Datasheet
LMH6505
www.ti.com
SNOSAT4E –DECEMBER 2005–REVISED APRIL 2013
CIRCUIT LAYOUT CONSIDERATIONS & EVALUATION BOARDS
A good high frequency PCB layout including ground plane construction and power supply bypassing close to the
package is critical to achieving full performance. The amplifier is sensitive to stray capacitance to ground at the I
-
input (pin 7) so it is best to keep the node trace area small. Shunt capacitance across the feedback resistor
should not be used to compensate for this effect. Capacitance to ground should be minimized by removing the
ground plane from under the body of R
G
. Parasitic or load capacitance directly on the output (pin 6) degrades
phase margin leading to frequency response peaking.
The LMH6505 is fully stable when driving a 100Ω load. With reduced load (e.g. 1k.) there is a possibility of
instability at very high frequencies beyond 400 MHz especially with a capacitive load. When the LMH6505 is
connected to a light load as such, it is recommended to add a snubber network to the output (e.g. 100Ω and 39
pF in series tied between the LMH6505 output and ground). C
L
can also be isolated from the output by placing a
small resistor in series with the output (pin 6).
Component parasitics also influence high frequency results. Therefore it is recommended to use metal film
resistors such as RN55D or leadless components such as surface mount devices. High profile sockets are not
recommended.
Texas Instruments suggests the following evaluation board as a guide for high frequency layout and as an aid in
device testing and characterization:
Device Package Evaluation Board
Part Number
LMH6505 SOIC LMH730066
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