Table of Contents
Provisioning Lines
This chapter describes the individual and batch procedures used to provision lines on the NE, and includes the following sections:
To place multiple lines in service, perform the following steps starting in node view:
Step 1 Select Objects > Line Batch Provisioning from the node view menu bar. EMS displays the line status assignment window. (See Figure 7-1.)
Figure 7-1: Line Admin Status Assignment Window
Step 2 In the Admin Status field, select inService.
Step 3 In the Card Type field, select one of the line card types that are currently installed in the NE. If the selected card type is present, EMS displays the slot numbers for each card in the Card List window. For example, if your NE has FXS/16 cards in slots 3 and 4, selecting the FXS card type will display 3 and 4 in the card list window.
Step 4 In the Card List window, click each card number while holding down the Control key to select (highlight) the card.
Step 5 When all card numbers are selected, click the right arrow next to the card list window. The Result List (on the right side of the window) displays all lines on the selected cards, along with the status (inService or OutOfService) of each line. (See Figure 7-2.)
Figure 7-2: Line Batch Provisioning Window with Selected Cards
Step 6 In the Result List window, select the lines to be placed in service.
Step 7 After the lines are selected, click the Apply button to put the lines in service. EMS works down the list, changing each OutOfService line to InService.
Step 8 Return to Step 3 and repeat these steps for each card type present in the NE.
Step 9 Click the Exit button on the left side of the window to return to node view.
Step 10 Select View > Refresh Card Display to update the node view display. Lines that have been placed in service will display a green LED.
From node view, double-click the icon of the line to be provisioned. EMS displays the appropriate line provision window. Figure 7-3 shows a highlighted line icon in node view; the line icon turns orange when the mouse is positioned over it.
Figure 7-3: Node View with Highlighted Line Icon
The following sections describe basic provisioning for individual lines on the following line cards:
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Note To provision a line on a line card, double-click the line icon. EMS displays the appropriate line provision window. |
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Note Figure 7-4 shows the RPOTS/16 line provisioning window. The FXS/16 and RUVG/8 line provisioning windows are identical in structure and appearance (with FXS,16 or RUVG,8 appearing in place of RPOTS,16). |
Figure 7-4: RPOTS/16 Line Provisioning Window
To provision an analog line, complete the following steps:
Step 1 In the Line Number field, select the analog line to be provisioned.
Step 2 Set the following parameters according to your application:
- Admin Status—Set the status of the individual line, InService or OutOfService.
- Interface Group—Select the interface group type used on the Class 5 switch:
- For unconcentrated pass-through, select None.
- For GR-303 applications, select GR-303. (See "GR-303," for detailed procedures.)
- For TR-008 pass-through, select TR-008.
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Note An NE can not provision TR-008, but it can pass TR-008 traffic to the switch. |
- Interface Group ID—For GR-303 applications, select the interface group ID number (from 1 to 4) used on the Class 5 switch.
- CRV—For GR-303 applications, select a CRV for this line. Each GR-303 line must be provisioned with a unique CRV.
- Generic Signal Function—Select ls for loop start (default) or gs for ground start.
- Termination Mode—Select one of the following modes, expressed in ohms and digital-to-analog signal loss in dB:
- ohm600and0dB
- ohm600and1dB (default for RUVG/8)
- ohm600and2dB (default for FXS/16)
- ohm600and5dB
- ohm900andM2dB (minus 2dB)
- ohm900and2dB (default for RPOTS/16)
- ohm900and5dB
Step 3 Click Apply to provision the line.
Step 4 Repeat this procedure to provision additional lines on the card.
Step 1 Select Objects > Line Batch Provisioning from the node view menu bar. EMS displays the line status assignment window.
Step 2 Select Analog Line Batch Provisioning in the function bar. EMS displays the analog line batch provisioning window. (See Figure 7-5.)
Figure 7-5: Analog Line Batch Provisioning Window
Step 3 Set the Card Type to the card or cards to be provisioned.
Step 4 In the Card List, select the lines to be provisioned.
Step 5 Click the right arrow between the Card List and the Selected list. EMS places the selected lines in the Selected list.
Step 6 Set the following parameters according to your application:
- Generic Signal Function—Select ls for loop start (default) or gs for ground start.
