Table Of Contents
Specifications
A.1 Shelf Specifications
A.1.1 Bandwidth
A.1.2 Expansion Slot
A.1.3 Internal Cards
A.1.4 15310-CL-CTX
A.1.5 Configurations
A.1.6 Cisco Transport Controller
A.1.7 TL1 Craft Interface
A.1.8 LEDs
A.1.9 Alarm Interface
A.1.10 DS1 Interface
A.1.11 DS3/EC1 Interface
A.1.12 Nonvolatile Memory
A.1.13 BITS Interface
A.1.14 RJ-45 Connector Pin Assignments
A.1.15 Pushbuttons
A.1.16 System Timing
A.1.17 Power Specifications
A.1.18 Environmental Specifications
A.1.19 Shelf Dimensions
A.2 Card Specifications
A.2.1 CE-100T-8 and ML-100T-8 Cards
A.2.2 Filler Card
A.3 SFP Specifications
Specifications
Note 
The terms "Unidirectional Path Switched Ring" and "UPSR" may appear in Cisco literature. These terms do not refer to using Cisco ONS 15xxx products in a unidirectional path switched ring configuration. Rather, these terms, as well as "Path Protected Mesh Network" and "PPMN," refer generally to Cisco's path protection feature, which may be used in any topological network configuration. Cisco does not recommend using its path protection feature in any particular topological network configuration.
This appendix contains shelf, card, and small-form factor pluggable (SFP) specifications for the Cisco ONS 15310-CL.
A.1 Shelf Specifications
This section includes hardware and software specifications.
A.1.1 Bandwidth
Total bandwidth: 2.054 Gbps
•Optical: 1.24 Gbps (2 x OC-12)
•Electrical: 188 Mbps
•Expansion: 622 Mbps (OC-12)
A.1.2 Expansion Slot
Total card slots: 1 expansion slot for CE-100T-8 and ML-100T-8 cards. A blank card (15310-EXP-FILLER) can also be plugged into the expansion slot.
A.1.3 Internal Cards
•Common Control, Timing, Cross-Connect Customer-Located (15310-CL-CTX)
•Interconnect card
•Connector expansion card
A.1.4 15310-CL-CTX
•Optical Ports
–Two user upgradeable and hot swappable SFPs with SONET interface support
–Support for multirate SFPs (155.520 Mbps and 622.080 Mbps)
–Support for operating the two optical facilities at different line rates in unprotected facility mode (non 1+1 Automatic Protection Switching [APS] operation)
•T1 Ports
–Supports GR499-compliant 1.544 Mbps (T1) interface
–Performance monitoring is provided via the interface to allow validation of signal quality.
–Any outgoing T1 signal can be retimed to eliminate accumulated jitter and wander at the point of egress from a synchronous network.
–Any incoming T1 signal from the transport element can also be used as a timing source.
•T3/EC1 Ports
–Supports GR499-compliant 44.736 Mbps (DS3) interfaces or EC1.
–Performance monitoring is provided via the interface to allow validation of signal quality. Each port can be provisioned in any combination of T3 or EC1.
•BITS
–Supports one BITS input and one BITS output
–The BITS I/O ports support a 100-ohm termination for external 1.544 Mbps DS1 timing signals.
•Alarm
–The alarm system provides three alarm inputs and two contacts for alarm outputs.
•LAN
–Supports a 10/100 Mbps Ethernet interface for CTC/TL1 provisioning.
–For node access in secure mode, SSL (for TL1) and HTTPS (for CTC) security protocols are supported.
•Craft Interface
–An RS-232 Craft interface is provided and is used for TL1 provisioning.
–The Craft interface is set to 9600 baud, no parity, and 1 stop bit by default.
•64 kbps User Data Channel (UDC) Digital Interface
–The 64 kbps Digital Interface provides a digital input and output.
–Any F1 byte that is accessible on the system is interfaced at the UDC connector.
–The UDC provides a simplex interface. Protection for UDC overhead channel(s) follows interface line protection for traffic.
–The UDC can be enabled or disabled through the management interfaces. The default state is disabled.
–The UDC supports a 64 kbps serial interface adaptation function to overhead byte F1.
–The physical interface is defined in G.703 as a 120-ohm, twisted pair connection. The jitter specification is defined in G.823.
–The UDC supports a serial port interface adaptation function to overhead bytes F1. This is an RS-232 interface capable of 9.6, 19.2, 38.4, and 56 kbps operation. The rate is selectable through the management interface. The default is 56 kbps with no parity and 1 stop bit.
