Multi-Channel Controllers (MCCs)
MPC8260 PowerQUICC II Family Reference Manual, Rev. 2
Freescale Semiconductor 28-23
28.3.4.2 Signal Unit Error Monitor (SUERM)—SS7 Mode
The microcode maintains the signal unit error rate monitor as described in ITU-T Q.703 paragraph 10, and
ANSI T1.111-1996 paragraph 10.
The microcode uses SUERM, N, N_cnt, D, D_cnt and T parameters for the leaky-bucket implementation
of the SU error monitor.
After every N octets received while in octet counting mode, SUERM is incremented and an
interrupt request can be generated (SUERM) depending on the interrupt mask.
After D error-free frames have been received, SUERM is decremented. SUERM will not be
decremented below zero.
If SUERM reaches T, the SUERM is cleared and an interrupt is generated.
28.3.4.2.1 SUERM in Japanese SS7
The Japanese SS7 uses a time interval to monitor errors. If an error is present, it checks every 24 ms.
An error flag is set that indicates whether current frame is errored or not.
19 IDLM Idle mode.
0No idle patterns are transmitted between frames. After transmitting NOF+1 flags, the transmitter
starts sending the data of the frame. If the transmission is between frames and the frame buffers
are not ready, the transmitter sends flags until it can start transmitting the data received for SS7
operation.
1At least one idle pattern is sent between adjacent frames. The NOF value shall be no smaller
than the PAD setting, see TxBD. If NOF = 0, this is identical to flag sharing in SS7. Mode flags
precede the actual data. When IDLM = 1, at least one idle pattern is sent between adjacent
frames. If the transmission is between frames and the frame buffer is not ready, the transmitter
sends idle characters. When data is ready, the NOF+1 flags are sent followed by the data frame.
If IDLE mode is selected and NOF = 1, the following sequence is sent:
......init value, FF, FF, flag, flag, data, ........
The init value before the idle will be ones.
20-25 Reserved, should be cleared during initialization.
10 TS Receive time stamp. If this bit is set a 4 byte time stamp is written at the beginning of every data
buffer that the BD points to.If this bit is set the data buffer must start from an address equal to 8*n-4
(n is any integer larger than 0).
11–12 RQN Receive queue number. Specifies the receive interrupt queue number.
00 Queue number 0.
01 Queue number 1.
10 Queue number 2.
11 Queue number 3.
13–15 NOF Number of flags. NOF defines the minimum number of flags before frames:
000 - at least 1 flag
001 - at least 2 flags
....
111 - at least 8 flags
Note that items in bold must be initialized by the user.
Table28-11. ECHAMR Fields Description (continued)
Bits Name Description