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3192 H2TU-C Transceiver Unit Central Office (HDSL2)
CONTENTS
1. GENERAL ............................................................................... 1
2. INSTALLATION ..................................................................... 2
3. CONNECTIONS ...................................................................... 5
4. HDSL2 SYSTEM TESTING ................................................... 5
5. CONTROL PORT OPERATION ............................................ 7
6. HDSL2 DEPLOYMENT GUIDELINES .............................. 17
7. TROUBLESHOOTING PROCEDURES ............................. 18
8. MAINTENANCE .................................................................. 18
9. PRODUCT SPECIFICATIONS ............................................ 18
10. WARRANTY AND CUSTOMER SERVICE ...................... 18
Appendix A. HDSL2 MAINTENANCE MODES .................... A-1
FIGURES
ADTRAN 3192 H2TU-C ........................................... 1
Option Switches ......................................................... 4
H2TU-C Edge Connector Wiring .............................. 5
H2TU-C Span Powering Diagram ............................. 5
H2TU-C Bantam Jack Arrangement ......................... 6
HDSL2 Loopbacks ..................................................... 6
RS-232 (DB-9) Pin Assignment ................................ 7
HDSL2 Main Menu ................................................... 8
HDSL2 Unit Information Screen ............................... 9
Figure 10. Provisioning Screen ................................................. 10
Figure 11. Span Status Screen ................................................... 10
Figure 12. Detailed Status Screen ............................................. 11
Figure 13. Loopback and Test Commands Screen ................... 11
Path Data Screen ...................................................... 12
Line Data Screen ...................................................... 12
Loop Related ............................................................ 13
Path Related ............................................................. 13
Figure 18. Circuit ID, Time/Date Screen .................................. 14
Figure 19. Terminals Modes Screen ......................................... 14
Figure 20. Alarm History Screen .............................................. 15
Figure 21. Event History Screen ............................................... 16
Figure 22. HDSL2 Deployment Guidelines .............................. 17
Figure A-1. HDSL2 Loopback Points ....................................... A-1
Figure A-2. HDSL2 Element State Diagram ............................ A-1
TABLES
Faceplate Indicators .................................................... 2
SW2 Option Settings .................................................. 3
Rotary Switch (SW1) Option Settings ....................... 4
Compliance Codes ...................................................... 4
Screen Abbreviations .................................................. 7
HDSL2 Loss Values ................................................. 17
Loop Insertion Loss Data ......................................... 17
Troubleshooting Guide ............................................. 18
3192 H2TU-C Specifications ................................... 19
Table A-1. HDSL2 Loopback Control Codes .......................... A-3
61222004L2-5A
Installation and Maintenance
Trademarks: Any brand names and product names included in this document are
Section 61222004L2-5, Issue 1
trademarks, registered trademarks, or trade names of their respective holders.
CLEI Code: T1L3X6AA_ _
Figure 1. ADTRAN 3192 H2TU-C
1. GENERAL
The ADTRAN 3192 HDSL2 Transceiver Unit for the
Central Office (H2TU-C), P/N 1222004L2, is the
Central Office (CO) unit used to deploy an HDSL2 T1
circuit using 2-wire metallic facilities. The unit
occupies one slot in a CI Wescom
Repeater Bay. The unit is illustrated in Figure 1.
DSX-1 signals are provided to and received from the
network while HDSL2 signals are provided to the local
loop. The ADTRAN H2TU-C works in conjunction
with the ADTRAN H2TU-R to provide a DS1 service
up to 12,000 feet on the local loop.
