Serial Interface with Time-Slot Assigner
MPC8260 PowerQUICC II Family Reference Manual, Rev. 2
15-28 Freescale Semiconductor
The basic rate IDL bus has the three following channels:
B1 is a 64-Kbps bearer channel
B2 is a 64-Kbps bearer channel
D is a 16-Kbps signaling channel
There are two definitions of the IDL bus frame structure—8 and 10 bits. The only difference between them
is the channel order within the frame. See Figure 15-23.
Figure 15-23. IDL Bus Signals
NOTE
Previous versions of Freescale IDL-defined bit functions called auxiliary
(A) and maintenance (M) were removed from the IDL definition when it
was concluded that the IDL control channel would be out-of-band. These
functions were defined as a subset of the Freescale SPI format called serial
control port (SCP). To implement the A and M bits as originally defined,
program the TSA to access these bits and route them transpar ently to an
SCC or SMC. Use the SPI to perform out-of-band signaling.
The PowerQUICC II supports all channels of the IDL bus in the basic rate. Each bit in the IDL frame can
be routed to any SCC and SMC or can assert a strobe output for supporting an external device. The
PowerQUICC II supports the request-grant method for contention detection on the D channel of the IDL
basic rate and when the PowerQUICCII has data to transmit on the D channel, it asserts L1RQx. The
physical layer device monitors the physical layer bus for activity on the D channel and indicates that the
channel is free by asserting L1GRx. The PowerQUICC II samples the L1GRx signal when the IDL sync
signal (L1RSYNCx) is asserted. If L1GRx is asserted, the PowerQUICC II sends the first z ero of the
opening flag in the first bit of the D channel. If a collision is detected on the D channel, the physical layer
L1CLK
L1SYNC
L1RXD
L1TXD
B1 D1
10-Bit IDL
D2
B1 D1 B2 D2
L1RXD
L1TXD
B1 D1
8-Bit IDL
D2
B1 B2 D2
B2
D1
B2
Notes:
1. Clocks are not to scale.
2. L1RQ
x
and L1GR
x
are not shown.