TOBY-L4 series - System Integration Manual
UBX-16024839 - R04
System description
Page 36 of 143
1.7
Antenna interfaces
1.7.1
Antenna RF interfaces (ANT1 / ANT2)
TOBY-L4 series modules provide two RF interfaces for connecting the external antennas:
The
ANT1
represents the primary RF input/output for transmission and reception of LTE/3G/2G RF signals.
The
ANT1
pin has a nominal characteristic impedance of 50
and must be connected to the primary Tx / Rx
antenna through a 50
transmission line to allow clean RF transmission and reception.
The
ANT2
represents the secondary RF input for the reception of the RF signals for CA, MIMO and Rx
diversity configurations supported by TOBY-L4 series modules as a required feature for LTE category 6 UEs.
The
ANT2
pin has a nominal characteristic impedance of 50
and must be connected to the secondary Rx
antenna through a 50
transmission line to allow for clean RF reception.
1.7.1.1
Antenna RF interfaces requirements
Table 8, Table 9 and Table 10 summarize the requirements for the antennas’ RF interfaces (
ANT1
/
ANT2
). See
section 2.4.1 for suggestions on how to correctly design antennas circuits which are compliant with these
requirements.
The antenna circuits affect the RF compliance of the device integrating TOBY-L4 series modules
with the applicable required certification schemes (for more details see section 4). Compliance is
guaranteed if the antenna RF interfaces (ANT1 / ANT2) requirements summarized in Table 8,
Table 9 and Table 10 are fulfilled.
Item
Requirements
Remarks
Impedance
50
nominal characteristic impedance
The impedance of the antenna RF connection must match the 50
impedance of the
ANT1
port.
Frequency Range
See the
TOBY-L4 series
Data Sheet
The required frequency range of the antenna connected to the
ANT1
port depends on the operating bands of the used cellular module and
the used mobile network.
Return Loss
S
11
< -10 dB (VSWR < 2:1) recommended
S
11
< -6 dB (VSWR < 3:1) acceptable
The Return loss or the S
11
, as the VSWR, refers to the amount of
reflected power, measuring how well the antenna RF connection
matches the 50
characteristic impedance of the
ANT1
port.
The impedance of the antenna termination must match as much as
possible the 50
nominal impedance of the
ANT1
port over the
operating frequency range, reducing as much as possible the amount
of reflected power.
Efficiency
> -1.5 dB ( > 70% ) recommended
> -3.0 dB ( > 50% ) acceptable
The radiation efficiency is the ratio of the radiated power to the power
delivered to antenna input: the efficiency is a measure of how well an
antenna receives or transmits.
The radiation efficiency of the antenna connected to the
ANT1
port
needs to be enough high over the operating frequency range to
comply with the Over-The-Air (OTA) radiated performance
requirements, as Total Radiated Power (TRP) and the Total Isotropic
Sensitivity (TIS), specified by applicable related certification schemes.
Maximum Gain
According to radiation exposure limits
The power gain of an antenna is the radiation efficiency multiplied by
the directivity: the gain describes how much power is transmitted in
the direction of peak radiation to that of an isotropic source.
The maximum gain of the antenna connected to
ANT1
port must not
exceed the herein stated value to comply with regulatory agencies’
radiation exposure limits.
Input Power
> 33 dBm ( > 2 W )
The antenna connected to the
ANT1
port must support with adequate
margin the maximum power transmitted by the modules.
Table 8: Summary of primary Tx/Rx antenna RF interface (ANT1) requirements