MT90733 [MITEL]
CMOS DS3 Framer (DS3F); CMOS DS3成帧器( DS3F )型号: | MT90733 |
厂家: | MITEL NETWORKS CORPORATION |
描述: | CMOS DS3 Framer (DS3F) |
文件: | 总8页 (文件大小:56K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
CMOS
MT90733
DS3 Framer (DS3F)
Advance Information
ISSUE 1
May 1995
Features
•
DS3 payload access in either bit-serial or
nibble-parallel mode
Ordering Information
MT90733AP
68 Pin PLCC
-40° to 85°C
•
•
•
•
C-bit parity or M13 operating mode
Separate interface for C-bits
Description
Detect and generate DS3 AIS, and idle signals
The MT90733 DS3 Framer (DS3F) is designed for
mapping broadband payloads into the DS3 frame for-
mat, which meets ANSI’s T1.107-1988 and supple-
ment T1.107a-1990.
Transmit reference generator for serial
operation
•
•
Transmit and receive FEAC channel under
software control
Transmit single errors: framing, FEBE, C-bit
parity, and P-bit parity
Although the C-bit parity format is recommended, the
DS3F can also operate in the M13 mode. In the C-bit
parity format, the DS3F provides a separate interface
for selected C-bits. The DS3F also provides software
access for transmitting and receiving the FEAC chan-
nel, and generates and detects DS3 AIS, DS3 idle, P-
bit parity and C-bit parity. In addition, performance
counters are provided, as well as the ability to gener-
ate single framing, FEBE, C-bit parity and P-bit parity
errors. The payload interface is selectable through
software as either a bit-serial or nibble-parallel format.
•
•
FEBE, C-bit and P-bit performance counters
Transmit-to-Receive and Receive-to-Transmit
loopbacks
Applications
•
•
•
•
Subrate multiplexing
Wideband data or video transport
DS3 monitor and test
Channel extenders
Terminal Side
Line Side
X1
X2
FE
Receive
Serial Parallel
N.C. RNIB3
DS3
Interpreter
D3RD
D3RC
DS3
Receive
N.C. RNIB2
N.C. RNIB1
RDS RNIB0
RCS RCN
RCG N.C.
RFS RFN
CRD
CRCK
CRF
CRDCC
STUFC
STUFD
Output
TDOUT
TCG
TFOUT
TCOUT
TFIN
AD(7-0)
Transmit
Frame
Reference
Generator
WR
RD
ALE
SEL
µP I/O
TCIN
OENA
FORCEOE
CXD
N.C. XFNO
N.C. XCN
XCK XCK
XFSI N.C.
XDS XNIB3
N.C. XNIB2
N.C. XNIB1
N.C. XNIB0
CXCK
CXF
CXDCC
Input
DS3
Send
D3TD
D3TC
FORCECP
FORCEPP
FORCFEBE
Transmit
Figure 1 - Functional Block Diagram
U.S. Patent Number 5040170
5-23
MT90733 CMOS
Advance Information
10
ALE
X1
XNIB0
60
59
58
11
12
13
14
15
16
17
18
19
20
21
22
23
24
XNIB1
RD
XNIB2
57
56
55
54
53
52
51
50
49
48
47
46
45
X2
FORCECP
XDS/XNIB3
FORCEPP
FORCEOE
VSS
WR
STUFD
STUFC
VDD
AD7
AD6
AD5
AD4
VSS
AD3
AD2
AD1
AD0
TCIN
VDD
XFSI
TFIN
TCOUT
TFOUT
TCG
TDOUT
25
26
VSS
44
Figure 2 - Pin Connections
Pin Description
Power Supply & Ground
Pin #
Name
I/O/P
Description
4, 17, 27
38, 51, 63
VDD
P
Power Supply Input. +5v± 5%.
Ground.
6, 22, 33
VSS
P
44, 53, 67
Note: I = Input; O = Output; P = Power
DS3 Receive Line Side Interface
Pin #
Name
I/O/P
Description
5
D3RC
I
DS3 Receive Clock. A 44.736 MHz clock used for clocking in receive data,
and as the time base for the DS3F receiver.
