MT9079 Mitel Semiconductor, MT9079 Datasheet - Page 42
MT9079
Manufacturer Part Number
MT9079
Description
CMOS ST-BUS FAMILY Advanced Controller for E1
Manufacturer
Mitel Semiconductor
Datasheet
1.MT9079.pdf
(54 pages)
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MT9079
location. The BPV counter is cleared by writing zero
to location 1DH first and then writing zero to location
1CH of page 4.
The interrupt vector byte is then cleared by reading
it. This step ensures that interrupts that occurred
when the interface was not initialized will be cleared
before the MT9079 IRQ output is activated. The IRQ
output function is activated by making SPND low.
TAIS is now made high, which indicates to the far
end of the link that this end is functional.
It should be noted that Figure 12 is an initialization
example and does not imply that there is a rigid
sequence that must be followed.
PCM 30 Trunk and Timing Interface
Figure 13 shows the MT9079 connection to a generic
Line Interface Unit (LIU). The LIU has three
functions: 1) it converts the framed transmit signal to
4-278
C4
Figure 14 - Common Channel Signalling Control (Time Slot 16) through the MC68302
MT8980D
System Timing
C4i
Voice/Data Bus
CSTo
STon
STin
DTA
MT8980 P Interface
909
+5V
Figure 13 - PCM 30 Line Interface Unit (LIU)
DSTi
DSTo
F0i
C4i/C2i
E8ko
Address
Control
100
MT9079
Data
&
E2i
MC68302
TxA
TxB
RxA
RxB
Control
MT9079 P Interface
Port
to
100
the required PCM 30 pseudo-ternary signal; 2) it
converts the received PCM 30 pseudo-ternary signal
to a binary signal; and c) it extracts a data clock form
the receive PCM 30 signal.
In order to meet network requirements, it is
necessary to control the transmit equalization of the
LIU (EC1 - EC3). This pre-emphasizes the transmit
pulse shape so it can fit within a standard pulse
template at a specific point on the transmit link.
When using a LIU that clocks data in and out with
separate signals, the MT9079 remote loopback can
allow bit errors to occur. This is because the MT9079
does not re-time the looped signal, so phase
differences in the C2 and RCLK clock signals will
impact the transmit data. This problem can be
prevented by implementing the remote loopback in
the LIU and controlling it from a port. Performing the
remote loopback in the LIU also more closely
adheres to network requirements, which state that a
remote loopback should be implemented as close to
the PCM 30 side of the trunk as possible.
C2
EC3
EC2
EC1
RLOOP
RCLK
TCLK
LIU
DSTi
DSTo
MT9079
C4i/C2i
Trunk
Interface
TxA
TxB
RxA
RxB
E2i
E1 Transmit
E1 Receive
To Trunk Interface
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