Orion Telecom Networks Inc. – 2011-13 2
Warranty
This Orion product is warranted against defects in material and workmanship for a period of one year from the date of shipment. During the warranty period, Orion will, at its discretion, either repair or replace products, which prove to be defective. For warranty service or repair, this product must be returned to a service facility designated by Orion. The buyer shall prepay shipping charges to Orion and the company shall pay shipping charges to return the product to the buyer. However, the buyer shall pay all the shipping charges, duties and taxes for products returned to Orion from another country.
Limitation of Warranty
The foregoing warranty shall not apply to defects resulting from improper or inadequate maintenance by the buyer. The buyer-supplied firmware or interfacing, unauthorized modification or misuse, operation outside of the environmental specifications for the product or improper site preparation or maintenance.
Exclusive Remedies
The remedies provided herein are the buyer's sole and exclusive remedies. Orion shall not be liable for any direct, indirect, special, incidental or consequential damages, whether based on contract or any legal theory.
Notice
This manual contains information that is proprietary to Orion Telecom Networks Inc. No part of this publication may be reproduced in any form whatsoever without prior written approval by Orion Telecom Networks Inc.
Safety Warnings
The exclamation point within a triangle is intended to warn the operator or service personnel of operation and maintenance factors relating to the product and its operating environment, which could pose a safety hazard.
Always observe standard safety precautions during installation, operation and maintenance of this product. Only qualified and authorized service personnel should carry out adjustment, maintenance or repairs to this instrument. No adjustment, maintenance or repairs should be performed by either the operator or the user.
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Index
Particulars P. No.
Section 1: System Description and Installation 9 Product Overview 9 Purpose of TDM over IP technology 9 How the ‘VCL-TDM over IP' (GE Version) equipment works 9 Hardware Highlights 10 E1 Clock recovery and synchronization techniques 10 Key Features - E1 and TDM over IP Interface 10 Key Features - Ethernet / IP Network Interface 11 System Management, Monitoring and Alarm Interfaces 11 System Access, Control and Management Options 12 OAM: Operation and Management Ports 12 Front View 12 VCL-TDM over IP - 2E1 GE Version with Single AC Power Supply 12 VCL-TDM over IP - 2E1 GE Version with Single DC Power Supply 12 VCL-TDM over IP - 2E1 GE Version with AC and DC Power Supply 12 VCL-TDM over IP - 2E1 GE Version with Dual AC Power Supply 12 VCL-TDM over IP - 2E1 GE Version with Dual DC Power Supply 13 VCL-TDM over IP - 8E1 GE Version with Single AC Power Supply 13 VCL-TDM over IP - 8E1 GE Version with Single DC Power Supply 13 VCL-TDM over IP - 8E1 GE Version with AC and DC Power Supply 13 VCL-TDM over IP - 8E1 GE Version with Dual AC Power Supply 13 VCL-TDM over IP - 8E1 GE Version with Dual DC Power Supply 13 Front Panel Description 14 VCL-E1oP – 2 E1 GE Version 14 VCL-E1oP – 8 E1 GE Version 14 LED Description 15
Section 2: Application Diagrams 16 TDM over IP in Cellular Backhaul 16 Typical Application Diagram in Wireless Network 16 Typical Application Diagram in Wireless Network – 1+1 Link Redundancy 17 Typical Application Diagram in Wired Network 17 E1s and Gigabit Ethernet Traffic over a Packet Switched Network 18
Section 3: Technical Specifications 19 TDM over IP Specifications 19 E1 Interface 19 Ethernet Interface 19 Gigabit Optical Ethernet Specifications 20 Power Consumption 20 Power Supply Options 20 Command Language 20 Management and Control Interfaces 20 AC Power Supply Specifications 21 24V DC Power Supply Specifications 21 48V DC Power Supply Specifications 21 Environment 21
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Index
Particulars P. No. Regulatory Compliance 21 Chassis 21 NMS (with Telnet) OAM port Specifications 22 Mechanical Specifications 22
Section 4: Connection Details 23 Power Connection 23 AC Power Connection 23 DC Power Connection 23 E1 Connection 24 RJ-45 pinout for E1 interface 24 External Synchronization Clock Connection 24 RJ-45 pinout for Clock interface – Clock In 24 RJ-45 pinout for Clock interface – Clock Out 25 Optical Ethernet Connection 25 Electrical Ethernet Connection 26 RJ-45 pinout for Ethernet interface 26 COM Port Connection 26 DB-9 Pinout for COM port 26 USB Connection for COM port 26
Section 5: Default Settings 28 System IP Settings 28 TDM IP Settings 28 Username and Password 28 SNMP Settings 28 TDM over IP Settings 28 Clock Settings 28
Section 6: HyperTerminal Settings 29 To use HyperTerminal for executing the CLI commands 29 HyperTerminal settings for COM Port (RS232) and USB Port 30 Final Settings 32 HyperTerminal settings for Telnet Port 35 Telnet without using HyperTerminal utility 40
Section 7: USB Serial Port Drivers 41 Installing USB Serial Port Drivers 41
Section 8: System Access and User Management 48 Superuser 48 Normal user 48
Section 9: CLI Command Functionality – How CLI commands work 49 Basic Format 49 Intuitive commands 49 Command History 49 Execution 49
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Index
Particulars P. No. Case Sensitive 49 Command list 49 Help for a command 49 Options for a command 50 Section 10: Quick Start Guide 51 Configure system / processor IP Address 51 Configure system / processor subnet mask 51 Configure system / processor gateway IP address 51 Configure TDM over IP IP address 51 Configure TDM over IP subnet mask 51 Configure TDM over IP gateway IP address 52 Show system basic information 52 Configure E1 port framing 52 Show E1 port framing 52 Configure clock priority 52 Show clock priority 52 Show current running clock 53 Show alarms and events 53 Add a bundle (Create a Logical-Link) 53 Delete a bundle 54 Show a bundle configuration 54 Enable / Disable a bundle 54 Show bundle state 54 Different Configuration Examples 55 Application 1: Point to Point – Unframed 55 Application 2: Point to Point – Framed 56 Application 3: Point to Point – Framed (Fractional) 57 Application 4: Point to Point – Multi-framed (Fractional) 58 Application 5: Point to Multi-Point –Multi-Framed 59 Application 6: Point to Multi-Point – Framed 61 Application 7: Point to Multi-Point – Framed 63 Application 8: Point to Multi-Point – Framed and Unframed 65
Section 11: Detailed CLI Commands 67 CLI Commands List 67 Help Commands 67 Admin Commands 67 Basic System Commands 67 TDM / IP Commands 68 SNMP Commands 68 Switch Commands 69 Misc. Commands 69 CLI Commands Explained 70 Using system’s “Help” Menu 70 Add a user 70 Delete a user 70 Change self-password 71
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Index
Particulars P. No. Show users list 71 Initiate System Self-test 71 Check hardware status after on system boot 72 Restart system 72 Show TDM over IP MAC address 72 Show system / processor MAC address 72 Show system type 72 Configure system / processor IP Address 73 Show system / processor IP address 73 Configure system / processor subnet mask 73 Show system / processor subnet mask 73 Configure system / processor gateway IP address 73 Show system / processor gateway IP address 74 Show alarms and events 74 Load configuration file in the system 74 Retrieve system configuration in a file 74 Configure wall clock time 75 Show wall clock time 75 Configure calendar date 75 Show calendar date 75 Stop RTC 75 Start RTC 76 Reset the RTC to its default settings 76 Configure high temperature threshold 76 Configure low temperature threshold 76 Show temperature thresholds 77 Show current system ambient temperature 77 Show system basic information 77 Configure clock priority 78 Show clock priority 79 Show current running clock 79 Configure TDM over IP engine’s IP address 79 Show TDM over IP engine’s IP address 79 Configure TDM over IP engine’s subnet mask 80 Show TDM over IP engine’s subnet mask 80 Configure TDM over IP engine’s gateway IP address 80 Show TDM over IP engine’s gateway IP address 80 Configure E1 port framing 80 Show E1 port framing 81 Configure loop-back on E1 port 81 Show E1 loopback status 81 Show E1 port alarms 81 Configure E1 port impedance 82 Show E1 port impedance 82 Add a bundle (Create a Logical-Link) 82 Delete a bundle 84 Show a bundle configuration 84 Enable / Disable a bundle 84
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Index
Particulars P. No. Show bundle state 84 Show bundle mode (SAToP / CESoPSN) 85 Configure VLAN tag-type for a bundle 85 Configure VLAN-1 ID for a bundle 85 Configure VLAN-2 ID for a bundle 85 Configure VLAN-1 priority for a bundle 86 Configure VLAN-2 priority for a bundle 86 Show VLAN-1 priority for a bundle 86 Show VLAN-2 priority for a bundle 86 Configure TDM clock mode 87 Show TDM clock mode 87 Configure clock type 87 Show clock type 87 Configure per port clock 88 Show per port clock configuration 88 Enable / Disable LOS base bundle detection 88 Show LOS base bundle detection 89 Configure SNMP read community 89 Configure SNMP write community 89 Configure SNMP traps target address 89 Configure SNMP traps target port 89 Configure SNMP traps target community 90 Show SNMP settings 90 Configure Ethernet mode to MEF 90 Configure Ethernet mode to UDP 91 Configure MPLS tag on Ethernet packets 91 Show Ethernet header type 91 Configure Ethernet port flow control 92 Show Ethernet port flow control 92 Configure trunk group 92 Show trunk group 92 Configure Ethernet port protection 93 Show Ethernet port protection 93 Show Ethernet packet counter 93 Configure Ethernet port QoS type 94 Configure Ethernet port QoS priority 94 Show QoS 94 Show Ethernet port QoS priority 94 Enable / Disable jumbo frame 95 Show jumbo frame status 95 Configure Ethernet port speed and mode 95 Show Ethernet port speed and mode 96 Configure Ethernet port ingress rate 96 Show Ethernet port ingress rate 97 Configure auto-poll 97 Show auto-poll 97 Enable / Disable switch transparent mode 97 Show switch transparent mode 98
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Index
Particulars P. No. Configure Ethernet port VLAN 98 Modify Ethernet port VLAN 98 Show VLAN 99 Delete a VLAN 99 Upgrade system image / firmware 99 Show SFP DDMI info 100
Section 12: Ordering Information 101 Core Unit 101 Power Supply Options 101 Gigabit Ethernet SFP Options 102 Cables and Accessories Options 102 Support 103
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Section 1: System Description and Installation
Product Overview
Orion’s 'VCL-TDM over IP' (GE Version) equipment provides transmission of up to two/eight E1 links over IP / Ethernet, MEF or MPLS networks.
The 'VCL-TDM over IP' (GE Version) equipment is equipped with a powerful PowerPC 400 MHz Processor which provides a highly reliable clock recovery mechanism for low jitter and wander control, even under variable network conditions.
The 'VCL-TDM over IP' (GE Version) equipment provides 2 x GigE electrical ports along with 2 x Gigabit optical ports which allow the users to implement a point-to-point, point-to-multipoint and 1+1 add-drop (drop-insert) configurations. Additionally, the equipment also offers the options of Ethernet link redundancy (Port Trunking or Spanning Tree Protocol) and QoS by implementing Differentiated Services (Diffserv) and packet priority classification protocols for network optimization.
The 'VCL-TDM over IP' (GE Version) equipment also optimizes on the network usage by offering the CESoPSN option, such that the bandwidth used by the TDM over IP equipment on the packet network is limited to the corresponding to the number of E1 ports and the time-slots that are being transported over the Ethernet / packet network.
Purpose of TDM over IP technology
Telecom companies and enterprise users can save network and equipment cost and generate additional revenue by offering different types of services over a single packet-switched infrastructure by the use of TDM over IP equipment. The TDM over IP equipment is also suitable for connecting to Ethernet / packet wireless equipment to achieve fast deployment of E1 services over wireless Ethernet networks. One particular application is to build E1 links with low cost Wireless LAN bridges, replacing expensive TDM / E1 microwave radios.
The 'VCL-TDM over IP' (GE Version) multiplexer may be used to provide legacy TDM services over Gigabit Ethernet optical fiber, or wireless Ethernet/IP networks.
How the ‘VCL-TDM over IP' (GE Version) equipment works
The E1 data streams received on the E1 interfaces are converted by the TDM over IP engine of the TDM over IP equipment to Ethernet data packets (of a fixed size) and transported over the Ethernet network with UDP / IP, MEF or MPLS headers. At the receiving end the TDM over IP reconstructs the original data streams by removing the IP, MEF or MPLS headers and converts the Ethernet data packets back to E1 frames using highly reliable and accurate clock recovery mechanism. The 'VCL-TDM over IP' (GE Version) offers the user a choice of standard, E1 to packet and packet to E1 conversion mechanisms that include SAToP and CESoPSN technologies.
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Hardware Highlights
19-Inch rack mountable 1U form factor (44mm high) 1+1 Redundant Power Supplies, AC and DC, or AC plus DC Redundant power supply inputs Extended Temperature Range: (-200 C to +600 C) EMI / EMC Complaint Real time battery backed clock with life in excess of 10 years
E1 Clock recovery and synchronization techniques:
Adaptive Clock Recovery - In the Adaptive Clock mode, the system clock is recoved from the Ethernet time-stamped packets). Under normal operating conditions, the “Adaptive Clock” mode should be the preferred option along with “Two Clock” mode option.
Recovered Per Port Clock - In the “perportclock” enabled mode, each port recovers its own clock on a per port basis and each port works on its own recovered clock.
Recovered Clock / Loop-Timed Clock - Options: Recovered01, 02, 03, 04, 05…08 – In the “recoveredxx clock” mode the clock is recovered from one selected port that is specified by the user and the entire system work on the single selected recovered clock source.
Asymmetrical Clock (One-Clock and Two-Clock) – In the “One Clock” mode, the entire system works on one single selected clock source. The “One Clock” mode must only be used when a very stable external clock source is available such as the Telco External Clock, GPS Clock or a IEEE-1588 based packet recovered clock. In the “Two Clock” mode, the TDM Ports adjust their frequencies based on the Packet based Ethernet Timing recovery mechanisim. Under normal operating conditions, the “Two Clock” mode should be the preferred option along with the the “Adaptive Clock” mode.
Synchronization to an External Clock - Synchronization to an External Clock – This used option must only be selected when a very stable external clock source is available such as the Telco External Clock, GPS Clock or a IEEE-1588 based packet recovered clock.
Automatic clock priority selection with fall back – This allows the user to prioritize the clock fall-back sequence, in the event that the primary or the preferred clock source(s) become un-available.
Plesiochronous Clocking.
Key Features - E1 and TDM over IP Interface
Supports 2/8 independent E1 interfaces.
Internal, External, Adaptive, Recovered clock, Symmetrical and Asymmetrical (One-Clock and Two-Clock) options for the E1 TDM port synchronization. Automatic clock priority selection with fall back.
Absolute and Differential timestamps.
Jitter and Wander conforms to G.823 / G.824 and G.8261 and TDM specifications.
Supports three E1 framing modes - Framed, Unframed and Multi-framed with CAS signaling.
Supports point-to-point, point-to-multipoint and drop and insert applications.
Supports IETF-PWE3 (pseudo-wire), SAToP and CESoPSN transport mechanisms.
Supports CESoPSN payload mechanism to support the fractional E1 with data rate of 64Kbps to 2.048Mbps (DS0 timeslot level). User configurable data rate from 64kbps to 2048kbps, in steps of 64kbps.
CESoPSN payload mechanism feature allows the user to optimize the packet switched network by limiting its usage to the corresponding number of timeslots carried by an E1 channel.
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Supports SAToP payload mechanism to transport full E1 (transparent to the structure of the TDM frame useful for transporting framed / unframed E1 channels).
