FCC Transparent Controller
MPC8260 PowerQUICC II Family Reference Manual, Rev. 2
Freescale Semiconductor 37-3
following the 8-bit SYNC. This effectively links the transmitter synchronization to the receiver
synchronization.
37.3.2 External Synchronization Signals
If GFMR[SYNL] = 00, an external signal is used to begin the sequence. CTS is used for the transmitter
and CD is used for the receiver; these signals share the following sampling options.
The pulse/envelope option determines whether CD or CTS need to be asserted only once to begin
reception/transmission or whether they must be asserted and stay that way for the duration of the
transparent frame. This option is controlled by the CDP and CTSP bits of the GFMR. If the user
expects a continuous stream of data without interruption, the pulse option should be used.
However, if the user needs to identify frames of transparent data, the envelope mode of the these
signals should be used. Note that the first bit of a frame is transmitted as zero every time RTS is
asserted before CTS is asserted (GFMR[CTSS] = 1); subsequent data bits are sent accurately.
Similarly, if CTS is in pulse mode (GFMR[CTSP] = 1), only the first frame is affected. If CTS is
not in pulse mode (GFMR[CTSP] = 0), every frame is affected separately. Note that if NRZI
encoding is used (GFMR[TENC]=01), RTS must be asse rted b efore CTS, or else the first bit of the
frame might be corrupted.
The sampling option determines the delay between CD and CTS being asserted and the resulting
action by the FCC. These signals can be assumed to be asynchronous to the data and then internally
synchronized by the FCC, or they can be assumed to be synchronous to the data giving faster
operation. This option allows the RTS of one FCC to be connected to the CD of another FCC (on
another PowerQUICC II) and to have the data synchronized and bit aligned. It is also an option to
link the transmitter synchronization to the receiver synchronization.
When working with the FCC receiver in envelope mode, RTS should be asserted for at least 3 clock cycles
between frames. Otherwise, the receiver cannot recognize the start of a new frame. Diagrams for the
pulse/envelope and sampling options are in Section 29.11, “FCC Timing Control.”
37.3.3 Transparent Synchronization Ex ample
Figure 37-2 shows an example of synchronization using external signals.