Bluetooth And Fm Rds Radio Module - Nokia RM-555 Service Manual

RM-555 engine clocks
SleepClk 32.768kHz
RFCLKEXT 38.4 MHz
SYSCLK 19.2 MHz

Bluetooth and FM RDS radio module

Bluetooth and FM radio receiver are provided by the same ASIC (Broadcom BCM2048). The device supports
Bluetooth operation and FM radio reception in both European/USA and Japanese bands (the appropriate
region-specific FM radio band is pre-configured in the phone software). The UART interface allows the device
to communicate with the phone baseband engine using Bluetooth HCI commands. Commands to the FM radio
can also be sent over the I2C interface.
When Bluetooth is switched on, the phone user interface the BT_RESETX line is toggled to reset the Bluetooth
device, and commands are sent over the UART interface to configure the device. If UART communication fails
(due to a hardware fault) it will not be possible to switch on Bluetooth from the phone user interface.
The device has two clock signals: SYS_CLK (19.2MHz, 26.0MHz, or 38.4MHz supported) and SLEEP_CLK
(32.768kHz). The SLEEP_CLK is supplied all the time the phone is switched on. To maximise the phone standby
time, it is only necessary to provide a SYS_CLK signal when Bluetooth activity occurs, such as sending Bluetooth
data to another device, or checking periodically if there are any other Bluetooth devices attempting to
communicate with it. At other times when the Bluetooth device is in standby mode or the FM radio is switched
on it is only necessary to provide a SLEEP_CLK signal. The Bluetooth-FM ASIC is powered from VIO supply. An
internal regulator is enabled when Bluetooth or FM radio is switched on.
Bluetooth audio signals are sent to and from the device using a PCM interface. The Bluetooth RF signal is
routed via a buried track to the Bluetooth antenna on the side of the PWB. An RF filter is needed between
the Bluetooth antenna and Bluetooth ASIC to prevent interference to and from the cellular phone antenna.
Phones that have both Bluetooth and WLAN use a shared antenna, as both services occupy the 2.4GHz ISM
frequency band. The co-existence signaling interface between Bluetooth and WLAN ASICs controls the RF
activity in the shared frequency band. The Bluetooth RF signal is routed to WLAN ASICs BT_RF port through
passive impedance matching circuits. The filtered common WLAN/Bluetooth RF signal is routed to the
diplexer. The other input of the diplexer is from GPS_RF. The output of the diplexer is routed to the common
antenna for GPS/WLAN/Bluetooth through the RF switch.
The audio signal from the FM radio is routed via the phone Audio ASIC to the phone headset or loudspeaker.
The external wired headset is also used as an Antenna for the FM radio. The FM radio receiver RF signal is
routed from the ASIC via a buried track to an impedance matching circuit placed near the headset connector.
The following block diagram shows how Bluetooth-FM is connected to the host engine.
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System Module and User Interface
RM-555
Issue 1