- Termination Mode—Select one of the following modes, expressed in ohms and digital-to-analog signal loss in dB:
- ohm600and0dB
- ohm600and1dB (default for RUVG/8)
- ohm600and2dB (default for FXS/16)
- ohm600and5dB
- ohm900andM2dB (minus 2dB)
- ohm900and2dB (default for RPOTS/16)
- ohm900and5dB
Step 7 Click Apply to provision the lines.
To provision ISDN,BRI,8 lines, complete the following steps:
Figure 7-6: ISDN,BRI,8 Basic Provisioning Window
Step 1 In the ISDN,BRI,8 Line Number field, select the ISDN line to be provisioned.
Step 2 Set the following parameters according to your ISDN application:
- Admin Status—Set the status of the individual line, InService or OutOfService.
- Interface Group—Select the interface group type used on the Class 5 switch:
- For GR-303 applications, select GR-303. (See "GR-303," for detailed procedures.)
- For TR-008 pass-through, select TR-008.
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Note An NE can not provision TR-008, but it can pass TR-008 traffic to the switch. |
- Interface Group ID—For GR-303 applications, select the interface group ID number (from 1 to 4) used on the Class 5 switch.
- CRV—For GR-303 applications, select a CRV for this line. Each GR-303 line must be provisioned with a unique CRV.
- ISDN,BRI/8 Scheme—Leave the default setting (4:1).
- LT Overhead Status—These parameters are set by the Class 5 switch. Do not change these values.
- EOC Protocol—Leave the default setting (PointToPoint).
- Line Termination Mode—Leave the default setting (LT).
- Reset PM Count—Select Yes to reset the performance monitoring data.
(See "System Maintenance and Monitoring," for PM information and procedures.)
Step 3 Click Apply to provision the line.
Step 4 Repeat this procedure to provision additional lines on the card.
To provision a DSX1,8 line, complete the following steps:
Step 1 Double-click the appropriate icon in node view to open the line provisioning window. (See Figure 7-3).
Figure 7-7: DSX1,8 Line Provisioning Window
Step 2 In the DSX1,8 Line Number field, select the DS1 line to be provisioned.
Step 3 Set the following parameters according to your DSX1 application:
- Admin Status—Set the status of the individual line, InService or OutOfService.
- Interface Group—Select the interface group type used on the Class 5 switch:
- For unconcentrated pass-through, select None.
- For GR-303 applications, select GR-303. (See "GR-303," for detailed procedures.)
- For TR-008 pass-through, select TR-008.
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Note An NE can not provision TR-008, but it can pass TR-008 traffic to the switch. |
- Interface Group ID—For GR-303 applications, select the interface group ID number (from 1 to 4) used on the Class 5 switch.
- Interface Group Member ID—For GR-303 applications, select a member ID for this DSX1.
- Line Coding—Select B8ZS (binary 8 zero substitution) or AMI (alternate mark inversion).
- Line Frame Type—Select ESF (extended superframe), SF (superframe), or SLC96 (subscriber loop carrier, 96 lines).
- DS0 Mapping—Select D1, SLC-D4 (for use with TR-008), or D4 (for use with GR-303).
- Protect Unit Type—Not supported.
- Line Buildout—Select the transmit line length from the pulldown menu.
- Loopback—Select Off (disable loopback), Line (facing away from the NE), or Equipment (internal loopback).
- Reset PM Count—Select Yes to reset the performance monitoring data.
(See "System Maintenance and Monitoring," for PM information and procedures.)
- DS0 Signaling—Clicking this button opens the DS0 signaling window.
(See the "DS0 Signaling Window" section on this page.)
Step 4 Click Apply to provision the line.
Step 5 Repeat this procedure to provision additional lines on the card.
To provision a DSO channel, complete the following steps:
Step 1 From the DSX1,8 line provisioning window (see Figure 7-7), click DS0 Signaling to open the DS0 signaling window. (See Figure 7-8.)
Figure 7-8: DS0 Signaling Window
Step 2 Highlight the DS0 channels to be modified.
Step 3 Set the signaling for selected DS0s:
- robbedBit—Eighth bit is robbed in frames 6 and 12 in D4 framing (AB signaling), and in frames 6, 12, 18, and 24 in ESF framing (ABCD signaling).
- clearChannel—DS0 channel is used exclusively for data transmission.
Step 4 Click Apply to provision the selected DS0 channels.
