Motorola T1/E1 manual Channel Modes, Encoding, T1 Channel Mode, E1 Channel Mode

Page 19

Canopy T1/E1 Multiplexer	September 2004
	T1/E1 Multiplexer FPGA Version 3.4

1.5.1Channel Modes

T1 Channel Mode

While in T1 mode, the Canopy T1/E1 Multiplexer operates as a DSX-1 interface in a DSU channel mode. There are no user options to change this mode. The DSU channel mode can operate within five line lengths, each providing compensation for the length of the T1 line. The line lengths are:

◦0-133 ft. / 0.6dB

◦134-266 ft. / 1.2dB

◦267-399 ft. / 1.8dB

◦400-533 ft. / 2.4dB

◦534-655 ft. / 3.0dB

E1 Channel Mode

While in E1 mode, the transmit line build-out meets the short haul requirements specified in Recommendation ITU G.703.

1.5.2Encoding

The Canopy T1/E1 Multiplexer transparently passes all T1/E1 bits, including framing, encoding and zero suppression, through to the far end T1/E1 using the Canopy BH Module Ethernet port.

For T1 mode, no user settings are required for D4 or Extended Superframe (ESF) framing types, or for T1 signaling bits. Both 56-kbps and 64-kbps channels are transparently passed. The user must identify which type of T1 is being used; Alternate Mark Inversion (AMI) or Binary Eight Zero Substitution (B8ZS) in order for the Canopy T1/E1 Multiplexer to properly ascertain bipolar violations (BPV). A bipolar violation is a non-zero signal element in an AMI signal that has the same polarity as the previous non- zero signal element.

For T1 mode, the Canopy T1/E1 Multiplexer supports the following:

◦Transparent support of the T1 channel, including

−D4

−Extended Superframe (ESF)

−56-kbps and 64-kbps channels

−Zero suppression

◦AMI

◦B8ZS

◦up to four ports

For E1 mode, no user settings are required for framing types or for E1 signaling bits. The user must identify which type of E1 is being used; Alternate Mark Inversion (AMI) or High Density Binary Three Bit Zero Substitution (HDB3) in order for the Canopy T1/E1 Multiplexer to properly ascertain bipolar violations (BPV). A bipolar violation is a non- zero signal element in an AMI signal that has the same polarity as the previous non-zero signal element.