Supports network latency / packet delay variation / jitter buffer of up to 512ms.
Supports IP, MPLS and MEF8 (Metro Ethernet) tagging.
RJ45 - 120 ohms balanced E1 interfaces. Optional 75 Ohms BNC interface (120 Ohms – RJ45 to 75 Ohms - BNC interface converter cables provided).
E1 Loopback facility for testing and diagnostics.
Key Features - Ethernet / IP Network Interface
Switching Capacity upto 6 Gbps, non-blocking
4 GigE Ports.
Optical SFP based (1000Base-FX) and Electrical (10/100/1000Base-T) Ethernet Port options.
2 x 10/100/1000BaseT Copper Ports.
2 x 1000BaseFX Optical Fiber Ports.
Point-to-point and point-to-multipoint applications based on IP addressing.
Supports drop and insert applications.
Port Control Ingress Rate Limiting.
1+1 Hitless Ethernet Link Redundancy
Port Trunking.
Spanning Tree Protocol.
IGMP Snooping.
Tagged/Un-Tagged/Un-Modified 802.1Q Mode.
Q-in-Q Tagging.
User configurable MTU (TDM over IP payload) packet size. May be configured from 1 to 1800 Bytes.
Switch supports jumbo frame sizes of up to 9000 Bytes.
Port based and Tag based VLANs.
Single / Double 802.1 VLAN tagging (Q in Q VLAN Tagging) user configurable.
Supports QoS on 802.1p based packet priority.
Supports Packet priority assignment (IP Diffserv / DSCP).
UDP-specific “Special” Ethernet type.
In band VCCV ARP.
Broadcast DA.
System Management, Monitoring and Alarm Interfaces
NMS (Network Management System) to monitor multiple units from single Central Location.
External Alarm - Dry contact relay alarms are also available at rear of the system to connect the system to an external alarm.
Supports system temperature monitoring with High Temperature and Low Temperature alarms and SNMP Traps.
Supports SNMP V2 Monitoring and Traps.
UDP-specific “Special” Ethernet type.
Self-test for checking system errors upon system bootup.
Event Logging.
Clock Performance Alarms.
Network Performance Alarms.
Network Performance Monitoring and Diagnostics.
Online / remote upgrade of firmware.
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System Access, Control and Management Options
Telnet.
CLI Control Interface (HyperTerminal or VT100).
SNMP V2 Traps (MIB File provided).
Windows based GUI (Graphical User Interface) for easy configuration, management and access. Ability to monitor multiple units from a single NMS.
Password Protection.
OAM: Operation and Management Ports
RS232 Serial Port.
USB COM Port.
10/100/1000BaseT Ethernet Management for In-band remote access.
Front View
VCL-TDM over IP - 2E1 GE Version with Single AC Power Supply
VCL-TDM over IP - 2E1 GE Version with Single DC Power Supply
VCL-TDM over IP - 2E1 GE Version with AC and DC Power Supply
VCL-TDM over IP - 2E1 GE Version with Dual AC Power Supply
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VCL-TDM over IP - 2E1 GE Version with Dual DC Power Supply
VCL-TDM over IP - 8E1 GE Version with Single AC Power Supply
VCL-TDM over IP - 8E1 GE Version with Single DC Power Supply
VCL-TDM over IP - 8E1 GE Version with AC and DC Power Supply
VCL-TDM over IP - 8E1 GE Version with Dual AC Power Supply
VCL-TDM over IP - 8E1 GE Version with Dual DC Power Supply
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Front Panel Description
VCL-TDM over IP - 2E1 GE Version
VCL-TDM over IP - 8E1 GE Version
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LED Description
LEDs Status Description
ACLK ON / OFF ON = System is working in adaptive clock mode
RCLK ON / OFF ON = System is working in recovered clock mode
EXT CLK ON / OFF ON = System is working in external clock mode
L1 ON / OFF ON = Power Supply 1 present
L2 ON / OFF ON = Power Supply 2 present
L3 ON / OFF ON = All System managers are working properly
L4 ON / OFF ON = Alarm present
L5 ON / OFF ON = OAM Power ON
L6 ON / OFF ON = USB serial port is in use
L7 ON / OFF ON = DB-9 serial port is in use
L8 - For future use
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Section 2: Application Diagrams
Application Diagram
TDM over IP in Cellular Backhaul
Typical Application Diagram in Wireless Network
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BTS : Base Trans-receiver Station MSC : Master Switching Center RNC : Radio Network Controller LTE : Long Term Evolution FE1 : Fractional E1 FE : Fast Ethernet GE : Gigabit Ethernet PoE : Power over Ethernet
Typical Application in Wireless Network - 1+1 Link Redundancy
Typical Application in Wired Network
Note: Application illustrate link protection using spanning Tree Protocol between all nodes.
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E1s and Gigabit Ethernet Traffic over a Packet Switched Network
BTS : Base Trans-receiver Station MSC : Master Switching Center RNC : Radio Network Controller LTE : Long Term Evolution FE1 : Fractional E1 FE : Fast Ethernet GE : Gigabit Ethernet
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Section 3: Technical Specifications
TDM over IP Specifications
Max number of E1 Ports Number of Ports 2/8
Max number of logical links Up to 64
Synchronization clock recovery Adaptive Clock Recovery (ACLK) Options
Recovered Clock (RCLK) / Loop-Timed Clock
Asymmetrical (One-Clock and Two-Clock) Clock
Synchronization to an External Clock (ECLK) and an Internal Clock
Automatic fall back
Max number of Ethernet 2 x Gigabit Optical Ethernet Ports (SFP)
2 x 10/100/1000Base-T Electrical Ethernet (RJ-45)
Supported Transport ETF-PWE3, SAToP and CESoPSN Mechanisms
Supported PSN (Packet Switched Networks) type
UDP, IP, MPLS and MEF
QoS 802.1q, 802.1p packet priority
E1 Interface
Number of Ports Number of Ports 2/8 (supporting 64Kbps upto 2.048Mbps on each port)
Framing Formats Unframed, framed and Multi-frame (with or without CRC-4)
Line Coding HDB3
Compliance ITU-T G.703, G.704, G.706 and G.732
Jitter and Wander Complies to ITU-T G.823, G.824
Line Impedance 120 Ohms balanced
Optional 75 Ohms
Protection Optional Metallic and Longitudinal Protection
ESD protection
Ethernet Interface
Number of Ports 2 Gigabit optical ports and 2 GigE (electrical) ports, complies with IEEE802.3, 802.1Q and 802.1P
Electrical 10/100/1000 Auto-negotiation / MDI-X (Auto-sensing), Full-Half Duplex, RJ45 Electrical Connector
Optical 1000Base-FX (Gigabit Ethernet), SFP
Protection ESD protection
Maximum Frame Size 9000 Bytes (Jumbo Frames)
Switching Capacity Upto 6 Gbps, Non-blocking
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Gigabit Optical Ethernet Specifications
Type SFP
Compliance Compliant with IEEE 802.3z Fast Ethernet 1000BASE-LX
MSA Compliant
RoHS
EMI
ESD
DDM
Safety Class 1 Laser Safety/ IEC-60825 Compliant
Bit Rate 1.25 Gbps
Wavelength 1310 / 1550 nm
Distance 550m to 80Kms, as per order
Optical Connector LC
Power Consumption
Power Consumption <12 Watts
Power Supply Options
Dual Redundant
1+1 AC power (100 to 240V AC, 50/60 Hz)
1+1 DC (-48V) power (40 to 72V DC)
1+1 DC (-24V) power (18 to 40V DC)
AC plus DC (AC + DC), AC or DC
EMI/EMC compliant.
Command Language
Windows based GUI (Graphical User Interface).
Command Line Interface (English text commands).
Management and Control Interfaces
COM Port (RS232 Serial Port).
10/100/1000BaseT Ethernet Port (each multiplexer may be assigned an IP address and connected to a LAN / IP network for remote access and management through the 10/100/1000BaseT Ethernet Port for in-band configuration, management and access).
Telnet.
SNMP, V2.
Additionally, a Windows based GUI (Graphical User Interface) for easy configuration, management and access.
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AC Power Supply Specifications
Input AC Voltage 110 / 220 Volts AC
Range of input AC Voltage 100 V to 240 V AC, 50Hz/60Hz.
AC Input Connector IEC Connector
24V DC Power Supply Specifications
Power Supply 24V DC
Range of input 18V to 40V DC
Input voltage reversal protection Provided
Efficiency at full load > 90% @ 5V/4A (when input voltage-24V)
Ripple at full load < 5mVrms
Spike at full load < 50mV
48V DC Power Supply Specifications
Power supply -48V DC
Range of input -40V DC to -72V DC
Efficiency at full load > 91% @ 5V/2A (when input voltage -48V)
Ripple at full load < 5mVrms
Spike at full load < 50mV
Environment
Temperature -200C ~ +600C for Operation
Humidity 5% to 95% (at 350C) Non-condensing
Regulatory Compliance
Safety - IEC 60950 Safety - IEC 60950
CE
RoHS
Complies to ANS/IEC standards
Complies with Telecom Part 68, FCC Part 15 and CISPR 22 Class A
EMC EN55022: 1998 + A1 and A2
EMC EN55024,
Operation ETS 300 019 Class 3.2
Storage ETS 300 019 Class 1.2
Transportation ETS 300 019 Class 2.3
Chassis
1U High (44mm)
19-inch rack-mounting shelf
Also available in Desktop / Table Top Version.
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NMS (with Telnet) OAM port Specifications
Network Interface RJ-45 10/100/1000BaseT (Auto sensing)
Compatibility Ethernet Version 2.0 IEEE802.3
Protocols supported ARP, UDP/IP, TCP/IP, Telnet, ICMP, SNMP
Management SNMP, Serial login, Telnet login
EMI Compliance Radiated and conducted emissions complies with Class B limits of EN55022:1998
Direct and Indirect ESD complies with EN55024: 1999
RF Electromagnetic Field Immunity complies with EN55024:1998
Electrical Fast Transient/Burst Immunity complies with EN55024:1998
Power Frequency Magnetic Field Immunity complies with EN55024:1998
RF Common Mode Conducted Susceptibility complies with EN55024:1998
Mechanical Specification
Height 44 mm (1U)
Depth 250 mm
Width 480 mm (19 inch rack mountable)
Weight 2.4 Kgs.
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Section 4: Connection Details
Power Connection
AC Power Connection
DC Power Connection
Note: The system is fully protected for reverse polarity. Connecting the power cables in reverse direction will not
damage the system.
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E1 Connection
RJ-45 Pinout for E1 Interface
RJ-45 (Female) Pin # Signal in RJ-45 (Female)
1 Rx+ (Data In)
2 Rx- (Data In)
4 Tx+ (Data Out)
5 Tx- (Data Out)
External Synchronization Clock Connection
RJ-45 Pinout for Clock Interface – Clock IN
RJ-45 (Female) Pin # Signal in RJ-45 (Female)
External Clock IN Pinout
1 Rx+ (Clock In)
2 Rx- (Clock In)
4 No Connection
5 No Connection
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RJ-45 Pinout for Clock Interface – Clock OUT
RJ-45 (Female) Pin # Signal in RJ-45 (Female)
External Clock OUT Pinout
1 No Connection
2 No Connection
4 Tx+ (Clock Out)
5 Tx- (Clock Out)
Optical Ethernet Connection
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Electrical Ethernet Connection
RJ-45 Pinout for Ethernet Interface
RJ-45 (Female) Pin # Signal in RJ-45 (Female)
1 Tx+ (Data Out)
2 Tx- (Data Out)
3 Rx+ (Data In)
6 Rx- (Data In)
COM Port Connection
DB-9 Pinout for COM Port
DB-9 (Female) Pin # Signal in DB-9 (Female)
2 Transmit (Data Out)
3 Receive (Data In)
5 Ground
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USB Connection for COM Port
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Section 5: Default Settings
Parameter Value
System IP Settings
IP Address 192.168.1.102
Gateway Address 192.168.1.1
Subnet Mask 255.255.255.0
TDM IP Settings
IP Address 192.168.1.103
Gateway Address 192.168.1.1
Subnet Mask 255.255.255.0
Username and Password
User Name superuser (case sensitive)
Password superuser (case sensitive)
SNMP Settings
SNMP Read (get / getnext) Community public (case sensitive)
SNMP Write (set) Community private (case sensitive)
SNMP Trap Enable
SNMP Trap Target IP Address1/2/3 127.0.0.1
SNMP Trap Target Port 1/2/3 162
SNMP Trap Target Community 1/2/3 public (case sensitive)
TDM over IP Settings
Configured Bundle None
E1 Frame Unframed
E1 Loop Disable
Header Type UDP
VLAN Disable
DSCP Priority 1~63 3
Clock Settings
Priority 1/2/3/4/5 Adaptive
Priority 6 Internal
Per port clock Enable
Clock mode Two clock mode
Clock Type Stratum 3
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Section 6: HyperTerminal Settings
To use HyperTerminal for executing the CLI commands
To use HyperTerminal for executing the CLI commands through COM Port (RS232 Serial), USB Port and through Telnet Port
Important Instructions:
The user can choose to use the HyperTerminal utility to access the equipment either through the local serial/DB9 COM Port and USB Port.
Alternatively, the user may use the HyperTerminal utility access the equipment through Telnet Port to remotely access the equipment over a TCP/IP network.
The CLI Commands shall remain same for all three options.
Windows-based GUI is yet another option, which the user may select to configure the equipment either through the local serial (DB9 COM) port, USB Port or Telnet port over a TCP/IP network.
Note: HyperTerminal and the GUI may not be used simultaneously. If you are accessing the equipment through the GUI, please exit the GUI before connecting to use the HyperTerminal utility to access the equipment through the serial / DB9 COM Port, USB Port or telnet port for executing the CLI commands
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HyperTerminal settings for COM Port (RS232) and USB Port Click the Start button from the Task Bar of your PC. Go to Programs>Accessories>Communications>HyperTerminal The following screen will appear:
Enter the name, select an icon and then click OK. The following window will appear on your screen:
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Select the COM** option from the drop over menu, and click OK. The following window will appear on your screen:
** COM1 / COM2 / COM3 depending upon your PC that is in use. To confirm the same, check it out in the properties.
[Right click on My Computer (Desktop)>Properties>Hardware>Device Manager>Port -Communication Port (COM1)].
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Change the Bits per second option to “115200” and flow control option to “None”. The final settings should be as follows:
1 Bits per second 115200
2 Data bits 8
3 Parity None
4 Stop bits 1
5 Flow control None
115200
Click on Apply, and then on OK. The following window will appear on your screen:
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Next, click on File in the main menu and then click on Properties.
The following window will appear on your screen:
Next, click on Settings tab.
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Change “Emulation” to “VT100” Next, click on “ASCII Setup” The following window will appear:
Note: If the option of “Echo typed characters locally” is checked, you will receive double characters. Next, click on OK. The following window will appear on your screen:
Type the below user name and password to enter system configuration mode as an Administrator. User name “superuser” (case sensitive) Password “superuser” (case sensitive) Note: An administrator can change system configurations and as well as configuration of authentication and
authorization through serial port (DB-9 and USB). Note: A normal system user's account allows a user to authenticate to system services and be granted
authorization to access them on serial port (DB-9 and USB) as well as on Telnet; however, normal system user cannot have the access to the configurations of authentication and authorization. Prompt will be generated by the system. Now the user can access/configure the system with the CLI commands using the HyperTerminal utility.
Note: Please save the settings before you exit the HyperTerminal window for your future use.
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HyperTerminal settings for Telnet Port Click the Start button from the Task Bar of your PC. Go to Programs>Accessories>Communications>HyperTerminal The following screen will appear:
Enter the name, select an icon and then click OK. The following window will appear on your screen:
Select the TCP/IP (Winsock) option from the drop over menu and click OK.