Step 1 Double-click the appropriate icon in node view to open the line provisioning window. (See Figure 7-3).
Step 2 Select Objects > Line Batch Provisioning from the node view menu bar. EMS displays the line status assignment window.
Step 3 Select DSX1,8 Line Batch Provisioning in the function bar. EMS displays the DSX1 line batch provisioning window. (See Figure 7-9.)
Figure 7-9: DSX1 Line Batch Provisioning Window
Step 4 In the Card List, select the lines to be provisioned.
Step 5 Click the right arrow between the Card List and the Selected list. EMS places the selected lines in the Selected list.
Step 6 Set the following parameters according to your DSX1 application:
- Line Coding—Select B8ZS (binary 8 zero substitution) or AMI (alternate mark inversion).
- Line Frame Type—Select ESF (extended superframe), SF (superframe), or SLC96 (subscriber loop carrier, 96 lines).
- DS0 Mapping—Select D1, SLC-D4 (for use with TR-008), or D4 (for use with GR-303).
- Protect Unit Type—Not supported.
- Line Buildout—Select the transmit line length.
- Loopback—Select Off (disable loopback), Line (facing away from the NE), or Equipment (internal loopback).
- Reset PM Count—Select Yes to reset the performance monitoring data.
(See "System Maintenance and Monitoring," for PM information and procedures.)
Step 7 Click Apply to provision the lines.
To provision a DSX3,CHNL line, complete the following steps:
Step 1 Double-click the appropriate icon in node view (see Figure 7-3) to open the line provisioning window. (See Figure 7-10).
Figure 7-10: DSX3,CHNL Provisioning Window
To provision DSX3-CHNL Lines, complete the following steps:
Step 1 Set the following parameters according to your DSX3 application:
- Admin Status—Set the status of the individual line, InService or OutOfService.
- Application Type—Select the DS3 application type, M13 (channelized) or CBitParity (straight-through).
- Line Buildout—Select the transmit line length.
- AIS Pattern—(Optional.) Select one of the following alarm indicator signal (AIS) patterns:
- payload1010CBit0
- payload1010OHIgnored
- payloadAllOnesOHIgnored
- payloadIgnoredCBit0
- unframedAllOnes
- Circuit Identifier—(Optional.) For use with the previously selected AIS pattern.
- Send Code—Select SendNoCode or SendTestPattern.
- Reset PM Count—Select Yes to reset the performance monitoring data.
(See "System Maintenance and Monitoring," for PM information and procedures.)
Step 2 Click Apply to provision the line.
Use M13 provisioning to individually provision DS1s on a channelized DS3.
Step 1 Click M13 Provisioning in the function bar. EMS displays the M13 provisioning window. (See Figure 7-11.)
Figure 7-11: M13 Provisioning Window
Step 2 In the DS1 Line Number field, select the DS1 line to be provisioned.
Step 3 Set the following parameters according to your DSX1 application:
- Admin Status—Set the status of the individual line, InService or OutOfService.
- Loopback—Select Off (disable loopback), Line (facing away from the NE), or Equipment (internal loopback).
- Reset PM Count—Select Yes to reset the performance monitoring data.
(See "System Maintenance and Monitoring," for PM information and procedures.)
- Frame Format—Select ESF (extended superframe) or SF (superframe).
- DS0 Signaling—Clicking this button opens the DS0 signaling window.
(See the "DS0 Signaling Window" section on this page.)
Step 4 Click Apply to provision the line.
Step 5 Repeat this procedure to provision additional lines on the card.
From the M13 line provisioning window, click DS0 Signaling to open the DS0 signaling window.
(See Figure 7-12.)
Figure 7-12: DS0 Signaling Window
Step 1 Highlight the DS0 channels to be modified.
Step 2 Set the signaling for selected DS0s:
- robbedBit—Eighth bit is robbed in frames 6 and 12 in D4 framing (AB signaling), and in frames 6, 12, 18, and 24 in ESF framing (ABCD signaling).
- clearChannel—DS0 channel is used exclusively for data transmission.
Step 3 Click Apply to provision the selected DS0 channels.
Figure 7-13: DSX3-CHNL Maintenance Window
Step 1 Set the following parameters according to your testing application:
- DSX3,CHNL Line Number—Select the line number to be provisioned.
- Loopback—Select Off (disable loopback), Line (facing away from the NE), or Equipment (internal loopback).