A.1.5 Configurations
•Two-fiber path protection
•1+1 protection
•Path protected mesh network (PPMN)
•Add-drop multiplexer
•Point-to-point terminal mode
A.1.6 Cisco Transport Controller
•10/100 Base-T
•15310-CL-CTX access: RJ-45 connector
A.1.7 TL1 Craft Interface
•Speed: 9600 baud, no parity, 1 stop bit
•15310-CL-CTX: RS-232 with RJ-45 type connector
A.1.8 LEDs
Table A-1 describes the possible LED colors and their significance.
Table A-1 LED Description
LED
|
Color
|
FAIL
|
Red for system failure or during initialization
|
ALARM
|
Red (Major and Critical)
Amber (Minor)
|
PWR
|
Green (AC source present or both DC sources present)
Amber (one DC source present)
|
SYNC
|
Green (primary and secondary reference sync)
Amber (only one reference)
Red (loss of both references)
|
A.1.9 Alarm Interface
•Visual: Critical (red LED), Major (red LED), Minor (amber LED)
•Three alarm inputs and two alarm contacts, all on the same RJ-45 connector (ALARM port)
A.1.10 DS1 Interface
•21 DS-1 (1.544 Mbps) ports
•Connector: LFH96 (100-ohm balanced)
•Any two ports can be used as primary and secondary timing sources
•A DS01 output can be retimed to system clock on a per-port basis
The DS-1 connector pin assignments are shown in Table A-2.
Table A-2 DS-1 Connector Pin Assignments
Pin
|
Transmit Cable Signal Connection
|
Conductor Color
|
Pin
|
Receive Cable Signal Connection
|
Conductor Color
|
1
|
TX11-
|
blue-black
|
49
|
TX21-
|
blue-violet
|
2
|
TX11+
|
black-blue
|
50
|
TX21+
|
violet-blue
|
3
|
TX10-
|
gray-red
|
51
|
TX20-
|
gray-yellow
|
4
|
TX10+
|
red-gray
|
52
|
TX20+
|
yellow-gray
|
5
|
TX9-
|
brown-red
|
53
|
TX19-
|
brown-yellow
|
6
|
TX9+
|
red-brown
|
54
|
TX19+
|
yellow-brown
|
7
|
TX8-
|
green-red
|
55
|
TX18-
|
green-yellow
|
8
|
TX8+
|
red-green
|
56
|
TX18+
|
yellow-green
|
9
|
TX7-
|
orange-red
|
57
|
TX17-
|
orange-yellow
|
10
|
TX7+
|
red-orange
|
58
|
TX17+
|
yellow-orange
|
11
|
TX6-
|
blue-red
|
59
|
TX16-
|
blue-yellow
|
12
|
TX6+
|
red-blue
|
60
|
TX16+
|
yellow-blue
|
13
|
TX5-
|
gray-white
|
61
|
TX15-
|
gray-black
|
14
|
TX5+
|
white-gray
|
62
|
TX15+
|
black-gray
|
15
|
TX4-
|
brown-white
|
63
|
TX14-
|
brown-black
|
16
|
TX4+
|
white-brown
|
64
|
TX14+
|
black-brown
|
17
|
TX3-
|
green-white
|
65
|
TX13-
|
green-black
|
18
|
TX3+
|
white-green
|
66
|
TX13+
|
black-green
|
19
|
TX2-
|
orange-white
|
67
|
TX12-
|
orange-black
|
20
|
TX2+
|
white-orange
|
68
|
TX12+
|
black-orange
|
21
|
TX1-
|
blue-white
|
69
|
Unused
|
—
|
22
|
TX1+
|
white-blue
|
70
|
Unused
|
—
|
23
|
Unused
|
—
|
71
|
Unused
|
—
|
24
|
Unused
|
—
|
72
|
Unused
|
—
|
25
|
RX11-
|
blue-black
|
73
|
RX21-
|
blue-violet
|
26
|
RX11+
|
black-blue
|
74
|
RX21+
|
violet-blue
|
27
|
RX10-
|
gray-red
|
75
|
RX20-
|
gray-yellow
|
28
|
RX10+
|
red-gray
|
76
|
RX20+
|
yellow-gray
|
29
|
RX9-
|
brown-red
|
77
|
RX19-
|
brown-yellow
|
30
|
RX9+
|
red-brown
|
78
|
RX19+
|
yellow-brown
|
31
|
RX8-
|
green-red
|
79
|
RX18-
|
green-yellow
|
32
|
RX8+
|
red-green
|
80
|
RX18+
|
yellow-green
|
33
|
RX7-
|
orange-red
|
81
|
RX17-
|
orange-yellow
|
34
|
RX7+
|
red-orange
|
82
|
RX17+
|
yellow-orange
|
35
|
RX6-
|
blue-red
|
83
|
RX16-
|
blue-yellow
|
36
|