This H2TU-C works with multiple list versions of the
HDSL2 Unit for the Remote end (H2TU-R) some of
which are listed as follows:
1221026LX ................................. T200 H2TU-R
1221026L6#L .............................. T200 H2TU-R MON,
1222026LX ................................. 2nd Gen T200 H2TU-R
Section 61222004L2-5A
Issue 1, July 2001
1222004L2
®
Description
Local Power
1
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Summary of Contents for ADTRAN 3192 H2TU-C
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Page 1: Table Of Contents
The ADTRAN H2TU-C works in conjunction Figure 22. HDSL2 Deployment Guidelines ......17 Figure A-1. HDSL2 Loopback Points ........A-1 with the ADTRAN H2TU-R to provide a DS1 service Figure A-2. HDSL2 Element State Diagram ......A-1 up to 12,000 feet on the local loop. -
Page 2: Installation
64-pin shelf connectors related damage is noted, file a claim with the carrier, then to each individual slot. contact ADTRAN. See Warranty and Customer Service. The H2TU-C contains an onboard fuse. If the fuse The H2TU-C plugs directly into standard CI Wescom opens, it supplies a -48 VDC voltage to the fuse alarm 3192 office repeater shelves. -
Page 3: Table 2. Sw2 Option Settings
SF ....... Selects Superframe (SF) format ESF ....Selects Extended Superframe (ESF) format SW2-4 ..NIU Loopback ..Programs the ADTRAN HDSL2 system to respond to traditional T1 network Enabled interface unit (NIU) loop up and loop down codes. For more information, refer to... -
Page 4: Figure 2. Option Switches
CAUTION Table 4 shows the Compliance Codes for the 3192 Voltages up to –200 VDC may be present on the H2TU-C. The 3192 H2TU-C complies with the telecommunications wiring. requirements covered under UL 60950, Third Edition, and is intended to be installed in an enclosure with an Installation Code (IC) of “B”... -
Page 5: Connections
3. CONNECTIONS 190V HDSL2 SPAN POWER The 3192 H2TU-C occupies one card slot in a CI RING (-) Wescom 3192 Office Repeater Bay. Power and alarm signals are provided to the card through the backplane of the shelf. DSX-1 and HDSL2 loop signals are connected to the wire-wrap pins or mass termination shelf connectors corresponding to the slot the unit occupies. -
Page 6: Figure 5. H2Tu-C Bantam Jack Arrangement
DSX-1 signal passes into the HDSL2 modulators. Figure 6 depicts all of the loopback locations possible with ADTRAN HDSL2 equipment. DSX-1 In addition to network-side loopbacks, the H2TU-C provides customer-side loopbacks initiated by using DSX-1 the terminal control port (see Appendix A). -
Page 7: Control Port Operation
Operation 5. CONTROL PORT OPERATION For abbreviations used in the screen diagrams, see The H2TU-C provides a faceplate-mounted DB-9 Table 5. The HTU-C also provides a “Performance connector that supplies an RS-232 interface for Data Definitions Screen” which gives performance connection to a controlling terminal. -
Page 8: Figure 8. Hdsl2 Main Menu
The screens illustrated in Figure 8 through Figure 21 The Main Menu provides access to detailed apply to an HDSL2 circuit deployed with ADTRAN’s performance and configuration information. HDSL2 technology. The circuit includes an H2TU-C Selecting the corresponding number can access the and an H2TU-R. -
Page 9: Figure 9. Hdsl2 Unit Information Screen
The HDSL2 Unit Information Screen, illustrated in Figure 9, provides detailed product information on each component in the HDSL2 circuit. This Screen also displays contact information for ADTRAN Technical Support, Internet Site, and address. CIRCUIT ID: 01/01/00 03:35:35 Press ESC to return to previous menu... -
Page 10: Figure 10. Provisioning Screen
The Provisioning Screen, illustrated in Figure 10, An asterisk will appear on the Provisioning Screen displays the current provisioning settings for the when a software setting conflicts with a hardware HDSL2 circuit. Options that can be changed from this setting. screen are labeled with a number (e.g., “1”... -
Page 11: Figure 12. Detailed Status Screen
The Detailed Status selection from the System Status Figure 13 illustrates the Loopback and Test Menu, illustrated in Figure 12, displays the T1 and Commands Screen, which provides the user with the HDSL2 status for each receiver point. The Legend ability to evoke or terminate all available HDSL2 selection provides a description of the messages that loopbacks. -
Page 12: Figure 14. 24 Hour Performance History Path Data Screen