- Corrupt LCV—Select Yes to force a corrupt LCV.
- Corrupt P Bit—Select Yes to force a corrupt P bit.
- Corrupt CP Bit—Select Yes to force a corrupt CP bit.
Step 2 Click Apply to provision the line.
Step 1 Select Objects > Line Batch Provisioning from the node view menu bar. EMS displays the line status assignment window.
Step 2 Select M13/VT-DS1 Batch Provisioning in the function bar. EMS displays the M13/VT-DS1 batch provisioning window. (See Figure 7-14.)
Figure 7-14: M13/VT-DS-1 Batch Provisioning Window
Step 3 Set the Type to M13 (DSX3).
Step 4 In the Card List, select the cards with lines to be placed in service.
Step 5 Click the right arrow between the Card List and the Selected list. EMS places the selected lines in the Selected list.
Step 6 Set the Admin Status to inService or OutOfService.
Step 7 Click Assign to place the lines in service or out of service.
Step 8 Select M13/VT-DS1 Batch Provisioning in the function bar. EMS displays the M13/VT-DS1 batch provisioning window. (See Figure 7-9.)
Figure 7-15: M13/VT-DS-1 Batch Provisioning Window
Step 9 Set the Type to M13 (DSX3).
Step 10 In the Card List, select the lines to be provisioned.
Step 11 Click the right arrow between the Card List and the Selected list. EMS places the selected lines in the Selected list.
Step 12 Set the following parameters according to your application:
- Loopback—Select Off (disable loopback), Line (facing away from the NE), or Equipment (internal loopback).
- Reset PM Count—Select Yes to reset the performance monitoring data.
(See "System Maintenance and Monitoring," for PM information and procedures.)
Step 13 Click Apply to provision the lines.
Figure 7-16: MSDSL Basic Provisioning Window
Step 1 In the HDSL Line Number field, select the line to be provisioned.
Step 2 Set the following parameters according to your MSDSL application:
- Frame Format—Select ESF (extended superframe), SF (superframe), HDLU-C (high-speed digital line unit, central node), or HDLU-R (high-speed digital line unit, remote node).
- End Type—Select CP (customer premises) or CO (central office) to set master/slave transceiver-level timing.
- Default Rate—Select the default line rate.
- Auto Rate—This parameter can not be manually set. EMS displays whether or not auto rate is active on the line.
- Tx Power—Select the adjustment factor for the transmit signal relative to the transceiver negotiated level. The default, zeroDb, makes no adjustment.
- Loopback—Select Off (disable loopback), Line (facing away from the NE), or Equipment (internal loopback).
- T1E1 Mode—Select the line mode, T1 or E1.
- Reset PM Count—Select Yes to reset the performance monitoring data.
(See "System Maintenance and Monitoring," for PM information and procedures.)
- Test—Select On, Off, or Monitor.
- Bundle Size—Set the number of DS0 channels for use with dynamic bandwidth allocation (DBA). DBA allows data channels to be used for voice traffic when needed.
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Note To enable DBA, you must select the T1 line mode and the HDLU frame format. |
Step 3 Click Apply to provision the line.
Step 4 Repeat this procedure to provision additional lines on the card.
Figure 7-17: OC3c-UNI Basic Provisioning Window
Step 1 Set the following parameters according to your OC3 application:
- Physical Layer Sync Status Message—Leave as default.
- Sonet PM Reset—Select Yes to reset the performance monitoring data.
(See "System Maintenance and Monitoring," for PM information and procedures.)
- Physical Layer Admin Status—Set the status of the physical line, InService or OutOfService.
- Path Number—Leave blank.
Step 2 Click Apply to provision the line.
Figure 7-18: Maintenance Provisioning Window
Step 1 Set the following parameters according to your testing application:
- SONET Loop Back—Select Off (disable loopback), Line (facing away from the NE), or Equipment (internal loopback).
- Section Forced Corrupt BIP 8—Select Yes to force a BIP 8 error at the section level.
- Line Forced Corrupt BIP 8—Select Yes to force a BIP 8 error at the line level.
- Path Forced Corrupt BIP 8—Select Yes to force a BIP 8 error at the path level.
Step 2 Click Apply to provision the line.