29
D3RD
I
DS3 Receive Data. DS3 line side serial receive data.
Note: I = Input; O = Output; P = Power
5-24
Advance Information
CMOS MT90733
DS3 Transmit Line Side Interface
Pin #
Name
I/O/P
Description
1
D3TC
O
DS3 Transmit Clock. A 44.736 MHz clock that is derived from the transmit
clock (XCK) signal and is used for clocking out the line side DS3 data signal.
3
D3TD
O
DS3 Transmit Data. DS3 line side serial transmit data.
Note: I = Input; O = Output; P = Power
Receive Terminal Side Interface
Pin #
Name
I/O/P
Description
31
RFS/RFN
O
Receive Framing Pulse for Serial/Nibble Interface. The framing pulse is
synchronous with the first bit 1 in the DS3 frame or nibble 1175.
32
34
RCG
O
O
O
Receive Clock Gap Signal. The active low gap signal is synchronous with
each overhead bit in the serial DS3 frame (first bit in the 85-bit group).
RCS/RCN
Receive Clock for Serial/Nibble Interface. Clock used for clocking out the
terminal side receive serial and nibble data.
39
40
41
42
RNIB3
RNIB2
RNIB1
Receive Nibble/Serial Interface. Nibble data is clocked out on positive transi-
tions of the nibble clock (RCN). Serial data is clocked out on negative transi-
tions of the receive clock (RCS).
RDS/RNIB0
Note: I = Input; O = Output; P = Power
Transmit Terminal Side Interface
Pin #
Name
I/O/P
Description
XFNO
2
O
Transmit Framing Pulse for Nibble Interface. An active low, one nibble clock
cycle wide (XCN) pulse that occurs during the second nibble time.
XFSI
50
I
I
Transmit Framing Pulse for Serial Interface: A framing pulse input that must
be synchronous with bit 1 in the transmit serial data DS3 frame.
56
58
59
60
XDS/XNIB3
XNIB2
Transmit Nibble/Serial Interface. Nibble data is clocked in on positive transi-
tions of the nibble clock (XCN). Serial data is clocked into the DS3F on posi-
tive transitions of the transmit clock (XCK).
XNIB1
XNIB0
62
XCK
I
Transmit Clock. A 44.736 Mbit/s clock input with a stability of ±20 ppm and a
duty cycle of 50 ±10%. XCK provides the time base for the transmitter in the
DS3F.
66
XCN
O
Transmit Clock for Nibble Interface. Output clock signal derived from the
transmit clock (XCK).
Note: I = Input; O = Output; P = Power
5-25
MT90733 CMOS
Advance Information
Transmit Reference Generator Interface
Pin #
Name
I/O/P
Description
45
TDOUT
O
Transmit Reference Generator Data Output. A DS3 frame is provided on
this signal lead with only the appropriate M and F bits. All other bits in the
frame are held active low.
46
47
TCG
O
O
Transmit Reference Generator Clock Gap Signal. An active low, one clock
cycle wide (TCOUT) output signal that is synchronous with bit 1 in each 85-bit
group (56 overhead bits) in the DS3 frame.
TFOUT
Transmit Reference Generator Framing Pulse. An active low, one clock
cycle wide (TCOUT) output pulse that is synchronous with bit 1 in the DS3
frame.
48
52
TCOUT
TCIN
O
I
Transmit Reference Generator Clock Out. Clock signal that is derived from
the transmit reference generator clock input (TCIN).
Transmit Reference Generator Clock In. A 44.736 Mbit/s clock with a stabil-
ity of ±20 ppm and a duty cycle of 50 ±10%.
Note: I = Input; O = Output; P = Power
Receive C-Bit Interface
Pin #
Name
I/O/P
Description
30
CRDCC
O
C-Bit Receive Data Link Clock. A gapped clock provided for clocking in the
three data link bits (C13, C14, and C15) into external circuitry from the serial
data (CRD).
35
36
37
CRF
CRCK
CRD
O
O
O
C-Bit Receive Framing Pulse. Provides a time base reference for clocking in
the C-bits in a DS3 frame.
