Cooper S Convertible (R52) L4-1.6L SC (W11) (2005)
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Antenna, Radio: Description and Operation
Antenna Diversity
Aerial Amplifier With Diversity / Radio Reception
Radio reception
Unlike a domestic radio, a car radio is subject to constantly changing reception conditions (reflections). At one point reception is excellent, however,
reception may be very poor after just a short distance has been covered. Reception can be best tested by driving in a circle. In this way, the rear window
aerial is pointed in all directions.
Rear window aerial with aerial diversity
One aerial for AM (amplitude-modulated, medium wave) and three separate aerials for the FM range (frequency-modulated, VHF, FM1, FM2, FM3) are
connected in the aerial diversity option. The diversity amplifier only operates in FM mode and is powered by the radio via an internal conductor of the
intermediate frequency cable (IF cable). The three FM signals received are switched in the diversity amplifier through to the radio cyclically via the RF
line. Only when the FM band is selected, the radio sends feedback concerning the quality of the aerial signal received (via the intermediate frequency
signal) to the aerial diversity system. The aerial diversity system decides which of the three aerials has the best reception quality at present and switches
this aerial through to the radio until the next measuring cycle is carried out. The aerial (FM1) arranged vertically in the rear window is used if no
intermediate frequency signal (IF signal) is received.
Driving in circle
The diversity function of the aerial amplifier can be checked by driving in a circle. For this purpose, the vehicle must slowly trace the circle.
Procedure
Set station in FM range
Disconnect intermediate frequency cable (IF cable, smaller coaxial connector) from the aerial amplifier/diversity amplifier
Slowly drive in a circle until reception quality of the station selected deteriorates and then stop the vehicle (if there is no deterioration in reception with
the station selected, repeat the same procedure with a different, more suitable station)
Once a suitable station has been found and the point is reached where reception of the station is poor, the intermediate frequency cable (IF cable) must be
reconnected and, as a result, reception should improve significantly.
Reconnecting the intermediate frequency cable allows the diversity function in the aerial amplifier to select the aerial structure with the best reception.
When the intermediate frequency cable is disconnected, only one aerial structure is used and no search is implemented for the best possible aerial
structure.
Blocking Circuit, Rear-Window Antenna
Wave Trap / Radio Reception
Radio reception
Wave traps are required on the supply lines for the purpose of using the conductors of the rear window defroster for radio reception purposes. The wave
trap of the positive supply consists of a positive input and two outputs for the two heating sections of the rear window. A wave trap is also connected to
each of the connections of the two heating sections to ground.
Wave trap
The wave traps prevent the high frequency active aerial currents flowing via the positive or ground terminal. The wave traps also reduce conducted
interference from the rear window supply.