Figure 7-19: STSX1-CHNL Basic Provisioning Window
Step 1 Set the following parameters according to your OC3 application:
- Line Buildout—Select the transmit line length.
- Sonet PM Reset—Select Yes to reset the performance monitoring data.
(See "System Maintenance and Monitoring," for PM information and procedures.)
- Admin Status—Set the status of the physical line, InService or OutOfService.
- Path Number—Leave blank.
Step 2 Click Apply to provision the line.
Figure 7-20: STSX1,CHNL VT-DS1 Basic Provisioning Window
Step 1 In the VT-DS1 Number field, select the DS1 line to be provisioned.
Step 2 Set the following parameters according to your DSX1 application:
- Interface Group ID—For GR-303 applications, select the interface group ID number (from 1 to 4) used on the Class 5 switch. (See "GR-303," for detailed procedures.)
- Interface Group Member ID—For GR-303 applications, select a member ID for this DSX1.
- Admin Status—Set the status of the individual line, InService or OutOfService.
- Loopback—Select Off (disable loopback), Line (facing away from the NE), or Equipment (internal loopback).
- Reset PM Count—Select Yes to reset the performance monitoring data.
(See "System Maintenance and Monitoring," for PM information and procedures.)
- Force Bip2—For testing purposes only. Select Yes to force an error in transmission.
- Frame Format—Select ESF (extended superframe) or SF (superframe).
- DS0 Signaling—Clicking this button opens the DS0 signaling window.
(See Figure 7-21 on page 7-24.)
Step 3 Click Apply to provision the line.
Step 4 Repeat this procedure to provision additional DS1 lines on the card.
From the STSX1,CHNL line provisioning window, click DS0 Signaling to open the DS0 signaling window. (See Figure 7-21.)
Figure 7-21: DS0 Signaling Window
Step 1 Highlight the DS0 channels to be modified.
Step 2 Set the signaling for selected DS0s:
- robbedBit—Eighth bit is robbed in frames 6 and 12 in D4 framing (AB signaling), and in frames 6, 12, 18, and 24 in ESF framing (ABCD signaling).
- clearChannel—DS0 channel is used exclusively for data transmission.
Step 3 Click Apply to provision the selected DS0 channels.
Figure 7-22: STSX1,CHNL Maintenance Provisioning Window
To provision an STSX1,CHNL maintenance line, complete the following steps:
Step 1 Set the following parameters according to your testing application:
- SONET Loop Back—Select Off (disable loopback), Line (facing away from the NE), or Equipment (internal loopback).
- Section Forced Corrupt BIP 8—Select Yes to force a BIP 8 error at the section level.
- Line Forced Corrupt BIP 8—Select Yes to force a BIP 8 error at the line level.
- Path Forced Corrupt BIP 8—Select Yes to force a BIP 8 error at the path level.
Step 2 Click Apply to provision the line.
To batch provision an STSX1 line, complete the following steps:
Step 1 Select Objects > Line Batch Provisioning from the node view menu bar. EMS displays the line status assignment window.
Step 2 Select M13/VT-DS1 Batch Provisioning in the function bar. EMS displays the M13/VT-DS1 batch provisioning window. (See Figure 7-23.)
Figure 7-23: M13/VT-DS-1 Line Batch Provisioning Window
Step 3 Set the Type to VT-DS1 (STSX1).
Step 4 In the Card List, select the cards with lines to be placed in service.
Step 5 Click the right arrow between the Card List and the Selected list. EMS places the selected lines in the Selected list.
Step 6 Set the Admin Status to InService or OutOfService.
Step 7 Click Assign to place the lines in service or out of service.
Step 8 Select M13/VT-DS1 Batch Provisioning in the function bar. EMS displays the M13/VT-DS1 batch provisioning window. (See Figure 7-24.)
Figure 7-24: M13/VT-DS-1 Line Batch Provisioning Window
Step 9 Set the Type to VT-DS1 (STSX1).
Step 10 In the Card List, select the lines to be provisioned.
Step 11 Click the right arrow between the Card List and the Selected list. EMS places the selected lines in the Selected list.
Step 12 Set the following parameters according to your application:
- Loopback—Select Off (disable loopback), Line (facing away from the NE), or Equipment (internal loopback).
- Reset PM Count—Select Yes to reset the performance monitoring data.
(See "System Maintenance and Monitoring," for PM information and procedures.)
