lmh2100tmx National Semiconductor Corporation, lmh2100tmx Datasheet - Page 29
lmh2100tmx
Manufacturer Part Number
lmh2100tmx
Description
Logarithmic Power Detector For Cdma And Wcdma 6-pin Usmd T/r
Manufacturer
National Semiconductor Corporation
Datasheet
1.LMH2100TMX.pdf
(32 pages)
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Low frequency supply voltage variations due to PA switching
might result in a ripple at the output voltage. The LMH2100
has a Power Supply Rejection Ration of 60 dB for low fre-
quencies.
4.1.2 Ground (GND)
The LMH2100 needs a ground plane free of noise and other
disturbing signals. It is important to separate the RF ground
return path from the other grounds. This is due to the fact that
the RF input handles large voltage swings. A power level of
0 dBm will cause a voltage swing larger than 0.6 V
internal 50Ω input resistor. This will result in a significant RF
return current toward the source. It is therefore recommended
that the RF ground return path not be used for other circuits
in the design. The RF path should be routed directly back to
the source without loops.
4.2 RF Input Interface
The LMH2100 is designed to be used in RF applications,
having a characteristic impedance of 50Ω. To achieve this
impedance, the input of the LMH2100 needs to be connected
via a 50Ω transmission line. Transmission lines can be easily
created on PCBs using microstrip or (grounded) coplanar
waveguide (GCPW) configurations. This section will discuss
both configurations in a general way. For more details about
designing microstrip or GCPW transmission lines, a mi-
crowave designer handbook is recommended.
4.2.1 Microstrip Configuration
One way to create a transmission line is to use a microstrip
configuration. A cross section of the configuration is shown in
Figure 15, assuming a two layer PCB.
FIGURE 14. Recommended Board Layout
PP
, over the
29
A conductor (trace) is placed on the topside of a PCB. The
bottom side of the PCB has a fully copper ground plane. The
characteristic impedance of the microstrip transmission line
is a function of the width W, height H, and the dielectric con-
stant ε
Characteristics such as height and the dielectric constant of
the board have significant impact on transmission line dimen-
sions. A 50Ω transmission line may result in impractically wide
traces. A typical 1.6 mm thick FR4 board results in a trace
width of 2.9 mm, for instance. This is impractical for the
LMH2100, since the pad width of the 6-Bump micro SMD
package is 0.24 mm. The transmission line has to be tapered
from 2.9 mm to 0.24 mm. Significant reflections and reso-
nances in the frequency transfer function of the board may
occur due to this tapering.
4.2.2 GCPW Configuration
A transmission line in a (grounded) coplanar waveguide
(GCPW) configuration will give more flexibility in terms of
trace width. The GCPW configuration is constructed with a
conductor surrounded by ground at a certain distance, S, on
the top side. Figure 16 shows a cross section of this configu-
ration. The bottom side of the PCB is a ground plane. The
ground planes on both sides of the PCB should be firmly con-
r
.
FIGURE 15. Microstrip Configuration
30014090
30014080
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