C-Bit Receive Clock. A gapped clock which clocks C-bit data out of the DS3F
on positive transitions.
C-Bit Receive Data. Serial interface for receiving the selected C-bits in the C-
bit parity mode.
Note: I = Input; O = Output; P = Power
Transmit C-Bit Interface
Pin #
Name
I/O/P
Description
28
CXD
I
C-Bit Transmit Data. Serial interface for transmitting the selected C-bits in the
C-bit parity mode.
64
65
68
CXDCC
CXF
O
O
O
C-Bit Transmit Data Link Clock. A gapped clock provided for clocking the
three data link bits (C13, C14, and C15).
C-Bit Transmit Framing Pulse. Identifies the location of the first C-bit in the
DS3 frame.
CXCK
C-Bit Transmit Clock. A gapped clock which clocks the external C-bit serial
data into the DS3F on positive transitions.
Note: I = Input; O = Output; P = Power
5-26
Advance Information
CMOS MT90733
Other Signals
Pin #
Name
I/O/P
Description
7
9
TEST
I
Test Pin: Leave open.
OENA
O
Overhead Enable. An active high signal that enables an overhead error to be
introduced into the overhead bit in the next 85th group by placing a low on the
FORCEOE lead.
11
13
15
X1
X2
O
O
O
DS3 Received X-Bit 1. An output indication of the state of the first X-bit
received in the DS3 frame.
DS3 Received X-Bit 2. An output indication of the state of the second X-bit
received in the DS3 frame (bit 680).
STUFD
Stuff Data Status. This output signal provides an indication of the state of the
stuff opportunity bit from the received DS3F frame.
16
43
STUFC
FE
O
O
Stuff Clock. Provided for clocking out the stuff opportunity bit state.
Framing Error Indication. An active high signal is generated when a framing
error is detected while in frame alignment. The framing error indication is held
active low when a DS3 out of frame alarm occurs.
49
54
TFIN
I
I
Optional Framing Input Pulse. Not required for normal operation.
FORCEOE
Force DS3 Overhead Bit Error. An active low input signal used in conjunction
with the overhead enable signal (OENA) for introducing an overhead bit error
in the next transmitted 85-bit group.
55
57
61
FORCEPP
FORCECP
FORCFEBE
I
I
I
Force P-Bit Parity Error. An active low input signal generates and transmits a
P-bit error by inverting both P-bits.
Force C-Bit Parity Error. An active low input signal generates and transmits a
C-bit parity error when operating in the C-bit parity mode.
Force FEBE Error. An active low input signal generates and transmits a far
end block error (FEBE) when operating in the C-bit parity mode.
Note: I = Input; O = Output; P = Power
Microprocesssor Interface
Pin #
Name
I/O/P
Description
8
SEL
I
Microprocessor Select. A low enables the processor to access the DS3F
memory map for control, status and alarm information.
10
12
14
ALE
RD
I
I
I
Address Latch Enable. An active high input signal is used by the processor
to hold an address stable during a read/write bus cycle on the falling edge.
Read. An active low input signal generated by the processor for reading the
registers which reside in the DS3F memory map.
WR
Write. An active low input signal generated by the processor for writing to the
registers which reside in the memory map.
18-21
23-26
AD(7-4)
AD(3-0))
I/O Address/Data Bus. These leads constitute the time multiplexed address and
data bus for accessing the registers which reside in the DS3F memory map.
Note: I = Input; O = Output; P = Power
5-27
MT90733 CMOS
Advance Information
(such as the FEAC channel), or provided from the
external C-bit interface.
Functional Description
The MT90733 (DS3F) is designed for DS3 framer
applications in which broadband payloads are
mapped into the DS3 frame format. Although the C-
bit parity format is recommended, the DS3F can also
operate in the M13 mode. In the C-bit parity format,
the DS3F provides a separate interface for selected
C-bits. The DS3F can transmit and receive the
FEAC channel, generate and detect DS3 AIS, DS3
DS3 loopback is controlled by setting a bit in the
memory map. The entire device is used when
loopback is in affect, but the line side input data and
clock are blocked (by the gate preceding the DS3
Framer Block shown in Figure 1).