The Performance History Screens, illustrated in This unit stores performance data in 15-minute Figure 14 and Figure 15, display the historical increments for the last 24-hour period. At each HDSL2 and T1 performance data in several different 24-hour interval, the performance data is transferred registers. -
Page 13: Figure 16. Performance Data Definitions Screen, Loop Related
Figure 16 and Figure 17 display the Performance Data Definitions Screens. CIRCUIT ID: 01/01/00 03:38:08 Performance Data Definitions H2TUC, H2TUR, and H2R LOOP Related: HDSL2 Framing ES-L Errored Seconds CRC>=1 or LOSW>=1 SES-L Severely Errored Seconds CRC>=50 or LOSW>=1 UAS-L Unavailable Seconds >10 cont. -
Page 14: Figure 18. Circuit Id, Time/Date Screen
Additionally, pressing “CTRL” and “T” while on any Figure 18 illustrates the Circuit ID and Time/Date screen can toggle the two terminal modes. Screen. The circuit ID can be any alphanumeric string up to 25 characters in length. The time should be The default terminal emulation mode is the Real-Time entered using military time (for example, enter 3:15 Update Mode (VT100). -
Page 15: Figure 20. Alarm History Screen
The second terminal emulation mode is Manual The Alarm History Screen, illustrated in Figure 20, Update Mode which allows the user to manually provides the user with a detailed alarm history and update the provisioning option screens. This mode events log for the HDSL2 and T1 spans. supports efficient print screen and log file utilities for This screen includes a time, date, first/last occurrence, storage of key provisioning parameters, alarm or... -
Page 16: Figure 21. Event History Screen
The Event History Screen, illustrated in Figure 21, provides a log history of HDSL2 circuit events. The following is a summary list of possible events: Circuit ID Change DS1 Transmit Level Option Change DSX/DS1 Alarm Type Active/Inactive DSX-1 Line Build Out Option Changes Element Network/Customer Loop up/Loop down Event Log Reset Framing Option Change... -
Page 17: Hdsl2 Deployment Guidelines
6. HDSL2 DEPLOYMENT GUIDELINES Loop loss per kft for other wire is summarized in Table 6. The ADTRAN HDSL2 system provides DS1-based services over loops designed to comply with the Table 6. HDSL2 Loss Values Carrier Service Area (CSA) guidelines given below. -
Page 18: Troubleshooting Procedures
Product specifications are detailed in Table 9. H2TU-C. 10. WARRANTY AND CUSTOMER SERVICE ADTRAN will replace or repair this product within Table 8. Troubleshooting Guide ten (10) years from the date of shipment if it does not meet its published specifications or fails while in... -
Page 19: Table 9. 3192 H2Tu-C Specifications
DSX-1 Line Code ..........AMI, B8ZS DSX-1 Format ............ SF, ESF, Unframed Power Tested with the ADTRAN H2R (P/N 1221045L1) and the ADTRAN H2TU-R (1222026L6). Total Power ............worst case input voltage @ 160 mA with H2TU-R HTU-C Power Dissipation ......... 4.25 watts with H2TU-R Span Power ............ - Page 20 Section 61222004L2-5, Issue 1 61222004L2-5A...
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Page 21: Appendix A. Hdsl2 Maintenance Modes
H2TU-R and facility data link loopback codes. The operation of the Smartjack loopback initiation. the loopback commands in the ADTRAN HDSL2 system is compliant with the recommendation to Upon deactivation of a loopback, the HDSL2 system ANSI recorded in T1E1.4/92. - Page 22 Loopback Process Description The Disarmed State is the normal mode of operation. In general, the loopback process for the HDSL2 Each HDSL2 element is transparent to the data flow. system elements is modeled on the corresponding However, the in-band data flow and the ESF data link DS1 system process.
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Page 23: Table A-1. Hdsl2 Loopback Control Codes
Table A-1. HDSL2 Loopback Control Codes Name Code Detection Time Comments Arming (In-band) 11000 5 Seconds Signal sent in-band or over ESF data link. Arming (ESF) 0001 0010 1111 1111 4 Repetitions HDSL2 elements in disarmed state make transition to armed state. Detection of either code results in Smartjack loop up, if NIU loopback is enabled. - Page 24 to three HDSL2 elements and the Smartjack. This Transition from Loop Up to Armed State: Any sequence will loop down the Smartjack and the HDSL2 element can be commanded to move from the HDSL2 element. loop up state into the armed state by a single in-band 16-bit deactivate control code sequence.
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