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CC2420 Datasheet, PDF (40/92 Pages) List of Unclassifed Manufacturers – 2.4 GHz IEEE 802.15.4 / ZigBee-ready RF Transceiver
Multiple data frames may be in the
RXFIFO simultaneously, as long as the
total number of bytes does not exceed
128.
See the RXFIFO overflow section on page
33 for details on how a RXFIFO overflow
is detected and signalled.
17.3 Unbuffered, serial mode
Unbuffered mode should be used for
evaluation / debugging purposes only.
Buffered mode is recommended for all
applications.
In unbuffered mode, the FIFO and FIFOP
pins are reconfigured as data and data
clock pins. The TXFIFO and RXFIFO
buffers are not used in this mode. A
synchronous data clock is provided by
CC2420 at the FIFOP pin, and the FIFO
pin is used as data input/output. The
FIFOP clock frequency is 250 kHz when
active. This is illustrated in Figure 22.
CC2420
In
serial
transmit
mode
(MDMCTRL1.TX_MODE=1),
a
synchronisation sequence is inserted at
the start of each frame by hardware, as in
buffered mode. Data is sampled by CC2420
on the positive edge of FIFOP and should
be updated by the microcontroller on the
negative edge of FIFOP. See Figure 22 for
an illustration of the timing in serial
transmit mode. The SFD and CCA pins
retain their normal operation also in serial
mode. CC2420 will remain in serial transmit
mode until transmission is turned off
manually.
In
serial
receive
mode
(MDMCTRL1.RX_MODE=1)
byte
synchronisation is still performed by
CC2420. This means that the FIFOP clock
pin will remain inactive until a start of
frame delimiter has been detected.
Incoming / outgoing
RF data
Transmit mode:
FIFOP
FIFO (from uC)
Preamble
SFD
4 us
s0
s1
s2
b0 b1 b2 b3 b4 b5 b6 b7 b8 b9 b10 b11 b8 b9 b10 b11
Receive mode:
FIFOP
FIFO (from CC2420)
Figure 22. Unbuffered test mode, pin activity
b0 b1 b2 b3 b4
SWRS041B
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