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The following window will appear on your screen:
Enter the IP Address of the system in the Host address field. The default IP Address, which is already programmed at the factory / default in the memory of the system, is 192.168.1.102. To change the IP Address, please refer to CLI commands section of the user manual. Enter the system IP address as shown in the below screen.
Click on OK.
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The following window will appear on your screen:
Next, click on File in the main menu and then click on Properties.
The following window will appear on your screen:
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Next, click on Settings tab.
Change “Emulation” to “VT100” Next, click on “ASCII Setup” The following window will appear:
Note: If the option of “Echo typed characters locally” is checked, you will receive double characters. Next, click on OK.
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The following window will appear on your screen:
Type the user name and password to enter system configuration mode. User name “superuser” (case sensitive) Password “superuser” (case sensitive) Prompt will be generated by the system. Now the user can access/configure the system with the CLI commands remotely, over Ethernet Port, using the HyperTerminal utility. Note: Please save the settings before you exit the HyperTerminal window for your future use.
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Telnet without using HyperTerminal utility
To Telnet the system, click on Start > Run next type telnet <system IP Address> (as shown in below screen) and click on OK. The default IP Address, which is already programmed at the factory / default in the memory of the system, is 192.168.1.102.
The following screen will appear:
Username:
Type the user name and password to enter system configuration mode.
User name “superuser” (case sensitive)
Password “superuser” (case sensitive)
Prompt will be generated by the system. Now the user can access/configure the system with the CLI commands remotely, using Telnet utility.
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Section 7: USB Serial Port Drivers
Installing USB Serial Port Drivers
USB serial port is a plug and play device and it usually auto installs its driver in the connected PC. In the event that the USB port does not work, please follow the steps below to install the device drivers.
1. Connect the USB serial port with computer through the USB Cable provided with the system. 2. Open the CD / DVD drive and insert the disk which has been supplied to you along with the equipment. 3. Next, right click on My Computer and choose properties. System properties will appear.
4. Click on ‘Hardware’ tab and choose the ‘Device Manager’ option. The Device Manager will appear on the screen.
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5. Next, go to the device which shows the “attention required” sign. You will see a mal-functioned device under other devices named “FT232R USB UART”. Next, right click on “FT232R USB UART” and choose “Update Driver”.
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6. A “Hardware Update Wizard” will appear on screen. Choose the “No, not this time” option and click on ‘Next’.
7. Next, choose the “Install from a list or specific location (Advanced)” option and click on ‘Next’.
8. Next, choose “Search removable media (floppy, CD-ROM….)” and click on ‘Next’.
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9. The “Hardware Update Wizard” will start searching the load the correct driver from the CD-ROM. Please do not close or stop this process as it as it may take a few minutes to complete.
10. The following screen will appear when the “Hardware Update Wizard” has successfully located the correct device drivers and begins installation of the required device drivers.
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11. After the installation has been successfully completed, the following screen will appear. Please click ‘Finish’ to close the wizard.
12. Next, again go the “Device Manager” where you will see the “attention required” alarm sign appearing in the “Other Devices” category for the “USB Serial Port”.
13. Please “right click” on it and choose the “Update Driver” option.
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14. Please repeat the process from 6 to 10.
15. Click ‘Finish’ to close the Hardware Update Wizard.
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16. The USB Serial COM port driver has successfully been installed in your computer and you can find it under “Ports (COM and LPT)”. Please make a note and record the COM port number assigned to the virtual USB Serial COM Port.
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Section 8: System Access and User Management
k The system supports two types of users: 1. Superuser
The ‘superuser’ is the sole administrator of the equipment and shall have the following authorities: Add up to 9 users and assign their password Delete a user Change self-password See registered user Access and configure the equipment
The ‘superuser’ cannot be deleted from the system and shall not have the following authorities:
Change password for any other user View password for any user (including its own)
2. Normal User
A ‘Normal-User’ is a user created by the ‘superuser’ by assigning a ‘UserName’ and ‘Password’. A ‘Normal-user’ shall have the following authorities:
Change self-password See registered user Access and configure the equipment
The ‘Normal-User’ shall not have the following authorities:
Change password for any other user View password for any user (including its own) Add users Delete a user
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Section 9: CLI Command Functionality – How CLI commands work
1. To configure or show any configuration in system type the relevant CLI command followed by a space, followed by option. Each option is separated by a ‘space’ key
Example: Command Format: sete1frame <e1 port> <frame>
<CLI prompt>sete1frame 8 multiframedwithcrc{Enter Key} SUCCESS
2. Intuitive commands
Intuitive / predictive command-set help users in typing commands quickly and correctly. To get help from intuitive command-set, type a few letters of the command followed by the ‘Tab’ key.
Example: <CLI prompt>showb{Tab Key}{Tab Key} showbootstatus showbundle showbundlestate
Example: <CLI prompt>setf{Tab Key} <CLI prompt>setflowcontrol
3. Command History
Previously used command may be accessed by using UP ‘’ and DOWN ‘’arrow keys
4. Executing any CLI command shall return the execution status of ‘SUCCESS’ or ‘FAIL’. In Case of failed attempt the system shall return the possible failure cause.
i.e. 'SYNTAX ERROR' or possible failure cause along with ‘FAIL’ message.
Example: <CLI prompt>sete1frame 1 multi 'SYNTAX ERROR'
<CLI prompt>sete1frame 1 framedwithcrc {Enter Key} Delete assigned bundle FAIL
5. No commands are ‘Case Sensitive’ though they may be shown in upper and lower case in the user manual
for better presentation purpose. Both lower and upper case commands are accepted.
6. Command list may be shown by typing ‘?’ or ‘help’ followed by an enter key.
7. To get help for a particular command type ‘?’ followed by the ‘CLI command text’ and then followed by the ‘Enter’ key.
<CLI prompt>? showe1frame{Enter Key} FORMAT: showe1frame <E1 port> OPTIONS: <E1 port>: max-8 min-1 | all
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DESCRIPTION: Show E1 port framing
<CLI prompt>? help FORMAT: help OPTIONS: NONE DESCRIPTION: Show system commands list
8. Options within ‘< >’ are possible value for that particular command and option within ‘[ ]’ are optional
value for that particular command.
Example: setmpls <endis> [option] [outerlabel1] [outerlabel2] [expbitvalue] [ttlvalue]
Here <endis> is the possible options to enable or disable the MPLS user MUST configure
[option], [outerlable1], [outerlable2], [expbitvalue] and [ttlvalue] are the optional configuration which user may choose to configure or not.
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Section 10: Quick Start Guide
To use the Quick Start Guide, the user must first understand the basic principles on which this equipment works. The E1 over Ethernet Equipment uses two processing engines which run independently of each other. One processing engine is the master system processor which monitors and controls the entire system. The second processing engine is the “TDM over IP” engine which converts and serializes the E1 streams to IP packets and transports them over IP links. Each of the two processing engines must be assigned their independent IP addresses. The system IP address shall provide access to the user to configure, manage and monitor the system. The “TDM over IP engine’s IP addresses shall be used to provide the source and the destination IP addresses to the “TDM over IP” streams. An E1 can be transported as a single stream in one bundle, from “a” source to “a” destination, or as fractional E1s in multiple bundles from “a” source to multiple destinations. In the case of the latter, each fractional E1 (i.e. bundle) shall have their individual destination IP addresses. Each “Source” to “Destination” link that is created, whether it is for a full E1 or a fractional E1, is called a “Logical Link”.
Configure system / processor IP Address
setsysip FORMAT: setsysip <IP Address> OPTIONS: <IP Address>:IP Address, e.g. 192.168.1.1 DESCRIPTION: Configure system IP Address
Configures system management IP Address to access the system over telnet and SNMP
Configure system / processor subnet mask
setsysmask FORMAT: setsysmask <Subnet Mask> OPTIONS: <Subnet Mask>: Subnet Mask, e.g. 255.255.255.0 DESCRIPTION: Configure system subnet mask
Configures system management port network mask
Configure system / processor gateway IP address
setsysgateway FORMAT: setsysgateway <Gateway Address> OPTIONS: <Gateway Address>: Gateway IP Address, e.g. 192.168.1.1 DESCRIPTION: Configure system Gateway Address
Configures Management port Gateway IP Address
Configure TDM over IP IP address
settdmip FORMAT: settdmip <IP Address> OPTIONS: <IP Address>: IP Address, e.g. 192.168.1.1 DESCRIPTION: Configure TDM IP Address
Configures TDM over IP port IP Address
Configure TDM over IP subnet mask
settdmmask FORMAT: settdmmask <subnetmask> OPTIONS: <subnet mask>: Subnet Mask, e.g. 255.255.255.0 DESCRIPTION: Configure TDM Subnet Mask
Configures TDM over IP port network mask
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Configure TDM over IP Gateway IP address
settdmgw FORMAT: settdmgw <Gateway Address> OPTIONS: <Gateway Address>: Gateway IP Address e.g. 192.168.1.100 DESCRIPTION: Configure TDM Gateway Address
Configures TDM over IP port Gateway IP Address
Show system basic information
showsysinfo FORMAT: showsysinfo OPTIONS: NONE DESCRIPTION: Display current system information
Shows system basic information including System IP Address / System Subnet Mask / System Gateway IP Address / TDM IP Address / TDM Subnet Mask /TDM Gateway IP Address
Configure E1 port framing
sete1frame FORMAT: sete1frame <e1 port> <frame> OPTIONS: <e1 port>:max-8 min-1 <framed>:framedwithcrc | framedwithoutcrc | unframed | multiframedwithcrc | multiframedwithoutcrc DESCRIPTION: Configure E1 port framing (Framed with crc/ Framed without crc / Unframed / Multi-framed with crc / Multi-framed without crc)
Configures E1 port framing Note: No bundles should be configured on particular E1 port to change the E1 framing. Please delete all bundles configured on particular E1 port
Show E1 port framing
showe1frame FORMAT: showe1frame <E1 port> OPTIONS: <E1 port>: max-8 min-1 | all DESCRIPTION: Show E1 port framing
Shows E1 port framing
Configure clock priority
setclockpriority FORMAT: setclockpriority <priority1> <priority2> <priority3> <priority4> <priority5> <Internal> OPTIONS: <priority1~5>: Adaptive, Recovered{xx}, External {in any order} <Internal>: Last priority is always internal, in case of failure of clock options RECOVERED{XX}: Where xx = port number. example recovered01,recovered05,recovered08 EXTERNAL: EXTERNAL75R/EXTERNALBITS DESCRIPTION: Configure clock priority for system
Configures clock priority to synchronize TDM link over the asynchronous Ethernet interface NOTE 1: Clock priority may be selected in any order but last option shall always be internal. NOTE 2: Recovered clock can be assigned on any / all of the 8 TDM ports in the order of availability. NOTE 3: All 6 priorities should be assigned.
Show clock priority
showclockpriority FORMAT: showclockpriority OPTIONS: NONE DESCRIPTION: Show configured clock priority
Shows current configured clock priority
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Show current running clock
showcurclock FORMAT: showcurclock OPTIONS: NONE DESCRIPTION: Show current running clock
Shows current running clock
Show alarms and events
showalarms FORMAT: showalarms OPTIONS: NONE DESCRIPTION: Show all alarms present in queue
Shows system alarm log and events
Add a bundle (create a “Logical-Link”)
addbundle FORMAT: addbundle <BID> <TDM port> <Destination IP> <Destination BID> <timeslot-range> <jbsize> <framesize> OPTIONS: <BID>: max-63 min-0 <TDM port>: max-8 min-1 <Destination IP>: 192.168.1.156 <Destination BID>: max-63 min-0 <timeslot-rang>: max-31 min 1 <jbsize>:max-512 min-1 <framesize>: max-99 min-1 E1 Multi-Framed: 16,8,4,2,1 DESCRIPTION: Add a bundle for TDM over IP
Adds a bundle (Logical link) to be sent over the Ethernet network Note: Time-slot 16 is reserved for signaling and cannot be used for the multi- framed option.
Cautions:
Please make sure that the number of timeslots in a bundle should be same for its corresponding bundle which the bundle supposed to connect on remote TDM over IP equipment.
Please make sure that the frame size of a bundle should be same for its corresponding bundle which the bundle supposed to connect
In the timeslot field please select timeslot range i.e. 1-3 or 9-15 or 17-29 Destination bundle, on which the source bundle is being sent to, should have source bundle number in its destination
bundle field.
