Installation Instructions
LISA-U2 series - System Integration Manual
UBX-13001118 - R19 Early Production Information Design-In
Page 119 of 175
The transmission line should not have abrupt change to thickness and spacing to GND, but must be uniform
and routed as smoothly as possible
The transmission line must be routed in a section of the PCB where minimal interference from noise sources
can be expected
Route RF transmission line far from other sensitive circuits as it is a source of electromagnetic interference
Ensure solid metal connection of the adjacent metal layer on the PCB stack-up to main ground layer
Add GND vias around transmission line
Ensure no other signals are routed parallel to transmission line, or that other signals cross on adjacent metal
layer
If the distance between the transmission line and the adjacent GND area (on the same layer) does not
exceed 5 times the track width of the microstrip, use the “Coplanar Waveguide” model for 50 Ω
characteristic impedance calculation
Do not route microstrip line below discrete component or other mechanics placed on top layer
When terminating transmission line on antenna connector (or antenna pad) it is very important to strictly
follow the connector manufacturer’s recommended layout
GND layer under RF connectors and close to buried vias should be cut out in order to remove stray
capacitance and thus keep the RF line 50 Ω. In most cases the large active pad of the integrated antenna or
antenna connector needs to have a GND keep-out (i.e. clearance) at least on first inner layer to reduce
parasitic capacitance to ground. Note that the layout recommendation is not always available from
connector manufacturer: e.g. the classical SMA Pin-Through-Hole needs to have GND cleared on all the
layers around the central pin up to annular pads of the four GND posts. Check 50 Ω impedance of ANT and
ANT_DIV lines
Ensure no coupling occurs with other noisy or sensitive signals
The antenna for the Rx diversity should be carefully separated from the main Tx/Rx antenna to ensure that
uncorrelated signals are received at each antenna, because signal improvement is dependent on the cross
correlation and the signal strength levels between the two received signals. The distance between the two
antennas should be greater than half a wavelength of the lowest used frequency (i.e. distance greater than
~20 cm, for 2G/3G low bands) to distinguish between different multipath channels, for proper spatial
diversity implementation
Any RF transmission line on PCB should be designed for 50 Ω characteristic impedance.
Ensure no coupling occurs with other noisy or sensitive signals.