Si4712/13-B30
Rev. 1.1
29
recommended that the user keep SEN
 low until all bytes
have transferred. However, it will not disrupt the
protocol if SEN
 temporarily goes high at any time, as
long as the user does not change the state of SCLK
while SEN
 is high. After 16 bytes have been read, the
user raises SEN
 after the last falling edge of SCLK to
end the transaction.
At the end of any SPI transaction, the user must drive
SEN
 high after the final falling edge of SCLK. At any
time during a transaction, if SEN
 is sampled high by the
device on a rising edge of SCLK, the transaction will be
aborted. When SEN
 is high, SCLK may toggle without
affecting the device.
For details on timing specifications and diagrams, refer
to Figure 6 and Figure 7 on page 10.
5.12.3. 3-Wire Control Interface Mode
When selecting 3-wire mode, the user must ensure that
a rising edge of SCLK does not occur within 300 ns
before the rising edge of RST
.
3-wire bus mode uses the SCLK, SDIO and SEN
 pins.
A transaction begins when the system controller drives
SEN
  low. Next, the system controller drives a 9-bit
control word on SDIO, which is captured by the device
on rising edges of SCLK. The control word is comprised
of a three bit chip address (A7:A5 = 101b), a read/write
bit (write = 0, read = 1), the chip address (A4 = 0), and a
four bit register address (A3:A0).
For write operations, the control word is followed by a
16-bit data word, which is captured by the device on
rising edges of SCLK.
For read operations, the control word is followed by a
delay of one-half SCLK cycle for bus turnaround. Next,
the Si4712/13 drives the 16-bit read data word serially
on SDIO, changing the state of SDIO on each rising
edge of SCLK.
A transaction ends when the user sets SEN
 high, then
pulses SCLK high and low one final time. SCLK may
either stop or continue to toggle while SEN
 is high.
In 3-wire mode, commands are sent by first writing each
argument to register(s) 0xA10xA3, then writing the
command word to register 0xA0. A response is
retrieved by reading registers 0xA80xAF.
For details on timing specifications and diagrams, refer
to Table 6, 3-Wire Control Interface Characteristics, on
page 9, Figure 4, 3-Wire Control Interface Write Timing
Parameters, on page 9, and Figure 5, 3-Wire Control
Interface Read Timing Parameters, on page 9.
5.13. GPO Outputs
The Si4712/13 provides three general-purpose output
pins. The GPO pins can be configured to output a
constant low, constant high, or high-Z. The GPO pins
are multiplexed with the bus mode pins or DCLK
depending   on   the   application   schematic   of   the
transmitter. GPO2/INT
  can be configured to provide
interrupts.
5.14. Reset, Powerup, and Powerdown
Setting the RST pin low will disable analog and digital
circuitry, reset the registers to their default settings, and
disable the bus. Setting the RST pin high will bring the
device out of reset and place it in powerdown mode.
A powerdown mode is available to reduce power
consumption when the part is idle. Putting the device in
powerdown mode will disable analog and digital circuitry
and   keep   the   bus   active.   For   more   information
concerning    Reset,    Powerup,    Powerdown,    and
Initialization, refer to AN332: Universal Programming
Guide.
5.15. Programming with Commands
To   ease   development   time   and   offer   maximum
customization, the Si4712/13 provides a simple yet
powerful software interface to program the transmitter.
The   device   is   programmed   using   commands,
arguments, properties, and responses.
To perform an action, the user writes a command byte
and associated arguments causing the chip to execute
the given command. Commands control actions, such
as powering up the device, shutting down the device, or
tuning to a station. Arguments are specific to a given
command and are used to modify the command. For
example,   after   the   TX_TUNE_FREQ   command,
arguments are required to set the tune frequency. A
complete list of commands is available in Table 17,
Si471x Command Summary, on page 30.
Properties are a special command argument used to
modify the default chip operation and are generally
configured immediately after powerup. Examples of
properties
are
TX_PREEMPHASIS
and
GPO_CONFIGURE. A complete list of properties is
available in Table 18, Si471x Property Summary, on
page 31.
Responses provide the user information and are
echoed after a command and associated arguments are
issued. At a minimum, all commands provide a one-byte
status update indicating interrupt and clear-to-send
status information. For a detailed description of using
the commands and properties of the Si4712/13, see
AN332: Universal Programming Guide.
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