MT9079 Datasheet, PDF(19/54 Page) Mitel Networks Corporation – CMOS ST-BUS™ FAMILY Advanced Controller for E1

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MT9079 Datasheet, PDF (19/54 Pages) Mitel Networks Corporation – CMOS ST-BUS™ FAMILY Advanced Controller for E1

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MT9079

through bit 6 of the per time slot control words (pages

7 and 8).

c) DWM7-0 - Detect Word Mask 7 to 0 (page 1,

address 19H) is an eight bit code, which determines

the bits that will be considered in the comparison

between the receive data and the Code Detect Word

(CDW7-0). If one, the bit position will be included - if

zero, the bit position will be excluded.

The DATA interrupt vector value is 02H located on

page 4 address 12H.

Alarms

The MT9079 will detect and transmit the following

alarms:

a) Remote Alarm Indication - bit 3 (ALM) of the receive

NFAS;

b) Alarm Indication Signal - unframed all ones signal

for at least a double frame (512 bits) or two double

frames (1024 bits);

c) Channel 16 AIS - all ones signal in channel 16;

d) Auxiliary pattern - 101010... pattern for at least 512

bits;

e) Loss of Signal - a valid loss of signal condition

occurs when there is an absence of receive PCM 30

signal for 255 contiguous pulse (bit) positions from the

last received pulse. A loss of signal condition will

terminate when an average ones density of at least

12.5% has been received over a period of 255

contiguous pulse positions starting with a pulse; and

f) Remote Signalling Multiframe Alarm - bit 6 (Y-bit) of

the multiframe alignment signal.

Automatic Alarms

The transmission of RAI and signalling multiframe

alarms can be made to function automatically from

control bits ARAI and AUTY (page 1, address 11H).

When ARAI = 0 and basic frame synchronization is

lost (SYNC = 1), the MT9079 will automatically

transmit the RAI alarm signal to the far end of the link.

The transmission of this alarm signal will cease when

basic frame alignment is acquired.

When AUTY = 0 and signalling multiframe alignment is

not acquired (MFSYNC = 1), the MT9079 will

automatically transmit the multiframe alarm (Y-bit)

signal to the far end of the link. This transmission will

cease when signalling multiframe alignment is

acquired.

Interrupt

Category and

Vector

Interrupt Description

Synchronization

10000000

SYNI - Loss of Synchronization.

MFSYI - Loss of Multiframe Sync.

CSYNI - Loss of CRC-4 Sync.

RFALI - Remote CRC-4 Fail.

YI - Remote Multiframe Sync. Fail.

Alarm

01000000

RAII - Remote Alarm Indication.

AISI - Alarm Indication Signal.

AIS16I - AIS on Channel 16.

LOSI - Loss of Signal.

AUXPI - Auxiliary Pattern.

Counter Indication

00100000

EBI - Receive E-bit Error.

CRCI - CRC-4 Error.

CEFI - Consecutive Errored FASs.

FERI - Frame Alignment Signal Error.

BPVI - Bipolar Violation Error.

RCRI - RAI and Continuous CRC Error.

BERI - Bit Error.

Counter Overflow

00010000

EBO - Receive E-bit Error.

CRCO - CRC-4 Error.

FERO - Frame Alignment Signal.

BPVO - Bipolar Violation.

RCRO - RAI and Continuous CRC Error.

BERO - Bit Error

One Second

00001000

1SECI - One Second Timer.

CALNI - CRC-4 Multiframe Alignment.

SLIP

00000100

SLPI - Receive Slip.

Maintenance

00000010

STOP - Stop Accumulating Data.

STRT - Start Accumulating Data.

DATA - Data Match.

Signalling

00000001

SIGI - Receive Signalling Bit Change.

Table 7 - MT9079 Interrupt Vectors (IV7-IV0)

Interrupts

The MT9079 has an extensive suite of maskable

interrupts, which are divided into eight categories

based on the type of event that caused the interrupt.

Each interrupt category has an associated interrupt

vector described in Table 7. Therefore, when

unmasked interrupts occur, IRQ will go low and one or

more bits of the interrupt vector (page 4, address 12H)

will go high. In processor and controller modes after

4-255

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