MT8930CE Zarlink Semiconductor, MT8930CE Datasheet - Page 26
MT8930CE
Manufacturer Part Number
MT8930CE
Description
Description = 4 Wire Full-duplex 2B+D (192Kb/s) Data Format Isdn S And T Subscriber Network Interface Circuit With Controllerless Mode ;; Package Type = Pdip ;; No. Of Pins = 28
Manufacturer
Zarlink Semiconductor
Datasheet
1.MT8930CE.pdf
(41 pages)
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Part Number:
MT8930CE
Manufacturer:
MITSUBISHI
Quantity:
20 000
Applications
The MT8930C is useful in a wide variety of ISDN
applications.
Termination (NT) and Terminal Equipment (TE) ends
of the line, the SNIC finds application on digital
subscriber line cards and in full featured digital
telephone sets.
The SNIC can be combined with the MT8971B/72B
to implement an NT1 function(with biphase line code
on the U interface) as shown in Figure 16. It can
also be combined with the MT8910 to implement an
ISDN NT1 function (with 2B1Q line code on the U
interface) as shown in Figure 17. The MT8930C is
configured in NT mode, acting as a master to the S-
interface line, while the MT8971B/72B or the
MT8910 operates in slave mode and derives its
timing from the U-interface line originating from the
central office.
between the two devices is done via the serial ST-
BUS ports.
communicated with the MT8971B/72B through the
C-channel of the ST-BUS.
Figure 18 illustrates the use of the SNIC in
conjunction with the MT9094 to implement a 2B+
D, ISDN telephone set. The MT9094 provides such
features as A/D and D/A conversion, handset
interface, handsfree operation and tone ringer. PCM
encoded voice is passed from the MT9094 to the
SNIC via the ST-BUS port for transmission on one of
the B-channels. The second B-channel is available
for transmission of data. These two devices have
been designed to connect together with virtually no
interconnection components.
26
R
R
‡
‡
1:2*
1:2*
Control and status of the SNIC is
Being used at both the Network
For Figure 16, communication
+5V
R
Tx
10 µF
LRx
LTx
V
Bias
MT8930C
DSTo
C
P/SC
DSTi
C4b
Star
F0b
Rsti
mode
NT
10kΩ
+5V
Figure 16 - NT1 Function
0.33 µF
0.33 µF
DSTi
DSTo
F0b
C4b
MS0
MS1
MS2
V
V
MT8971B/72B
DC to DC
Converter
REF
Bias
Both the MT8930C and MT9094 are controlled and
monitored by a microprocessor to implement various
features and control functions. Signalling may be
performed by scanning the keypad and generating
appropriate messages to be packetized by the HDLC
section of the SNIC and transmitted via the D-
channel. A twelve segment, non-multiplexed LCD
display can be connected directly to the S12-S1
outputs to provide various status and call progress
indicators.
It must be noted, that the pseudo-ternary line code
will tolerate line reversals within the LRx and LTx pair
between the NT and TE. However, reversal of the
TE transmit pair between two or more TEs will make
the S-interface inoperable.
In multidrop applications, a powered-off TE must not
load the line and prevent communications between
the NT and other TEs. To avoid such a situation, one
mechanical relay should be used to disconnect the
LTx pin and the LRx pin from the line transformers.
Interfacing to Non-Multiplexed Busses
The microprocessor interface for the SNIC was
designed around a multiplexed bus architecture
which may be found with most Intel processors/
controllers or a few Motorola processors.
event that your choice of processors is restricted, a
simple application circuit can convert the non-
multiplexed bussing to that of a multiplexed
architecture. Figure 19 provides an to interface the
MC6802 or the MC6809 microprocessors.
+5V
OSC2
OSC1
L
OUT
L
IN
33 pF
10.24 MHz XTAL
1.5 nF
390 Ω
47 Ω
22 nF
33 pF
0.33 µF
+5V
‡
100Ω terminating resistor
2:1
Data Sheet
1.0 µF
In the
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