Product Info
LTE Standard Module Series
EG95 Series Hardware Design
EG95_Series_Hardware_Design
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Module
ANT_MAIN
R1 0R
Main
antenna
C1
C2
NM
NM
ANT_DIV
R2 0R
Diversity
antenna
C3
C4
NM
NM
Figure 30: Reference Circuit of RF Antenna Interface
NOTES
1. Keep a proper distance between the main antenna and the Rx-diversity antenna to improve the
receiving sensitivity.
2. ANT_DIV function is enabled by default. AT+QCFG="divctl",0 command can be used to disable
receive diversity. Please refer to document [2] for details.
3. Place the π-type matching components (R1&C1&C2, R2&C3&C4) as close to the antenna as
possible.
5.1.4. Reference Design of RF Layout
For user’s PCB, the characteristic impedance of all RF traces should be controlled to 50 Ω. The impedance
of the RF traces is usually determined by the trace width (W), the materials’ dielectric constant, the height
from the reference ground to the signal layer (H), and the spacing between RF traces and grounds (S).
Microstrip or coplanar waveguide is typically used in RF layout to control characteristic impedance. The
following are reference designs of microstrip or coplanar waveguide with different PCB structures.
Figure 31: Microstrip Design on a 2-layer PCB