Example-1: TDM over IP-X TDM over IP-Y
Bundle ID: 5 Bundle ID: 21 E1 port: 1 E1 port: 1 TDM IP: 192.168.1.4 TDM IP: 192.168.1.99 Timeslots: 1-5 Timeslots: 1-5 Jitter buffer size: 128 Jitter buffer size: 128 Frame size: 16 Frame size: 16
Configuration: TDM over IP-X: ADDBUNDLE 5 1 192.168.1.99 21 1-5 128 16
ADDBUNDLE 5 1 192.168.1.99 21 1-5 128 16 CLI Source
Bundle ID Source Port
Destination IP Address
Destination Bundle ID
Timeslots (local end)
Jitter Buffer size
Frame Size
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TDM over IP-Y: ADDBUNDLE 21 1 192.168.1.4 5 1-5 128 16
ADDBUNDLE 21 1 192.168.1.4 5 1-5 128 16 CLI Source
Bundle ID Source Port
Destination IP Address
Destination Bundle ID
Timeslots (local end)
Jitter Buffer size
Frame Size
Example-2:
TDM over IP-X TDM over IP-Y Bundle ID: 16 Bundle ID: 33 E1 port: 1 E1 port: 2 TDM IP: 192.168.1.4 TDM IP: 192.168.1.99 Timeslots: 1-10 Timeslots: 21-30 Jitter buffer size: 256 Jitter buffer size: 256 Frame size: 12 Frame size: 12
Configuration: TDM over IP-X: ADDBUNDLE 16 1 192.168.1.99 33 1-10 256 12
ADDBUNDLE 16 1 192.168.1.99 33 1-10 256 12 CLI Command Source
Bundle ID Source Port
Destination IP Address
Destination Bundle ID
Timeslots (local end)
Jitter Buffer size
Frame Size
TDM over IP-Y: ADDBUNDLE 33 2 192.168.1.4 16 21-30 128 16
ADDBUNDLE 33 2 192.168.1.4 16 21-30 256 12 CLI Command Source
Bundle ID Source Port
Destination IP Address
Destination Bundle ID
Timeslots (local end)
Jitter Buffer size
Frame Size
Delete a bundle (delete a “Logical-Link”)
delbundle FORMAT: delbundle <BID> OPTIONS: <BID>: max-63 min-0 DESCRIPTION: Delete a bundle
Disables the bundle Note: Please disable the bundle first before deleting
Show a bundle configuration
showbundle FORMAT: showbundle <BID> OPTIONS: <BID>: max-63 min-0 | all DESCRIPTION: Show setting of configured bundle
Shows the configure bundle parameters Note: all argument is not valid for this command
Enable / Disable a bundle (disable a “Logical-Link”)
setbundlestate FORMAT: setbundlestate <BID> <option> OPTIONS: <BID>: max-63 min-0 <option>:enable | disable DESCRIPTION: Set bundle state enable or disable
Enables or disables a bundle
Show bundle state
showbundlestate FORMAT: showbundlestate <BID> OPTIONS: <BID>: max-63 min-0 DESCRIPTION: Show bundle state
Shows bundle state, if enable or disable
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Different Configuration Examples Example 1: Point to Point – Unframed
E1oP - Left E1oP - Right
TDM IP Address: 192.168.1.100 Subnet Mask: 255.255.255.0 Gateway IP Address: 192.168.1.1 E1 port to be used: E1 port 1 Framing: Unframed Source Bundle ID: 1
TDM IP Address: 192.168.1.10 Subnet Mask: 255.255.255.0 Gateway IP Address: 192.168.1.1 E1 port to be used: E1 port 1 Framing: Unframed Source Bundle ID: 1
Configuration:
E1oP-Left: E1oP-Left:
1. Configure the E1 port 1 framing as unframed >sete1frame 1 unframed 2. Configure TDM IP Address
>settdmip 192.168.1.100 3. Configure Subnet Mask
>settdmmask 255.255.255.0 4. Configure TDM Gateway Address
>settdmgw 192.168.1.1 5. Add a bundle
>addbundle 1 1 192.168.1.10 1 1-31 210 16 6. Enable bundle
>setbundlestate 1 enable
1. Configure the E1 port 1 framing as unframed >sete1frame 1 unframed 2. Configure TDM IP Address
>settdmip 192.168.1.10 3. Configure Subnet Mask
>settdmmask 255.255.255.0 4. Configure TDM Gateway Address
>settdmgw 192.168.1.1 5. Add a bundle
>addbundle 1 1 192.168.1.100 1 1-31 210 16 6. Enable bundle
>setbundlestate 1 enable
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Example 2: Point to Point – Framed
E1oP - Left E1oP - Right
TDM IP Address: 192.168.1.100 Subnet Mask: 255.255.255.0 Gateway IP Address: 192.168.1.1 E1 port to be used: E1 port 1 Framing: Framed Source Bundle ID: 1
TDM IP Address: 192.168.1.10 Subnet Mask: 255.255.255.0 Gateway IP Address: 192.168.1.1 E1 port to be used: E1 port 1 Framing: Framed Source Bundle ID: 1
Configuration:
E1oP-Left: E1oP-Right:
1. Configure the E1 port 1 framing as framed >sete1frame 1 framedwithcrc 2. Configure TDM IP Address
>settdmip 192.168.1.100 3. Configure Subnet Mask
>settdmmask 255.255.255.0 4. Configure TDM Gateway Address
>settdmgw 192.168.1.1 5. Add a bundle
>addbundle 1 1 192.168.1.10 1 1-31 210 16 6. Enable bundle
>setbundlestate 1 enable
1. Configure the E1 port 1 framing as framed >sete1frame 1 framedwithcrc 2. Configure TDM IP Address
>settdmip 192.168.1.10 3. Configure Subnet Mask
>settdmmask 255.255.255.0 4. Configure TDM Gateway Address
>settdmgw 192.168.1.1 5. Add a bundle
>addbundle 1 1 192.168.1.100 1 1-31 210 16 6. Enable bundle
>setbundlestate 1 enable
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Example 3: Point to Point – Framed (Fractional)
E1oP - Left E1oP - Right
TDM IP Address: 192.168.1.100 Subnet Mask: 255.255.255.0 Gateway IP Address: 192.168.1.1 E1 port to be used: E1 port 1 Framing: Framed Timeslots: 1-10 (10 Timeslots) Source Bundle ID: 1
TDM IP Address: 192.168.1.10 Subnet Mask: 255.255.255.0 Gateway IP Address: 192.168.1.1 E1 port to be used: E1 port 1 Framing: Framed Timeslots 21-30 (10 Timeslots) Source Bundle ID: 1
Configuration:
E1oP-Left: E1oP-Right:
1. Configure the E1 port 1 framing as framed >sete1frame 1 framedwithcrc 2. Configure TDM IP Address
>settdmip 192.168.1.100 3. Configure Subnet Mask
>settdmmask 255.255.255.0 4. Configure TDM Gateway Address
>settdmgw 192.168.1.1 5. Add a bundle
>addbundle 1 1 192.168.1.10 1 1-10 210 16 6. Enable bundle
>setbundlestate 1 enable
1. Configure the E1 port 1 framing as framed >sete1frame 1 framedwithcrc 2. Configure TDM IP Address
>settdmip 192.168.1.10 3. Configure Subnet Mask
>settdmmask 255.255.255.0 4. Configure TDM Gateway Address
>settdmgw 192.168.1.1 5. Add a bundle
>addbundle 1 1 192.168.1.100 1 21-30 210 16 6. Enable bundle
>setbundlestate 1 enable
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Example 4: Point to Point – Multi-framed (Fractional) Note: Please note in the Multi-framed signaling mode, timeslot 16 shall not be used and always reserved for the signaling.
E1oP - Left E1oP - Right
TDM IP Address: 192.168.1.100 Subnet Mask: 255.255.255.0 Gateway IP Address: 192.168.1.1 E1 port to be used: E1 port 1 Framing: Multi-Framed Timeslots: 1-15 (15 Timeslots) Source Bundle ID: 1
TDM IP Address: 192.168.1.10 Subnet Mask: 255.255.255.0 Gateway IP Address: 192.168.1.1 E1 port to be used: E1 port 1 Framing: Multi-Framed Timeslots: 17-31 (15 Timeslots) Source Bundle ID: 1
Configuration:
E1oP-Left: E1oP-Right:
1. Configure the E1 port 1 framing as multiframed
>sete1frame 1 multiframedwithcrc 2. Configure TDM IP Address
>settdmip 192.168.1.100 3. Configure Subnet Mask
>settdmmask 255.255.255.0 4. Configure TDM Gateway Address
>settdmgw 192.168.1.1 5. Add a bundle
>addbundle 1 1 192.168.1.10 1 1-15 210 16 6. Enable bundle
>setbundlestate 1 enable
1. Configure the E1 port 1 framing as multiframed >sete1frame 1 multiframedwithcrc 2. Configure TDM IP Address
>settdmip 192.168.1.10 3. Configure Subnet Mask
>settdmmask 255.255.255.0 4. Configure TDM Gateway Address
>settdmgw 192.168.1.1 5. Add a bundle
>addbundle 1 1 192.168.1.100 1 17-31 210 16 6. Enable bundle
>setbundlestate 1 enable
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Example 5: Point to Multi-Point –Multi-Framed Note: Please note in the Multi-framed signaling mode, timeslot 16 shall not be used and always reserved for the signaling.
E1oP System-A E1oP System-B E1oP System-C
TDM IP Address: 192.168.1.100 Subnet Mask: 255.255.255.0 Gateway IP Address: 192.168.1.1 E1 port 1: Mapped to System-B Timeslots: 1-15 (15 Timeslots) Source Bundle ID: 1 E1 port 2: Mapped to System-C Timeslots: 17-31 (15 Timeslots) Source Bundle ID: 2 Framing: Multi-framed
TDM IP Address: 192.168.1.10 Subnet Mask: 255.255.255.0 Gateway IP Address: 192.168.1.1 E1 port 1: Mapped to System-A Timeslots: 1-15 (15 Timeslots) Source Bundle ID: 1 Framing: Multi-framed
TDM IP Address: 192.168.1.50 Subnet Mask: 255.255.255.0 Gateway IP Address: 192.168.1.1 E1 port 1: Mapped to System-C Timeslots: 1-15 (15 Timeslots) Source Bundle ID: 1 Framing: Multi-framed
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Configuration: E1oP- System-A
1. Configure the E1 port 1 framing as multiframed >sete1frame 1 multiframedwithcrc 2. Configure the E1 port 2 framing as multiframed
>sete1frame 2 multiframedwithcrc 3. Configure TDM IP Address
>settdmip 192.168.1.100 4. Configure Subnet Mask
>settdmmask 255.255.255.0 5. Configure TDM Gateway Address
>settdmgw 192.168.1.1 6. Add a bundle for the E1oP System-B (Destination IP 192.168.1.10)
>addbundle 1 1 192.168.1.10 1 1-15 210 16 7. Add a bundle for the E1oP System-C (Destination IP 192.168.1.50)
>addbundle 2 2 192.168.1.50 1 17-31 210 16 8. Enable bundle 1 and 2
>setbundlestate 1 enable >setbundlestate 2 enable
E1oP- System-B
1. Configure the E1 port 1 framing as multiframed >sete1frame 1 multiframedwithcrc 2. Configure TDM IP Address
>settdmip 192.168.1.10 3. Configure Subnet Mask
>settdmmask 255.255.255.0 4. Configure TDM Gateway Address
>settdmgw 192.168.1.1 5. Add a bundle for the E1oP System-A (Destination IP 192.168.1.100)
>addbundle 1 1 192.168.1.100 1 1-15 210 16 6. Enable bundle
>setbundlestate 1 enable
E1oP- System-C
1. Configure the E1 port 1 framing as multiframed >sete1frame 1 multiframedwithcrc 2. Configure TDM IP Address
>settdmip 192.168.1.50 3. Configure Subnet Mask
>settdmmask 255.255.255.0 4. Configure TDM Gateway Address
>settdmgw 192.168.1.1 5. Add a bundle for the E1oP System-A (Destination IP 192.168.1.100)
>addbundle 1 1 192.168.1.100 2 1-15 210 16 6. Enable bundle
>setbundlestate 1 enable
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Example 6: Point to Multi-Point – Framed
E1oP System-A E1oP System-B E1oP System-C
TDM IP Address: 192.168.1.100 Subnet Mask: 255.255.255.0 Gateway IP Address: 192.168.1.1 E1 port 1: Mapped to System-B Timeslots: 1-10 (10 Timeslots) Source Bundle ID: 1 E1 port 2: Mapped to System-C Timeslots: 11-31 (21 Timeslots) Source Bundle ID: 2 Framing: Framed
TDM IP Address: 192.168.1.10 Subnet Mask: 255.255.255.0 Gateway IP Address: 192.168.1.1 E1 port 1: Mapped to System-A Timeslots: 21-30 (10 Timeslots) Source Bundle ID: 1 Framing: Framed
TDM IP Address: 192.168.1.50 Subnet Mask: 255.255.255.0 Gateway IP Address: 192.168.1.1 E1 port 1: Mapped to System-C Timeslots: 1-21 (21 Timeslots) Source Bundle ID: 1 Framing: Framed
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Configuration: E1oP- System-A
1. Configure the E1 port 1 framing as Framed >sete1frame 1 framedwithoutcrc 2. Configure the E1 port 2 framing as Framed
>sete1frame 2 framedwithoutcrc 3. Configure TDM IP Address
>settdmip 192.168.1.100 4. Configure Subnet Mask
>settdmmask 255.255.255.0 5. Configure TDM Gateway Address
>settdmgw 192.168.1.1 6. Add a bundle for the E1oP System-B (Destination IP 192.168.1.10)
>addbundle 1 1 192.168.1.10 1 1-10 210 16 7. Add a bundle for the E1oP System-C (Destination IP 192.168.1.50)
>addbundle 2 2 192.168.1.50 1 11-31 210 16 8. Enable bundle 1 and 2
>setbundlestate 1 enable >setbundlestate 2 enable
E1oP- System-B
1. Configure the E1 port 1 framing as Framed >sete1frame 1 framedwithoutcrc 2. Configure TDM IP Address
>settdmip 192.168.1.10 3. Configure Subnet Mask
>settdmmask 255.255.255.0 4. Configure TDM Gateway Address
>settdmgw 192.168.1.1 5. Add a bundle for the E1oP System-A (Destination IP 192.168.1.100)
>addbundle 1 1 192.168.1.100 1 21-30 210 16 6. Enable bundle
>setbundlestate 1 enable
E1oP- System-C
1. Configure the E1 port 1 framing as Framed >sete1frame 1 framedwithoutcrc 2. Configure TDM IP Address
>settdmip 192.168.1.50 3. Configure Subnet Mask
>settdmmask 255.255.255.0 4. Configure TDM Gateway Address
>settdmgw 192.168.1.1 5. Add a bundle for the E1oP System-A (Destination IP 192.168.1.100)
>addbundle 1 1 192.168.1.100 2 1-21 210 16 6. Enable bundle
>setbundlestate 1 enable
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Example 7: Point to Multi-Point – Framed
E1oP System-A E1oP System-B E1oP System-C
TDM IP Address: 192.168.1.100 Subnet Mask: 255.255.255.0 Gateway IP Address: 192.168.1.1 E1 port 1 Timeslots 1-10 Mapped to System-B Source Bundle ID: 1 E1 port 1 Timeslots 11-31 Mapped to System-C Source Bundle ID: 2 Framing: Framed
TDM IP Address: 192.168.1.10 Subnet Mask: 255.255.255.0 Gateway IP Address: 192.168.1.1 E1 port 1: Mapped to System-A Timeslots: 21-30 (10 Timeslots) Source Bundle ID: 1 Framing: Framed
TDM IP Address: 192.168.1.50 Subnet Mask: 255.255.255.0 Gateway IP Address: 192.168.1.1 E1 port 1: Mapped to System-C Timeslots: 1-21 (21 Timeslots) Source Bundle ID: 1 Framing: Framed
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Configuration: E1oP- System-A
1. Configure the E1 port 1 framing as Framed >sete1frame 1 framedwithoutcrc 2. Configure the E1 port 2 framing as Framed
>sete1frame 2 framedwithoutcrc 3. Configure TDM IP Address
>settdmip 192.168.1.100 4. Configure Subnet Mask
>settdmmask 255.255.255.0 5. Configure TDM Gateway Address
>settdmgw 192.168.1.1 6. Add a bundle for the E1oP System-B (Destination IP 192.168.1.10)
>addbundle 1 1 192.168.1.10 1 1-10 210 16 7. Add a bundle for the E1oP System-C (Destination IP 192.168.1.50)
>addbundle 2 1 192.168.1.50 1 11-31 210 16 8. Enable bundle 1 and 2
>setbundlestate 1 enable >setbundlestate 2 enable
E1oP- System-B
1. Configure the E1 port 1 framing as Framed >sete1frame 1 framedwithoutcrc 2. Configure TDM IP Address
>settdmip 192.168.1.10 3. Configure Subnet Mask
>settdmmask 255.255.255.0 4. Configure TDM Gateway Address
>settdmgw 192.168.1.1 5. Add a bundle for the E1oP System-A (Destination IP 192.168.1.100)
>addbundle 1 1 192.168.1.100 1 21-30 210 16 6. Enable bundle
>setbundlestate 1 enable
E1oP- System-C
1. Configure the E1 port 1 framing as Framed >sete1frame 1 framedwithoutcrc 2. Configure TDM IP Address
>settdmip 192.168.1.50 3. Configure Subnet Mask
>settdmmask 255.255.255.0 4. Configure TDM Gateway Address
>settdmgw 192.168.1.1 5. Add a bundle for the E1oP System-A (Destination IP 192.168.1.100)
>addbundle 1 1 192.168.1.100 2 1-21 210 16 6. Enable bundle
>setbundlestate 1 enable
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Example 8: Point to Multi-Point – Framed and Unframed
E1oP System-A E1oP System-B E1oP System-C
TDM IP Address: 192.168.1.100 Subnet Mask: 255.255.255.0 Gateway IP Address: 192.168.1.1 E1 port 1 Timeslots 1-10 Mapped to System-B Source Bundle ID: 1 Framing: Framed E1 port 1 Timeslots 11-31 Mapped to System-C Source Bundle ID: 2 Framing: Framed E1 port 2 timeslots 1-31 Mapped to System-C Framing: Unframed Source Bundle ID: 3
TDM IP Address: 192.168.1.10 Subnet Mask: 255.255.255.0 Gateway IP Address: 192.168.1.1 E1 port 1: Mapped to System-A Timeslots: 21-30 (10 Timeslots) Source Bundle ID: 1 Framing: Framed
TDM IP Address: 192.168.1.50 Subnet Mask: 255.255.255.0 Gateway IP Address: 192.168.1.1 E1 port 1: Mapped to System-C Timeslots: 1-21 (21 Timeslots) Source Bundle ID: 1 Framing: Framed E1 port 2 timeslots 1-31 Mapped to System-A Framing: Unframed Source Bundle ID: 2
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Configuration: E1oP- System-A
1. Configure the E1 port 1 framing as Framed >sete1frame 1 framedwithcrc
2. Configure the E1 port 2 framing as Unframed >sete1frame 2 unframed
3. Configure TDM IP Address >settdmip 192.168.1.100
4. Configure Subnet Mask >settdmmask 255.255.255.0
5. Configure TDM Gateway Address >settdmgw 192.168.1.1
6. Add a bundle for the E1oP System-B (Destination IP 192.168.1.10) >addbundle 1 1 192.168.1.10 1 1-10 210 16
7. Add a bundle for the E1oP System-C (Destination IP 192.168.1.50) >addbundle 2 1 192.168.1.50 1 11-31 210 16
8. Add a bundle for the E1oP System-C (Destination IP 192.168.1.50) >addbundle 3 2 192.168.1.50 2 1-31 210 16
9. Enable bundle 1 and 2 >setbundlestate 1 enable >setbundlestate 2 enable
E1oP- System-B 1. Configure the E1 port 1 framing as Framed
>sete1frame 1 framedwithcrc 2. Configure TDM IP Address
>settdmip 192.168.1.10 3. Configure Subnet Mask
>settdmmask 255.255.255.0 4. Configure TDM Gateway Address
>settdmgw 192.168.1.1 5. Add a bundle for the E1oP System-A (Destination IP 192.168.1.100)
>addbundle 1 1 192.168.1.100 1 21-30 210 16 6. Enable bundle
>setbundlestate 1 enable
E1oP- System-C 1. Configure the E1 port 1 framing as Framed
>sete1frame 1 framedwithcrc 2. Configure the E1 port 2 framing as Framed
>sete1frame 2 unframed 3. Configure TDM IP Address
>settdmip 192.168.1.50 4. Configure Subnet Mask
>settdmmask 255.255.255.0 5. Configure TDM Gateway Address
>settdmgw 192.168.1.1 6. Add a bundle for the E1oP System-A (Destination IP 192.168.1.100)
>addbundle 1 1 192.168.1.100 2 1-21 210 16 7. Add a bundle for the E1oP System-A (Destination IP 192.168.1.100)
>addbundle 2 2 192.168.1.100 3 1-31 210 16 8. Enable bundle 1 and 2
>setbundlestate 1 enable >setbundlestate 2 enable