RX6+
|
red-blue
|
84
|
RX16+
|
yellow-blue
|
37
|
RX5-
|
gray-white
|
85
|
RX15-
|
gray-black
|
38
|
RX5+
|
white-gray
|
86
|
RX15+
|
black-gray
|
39
|
RX4-
|
brown-white
|
87
|
RX14-
|
brown-black
|
40
|
RX4+
|
white-brown
|
88
|
RX14+
|
black-brown
|
41
|
RX3-
|
green-white
|
89
|
RX13-
|
green-black
|
42
|
RX3+
|
white-green
|
90
|
RX13+
|
black-green
|
43
|
RX2-
|
orange-white
|
91
|
RX12-
|
orange-black
|
44
|
RX2+
|
white-orange
|
92
|
RX12+
|
black-orange
|
45
|
RX1-
|
blue-white
|
93
|
Unused
|
—
|
46
|
RX1+
|
white-blue
|
94
|
Unused
|
—
|
47
|
Unused
|
—
|
95
|
Unused
|
—
|
48
|
Unused
|
—
|
96
|
Unused
|
—
|
A.1.11 DS3/EC1 Interface
•Three DS3 (44.736 Mbps)/EC1 (51.84 Mbps) ports
•Connector: 75-ohm mini-BNC connector
•Ports can be any combination of DS-3 and EC-1
A.1.12 Nonvolatile Memory
•128 MB, Compact Flash card
A.1.13 BITS Interface
•1 DS-1 BITS input
•1 derived DS-1 output
A.1.14 RJ-45 Connector Pin Assignments
Table A-3 details wiring for the BITS.
Table A-3 RJ-45 Connector Pin Assignments
Pin
|
Connector
|
| |
BITS
|
ALARM
|
CRAFT
|
UDC
|
LAN
|
| |
RS232 Mode
|
64K Mode
|
|
1
|
BITS Output +
|
Alarm Contact Port 1 +
|
RTS
|
NC
|
TX +
|
TX +
|
2
|
BITS Output -
|
Alarm Contact Port 1 -
|
DTR
|
DTR
|
TX -
|
TX -
|
3
|
BITS Input +
|
Alarm Contact Port 2 +
|
TXD
|
TXD
|
RX +
|
RX +
|
4
|
—
|
Alarm Contact Port 2 -
|
GND
|
GND
|
GND
|
NC
|
5
|
—
|
Alarm Input Port 1
|
GND
|
GND
|
GND
|
NC
|
6
|
BITS Input -
|
Alarm Input Port 2
|
RXD
|
RXD
|
RX -
|
RX -
|
7
|
—
|
Alarm Input Port 3
|
DSR
|
NC
|
NC
|
NC
|
8
|
—
|
Alarm Input Common
|
CTS
|
NC
|
NC
|
NC
|
A.1.15 Pushbuttons
•Lamp test: when momentarily pushed, lights all LEDs on the ONS 15310-CL front panel. If an LED has more than one color, all the colors will be cycled when the lamp test button is pushed.
Note Another use for the lamp test button is to reset the CTC password to its default value (otbu+1). To reset the password, press the lamp test button for at least five seconds, release it for a maximum of five seconds, then press it again for at least five seconds. After the button is released, the default password is set.
•System reset: when pressed, performs a soft reset (does not impact traffic).
A.1.16 System Timing
•+/- 20 ppm SONET Minimum Clock (SMC) free-running internal clock
•Maintains SMC holdover (+/- 4.6 ppm for first 24 hours) in the event of reference frequency loss
•Timing reference: External BITS, line optical port, any DS-1 clock, and internal clock
A.1.17 Power Specifications
•Input power: -48 VDC (dual DC power supply model) or 100/240 VAC (AC power model)
•Maximum power consumption
–DC chassis with no expansion board: 60W
–DC chassis with expansion board: 115W
–AC chassis with no expansion board: 70W
–AC chassis with expansion board: 140W
•Power requirements: -42 to -56 VDC or 100/240 VAC (+/- 10%)
•Power terminals: Three-prong male locking connector for DC power supply model or three-prong male AC connector for AC power model
Note An ONS 15310-CL that uses DC power is classified as DC-I (DC Isolated). This means that the DC return (RET) conductor at the DC power input connector is not bonded to the chassis frame ground.
