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DS2152

031897 39/79

Each of the bit position in the Transmit Idle Registers

(TIR1/TIR2/TIR3) represent a DS0 channel in the out-

going frame. When these bits are set to a one, the corre-

sponding channel will transmit the Idle Code contained

in the Transmit Idle Definition Register (TIDR). Robbed

bit signaling and Bit 7 stuffing will occur over the pro-

grammed Idle Code unless the DS0 channel is made

transparent by the Transmit Transparency Registers.

The Transmit Idle Registers (TIRs) have an alternate

function that allow them to define a Per–Channel Loop-

Back (PCLB). If the TIRFS control bit (CCR4.0) is set to

one, then the TIRs will determine which channels (if

any) from the backplane should be replaced with the

data from the receive side or in other words, off of the T1

line. If this mode is enabled, then transmit and receive

clocks and frame syncs must be synchronized. One

method to accomplish this would be to tie RCLK to

TCLK and RFSYNC to TSYNC.

TIR1/TIR2/TIR3: TRANSMIT IDLE REGISTERS (Address=3C to 3E Hex)

[Also used for Per–Channel Loopback]

(MSB) (LSB)

CH8 CH7 CH6 CH5 CH4 CH3 CH2 CH1

CH16 CH15 CH14 CH13 CH12 CH11 CH10 CH9

CH24 CH23 CH22 CH21 CH20 CH19 CH18 CH17

SYMBOL POSITION NAME AND DESCRIPTION

CH24 TIR3.7 Transmit Idle Registers.

0=do not insert the Idle Code in the TIDR into this channel

CH1 TIR1.0 1 = insert the Idle Code in the TIDR into this channel

NOTE:

If CCR4.0=1, then a zero in the TIRs implies that channel data is to be sourced from TSER and a one implies that

channel data is to be sourced from the output of the receive side framer (i.e., Per–Channel Loopback; see Figure 1–1).

TIDR: TRANSMIT IDLE DEFINITION REGISTER (Address=3F Hex)

(MSB) (LSB)

TIDR7 TIDR6 TIDR5 TIDR4 TIDR3 TIDR2 TIDR1 TIDR0

SYMBOL POSITION NAME AND DESCRIPTION

TIDR7 TIDR.7 MSB of the Idle Code (this bit is transmitted first)

TIDR0 TIDR.0 LSB of the Idle Code (this bit is transmitted last)

8.1.2 Per–Channel Code Insertion

The second method involves using the Transmit Chan-

nel Control Registers (TCC1/2/3) to determine which of

the 24 T1 channels should be overwritten with the code

placed in the Transmit Channel Registers (TC1 to

TC24). This method is more flexible than the first in that

it allows a different 8–bit code to be placed into each of

the 24 T1 channels.

TIR1 (3C)

TIR2 (3D)

TIR3 (3E)