Step 13 Click Apply to provision the lines.
Figure 7-25: T1-2,V35 Line Provisioning Window
To provision a T1-2,V35 line, complete the following steps:
Step 1 In the T1 Line Number field, select the T1 line to be provisioned.
Step 2 Set the following parameters according to your T1 application:
- Line Coding—Select B8ZS (binary 8 zero substitution) or AMI (alternate mark inversion).
- Line Frame Type—Select ESF (extended superframe), SF (superframe), HDLU-C (high-speed digital line unit, central node), or HDLU-R (high-speed digital line unit, remote node).
- DS0 Mapping—Leave as default value (D4).
- Line Mode—Select DSX1 or T1 line mode.
- Line Buildout—Select the transmit line length.
- Loopback—Select Off (disable loopback), Line (facing away from the NE), or Equipment (internal loopback).
- Reset PM Count—Select Yes to reset the performance monitoring data.
(See "System Maintenance and Monitoring," for PM information and procedures.)
- Line Power—Leave blank (not supported).
- Bundle Size—Set the number of DS0 channels for use with dynamic bandwidth allocation (DBA). DBA allows data channels to be used for voice traffic when needed.
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Note You must select the T1 line mode and the HDLU frame format to enable DBA. |
- DS0 Signaling—Click this button to open the DS0 signaling window.
Step 3 After making changes in the basic provisioning window, click Apply to provision the line.
From the T1 line provisioning window (see Figure 7-25), click DS0 Signaling to open the DS0 signaling window. (See Figure 7-26.)
Figure 7-26: DS0 Signaling Window
To provision DSO channels, complete the following steps:
Step 1 Highlight the DS0 channels to be modified.
Step 2 Set the signaling for selected DS0s:
- robbedBit—Eighth bit is robbed in frames 6 and 12 in D4 framing (AB signaling), and in frames 6, 12, 18, and 24 in ESF framing (ABCD signaling).
- clearChannel—DS0 channel is used exclusively for data transmission.
Step 3 Click Apply to provision the selected DS0 channels.
Step 1 Select Objects > Line Batch Provisioning from the node view menu bar. EMS displays the line status assignment window.
Step 2 Select T1 Line Batch Provisioning in the function bar. EMS displays the T1 line batch provisioning window. (See Figure 7-27.)
Figure 7-27: T1 Line Batch Provisioning Window
Step 3 In the Card List, select the lines to be provisioned.
Step 4 Click the right arrow between the Card List and the Selected list. EMS places the selected lines in the Selected list.
Step 5 Set the following parameters according to your application:
- Line Coding—Select B8ZS (binary 8 zero substitution) or AMI (alternate mark inversion).
- Line Frame Type—Select ESF (extended superframe), SF (superframe), HDLU-C (high-speed digital line unit, central), or HDLU-R (high-speed digital line unit, remote).
- DS0 Mapping—Leave as default (D4).
- Line Buildout—Select the transmit line length.
- Loopback—Select Off (disable loopback), Line (facing away from the NE), or Equipment (internal loopback).
- Reset PM Count—Select Yes to reset the performance monitoring data.
(See "System Maintenance and Monitoring," for PM information and procedures.)
Step 6 Click Apply to provision the lines.
Figure 7-28: V.35 Port Basic Provisioning Window
To provision a V.35 serial port connection, complete the following steps:
Step 1 Set the following parameters for your V.35 serial port connection:
- Block Size—Select the number of DS0 channels to be provisioned for the V.35 serial port.
- Receive Clock Inverted—Select Yes to invert the received clocking signal.
- Transmit Clock Inverted—Select Yes to invert the transmitted clocking signal.
- Data Inverted—Select Yes to invert the data over the V.35 port.
- Loopback—Select Off (disable loopback), Line (facing away from the NE), or Equipment (internal loopback).
For the T1-2,V35 line card in a Cisco 6732 or Cisco 6705 chassis, typical settings are as follows:
- Receive Clock Inverted—No
- Transmit Clock Inverted—No
- Data Inverted—Yes
Step 2 For the V.35 serial port on a Cisco IAD1101, typical settings are as follows:
- Receive Clock Inverted—No
- Transmit Clock Inverted—Yes
- Data Inverted—No
Step 3 Click Apply to provision the line.
Posted: Mon Sep 25 17:12:35 PDT 2000
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