LM6171AIM/NOPB National Semiconductor, LM6171AIM/NOPB Datasheet - Page 16
LM6171AIM/NOPB
Manufacturer Part Number
LM6171AIM/NOPB
Description
IC AMP HI SPD LOW PWR V FB 8SOIC
Manufacturer
National Semiconductor
Series
PowerWise®, VIP™ IIIr
Datasheet
1.LM6171BIMNOPB.pdf
(21 pages)
Specifications of LM6171AIM/NOPB
Amplifier Type
Voltage Feedback
Number Of Circuits
1
Slew Rate
3600 V/µs
Gain Bandwidth Product
100MHz
-3db Bandwidth
160MHz
Current - Input Bias
1µA
Voltage - Input Offset
1500µV
Current - Supply
2.5mA
Current - Output / Channel
116mA
Voltage - Supply, Single/dual (±)
5.5 V ~ 34 V, ±2.75 V ~ 17 V
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
8-SOIC (3.9mm Width)
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Output Type
-
Other names
*LM6171AIM
*LM6171AIM/NOPB
LM6171AIM
*LM6171AIM/NOPB
LM6171AIM
www.national.com
LM6171 Simplified Schematic
Application Information
LM6171 PERFORMANCE DISCUSSION
The LM6171 is a high speed, unity-gain stable voltage feed-
back amplifier. It consumes only 2.5 mA supply current while
providing a gain-bandwidth product of 100 MHz and a slew
rate of 3600V/µs. It also has other great features such as low
differential gain and phase and high output current. The
LM6171 is a good choice in high speed circuits.
The LM6171 is a true voltage feedback amplifier. Unlike
current feedback amplifiers (CFAs) with a low inverting input
impedance and a high non-inverting input impedance, both
inputs of voltage feedback amplifiers (VFAs) have high im-
pedance nodes. The low impedance inverting input in CFAs
will couple with feedback capacitor and cause oscillation. As
a result, CFAs cannot be used in traditional op amp circuits
such as photodiode amplifiers, I-to-V converters and integra-
tors.
LM6171 CIRCUIT OPERATION
The class AB input stage in LM6171 is fully symmetrical and
has a similar slewing characteristic to the current feedback
amplifiers. In the LM6171 Simplfied Schematic, Q1 through
Q4 form the equivalent of the current feedback input buffer,
R
buffers the inverting input. The triple-buffered output stage
isolates the gain stage from the load to provide low output
impedance.
LM6171 SLEW RATE CHARACTERISTIC
The slew rate of LM6171 is determined by the current avail-
able to charge and discharge an internal high impedance
node capacitor. The current is the differential input voltage
divided by the total degeneration resistor R
slew rate is proportional to the input voltage level, and the
higher slew rates are achievable in the lower gain configu-
rations.
E
the equivalent of the feedback resistor, and stage A
E
. Therefore, the
16
When a very fast large signal pulse is applied to the input of
an amplifier, some overshoot or undershoot occurs. By plac-
ing an external series resistor such as 1 kΩ to the input of
LM6171, the bandwidth is reduced to help lower the over-
shoot.
LAYOUT CONSIDERATION
Printed Circuit Boards and High Speed Op Amps
There are many things to consider when designing PC
boards for high speed op amps. Without proper caution, it is
very easy and frustrating to have excessive ringing, oscilla-
tion and other degraded AC performance in high speed
circuits. As a rule, the signal traces should be short and wide
to provide low inductance and low impedance paths. Any
unused board space needs to be grounded to reduce stray
signal pickup. Critical components should also be grounded
at a common point to eliminate voltage drop. Sockets add
capacitance to the board and can affect frequency perfor-
mance. It is better to solder the amplifier directly into the PC
board without using any socket.
Using Probes
Active (FET) probes are ideal for taking high frequency
measurements because they have wide bandwidth, high
input impedance and low input capacitance. However, the
probe ground leads provide a long ground loop that will
produce errors in measurement. Instead, the probes can be
grounded directly by removing the ground leads and probe
jackets and using scope probe jacks.
Components Selection And Feedback Resistor
It is important in high speed applications to keep all compo-
nent leads short because wires are inductive at high fre-
quency.
For
discrete
components,
01233610
choose
carbon
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