Issue 3

Page 19 of 73

Image 19

Contents Canopy T1/E1 Multiplexer User Guide T1E1Mux-UG-en Issue SeptemberTable of Contents Managing Your Canopy T1/E1 Multiplexers List of Figures List of Tables List of Procedures Searching This User Guide Using this User GuideNew in This Issue Using the Latest InformationAdmonition General Message Label Font Type of InformationVariable width bold Constant width boldGetting Additional Help Introduction to Canopy T1/E1 MultiplexerSending Feedback Canopy T1/E1 Multiplexer with Canopy BHs Ethernet InterfaceIDU Physical Description StandardsRear Panel Rear panel with standard 110-v source power supply Canopy T1/E1 Multiplexer Status Leds LED status indicator descriptionsLED indicator descriptions Front PanelCanopy T1/E1 Multiplexer physical specifications FeaturesSpecifications Physical SpecificationsE1 port specifications Technical SpecificationsT1 port specifications T1 framing specificationsBit Handling Capability Configuration Settings from Canopy FactoryE1 framing specifications Local terminal and control interface specificationsLicense Keys Power AdaptersProduct Labels Functional Description of the Canopy T1/E1 MultiplexerEncoding T1 Channel ModeE1 Channel Mode Channel Modes1 in 15 Requirement AMI Alternate Mark Inversion AMIBinary Eight Zero Substitution Coding Timing SignalingHigh Density Bipolar Order Three Encoding Master and Secondary Clocks Frequency off-set by clock typeTiming Modes Loss of Clock SignalLoopback Timing Mode Recovered Timing ModeNetwork Timing Scenarios Slave timing set to Recovered modeEthernet Throughput Alarms Round‐Trip Packet DelayVlan Support Lightning Protection Safety InformationPower Supply Unit ComplianceMounting the Canopy T1/E1 Multiplexer Installation ProceduresPackage Contents Preparing for Installation and SetupPin Designation Direction Connecting the Canopy T1/E1 MultiplexerEnd of procedure T1/E1 port connector pin-outCanopy BH Pin Connecting Power to the Canopy T1/E1 MultiplexerRJ-45 Connector Procedure 2 Connecting cables to T1/E1 unitProcedure 4 Connecting the −48 v DC power source Procedure 3 Connecting the AC adapter +3.3 v DC power sourceIssue the Start-Run-d/setup sequence Initial Configuration ProceduresInstalling Software from the CD‐ROM Procedure 5 Installing Software from the CD-ROMFile drop-down menu in GUI Using EMS Software to Configure the UnitParameter Value Accessing the CLI using a PC + HyperTerminalConfiguring the Canopy T1/E1 Multiplexer using the CLI Procedure 6 Configuring serial portCommand Line Interface window Creating a Login AccountLogging into the System Configuration Procedures Using the CLIChanging the Administrator Password Procedure 7 Changing Administrator password using the CLIEnter get line type Procedure 8 Selecting line type T1 or E1 using the CLISelect Line Type T1 or E1 Action StepsEnter get line code Procedure 9 Configuring line coding using the CLISelect Line Coding Enter set line 1/2/3/4 code HDB3/B8ZS/AMIEnter set canopy port auto negotiation on/off Configure PortsProcedure 10 Configuring the Ethernet ports using the CLI ActionDB 266-399 / 1.8 dB 399-533 / 2.4 dB 533-655 Procedure 11 Configuring the T1 ports using the CLIEnter set master clock reference line 1/2/3/4 Enter set clock source loopback/recoveredEnter set secondary clock reference line 1/2/3/4 Enter set line 1/2/3/4 code HDB3/AMI Procedure 12 Configuring the E1 ports using the CLISet clock source loopback Set clock source recoveredProcedure 13 Configuring timing using the CLI Configure TimingEnd of procedure Configuration Procedures Using the EMSProcedure 14 Logging in using the EMS Login dialogue box File→Command Line Terminal from the EMS Main menu T1/E1 Multiplexer EMS main menu End of procedureChanging the Administrator Password Select Configure T1 Procedure 16 Selecting line type T1 or E1 using the EMSSelect Configure Line Type Procedure 17 Configuring T1 line coding using the EMSSelect Configure E1 Procedure 18 Configuring E1 line coding using the EMSProcedure 19 Configuring the Ethernet ports using the EMS Click ↓ for Master Clock Reference Line Procedure 21 Configuring the E1 ports using the EMSClick ↓ for Secondary Clock Reference Line Procedure 22 Configuring timing using the EMS Remote management overview Remote Management Through Control PortEnter get alarms Procedure 23 Displaying the alarms using the CLISelect the Alarms→T1/E1 Alarms menu Procedure 24 Displaying alarms using the EMSProcedure 25 Resetting the system using the CLI System ResetProcedure 26 Resetting the system using the EMS T1/E1 Loopback Canopy T1/E1 Multiplexer in T1/E1 Loopback modeProcedure 28 Invoking a T1/E1 loopback using the EMS Invoking a T1/E1 Loopback using the CLIInvoking a T1/E1 Loopback Using the EMS Procedure 27 Invoking a T1/E1 loopback using the CLIProcedure 29 Upgrading firmware Measurements from DiagnosticsFirmware Upgrades Comparison of diagnostic measurementsClick Download Fpga revision details screen End of procedureT1/E1 Port Upgrade window License KEY UpgradesInvalid key entry window Software License Terms and Conditions Terms of WarrantyCanopy T1/E1 Multiplexer Obtaining Technical Support Hardware Warranty in U.SInvoking Your Warranty Rights Enter get lan port auto negotiation CLI Commands to GET Status InformationDesired Action Syntax, Response, and Description Enter get canopy port auto negotiationEnter get code line 1/2/3/4 Enter get line 1/2/3/4 lengthEnter get master clock reference line Enter get clock sourceEnter get secondary clock reference line Enter get firmware revision Enter get loopback line 1/2/3/4Regulatory Compliance Information Canadian Compliance Statement TRADEMARKS, Product NAMES, and Service NamesDepartment of Communications Canada European Telecommunications Standards InstituteReferences