce the quiescent
supply current when an amplifier is not active. The power-
down threshold levels are derived from ground level. The
amplifiers are powered down when the voltage applied to the
PD pin is greater than a certain voltage from ground. In a 5 V
supply application, the voltage is greater than 2 V, and in a 3.3 V
supply application, the voltage is greater than 1.5 V. The amplifier
is enabled whenever the PD pin is left floating (not connected).
If the PD pin is not used, it is best to leave it floating or connected
to ground. Note that the power-down feature does not control the
charge pump output voltage and current.
Table 6. Power-Down Voltage Control
PD Pin
Not Active
Active
POWER SUPPLY BYPASSING
Careful attention must be paid to bypassing the power supply
pins of the ADA4858-3. High quality capacitors with low
equivalent series resistance (ESR), such as multilayer ceramic
capacitors (MLCCs), should be used to minimize supply
voltage ripple and power dissipation. A large, usually tantalum,
capacitor between 2.2 μF to 47 μF located in proximity to the
ADA4858-3 is required to provide good decoupling for lower
frequency signals. The actual value is determined by the circuit
transient and frequency requirements. In addition, place 0.1 μF
MLCC decoupling capacitors as close to each of the power
supply pins and across from both supplies as is physically
possible, no more than 1/8 inch away. The ground returns
should terminate immediately into the ground plane. Placing
the bypass capacitor return close to the load return minimizes
ground loops and improves performance.
5 V
<1.5 V
>2 V
3.3 V
<1 V
>1.5 V
Rev. A | Page 16 of 20
LAYOUT
As is the case with all high speed applications, careful attention
to printed circuit board (PCB) layout details prevents associated
board parasitics from becoming problematic. The ADA4858-3 can
operate at up to 600 MHz; therefore, proper RF design techniques
must be employed. The PCB should have a ground plane covering
all unused portions of the component side of the board to provide a
low impedance return path. Removing the ground plane on all
layers from the area near and under the input and output pins
reduces stray capacitance. Keep signal lines connecting the
feedback and gain resistors as short as possible to minimize the
inductance and stray capacitance associated with these traces. Place
termination resistors and loads as close as possible to their
respective inputs and outputs. Keep input and output traces as
far apart as possible to minimize coupling (crosstalk) through the
board. Adherence to microstrip or stripline design techniques for
long signal traces (greater than 1 inch) is recommended. For
more information on high speed board layout, see “A Practical
Guide to High-Speed Printed-Circuit-Board Layout, ” Analog
Dialogue, Volume 39, Number 3, September 2005 at
www.analog.com.
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