A.1.18 Environmental Specifications
•Operating Temperature: 0 to +55 degrees Celsius (32 to +131 degrees Fahrenheit) for AC chassis; -40 to +65 degrees Celsius (-40 to +149 degrees Fahrenheit) for dual DC chassis.
•Operating Humidity: 5 to 95%, non-condensing
A.1.19 Shelf Dimensions
•Height: 1 Rack Unit (RU), 1.75 inches (4.45 cm)
•Width:
–19.0 inches (48.3 cm)
–23.0 inches (58.4 cm) including rackmount brackets
•Depth:
–15.0 inches (38.1 cm) sheet metal only
–15.8 inches (40.2) including mini-BNC and DC inlet connectors
•Weight:
–11.5 lb. empty
–12.5 lb. maximum (line card installed)
A.2 Card Specifications
This section provides specifications for the cards that can be installed in the 15310-CL expansion slot: CE-100T-8, ML-100T-8, and Filler cards. For compliance information, refer to the Cisco Optical Transport Products Safety and Compliance Information document.
A.2.1 CE-100T-8 and ML-100T-8 Cards
•Environmental
–Operating temperature
C-Temp: 0 to +55 degrees Celsius (32 to 131 degrees Fahrenheit)
–Operating humidity: 5 to 95%, noncondensing
–Power consumption: 1.10A, 53 W
•Dimensions
–Height: 176 mm (6.93 in.)
–Width: 34.29 mm (1.35 in.)
–Depth: 238.25 mm (9.38 in.)
–Weight (not including clam shell): 0.499 kg (1.1 lb)
A.2.2 Filler Card
•Environmental
–Operating temperature
I-Temp: -40 to +65 degrees Celsius (-40 to 149 degrees Fahrenheit)
–Operating humidity: 5 to 95%, noncondensing
•Dimensions
–Height: 176 mm (6.93 in.)
–Width: 34.29 mm (1.35 in.)
–Depth: 238.25 mm (9.38 in.)
–Card weight (not including clam shell): 0.45 kg (0.9 lb)
A.3 SFP Specifications
Table A-4 lists specifications for available small-form factor pluggables (SFPs) that can be used with the 15310-CL-CTX card. The 15310-CL-CTX card does not have a faceplate because it is located inside the chassis; therefore, the two SFP slots are located on the 15310-CL faceplate, just to the left of the LAN port.
Table A-4 SFP Specifications
SFP Product ID
|
Interface
|
Transmitter Output Power Min/Max (dBm)
|
Receiver Input Power Min/Max (dBm)
|
ONS-SI-155-L1
|
OC-3
|
-5.0 to 0
|
-34 to -10
|
ONS-SI-155-L2
|
OC-3
|
-5.0 to 0
|
-34 to -10
|
ONS-SI-155-I1
|
OC-3
|
-15 to -8.0
|
-28 to -8
|
ONS-SI-622-L1
|
OC-12
|
-3.0 to 2.0
|
-28 to -8
|
ONS-SI-622-L2
|
OC-12
|
-3.0 to 2.0
|
-28 to -8
|
ONS-SI-622-I1
|
OC-12/OC-3
|
-15 to -8.0
|
-28 to -8
|
Table A-5 provides cabling specifications for the 15310-CL-CTX single-mode fiber (SMF) SFPs. The ports of the listed SFPs have LC-type connectors.
Table A-5 Single-Mode Fiber SFP Port Cabling Specifications
SFP Product ID
|
|
Fiber Type
|
Cable Distance
|
ONS-SI-155-L1
Long Reach
|
1310 nm
|
9 micro SMF
|
50 km (31.07 miles)
|
ONS-SI-155-L2
Long Reach
|
1550 nm
|
9 micro SMF
|
100 km (62.15 miles)
|
ONS-SI-155-I1
Intermediate Reach
|
1310 nm
|
9 micro SMF
|
21 km (13.05 miles)
|
ONS-SI-622-L1
Long Reach
|
1310 nm
|
9 micro SMF
|
42 km (26.10 miles)
|
ONS-SI-622-L2
Long Reach
|
1550 nm
|
9 micro SMF
|
85 km (52.82 miles)
|
ONS-SI-622-I1
Intermediate Reach
|
1310 nm
|
9 micro SMF
|
21 km (13.05 miles)
|
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