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Section 11: Detailed CLI Commands
CLI Commands List Help Commands Description
? Show system commands list
help Show system commands list
Admin Commands Description
adduser Add an user
deleteuser Delete an user
setselfpassword Change Self Login Password
showusers Show list of system users
Basic System Commands Description
selftest Initiates a system self-test and displays self-test report
showbootstatus Report system boot result and show boot errors (if any)
reset Issue a reset command
showtdmmac Show TDM MAC Address
showsysmac Show system MAC Address
systype Show system name
setdefault Restore all configurations in default (Excluding IP settings and SNMP settings)
setsysip Configure system IP Address
showsysip Show System IP Address
setsysmask Configure system subnet mask
showsysmask Show system Subnet mask
setsysgateway Configure system Gateway Address
showsysgateway Show system Gateway IP Address
showalarms Show all alarms present in queue
loadconfigfile Load configurations listed in a text file
retrieveconfigfile Retrieve configuration file in text format
settime Configure wall clock time
showtime Show wall clock time
setdate Configure calendar date
showdate Show calendar date
rtcstop Puts the RTC in stop mode
rtcstart Puts the RTC in start mode
setdefrtc Resets the RTC to its default time
sethighthreshold Set high temperature threshold value
setlowthreshold Set low temperature threshold value
showthreshold Show both high and low temperature threshold value
showtemp Display current temperature value
showsysinfo Display current system information
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TDM / IP Commands Description
Setclockpriority Configure clock priority for system
showclockpriority Show configured clock priority
showcurclock Show current running clock
Settdmip Configure TDM IP Address
showtdmip Show TDM IP Address
settdmmask Configure TDM Subnet Mask
showtdmmask Show TDM Subnet Mask
settdmgw Configure TDM Gateway Address
showtdmgw Show TDM Gateway Address
sete1frame Configure E1 port framing
showe1frame Show E1 port framing
sete1loopback Configure E1 loopback
showe1loopback Show E1 loopback status
showe1alarms Show present alarms on E1 port
setimpedance Configure E1 interface impedance
showimpedance Show E1 interface impedance
addbundle Add a bundle for TDM over IP / Create a logical link
delbundle Delete a bundle / Delete a logical link
showbundle Show setting of configured bundle
setbundlestate Set bundle state enable or disable
showbundlestate Show bundle state
showmode Show TDM mode configuration (SAToPSN | CESoPSN)
setvlantagtype Configure VLAN Tag type
setvlan1id Configure VLAN1 ID
setvlan2id Configure VLAN2 ID
setvlan1priority Configure the VLAN1 packet priority
setvlan2priority Configure the VLAN2 packet priority
showvlan1priority Show the VLAN1 packet priority
showvlan2priority Show the VLAN2 packet priority
setclockmode Configure framer to TDM clock mode
showclockmode Show TDM clock mode
setclocktype configure stratum level for clock mode
showclocktype Show stratum level for clock mode
setlosbasebundledetect Set LOS base bundle detect enable/disable
showlosbasebundledetect Show LOS base bundle detect enable/disable
setperportclk Configure per port clock option enable/disable
showperportclk Show per port clock configuration
SNMP Commands Description
setreadcommunity Configure SNMP Read Community
setwritecommunity Configure SNMP Write Community
settargetaddress Configure Trap Target IP Address
settargetport Configure Trap Target Port Number
settargetcommunity Configure Trap Target Community
showsnmpsettings Show SNMP Configurations
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Switch Commands Description
setmef Configure the system to MEF header type
setudp Configure system to UDP header type
setmpls Configure MPLS outer label and label identifier
showheadertype Show system header type and its value
setflowcontrol Enable / disable automatic flow control
showflowcontrol Show automatic flow control status
settrunkgroup Configure trunk groups
showtrunkgroup Show all trunk groups
setprotectport Configure protected ports
showprotectport Show protected / unprotected ports
showethcounter Show Ethernet packet counters
setqos Configure QoS type
setqospriority Set QoS tag priority
showqos Show supported QoS type
showqospriority Show QoS tag priority
setjumboframe Enable / disable jumbo frame support
showjumboframe Show jumbo frame status
setportconfig Configure port speed and mode
showportconfig Show port speed and mode
setingressportrate Set ingress port rate
showingressportrate Show ingress port rate
setautopoll Set auto-poll state
showautopoll Show configure auto-poll
setvlantransmode Enable / Disable switch transparent mode
showvlantransmode Show switch Mode
createvlan Configure VLAN on Ethernet ports
modifyvlan Tag / Un-tag Ethernet ports for a VLAN-ID
showvlan Show configured VLAN
deletevlan Delete a VLAN
Misc. Commands Description
upgrade Upgrade Image
showddmiinfo Show SFP module information
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CLI Commands Explained
CLI Format and Description Notes
Using system’s “Help” Menu
? FORMAT: ? OPTIONS: NONE DESCRIPTION: Show system commands list CLI commands list as shown in a table
above in the document help FORMAT: help OPTIONS: NONE DESCRIPTION: Show system commands list
Add a user
adduser FORMAT: adduser OPTIONS: NONE DESCRIPTION: Add an user (for superuser only) Usermane and Password string should be 6 to 14 alpha-numerical characters (case sensitive, including Special Characters)
Adds a user in the system by running ‘adduser’ wizard Only ‘superuser’ can add a user Note1: System does not echo password characters for the security purpose Note2: up to 10 users may be added in the system including ‘superuser’
Default: User Name: superuser, Password: superuser
RESPONSE: <CLI prompt>adduser Enter new username Username: Testuser Password : Confirm password : New user created successfully
Delete a user
deleteuser FORMAT: deleteuser OPTIONS: NONE DESCRIPTION: Delete an user (for superuser only)
Deletes a user in the system by running ‘deleteuser’ wizard Only ‘superuser’ can delete a user and ‘superuser’ cannot be deleted
RESPONSE: <CLI prompt>deleteuser Enter username which you want to delete Username: Testuser User account deleted successfully
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Change self-password
setselfpassword FORMAT: setselfpassword OPTIONS: NONE DESCRIPTION: Change Self Login Password Password should be string of 6 to 14 alpha-numerical characters (case sensitive, including Special Characters)
Changes password for the logged-in user by running ‘changepassword’ wizard Any user can change its password after logging-in Note: System does not print password characters for the security purpose
RESPONSE: <CLI prompt>setselfpassword Enter old password : Enter new password : Confirm password : Password changed successfully Note: No method is available to retrieve ‘superuser’ password if it is lost. Please contact customer support if the password is lost.
Show users list
showusers FORMAT: showusers OPTIONS: NONE DESCRIPTION: Show users list
Shows system users
RESPONSE: <CLI prompt>showusers 1 superuser 2 Testuser
Initiate System Self-test
selftest FORMAT: selftest OPTIONS: NONE DESCRIPTION: Initiates a system self-test and displays self-test report
System tests the hardware and displays result
RESPONSE: <CLI prompt>selftest Test: Processor Test PASS RAM Test PASS Flash Test PASS Electrical Ethernet Test PASS Optical Ethernet Test PASS TDM Port Test PASS TDM chip Test PASS PSU1 status Test PASS PSU2 status Test Fail Temperature status Test PASS
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Check hardware status after on system boot
showbootstatus FORMAT: showbootstatus OPTIONS: NONE DESCRIPTION: Report system boot result and show boot errors (if any)
System shows hardware status at the time of system boot
RESPONSE: <CLI prompt>showbootstatus System Boot Successfully Processor Test PASS Ram Test PASS Flash Test PASS Electrical Ethernet Test PASS Optical Ethernet Test PASS TDM Port Test PASS TDM chip Test PASS PSU1 Test PASS PSU2 Test PASS Temperature Test PASS
Restart system
reset FORMAT: reset OPTIONS: NONE DESCRIPTION: Issue a reset command
Restart the system
RESPONSE: <CLI prompt>reset Restarting System Please Wait..... SUCCESS ############### ############### Username:
Show TDM over IP MAC address
showtdmmac FORMAT: showtdmmac OPTIONS: NONE DESCRIPTION: Show TDM MAC Address
TDM over IP Chip MAC Address. This MAC address shall be used to connect bundles over the PSN network
RESPONSE: <CLI prompt> TDM MAC Address:-00:25:04:00:01:02
Show system / processor MAC address
showsysmac FORMAT: showsysmac OPTIONS: NONE DESCRIPTION: Show system MAC Address
System Management port MAC Address. This MAC address shall be used access the system over Telnet and SNMP
RESPONSE: <CLI prompt> System MAC Address:-00:25:04:00:01:01
Show system type
systype FORMAT: systype OPTIONS: NONE DESCRIPTION: Show system name
Shows TDM interface type and number of TDM interfaces
RESPONSE: <CLI prompt> System Type: 2 E1 TDM over IP
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Configure system / processor IP Address
setsysip FORMAT: setsysip <IP Address> OPTIONS: <IP Address>:IP Address, e.g. 192.168.1.1 DESCRIPTION: Configure system IP Address
Configures system management IP Address to access the system over telnet and SNMP
Default: 192.168.1.102
RESPONSE: <CLI prompt>setsysip 192.168.1.203 SUCCESS
Show system / processor IP address
showsysip FORMAT: showsysip OPTIONS: NONE DESCRIPTION: Show System IP Address
Shows system management IP Address to access the system over Telnet and SNMP
RESPONSE: <CLI prompt>showsysip System IP Address:-192.168.1.203
Configure system / processor subnet mask
setsysmask FORMAT: setsysmask <Subnet Mask> OPTIONS: <Subnet Mask>: Subnet Mask, e.g. 255.255.255.0 DESCRIPTION: Configure system subnet mask
Configures system management port network mask
Default: 255.255.255.0
RESPONSE: <CLI prompt>setsysmask 255.255.255.0 SUCCESS
Show system / processor subnet mask
showsysmask FORMAT: showsysmask OPTIONS: NONE DESCRIPTION: Show system Subnet mask
Shows system management port network mask
RESPONSE: <CLI prompt>setsysmask 255.255.255.0 SUCCESS
Configure system / processor Gateway IP address
setsysgateway FORMAT: setsysgateway <Gateway Address> OPTIONS: <Gateway Address>: Gateway IP Address, e.g. 192.168.1.1 DESCRIPTION: Configure system Gateway Address
Configures Management port Gateway IP Address
Default: 192.168.1.1
RESPONSE: <CLI prompt>settargetport 1 1662 SUCCESS
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Show system / processor Gateway IP address
showsysgateway FORMAT: showsysgateway OPTIONS: NONE DESCRIPTION: Show system Gateway IP Address
Shows Management port Gateway IP Address
RESPONSE: <CLI prompt>setsysgateway 192.168.1.1 SUCCESS
Show alarms and events
showalarms FORMAT: showalarms OPTIONS: NONE DESCRIPTION: Show all alarms present in queue
Shows system alarm log and events
RESPONSE: <CLI prompt>showalarms S No. AlarmID Severity AlarmString Time 1 16 MAJOR Current Clock state:3 Fri Aug 7 04:10:10 2009 2 15 MINOR ADAPTIVE CLOCK STATE UNKNOWN in port 8 Fri Aug 7 04:02:41 2009 3 15 MINOR ADAPTIVE CLOCK STATE UNKNOWN in port 7 Fri Aug 7 04:02:41 2009
Load configuration file in the system
loadconfigfile FORMAT: loadconfigfile <IPAddress> <filepath/filename.txt> OPTIONS: <IPAaddress>: Server IP Address, e.g. 192.168.1.101 <filepath/filename.txt>: Path and file name DESCRIPTION: Load configurations listed in a text file
User may load the configuration in the system from a *.txt file Note: File should available be in the same location where the TFT server is installed / running
RESPONSE: <CLI prompt>loadconfigfile 192.168.1.65 MyTestConfig.txt command is processing.. ... PLEASE WAIT... SUCCESS
Retrieve system configuration in a file
retrieveconfigfile FORMAT: retrieveconfigfile <IPAddress> <filepath/filename.txt> OPTIONS: <IPAddress>: Server IP Address, e.g. 192.168.1.101 <filepath/filename.txt>:configuration file name DESCRIPTION: Retrieve configuration file in text format
User may save the system configuration in a *.txt file Note: File shall be saved in the same location where the TFT server is installed / running
RESPONSE: <CLI prompt>retrieveconfigfile 192.168.1.65 MyTestConfig.txt command is processing..... PLEASE WAIT... SUCCESS
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Configure wall clock time
settime FORMAT: settime <hour> <minute> <second> OPTIONS: <hour>: 0-23 <minute>: 0-59 <second>: 0-59 DESCRIPTION: Configure wall clock time
Configures wall clock time in the system
Default: 00:00:00
RESPONSE: <CLI prompt>settime 15 20 30 SUCCESS
Show wall clock time
showtime FORMAT: showtime OPTIONS: NONE DESCRIPTION: Show wall clock time
Shows wall clock time
RESPONSE: <CLI prompt>Current Time: 15:20:46
Configure calendar date
setdate FORMAT: setdate <yyyy> <mm> <dd> OPTIONS: ex: <yyyy>:Calendar year (yyyy) <mm>:Calendar month (mm) <dd>:Calendar date (dd) DESCRIPTION: Configure calendar date
Configures calendar date in the system
Default: 1970:1:1
RESPONSE: <CLI prompt>setdate 2013 01 31 SUCCESS
Show calendar date
showdate FORMAT: showdate OPTIONS: NONE DESCRIPTION: Show calendar date
Shows calendar date (Year:Month:Date)
RESPONSE: <CLI prompt>Current Date: 2013:1:31
Stop RTC
rtcstop FORMAT: rtcstop OPTIONS: NONE DESCRIPTION: Puts the RTC in stop mode
Stops RTC to save battery life of RTC (Real Time Clock) if the equipment is to be put into storage
RESPONSE: <CLI prompt>rtcstop RTC STOPED SUCCESS
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Start RTC
rtcstart FORMAT: rtcstart OPTIONS: NONE DESCRIPTION: Puts the RTC in start mode
Starts RTC again
RESPONSE: <CLI prompt> rtcstart RTC STARTED SUCCESS
Reset the RTC to its default settings
setdefrtc FORMAT: setdefrtc OPTIONS: NONE DESCRIPTION: Resets the RTC to default
Reset the RTC to its default state
RESPONSE: <CLI prompt>setdefrtc RTC SET TO DEFAULT SUCCESS
Configure high temperature threshold
sethighthreshold FORMAT: sethighthreshold <Tvalue> OPTIONS: <Tvalue>:-55 to +124 DESCRIPTION: Set high temperature threshold value
Configure system high temperature threshold value Note: System will keep sending SNMP traps as soon as long as its temperature is above its user configured high temperature threshold value
Default: System High Temperature Threshold: 124
RESPONSE: <CLI prompt> sethighthreshold 55 SUCCESS
Configure low temperature threshold
setlowthreshold FORMAT: setlowthreshold <Tvalue> OPTIONS: <Tvalue>: -55 to +124 DESCRIPTION: Set low temperature threshold value
Configure system low temperature threshold value Note: System will keep sending SNMP traps as long as its temperature is below its user configured low temperature threshold value
Default: System Low Temperature Threshold: -55
RESPONSE: <CLI prompt> setlowthreshold -22 SUCCESS
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Show temperature thresholds
showthreshold FORMAT: showthreshold OPTIONS: NONE DESCRIPTION: Show both high and low temperature threshold value
Shows system high and low threshold values which have been defined by the user
RESPONSE: <CLI prompt> showthreshold System High Temperature Threshold: 55 System Low Temperature Threshold: -22
Show current system’s ambient temperature
showtemp FORMAT: showtemp OPTIONS: NONE DESCRIPTION: Display current temperature value
Shows system’s current temperature
RESPONSE: <CLI prompt> showtemp System Ambient Temperature: 40
Show system basic information
showsysinfo FORMAT: showsysinfo OPTIONS: NONE DESCRIPTION: Display current system information
Shows system basic information
RESPONSE: <CLI prompt>showsysinfo System Name: 8 E1 TDM over IP System SW Version: 1.0.x_x System HW Version: 1.0 System IP Address: 192.168.1.203 System MASK Address: 255.255.255.0 System GW Address: 192.168.1.1 TDM IP Address: 192.168.1.123 TDM MASK Address: 255.255.0.0 TDM GW Address: 192.168.0.1 System MAC Address: 00:25:04:aa:00:03 TDM MAC Address: 00:25:04:ab:00:03 System Temperature: 40
Show present bundles / Configured bundle IDs
showbundleid FORMAT: showbundleid OPTIONS: NONE DESCRIPTION: Show Present TDM bundle ID
Shows present bundle IDs configured by user
RESPONSE: <CLI prompt> showbundleid Present BID 1, 2, 3, 4, 5, 6, 7, 8,
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Configure clock priority Description of various clock modes and settings
Adaptive Clock Recovery - In the Adaptive Clock mode, the system clock is recoved from the Ethernet time-stamped packets). Under normal operating conditions, the “Adaptive Clock” mode should be the preferred option along with “Two Clock” mode option.
