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MT8940AC Datasheet, PDF (8/16 Pages) Mitel Networks Corporation – T1/CEPT Digital Trunk PLL
MT8940 ISO-CMOS
Crystal Clock
(12.355 MHz
± 100 ppm)
Crystal Clock
(16.388 MHz
± 32 ppm)
MT8940
MS0
MS1
MS2
MS3
F0i
C12i
ENCV
C8Kb
C16i
ENC4o
ENC2o
Ai
Bi
VSS RST
VDD
CV
C4b
C2o
F0b
Yo
MH89760
C1.5i
C2i
F0i
RxA
RxB
RxD
DSTi
DSTo
CSTi
CSTo
TxT
TxR
RxT
RxR
TRANSMIT
RECEIVE
MT8980/81
ST-BUS
SWITCH
T1
LINK
(1.544 Mbps)
Mode of Operation for the MT8940
DPLL #1 - NORMAL (MS1=0)
DPLL #2 - NORMAL (MS0=0; MS1=0; MS2=1; MS3=1)
Figure 5 - Synchronization at the Slave End of the T1 Transmission Link
4.096 MHz
System Clock
(ST-BUS
Compatible)
MT8940
MS0
MS1
MS2
MS3
F0i
C12i
ENCV
C8Kb
C16i
ENC4o
ENC2o
Ai
Bi
VSS RST
VDD
C4b
C2o
F0b
Yo
MH89790
DSTi
C2i
DSTo
F0i
CSTi0
CSTi1
CSTo
RxA
OUTA
RxB
TRANSMIT
OUTB
RxD
RxT
RECEIVE
RxR
MT8980/81
ST-BUS
SWITCH
CEPT
PRIMARY
MULTIPLEX
DIGITAL
LINK
Mode of Operation for the MT8940
DPLL #1 - NOT USED
DPLL #2 - OVERRIDE MAJOR MODES (MS0=X; MS1=X
MS2=1; MS3=0)
Figure 6 - Synchronization at the Master End of the CEPT Digital Transmission Link
Generation of ST-BUS Timing Signals
The MT8940 can source the properly formatted ST-
BUS timing and control signals with no external
inputs except the crystal clock. This can be used as
the standard timing source for ST-BUS systems or
any other system with similar clock requirements.
Figure 8 shows two such applications using only
DPLL #2. In one case, the MT8940 is in FREE-RUN
mode with an oscillator input of 16.388 MHz. This
forces the DPLL to correct at a rate of 4 kHz to
maintain the ST-BUS clocks, which therefore, will be
jittered. In the other case, the oscillator input is
16.384 MHz (exactly eight times the output
frequency) and DPLL #2 operates in NORMAL mode
with C8Kb input tied HIGH. Since no corrections are
necessary, the output is free from jitter. DPLL #1 is
completely free in both cases and available for any
other purpose.
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