Figure 22-15. delayed rts mode, 5 using the time-slot assigner (tsa), Using the time-slot assigner (tsa) -21 – Freescale Semiconductor MPC8260 User Manual

SCC HDLC Mode

MPC8260 PowerQUICC II Family Reference Manual, Rev. 2

Freescale Semiconductor

22-21

Figure 22-15. Delayed RTS Mode

22.15.5 Using the Time-Slot Assigner (TSA)

HDLC bus controllers can be used with a time-division multiplexed transmission line and a local bus, as
shown in

Figure 22-16

. Local stations use time slots to communicate over the TDM transmission line;

stations that share a time slot use the HDLC bus protocol to control access to the local bus.

Figure 22-16. HDLC Bus TDM Transmission Line Configuration

The local SCCs in HDLC bus mode communicate only with the transmission line and not with each other.
The SCCs use the TSA of the serial interface, receiving and sending data over L1TXDx and L1RXDx.
Because collisions are still detected from the individual SCC CTS pin, it must be configured to connect to
the chosen SCC. Because the SCC only receives clocks during its time slot, CTS is sampled only during
the Tx clock edges of the particular SCC time slot.

TCLK

RTS active for
only 2 bit times

TXD

CTS

RTS

1st Bit

2nd Bit

3rd Bit

Collision

Local HDLC Bus

HDLC Bus

Controller

L1RXD

CTS

L1TXD

B

HDLC Bus

Controller

L1RXD

CTS

L1TXD

D

+ 3.3 V

R

NOTES:

1. All TXD pins of slave devices should be configured to open-drain in the port C parallel I/O port.
2. The TSA in the SI of each station is used to configure the preferred time slot.

Tx

Rx

Line Driver

HDLC Bus

Controller

L1RXD

CTS

L1TXD

C

HDLC Bus

Controller

L1RXD

CTS

L1TXD

A

Stations share time-slot n

Stations share time-slot m

3. The choice of the number of stations to share a time slot is user-defined. It is two in this example.