Recovered Per Port Clock - In the “perportclock” enabled mode, each port recovers its own clock on a per port basis and each port works on its own recovered clock.
Recovered Clock / Loop-Timed Clock - Options: Recovered01, 02, 03, 04, 05…08 – In the “recoveredxx clock” mode the clock is recovered from one selected port that is specified by the user and the entire system work on the single selected recovered clock source.
Asymmetrical Clock (One-Clock and Two-Clock) – In the “One Clock” mode, the entire system works on one single selected clock source. The “One Clock” mode must only be used when a very stable external clock source is available such as the Telco External Clock, GPS Clock or a IEEE-1588 based packet recovered clock. In the “Two Clock” mode, the TDM Ports adjust their frequencies based on the Packet based Ethernet Timing recovery mechanisim. Under normal operating conditions, the “Two Clock” mode should be the preferred option along with the the “Adaptive Clock” mode.
Synchronization to an External Clock - Synchronization to an External Clock – This used option must only be selected when a very stable external clock source is available such as the Telco External Clock, GPS Clock or a IEEE-1588 based packet recovered clock.
Automatic clock priority selection with fall back – This allows the user to prioritize the clock fall-back sequence, in the event that the primary or the preferred clock source(s) become un-available.
setclockpriority FORMAT: setclockpriority <priority1> <priority2> <priority3> <priority4> <priority5> <Internal> OPTIONS: <priority1~5>: Adaptive, Recovered{xx}, External {in any order} <Internal>: Last priority is always internal, in case of failure of clock options RECOVERED{XX}: Where xx = port number. example recovered01,recovered05,recovered08 EXTERNAL: EXTERNAL75R/EXTERNALBITS NOTE 1: Clock priority may be selected in any order but last option shall always be internal. NOTE 2: Recovered clock can be assigned on any / all of the 8 TDM ports in the order of availability. NOTE 3: All 6 priorities should be assigned. DESCRIPTION: Configure clock priority for system
Configures clock priority to synchronize TDM link over the asynchronous Ethernet interface For recommended clock settings please refer to page xx.
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Default settimgs: Clock Priority Clock =========================== 1 Adaptive 2 Adaptive 3 Adaptive 4 Adaptive 5 Adaptive 6 Internal
RESPONSE: <CLI prompt> setclockpriority recovered01 recovered02 externalbits adaptive internal internal SUCCESS
Show clock priority
showclockpriority FORMAT: showclockpriority OPTIONS: NONE DESCRIPTION: Show configured clock priority
Shows current configured clock priority
RESPONSE: <CLI prompt> showclockpriority Clock Priority Clock =========================== 1 Adaptive 2 Adaptive 3 Adaptive 4 Adaptive 5 Adaptive 6 Internal
Show current running clock
showcurclock FORMAT: showcurclock OPTIONS: NONE DESCRIPTION: Show current running clock
Shows current running clock
RESPONSE: <CLI prompt>Current Clock: Adaptive
Configure TDM over IP engine’s IP address
settdmip FORMAT: settdmip <IP Address> OPTIONS: <IP Address>: IP Address, e.g. 192.168.1.1 DESCRIPTION: Configure TDM IP Address
Configures TDM over IP port IP Address
Default: 192.168.1.103
RESPONSE: <CLI prompt>settdmip 192.168.1.123 SUCCESS
Show TDM over IP engine’s IP address
showtdmip FORMAT: showtdmip OPTIONS: NONE DESCRIPTION: Show TDM IP Address
Shows TDM over IP port IP Address
RESPONSE: <CLI prompt>showtdmip TDM IP Address:- 192.168.1.123
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Configure TDM over IP engine’s subnet mask
settdmmask FORMAT: settdmmask <subnetmask> OPTIONS: <subnet mask>: Subnet Mask, e.g. 255.255.255.0 DESCRIPTION: Configure TDM Subnet Mask
Configures TDM over IP port network mask
Default: 255.255.255.0
RESPONSE: <CLI prompt> settdmmask 255.255.0.0 SUCCESS
Show TDM over IP engine’s subnet mask
settdmmask FORMAT: showtdmmask OPTIONS: NONE DESCRIPTION: Show TDM Subnet Mask
Shows TDM over IP port network mask
RESPONSE: <CLI prompt> showtdmmask TDM Mask Address:- 255.255.0.0
Configure TDM over IP engine’s Gateway IP address
settdmgw FORMAT: settdmgw <Gateway Address> OPTIONS: <Gateway Address>: Gateway IP Address e.g. 192.168.1.100 DESCRIPTION: Configure TDM Gateway Address
Configures TDM over IP port Gateway IP Address
Default: 192.168.1.1
RESPONSE: <CLI prompt>settdmgw 192.168.0.1 SUCCESS
Show TDM over IP engine’s Gateway IP address
showtdmgw FORMAT: showtdmgw OPTIONS: NONE DESCRIPTION: Show TDM Gateway Address
Shows TDM over IP port Gateway IP Address
RESPONSE: <CLI prompt> showtdmgw TDM Gateway Address:- 192.168.1.1
Configure E1 port framing
sete1frame FORMAT: sete1frame <e1 port> <frame> OPTIONS: <e1 port>:max-8 min-1 <framed>:framedwithcrc | framedwithoutcrc | unframed | multiframedwithcrc | multiframedwithoutcrc DESCRIPTION: Configure E1 port framing (Framed with crc/ Framed without crc / Unframed / Multi-framed with crc / Multi-framed without crc)
Configures E1 port framing Note: No bundles should be configured on particular E1 port to change the E1 framing. Please delete all bundles configured on particular E1 port
Default: Unframed – All ports
RESPONSE: <CLI prompt>sete1frame 1 framedwithcrc SUCCESS
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Show E1 port framing
showe1frame FORMAT: showe1frame <E1 port> OPTIONS: <E1 port>: max-8 min-1 | all DESCRIPTION: Show E1 port framing
Shows E1 port framing
RESPONSE: <CLI prompt>showe1frame 1 E1 PORT FRAMING ================================ 1 Frame with CRC
RESPONSE: <CLI prompt> showe1frame all E1 PORT FRAMING ================================ 1 Frame with CRC 2 MultiFramed with CRC 3 Frame without CRC 4 MultiFramed without CRC 5 UnFramed 6 UnFramed 7 UnFramed 8 UnFramed
Configure loop-back on E1 port
sete1loopback FORMAT: sete1loopback <E1 port> <option> OPTIONS: <E1 port>: max-8 min-1 <option>: local | remote | disable DESCRIPTION: Configure E1 loopback
Configures E1 loopback Note: E1 port shall come back to its default state (loopback) after system restart
Default: No Loop-back – All ports
RESPONSE: <CLI prompt>sete1loopback 1 remote SUCCESS
Show E1 loopback status
showe1loopback FORMAT: showe1loopback <E1 port> OPTIONS: <E1 port>: max-8 min-1 | all DESCRIPTION: Show E1 loopback status
Shows E1 loopback status
RESPONSE: <CLI prompt> showe1loopback 1 E1PORT LOOPBACK ================================ 1 LOCAL
Show E1 port alarms
showe1alarms FORMAT: showe1alarms <E1 port> OPTIONS: <E1 port>: max-8 min-1 | all DESCRIPTION: Show present alarms on E1 port
Shows alarms on E1 port. Note: all argument is not valid for this command
RESPONSE: <CLI prompt> showe1alarms 1 Present Alarm: LOF RAI
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Configure E1 port impedance
setimpedance FORMAT: setimpedance <E1 port> <option> OPTIONS: <e1 port>: max-8 min-1 option: unbalanced | balanced Unbalanced: (75 ohm) unbalanced Balanced: (120 ohm) balanced DESCRIPTION: Configure E1 interface impedance as 120 Ohms Balanced or 75 Ohms Unbalanced
Configures E1 port impedance in 120 Ohms balanced mode or 75 Ohms unbalanced mode Note: Please use E1 120 ohms to 75 ohms balloon to use the E1 port in 75 unbalanced mode
Default: E1 120 Ohms Balanced – All E1 ports
RESPONSE: <CLI prompt> setimpedance 1 unbalanced SUCCESS
Show E1 port impedance
showimpedance FORMAT: showimpedance <E1 port> OPTIONS: <E1 port>: max-8 min-1 | all DESCRIPTION: Show E1 interface impedance
Shows E1 port impedance
RESPONSE: <CLI prompt> showimpedance 1 E1PORT Impedance ================================= 1 Unbalanced
RESPONSE: <CLI prompt> showimpedance all E1PORT Impedance ================================= 1 Unbalanced 2 Balanced 3 Balanced 4 Balanced 5 Balanced 6 Balanced 7 Balanced 8 Balanced
Add a bundle (Create a Logical-Link)
addbundle FORMAT: addbundle <BID> <TDM port> <Destination IP> <Destination BID> <timeslot-range> <jbsize> <framesize> OPTIONS: <BID>: max-63 min-0 <TDM port>: max-8 min-1 <Destination IP>: 192.168.1.156 <Destination BID>: max-63 min-0 <timeslot-rang>: max-31 min 1 <jbsize>:max-512 min-1 <framesize>: max-99 min-1 E1 Multi-Framed: 16,8,4,2,1 DESCRIPTION: Add a bundle for TDM over IP
Adds a bundle (Logical link) to be sent over the Ethernet network Note: Time-slot 16 is reserved for signaling and cannot be used for the multi- framed option.
Default: No bundle
RESPONSE: <CLI prompt> addbundle 1 1 10.10.10.10 4 10-12 210 16 SUCCESS
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Cautions: Please make sure that the number of timeslots in a bundle should be same for its corresponding bundle which the
bundle supposed to connect Please make sure that the frame size of a bundle should be same for its corresponding bundle which the bundle
supposed to connect In the timeslot field please select timeslot range i.e. 1-3 or 9-15 or 17-29 Destination bundle, on which the source bundle is being sent to, should have source bundle number in its destination
bundle field.
Example-1: TDM over IP-X TDM over IP-Y
Bundle ID: 5 Bundle ID: 21 E1 port: 1 E1 port: 1 TDM IP: 192.168.1.4 TDM IP: 192.168.1.99 Timeslots: 1-5 Timeslots: 1-5 Jitter buffer size: 128 Jitter buffer size: 128 Frame size: 16 Frame size: 16
Configuration: TDM over IP-X: ADDBUNDLE 5 1 192.168.1.99 21 1-5 128 16
ADDBUNDLE 5 1 192.168.1.99 21 1-5 128 16 CLI Source
Bundle ID Source Port
Destination Bundle ID
Destination Bundle
Timeslots (local end)
Jitter Buffer size
Frame Size
TDM over IP-Y: ADDBUNDLE 21 1 192.168.1.4 5 1-5 128 16
ADDBUNDLE 21 1 192.168.1.4 5 1-5 128 16 CLI Source
Bundle ID Source Port
Destination Bundle ID
Destination Bundle
Timeslots (local end)
Jitter Buffer size
Frame Size
Example-2:
TDM over IP-X TDM over IP-Y Bundle ID: 16 Bundle ID: 33 E1 port: 1 E1 port: 2 TDM IP: 192.168.1.4 TDM IP: 192.168.1.99 Timeslots: 1-10 Timeslots: 21-30 Jitter buffer size: 256 Jitter buffer size: 256 Frame size: 12 Frame size: 12
Configuration: TDM over IP-X: ADDBUNDLE 16 1 192.168.1.99 33 1-10 256 12
ADDBUNDLE 16 1 192.168.1.99 33 1-10 256 12 CLI Command Source
Bundle ID Source Port
Destination Bundle ID
Destination Bundle
Timeslots (local end)
Jitter Buffer size
Frame Size
TDM over IP-Y: ADDBUNDLE 33 2 192.168.1.4 16 21-30 128 16
ADDBUNDLE 33 2 192.168.1.4 16 21-30 256 12 CLI Command Source
Bundle ID Source Port
Destination Bundle ID
Destination Bundle
Timeslots (local end)
Jitter Buffer size
Frame Size
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Delete a bundle
delbundle FORMAT: delbundle <BID> OPTIONS: <BID>: max-63 min-0 DESCRIPTION: Delete a bundle
Delete the bundle Note: Please disable the bundle first before deleting
RESPONSE: <CLI prompt> delbundle 1 SUCCESS
Show a bundle configuration
showbundle FORMAT: showbundle <BID> OPTIONS: <BID>: max-63 min-0 DESCRIPTION: Show setting of configured bundle
Shows the configure bundle parameters.