The capability to generate and transmit single
overhead bit errors is also provided. External
interfaces are provided for transmitting a far end
block error (FORCFEBE), a P-bit parity error
(FORCEPP), a C-bit parity error (FORCECP) and an
overhead bit error (FORCEOE). The FORCEOE
signal is used in conjunction with the enable signal
(OENA) for introducing an overhead bit error in the
next 85-bit segment of the DS3 frame.
idle, P-bit parity and C-bit parity.
In addition,
performance counters are provided, as well as the
ability to generate single framing, FEBE, C-bit parity
and P-bit parity errors. The payload interface is
selectable through software as either a bit serial or
nibble-parallel format. Figure 1 shows the block
diagram for the MT90737 (DS3F).
The DS3F receives a DS3 data signal (D3RD) and a
clock signal (D3RC) from a line interface device. The
DS3 receive block performs DS3 frame alignment,
monitors the signal and the input clock for loss of
signal (LOS), out of frame (OOF), and loss of clock
(LOC). A framing error (FE) output is provided to
indicate when any of the 28 framing bits in the DS3
signal are in error.
The Transmit Frame Reference Generator Block
provides reference timing for bit-serial operation.
This block accepts an external 44.736 MHz clock
signal (TCIN) and derives a clock signal (TCOUT), a
framing pulse (TFOUT), a clock gap signal (TCG)
and a data signal (TDOUT). The TDOUT signal
consists of framing bits and zeros elsewhere.
The DS3 Interpreter Block performs P-bit and C-bit
parity detection and error counting, receive AIS and
idle pattern detection, far end block error (FEBE)
detection and error counting, far end alarm and
control (FEAC) code word detection, C-bit reception,
and X-bit reception. Serial interfaces are provided for
the received X-bits and for 14 of the 21 C-bits. The
clock signal (CRCK) is gapped and is available only
for clocking out C-bits C2, C3 through C6, and C13
through C21. The data communication link clock
(CRDCC) is present only for C-bits C13, C14, and
C15, which are assigned as a data communication
channel. An interface that indicates the state of the
stuff opportunity bit (STUFD) during each of the
seven DS3 subframes and a clock signal (STUFC) is
also provided.
The microprocessor bus interface consists of eight
bidirectional data and address leads (AD7-AD0),
along with other microprocessor control leads. The
microprocessor bus is used to write control
information and to read status information and
alarms.
Typical Applications
Figure 3 shows an application of the MT90733 in
wideband data transmission at 44.736Mb/s. The Line
Interface Unit (LIU) interfaces to the line on one side
and to the MT90733 on the other. The MT90733,
with the nibble-parallel interface on the terminal side,
can provide the payload data without the overhead
information. Similarly, the overhead data can be
loaded from the terminal side and mapped into DS3
format by the MT90733. The C-bits may be inserted
internally, written by the microprocessor, or
generated by the external C-bit interface.
The Output Block provides a bit-serial or a nibble-
parallel interface. The interface is selected by writing
a control bit in the memory map, and is common to
the DS3F receive and transmit circuitry.
Figure 4 shows a video application where the
MT90733 is used for the reception of TV signals and
commands transmission. Simple compression
techniques allow the TV signal to be transmitted and
received in DS3 bandwidth. The bandwidth required
for the command channel in the other direction is
very low.
In the transmit direction, the Input Block provides
either a serial or parallel interface. The DS3 Send
Block performs P-bit and C-bit parity generation, AIS
and idle pattern generation, far end alarm and
control (FEAC) transmission, X-bit insertion, and C-
bit insertion. The C-bits may be generated internally
(such as C-bit parity), written by the microprocessor
5-28
Advance Information
CMOS MT90733
Rx
Wideband
Line Side
Tx
LIU
MT90733
Terminal
Data Sink / Source
Figure 3. Wideband Data Transport Using MT90733
Video Signal
Rx
TV
Line Side
LIU
MT90733
Terminal
TV
Codec
Tx
Commands
Figure 4. Video Application Using MT90733
5-29
MT90733 CMOS
Advance Information
NOTES:
5-30
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