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SI4710-B30 Datasheet, PDF (25/40 Pages) Silicon Laboratories – Si4710/11-B30 FM RADIO TRANSMITTER
Si4710/11-B30
5.7. Pre-Emphasis and De-Emphasis
5.9. Tuning
Pre-emphasis and de-emphasis is a technique used by
FM broadcasters to improve the signal-to-noise ratio of
FM receivers by reducing the effects of high-frequency
interference and noise. When the FM signal is
transmitted, a pre-emphasis filter is applied to
accentuate the high audio frequencies. All FM receivers
incorporate a de-emphasis filter that attenuates high
frequencies to restore a flat frequency response. Two
time constants are used in various regions. The pre-
emphasis time constant is programmable to 50 or 75 µs
and is set by using the TX_PREEMPHASIS property.
5.8. RDS/RBDS Processor (Si4711 Only)
The Si4711 implements an RDS/RBDS* processor for
symbol encoding, block synchronization, and error
correction. Digital data can be transmitted with the
Si4711 RDS/RBDS encoding feature.
RDS transmission is supported with three different
modes. The first mode is the simplest mode and
requires no additional user support except for pre-
loading the desired RDS PI and PTY codes and up to
12 8-byte PS character strings. The Si4711 will transmit
the PI code and rotate through the transmission of the
PS character strings with no further control required
from outside the device. The second mode allows for
more complicated transmissions. The PI and PTY
codes are written to the device as in mode 1. The
remaining blocks (B, C, and D) are written to a 252 byte
buffer. This buffer can hold 42 sets of BCD blocks. The
Si4711 creates RDS groups by creating block A from
the PI code, concatenating blocks BCD from the buffer,
and rotating through the buffer. The BCD buffer is
circular; so, the pattern is repeated until the buffer is
changed. Finally, the third mode allows the outside
controller to burst data into the BCD buffer, which
emulates a FIFO. The data does not repeat, but, when
the buffer is nearly empty, the Si4711 signals the
outside device to initiate another data burst. This mode
permits the outside device to use any RDS functionality
(including open data applications) that it wants.
The frequency synthesizer uses Silicon Laboratories’
proven technology including a completely integrated
VCO. The frequency synthesizer generates the
quadrature local oscillator signal used to upconvert the
low intermediate frequency to RF. The VCO frequency
is locked to the reference clock and adjusted with an
automatic frequency control (AFC) servo loop during
transmission.
The tuning frequency can be directly programmed with
commands. For example, to tune to 98.1 MHz, the user
writes the TX_TUNE_FREQ command with an
argument = 9810.
The Si4710/11 supports channel spacing of 50, 100, or
200 kHz.
5.10. Reference Clock
The Si4710/11 reference clock is programmable,
supporting RCLK frequencies from 31.130 kHz to
40 MHz. The RCLK frequency divided by an integer
number (the prescaler value) must fall in the range of
31,130 to 34,406 Hz. Therefore, the range of RCLK
frequencies is not continuous below frequencies of
311.3 kHz. The default RCLK frequency is 32.768 kHz.
Please refer to “AN332: Universal Programming Guide”
for using other RCLK frequencies.
5.11. Control Interface
A serial port slave interface is provided; this allows an
external controller to send commands to the Si4710/11
and receive responses from the device. The serial port
can operate in three bus modes: 2-wire mode, SPI
mode, or 3-wire mode. The Si4710/11 selects the bus
mode by sampling the state of the GPO1 and
GPO2/INT pins on the rising edge of RST. The GPO1
pin includes an internal pull-up resistor that is
connected while RST is low, and the GPO2/INT pin
includes an internal pull-down resistor that is connected
while RST is low. Therefore, it is only necessary for the
user to actively drive pins that differ from these states.
*Note: RDS/RBDS is referred to only as RDS throughout the
remainder of this document.
Rev. 1.1
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