RESPONSE: <CLI prompt>showbundle 16 ========================================================== BID: 16 TDM Port: 1 Destination IP: 192.168.1.99 Timeslot Range: 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, Destination ID: 33 JB Size: 256 Packet Size: 12 VLAN Tag-type: 0 VLAN1 ID: 0 VLAN2 ID: 0
Enable / Disable a bundle
setbundlestate FORMAT: setbundlestate <BID> <option> OPTIONS: <BID>: max-63 min-0 <option>:enable | disable DESCRIPTION: Set bundle state enable or disable
Enables or disables a bundle
Default: Disabled
RESPONSE: <CLI prompt>setbundlestate 16 enable SUCCESS
Show bundle state
showbundlestate FORMAT: showbundlestate <BID> OPTIONS: <BID>: max-63 min-0 DESCRIPTION: Show bundle state
Shows bundle state, if enable or disable
RESPONSE: <CLI prompt>showbundlestate 16 BID STATUS ============================== 16 ENABLED
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Show bundle mode (SAToP / CESoPSN)
showmode FORMAT: showmode <BID> OPTIONS: <BID>: max-63 min-0 DESCRIPTION: Show TDM mode configuration (SAToPSN | CESoPSN)
Shows bundle state, if STAoP or CESoPSN
RESPONSE: <CLI prompt> showmode 16 TDM Mode: CESoPSN
Configure VLAN tag-type for a bundle
setvlantagtype FORMAT: setvlantagtype <BID> <option> OPTIONS: <BID>: max-63 min-1 <option>: 0-NO VLAN Tag, 1-One VLAN Tag, 2-Two VLAN Tags (stacked) DESCRIPTION: Configure VLAN Tag type
Configures VLAN TAG-type to the bundle Note: Respective bundle should be in the disable state to configure VLAN Tag-type to the bundle
Default: No VLAN Tag
RESPONSE: <CLI prompt>setvlantagtype 16 2 SUCCESS
Configure VLAN-1 ID for a bundle
setvlan1id FORMAT: setvlan1id <BID> <VALN ID> OPTIONS: <BID>: max-63 min-0 <VALN ID>: max-4095 min-1 (Valid only If the VLAN TAG number is set to 1 or 2) DESCRIPTION: Configure VLAN1 ID
Configures VLAN-1 ID to the bundle Note: Respective bundle should be in the disable state to configure VLAN-1 ID to the bundle
Default: Disabled
RESPONSE: <CLI prompt>setvlan1id 16 200 SUCCESS
Configure VLAN-2 ID for a bundle
setvlan2id FORMAT: setvlan2id <BID> <VLAN ID> OPTIONS: <BID>: max-63 min-0 <VALN ID>: max-4095 min-1 (Valid only If the VLAN TAG number is set to 2) DESCRIPTION: Configure VLAN2 ID
Configures VLAN-2 ID to the bundle Note: Respective bundle should be in the disable state to configure VLAN-2 ID to the bundle
Default: Disabled
RESPONSE: <CLI prompt>setvlan2id 16 300 SUCCESS
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Configure VLAN-1 priority for a bundle
setvlan1priority FORMAT: setvlan1priority <BID> <VLAN ID> <priority> OPTIONS: <BID>: max-63 min-0 <VLAN ID>: max-4095 min-1 <priority>: max-7 min-0 (Valid only If the VLAN TAG number is set to 1 or 2) DESCRIPTION: Configure the VLAN1 packet priority
Configures bundle’s VLAN-1 priority
RESPONSE: <CLI prompt>setvlan1priority 16 200 5 SUCCESS
Configure VLAN-2 priority for a bundle
setvlan2priority FORMAT: setvlan2priority <BID> <VALN ID> <priority> OPTIONS: <BID>: max-63 min-0 <VLAN ID>: max-4095 min-1 <priority>: max-7 min-0 (Valid only If the VLAN TAG number is set to 2) DESCRIPTION: Configure the VLAN2 packet priority
Configures bundle’s VLAN-2 priority
RESPONSE: <CLI prompt> setvlan2priority 16 300 4 SUCCESS
Show VLAN-1 priority for a bundle
showvlan1priority FORMAT: showvlan1priority <BID> OPTIONS: <BID>: max-63 min-0 | all DESCRIPTION: Show the VLAN1 packet priority
Shows bundle’s VLAN-1 ID and priority
RESPONSE: <CLI prompt> showvlan1priority 16 BID VLANID PRIORITY ====================================== 16 200 5
Show VLAN-2 priority for a bundle
showvlan2priority FORMAT: showvlan2priority <BID> OPTIONS: <BID>: max-63 min-0 | all DESCRIPTION: Show the VLAN2 packet priority
Shows bundle’s VLAN-2 ID and priority
RESPONSE: <CLI prompt>showvlan2priority 16 BID VLANID PRIORITY ====================================== 16 300 4
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Configure TDM clock mode
setclockmode FORMAT: setclockmode <option> OPTIONS: <option>: oneclock | twoclock DESCRIPTION: Configure framer to TDM clock mode
Configures the TDM over IP in one or two clock mode
Default: Two Clock Mode
RESPONSE: <CLI prompt>setclockmode oneclock SUCCESS
RESPONSE: <CLI prompt> setclockmode twoclock SUCCESS
Show TDM clock mode
showclockmode FORMAT: showclockmode OPTIONS: NONE DESCRIPTION: Show TDM clock mode
Shows if the TDM OVER IP is set to work in one-clock mode or two-clock mode
RESPONSE: <CLI prompt> showclockmode TDM Clock Mode: TWOCLOCK
Configure clock type
setclocktype FORMAT: setclocktype <option> OPTIONS: <option>: stratum1 | stratum2 | stratum3 | stratum3E | stratum4 DESCRIPTION: configure stratum level for clock mode
Configures clock level
Default: STRATUM3E
RESPONSE: <CLI prompt>setclocktype stratum1 SUCCESS
Show clock type
showclocktype FORMAT: showclocktype OPTIONS: NONE DESCRIPTION: Show stratum level for clock mode
Shows clock level
RESPONSE: <CLI prompt>showclocktype TDM Clock Type: STRATUM1
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Configure per port clock
setperportrclk FORMAT: setperportrclk <option> OPTIONS: <option>: <option>: enable/disable DESCRIPTION: All TDM ports work on same transmit clock which is updated on current clock status. If enable, Each port works with own clock. E.x: Current clock = recovered01. If option is disable, All port transmit clock use recovered01 and if option is enable, Port n use recovered n, where n = 1,2,...8
Configures clock level
Default: ENABLE
RESPONSE: <CLI prompt> setperportrclk enable SUCCESS
Show per port clock configuration
showperportrclk FORMAT: showperportrclk OPTIONS: NONE DESCRIPTION: It displays whether same clock feature is enable/Disable.
Shows per port clock configuration
RESPONSE: <CLI prompt> showperportrclk Set per port clock option: enable / disable
Enable / Disable LOS base bundle detection
setlosbasebundledetect FORMAT: setlosbasebundledetect <option> OPTIONS: <option>: enable | disable DESCRIPTION: Set LOS base bundle detect enable/disable.
Enables / Disables bundle on their LOS status System restart is required to make the changes effective Note: It is recommended, to keep this function enable to reduce the bandwidth consumption. If this feature is enabled the equipment will close the bundles having LOS thus reducing the bandwidth consumption
Default: Enable
RESPONSE: <CLI prompt> setlosbasebundledetect disable SUCCESS
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Show LOS base bundle detection
showlosbasebundledetect FORMAT: showlosbasebundledetect OPTIONS: NONE DESCRIPTION: Show LOS base bundle detect enable/disable.
Shows if LOS base bundle detection status
RESPONSE: <CLI prompt> showlosbasebundledetect LOS based bundle detection: Enable
Configure SNMP read community
setreadcommunity FORMAT: setreadcommunity <community> OPTIONS: <community>: String, up to 14 alpha-numeric characters DESCRIPTION: Configure SNMP Read Community
System restart is required to make the changes effective
Default: public
RESPONSE: <CLI prompt>setreadcommunity ReadComm1@# SUCCESS
Configure SNMP write community
setwritecommunity FORMAT: setwritecommunity <community> OPTIONS: <community>: String, up to 14 alpha-numeric characters DESCRIPTION: Configure SNMP Write Community
System restart is required to make the changes effective
Default: private
RESPONSE: <CLI prompt>setwritecommunity WriteComm2#$ SUCCESS
Configure SNMP traps target address
settargetaddress FORMAT: settargetaddress <option> <IP Address> OPTIONS: <option>: 1~3, Target 1~3 <IP Address>: IP Address, e.g. 192.168.0.103 DESCRIPTION: Configure Trap Target IP Address
System restart is required to make the changes effective
Default: Target 1/2/3 Address: 127.0.0.1
RESPONSE: <CLI prompt>settargetaddress 1 192.168.0.101 SUCCESS
Configure SNMP traps target port
settargetport FORMAT: settargetport <option> <port> OPTIONS: <option>: 1~3, Target 1~3 <port> up to 5 digit, (0~65535) DESCRIPTION: Configure Trap Target Port Number
System restart is required to make the changes effective
Default: Target 1/2/3 Port: 162
RESPONSE: <CLI prompt>settargetport 2 1662 SUCCESS
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Configure SNMP traps target community
settargetcommunity FORMAT: settargetcommunity <option> <community> OPTIONS: <option>: 1~3, Target 1~3 <community> String, up to 14 alpha-numeric characters DESCRIPTION: Configure Trap Target Community
System restart is required to make the changes effective
Default: Target 1/2/3 Community: public
RESPONSE: <CLI prompt> settargetcommunity 3 targettest# SUCCESS
Show SNMP settings
showsnmpsettings FORMAT: showsnmpsettings OPTIONS: NONE DESCRIPTION: Show SNMP Configurations
Shows SNMP settings
RESPONSE: <CLI prompt> showsnmpsettings SNMP Value: ======================================= Read Community: public Write Community: private Target 1 Address: 127.0.0.1 Target 2 Address: 127.0.0.1 Target 3 Address: 127.0.0.1 Target 1 Port: 162 Target 2 Port: 162 Target 3 Port: 162 Target 1 Community: public Target 2 Community: public Target 3 Community: public
Configure Ethernet mode to MEF
setmef FORMAT: setmef <option> [value] OPTIONS: <option>: enable/disable [value]: 5DD~FFFF (hex-value) DESCRIPTION: Configure the system to MEF header type
System restart is required to make the changes effective Note: Default MEF value would be 0x88d8 if not value is assigned to MEF header Note: All TDM over IP in a netowrk should be running on same MEF header to communicate to each other
Default: Disabled
RESPONSE: <CLI prompt>setmef enable SUCCESS
RESPONSE: <CLI prompt> setmef enable 5dd SUCCESS
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Configure Ethernet mode to UDP
setudp FORMAT: setudp <option> OPTIONS: <option>: enable/disable DESCRIPTION: Configure system to UDP header type
System restart is required to make the changes effective
Default: enabled
RESPONSE: <CLI prompt>setudp enable SUCCESS
Configure MPLS tag on Ethernet packets
setmpls FORMAT: setmpls <endis> [option] [outerlabel1] [outerlabel2] [expbitvalue] [ttlvalue] OPTIONS: <endis>: Enable/Disable [option]: 1~2 1: One MPLS outer label is used 2: Two MPLS outer label is used [outerlable1]: Value - 0~1048575 (Valid only if outer label is set to 1 or 2) [outerlable2]: Value - 0~1048575 (Valid only if outer label is set to 2) [expbitvalue]: value, 0~7 [ttlvalue]: value, 0~255 DESCRIPTION: Configure MPLS outerlable and label identifier
System restart is required to make the changes effective
Default: Disabled
RESPONSE: <CLI prompt>setmpls enable 2 1000111 1000222 5 255 SUCCESS
Show Ethernet header type
showheadertype FORMAT: showheadertype OPTIONS: NONE DESCRIPTION: Show system header type and its value
Shows current Ethernet header-type
RESPONSE: <CLI prompt> showheadertype Header Type Status Value ========================================== MEF DISABLED 0 UDP ENABLED ------ MPLS DISABLED 0
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Configure Ethernet port flow control
setflowcontrol FORMAT: setflowcontrol <port> <option> OPTIONS: <port>: 1 to 5 <option>:enable | disable DESCRIPTION: Enable / disable automatic flow control
Configures Ethernet port receive flow control
Default: Disabled – All ports
RESPONSE: <CLI prompt>setflowcontrol 4 enable SUCCESS
Show Ethernet port flow control
showflowcontrol FORMAT: showflowcontrol <port> OPTIONS: <port>: 1 to 5 | all DESCRIPTION: Show automatic flow control status
Shows Ethernet port receive flow control status
RESPONSE: <CLI prompt>showflowcontrol 2 Port 2 RX flowcontrol : ENABLED
Configure trunk group
settrunkgroup FORMAT: settrunkgroup <group no> <option> OPTIONS: <group no>: 1 or 2 <option>: enable | disable DESCRIPTION: Configure trunk groups
Enable / disable trunk group
Default: Disabled
RESPONSE: <CLI prompt>settrunkgroup 1 enable SUCCESS
Show trunk group
showtrunkgroup FORMAT: showtrunkgroup <group no> OPTIONS: <group no>: 1 or 2 | all DESCRIPTION: Show all trunk groups
Shows trunk group status
RESPONSE: <CLI prompt>showtrunkgroup 2 Trunk group 2 : DISABLED
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Configure Ethernet port protection
setprotectport FORMAT: setprotectport <port> <protection> OPTIONS: <port>: 1 to 6 <protection>: enable | disable DESCRIPTION: Configure protected ports
Configures Ethernet port protection
Default: Unprotected – All ports
RESPONSE: <CLI prompt>setprotectport 1 enable SUCCESS
Show Ethernet port protection
showprotectport FORMAT: showprotectport <port> OPTIONS: <port>: 1 to 6 | all DESCRIPTION: Show protected / unprotected ports
Shows Ethernet port protection status
RESPONSE: <CLI prompt>showprotectport 2 Port 2 : UNPROTECTED
Show Ethernet packet counter
showethcounter FORMAT: showethcounter <port> OPTIONS: <port>: 1 to 5 DESCRIPTION: Show Ethernet packet counters
Shows Ethernet port’s packet counter
RESPONSE: <CLI prompt>showethcounter 4 Port 4 Ethernet counters Tx bytes : 0 Rx bytes : 0 Tx dropped : 0 Rx dropped : 0 Tx bdcast : 0 Rx bdcast : 3851 Tx ucast : 432 Rx ucast : 624 Tx mcast : 0 Rx mcast : 2938 Tx pause : 0 Rx pause : 0 Rx oversize : 0 Rx excess discarded : 0
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Configure Ethernet port QoS type
setqos FORMAT: setqos <port> <qos_type> OPTIONS: <port>: 1 to 6 <qos_type>: 802.1p | dscp | none DESCRIPTION: Configure QoS type
Configures Ethernet port QoS type
Default: No QoS
RESPONSE: <CLI prompt>setqos 2 802.1p SUCCESS
RESPONSE: <CLI prompt>setqos 3 dscp SUCCESS
Configure Ethernet port QoS priority
setqospriority FORMAT: setqospriority <qostype><tag><priority> OPTIONS: <qostype>: 802.1p | dscp <tag> 0-7 for 802.1p, 0-63 for DSCP <priority>: 0 to 3 DESCRIPTION: Set QoS tag priority
Configures DSCP and 802.1p QoS priority on QoS tag
RESPONSE: <CLI prompt>setqospriority 802.1p 5 3 SUCCESS
RESPONSE: <CLI prompt>setqospriority dscp 10 0 SUCCESS
Show QoS
showqos FORMAT: showqos <port> OPTIONS: <port>: 1 to 6 | all DESCRIPTION: Show supported QoS type
Shows Ethernet port QoS type
RESPONSE: <CLI prompt> showqos 2 Port 2 qos type: 802.1p
RESPONSE: <CLI prompt> showqos 3 Port 3 qos type: DSCP
Show Ethernet port QoS priority
showqospriority FORMAT: showqospriority <qostype> OPTIONS: <qostype>: 802.1p | dscp DESCRIPTION: Show QoS tag priority
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RESPONSE: <CLI prompt> showqospriority 802.1p 801.p QoS QoS tag : 0 1 2 3 4 5 6 7 Priority : 3 3 3 3 3 3 3 3
RESPONSE: <CLI prompt> showqospriority dscp DSCP QoS QoS tag : 0 1 2 3 4 5 6 7 Priority : 3 3 3 3 3 3 3 3 QoS tag : 8 9 10 11 12 13 14 15 Priority : 3 3 0 3 3 3 3 3 QoS tag : 16 17 18 19 20 21 22 23 Priority : 3 3 3 3 3 3 3 3 QoS tag : 24 25 26 27 28 29 30 31 Priority : 3 3 3 3 3 3 3 3 QoS tag : 32 33 34 35 36 37 38 39 Priority : 3 3 3 3 3 3 3 3 QoS tag : 40 41 42 43 44 45 46 47 Priority : 3 3 3 3 3 3 3 3 QoS tag : 48 49 50 51 52 53 54 55 Priority : 3 3 3 3 3 3 3 3 QoS tag : 56 57 58 59 60 61 62 63 Priority : 3 3 3 3 3 3 3 3
Enable / Disable jumbo frame
setjumboframe FORMAT: setjumboframe <port> <option> OPTIONS: <port>1 to 6 <option>:enable | disable DESCRIPTION: Enable / disable jumboframe support
Enables / disables Ethernet port MTU size up-to 9000 bytes (Jumbo Frame)
Default: Enable – All ports
RESPONSE: <CLI prompt>setjumboframe 1 disable SUCCESS
Show jumbo frame status
showjumboframe FORMAT: showjumboframe <port> OPTIONS: <port>: 1 to 6 | all DESCRIPTION: Show jumbo frame status
Shows Ethernet port MTU size (Jumbo Frame) port status
RESPONSE: <CLI prompt>showjumboframe 3 Port 3 Jumbo frame support : ENABLED
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Configure Ethernet port speed and mode
setportconfig FORMAT: setportconfig <port> <speed> <mode> OPTIONS: <port>: 1 to 5 <speed>: 10 | 100 | 1000 | auto <mode>: half | full DESCRIPTION: Configure port speed and mode
Configures Ethernet port Speed and Duplex mode
Default: Auto Negotiate
RESPONSE: <CLI prompt> setportconfig 4 100 full SUCCESS
Show Ethernet port speed and mode
showportconfig FORMAT: showportconfig <port> OPTIONS: <port>: 1 to 5 | all DESCRIPTION: Show port speed and mode
Shows Ethernet port Speed, Duplex mode and Link Status
RESPONSE: <CLI prompt>showportconfig 4 Port 4 speed : 100 Mbps mode : HALF DUPLEX Link Status : UP
Configure Ethernet port ingress rate
setingressportrate FORMAT: setingressportrate <port> <rate> OPTIONS: <port>: 1 to 5 <rate>: from 64 to 1000000 (unit Kbps) Note: please refer command document for possible discreet rate values DESCRIPTION: Set ingress port rate Limit Range: 64 Kbps to 1792 Kbps – in the multiple of 64 Kbps 2000 Kbps to 1000000 Kbps – in the multiple of 1000 Kbps (1 Mbps)
Configures Ethernet port ingress rate limit Note: Ingress port rate limiting from 64 Kbps to 1792 Kbps in multiple of 64 kbps and from 2000 Kbps (2 Mbps) to 10000000 Kbps (1 Gbps) in the multiple of 1000 Kbps. e..g. 64Kbps / 128 Kbps / 1024Kbps /1792 Kbps / 2000 Kbps / 3000 Kbps / 10000Kbps / 200000Kbps / 1000000 Kbps
Default: 1000 Mbps – All ports
RESPONSE: <CLI prompt>setingressportrate 2 200000 SUCCESS
RESPONSE: <CLI prompt>setingressportrate 3 64 SUCCESS
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Show Ethernet port ingress rate
showingressportrate FORMAT: showingressportrate <port> OPTIONS: <port>: 1 to 5 | all DESCRIPTION: Show ingress port rate
Shows Ethernet port ingress rate limit
RESPONSE: <CLI prompt>showingressportrate 5 Port 5 ingress rate : 1000 Mbps
Configure auto-poll
setautopoll FORMAT: setautopoll <port> <state> OPTIONS: <port>: 1 to 5 <state>: enable | disable DESCRIPTION: Set autopoll state
Enables / Disables Ethernet port auto-poll
RESPONSE: <CLI prompt> setautopoll 1 enable SUCCESS
Show auto-poll
showautopoll FORMAT: showautopoll <port> OPTIONS: <port>: 1 to 5 | all DESCRIPTION: Show configure autopoll
Shows Ethernet port auto-poll status
RESPONSE: <CLI prompt> showautopoll 2 Port 2 Auto-poll : DISABLED
Enable / Disable switch transparent mode
setvlantransmode FORMAT: setvlantransmode <option> OPTIONS: <option>: enable | disable DESCRIPTION: Enable / Disable switch transparent mode
Configures the Ethernet ports (switch) in transparent mode to pass the VLAN tagged / untagged data transparently
Default: Transparent mode enabled
RESPONSE: <CLI prompt>setvlantransmode enable SUCCESS
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Show switch transparent mode
showvlantransmode FORMAT: showvlantransmode OPTIONS: NONE DESCRIPTION: Show switch Mode
Shows the Ethernet ports (switch) transparent mode status
RESPONSE: <CLI prompt>showvlantransmode VLAN TRANS MODE ENABLED
Configure Ethernet port VLAN
createvlan FORMAT: createvlan <vlan-id> <tagged ports> <untagged ports> OPTIONS: <vlan-id>: 1-4095 <tagged ports>: combination of ports from 1 to 6 ex:1,2,4,5 <untagged ports>: ports to be untagged among specified ports ex:1,2 DESCRIPTION: Configure VLAN on Ethernet ports
Configured the switch ports in VLAN tagged and un-tagged port mode Tagged port shall pass only particular VLAN-tagged packets they were tagged in Un-Tagged port shall pass all untagged packets and particular VLAN-tagged packets they were un-tagged in Note: Switch VLAN Transparent mode should be disabled to configure the VLANs
RESPONSE: <CLI prompt>createvlan 500 4,6 5,6 SUCCESS
Modify Ethernet port VLAN
modifyvlan FORMAT: modifyvlan <vlan-id> <option> <tagged ports> <untagged ports> OPTIONS: <vlan-id>: 1-4095 <option>:add | remove <tagged ports>: combination of ports from 1 to 6 ex:1,2,4,5 <untagged ports>:ports to be untagged among specified ports ex:1,2 DESCRIPTION: Tag / Untag Ethernet ports for a VLAN-ID
Add / remove Ethernet port from a particular VLAN-ID Note: Switch VLAN Transparent mode should be disabled to modify the VLANs
RESPONSE: <CLI prompt>modifyvlan 500 remove 4 0 SUCCESS
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Show VLAN
showvlan FORMAT: showvlan <vlan-id> OPTIONS: <vlan-id>: 1-4095 | all DESCRIPTION: Show configured VLAN
Shows switch VLAN configuration
RESPONSE: <CLI prompt>showvlan 1 command is processing.. ... PLEASE WAIT... VLAN: ID 1 Ports : 1 2 3 4 5 6 Untagged ports: 1 2 3 4 5 6 ID 500 Ports : 4 Untagged ports:
Delete a VLAN
deletevlan FORMAT: deletevlan <vlan-id> OPTIONS: <vlan-id>: 1-4095 DESCRIPTION: Delete a VLAN
Deletes an existing VLAN
RESPONSE: <CLI prompt> deletevlan 500 SUCCESS
Upgrade system image / firmware
upgrade FORMAT: upgrade <IP Address> <file path/name.bin> OPTIONS: <IP Address>: 192.168.1.1 <file path/name.bin>: Path and configuration image file name
Upgrade system firmware from a TFTP server Note: File should available be in the same location where the TFT server is installed / running Note: Please make sure that the equipment should not lose power during the up-gradation process.
RESPONSE: <CLI prompt> upgrade 192.168.1.252 Image_1.0.4_3 command is processing.. ... PLEASE WAIT... SUCCESS
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Show SFP DDMI info
showddminfo FORMAT: showddminfo <port> OPTIONS: <port>: 2 to 3 DESCRIPTION: Show SFP module information
Shows Optical Ethernet port’s SFP information
RESPONSE: <CLI prompt>showddminfo 2 Port Wavelength Distance Code ------------------------------------------------------ 2 1310nm 40km Tx_Power Rx_Power ------------------------------------------------------ - 1.87dBm 0.00dBm
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Section 12: Ordering Information
Core Unit
S. No. Part # Product Descriptions Remarks
1 VCL-E1oP-2E1-GE-2OE-2109
VCL-2E1 over Ethernet Multiplexer (E1 over Packet / TDM over IP) 19-inch 1U High Rack Mount version Supports:
Upto 2 x E1 [120 Ohms RJ45 (F)]
4 x Ethernet Ports (1000Mbps, Gigabit) o 2 x Electrical Ethernet Ports [RJ45 (F)] o 2 x Optical Ethernet Ports [1.25Gbps SFP based / without
SFPs]
OAM [10/100BaseT Ethernet - RJ45 (SNMP, Telnet) and Serial Port (USB and DB-9 COM Port)]
MPLS, MEF (Metro Ethernet)
CESoPSN, PWE3 (pseudo-wire), SAToP
E1 data rates of 64Kbps to 2.048 Mbps on each E1 port
Point-to-point, point-to-multipoint drop and insert applications
Alternate Route Protection (for 1+1 Ethernet link redundancy on WAN side)
Clocking options: Adaptive / Loop-timed / External / Internal / Asymmetrical (One-Clock and Two Clock)
Core Unit for 2E1 Port Version without PSUs.
2 VCL-E1oP-8E1-GE-2OE-2109
VCL-8E1 over Ethernet Multiplexer (E1 over Packet / TDM over IP) 19-inch 1U High Rack Mount version Supports:
Upto 8 x E1 [120 Ohms RJ45 (F)]
4 x Ethernet Ports (1000Mbps, Gigabit) o 2 x Electrical Ethernet Ports [RJ45 (F)] o 2 x Optical Ethernet Ports [1.25Gbps SFP based / without
SFPs]
OAM [10/100BaseT Ethernet - RJ45 (SNMP, Telnet) and Serial Port (USB and DB-9 COM Port)]
MPLS, MEF (Metro Ethernet)
CESoPSN, PWE3 (pseudo-wire), SAToP
E1 data rates of 64Kbps to 2.048 Mbps on each E1 port
Point-to-point, point-to-multipoint drop and insert applications
Alternate Route Protection (for 1+1 Ethernet link redundancy on WAN side)
Clocking options: Adaptive / Loop-timed / External / Internal / Asymmetrical (One-Clock and Two Clock)
Core Unit for 8E1 Port Version without PSUs.
Power Supply Options
S. No. Part # Product Descriptions Remarks
1 AC220 1 x 100-240V AC Power Supply Any one option. 2 DC048 1 x 48V DC Power Supply
3 ACDC 1 x 100-240V AC Power Supply and 1 x 48V DC Power Supply
4 AC220R 2 x 100-240V AC Power Supply [Redundant]
5 DC048R 2 x 48V DC Power Supply [Redundant]
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Gigabit Ethernet SFP Options
S. No. Part # Product Descriptions Remarks
1 VCL-EMOD 0206 1.25Gbps SFP Transceiver Duplex LC, 850nm, 550m, MMF Maximum 2 SFPs per core unit.
2 VCL-EMOD 0205 1.25Gbps SFP Transceiver Duplex LC, 1310nm, 10Km, SMF
3 VCL-EMOD 0231 1.25Gbps SFP Transceiver Duplex LC, 1310nm, 20Km, SMF
4 VCL-EMOD 0255 1.25Gbps SFP Transceiver Duplex LC, 1310nm, 40Km, SMF
5 VCL-EMOD 0155 1.25Gbps SFP Transceiver Duplex LC, 1550nm, 40Km, SMF
6 VCL-EMOD 0256 1.25Gbps SFP Transceiver Duplex LC, 1550nm, 80Km, SMF
Cables and Accessories Options
S. No. Part # Product Descriptions Remarks
1 VCL-HRNS 1280 1E1 75 Ohms connectorized cable [RJ45M-2BNCF, 28cm] As per site requirement. 2 VCL-HRNS 1229 Optical Patch Cord connectorized cable [2LC-2LC, 3m, SM]
3 VCL-HRNS 1238 Optical Patch Cord connectorized cable [2LC-2LC, 10m, SM]
4 VCL-HRNS 1242 Optical Patch Cord connectorized cable [LC-FC, 10m, SM]
5 VCL-HRNS 1243 Optical Patch Cord connectorized cable [2LC-2FC, 10m, SM]
6 VCL-HRNS 1239 Optical Patch Cord connectorized cable [LC-SC, 10m, SM]
7 VCL-HRNS 1258 Optical Patch Cord connectorized cable [2LC-2SC, 10m, SM]
8 VCL-ECON 1172 Connector (Attenuator LC-LC-10dB)
9 VCL-ECON 1173 Connector (Attenuator LC-LC-20dB)
10 VCL-ECON 1186 Connector (Attenuator FC-FC-10dB)
11 VCL-ECON 1187 Connector (Attenuator FC-FC-20dB)
12 VCL-ECON 1197 Connector (Attenuator SC-SC-10dB)
13 VCL-ECON 1198 Connector (Attenuator SC-SC-20dB)
14 UMIKitE1opDLX System Core Cables, Installation Accessories, Documentation, System User Manual / Disk (set)
Note: 1. SPFs to be added if 1000BaseSX/LX (Optical) Ethernet Ports are required. 2. Redundant power supply to be added, if required. 3. Select VCL-HRNS 1280 for E1 75 Ohms BNC (F).
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Note: Operation and maintenance of network equipment require professional knowledge and experience. We recommend the equipment to be managed only by qualified technicians. Should you require technical assistance please consult the provider, or contact our SUPPORT DESK at [email protected]
Technical specifications are subject to changes without notice. All brand name and trademarks are the property of their respective owners. Revision 3.0 – March 05, 2013
Regional Office: Miami, Florida Orion Telecom Networks Inc. 4000 Ponce de Leon Blvd. Suite 470, Coral Gables, FL 33146 U.S.A. Phone: 1-305-777-0419, Fax: 1-305-777-0201 E-mail: [email protected]
Regional Office: Miami, Florida Orion Telecom Networks Inc. 4000 Ponce de Leon Blvd. Suite 470, Coral Gables, FL 33146 U.S.A. Phone: 1-305-777-0419, Fax: 1-305-777-0201 E-mail: [email protected]
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