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Section 150-612-100

Revision 02

Page 7

SF

YELLOW LED indicating that framing pattern of the
signal  being received at the HRU’s DS1 input is  SF.

ERR

RED LED indicating a DS1 frame error has occurred.

Note the FRM LED remains off if the HRU input
pattern is unframed or if the HiGain-2 FRMG option
is set to its unframed (UNFR) mode.

8.02 VHDSL

The lower 40% of the front panel 
addresses the following VHDSL

interface features.

OK

GREEN LED that flashes while the VHDSL Loop  is
synchronizing with the HLU.  A solid green state
indicates that Loop is properly synchronized with the
HLU.

MAR

YELLOW LED indicating that the HRU’s S/N MARgin
on the VHDSL Loop  has dropped below the user
defined margin threshold value.  This option is set at
the HLU in the System Settings menu of the
maintenance interface system at the RS-232
maintenance port.

ES

RED LED that flashes ever second in which at least
one VHDSL CRC error is detected.

9.  OPTIONS

9.01

The HiGain-2 List 1 system has several 
special loopback (SPLB) options that are set

at the HLU.  Refer to practice # 150-611-100 for
more details.  The HRU also has  three  user options
set by  switches located at the back of the unit as
shown in Figure 4.  Each switch has two settings as
follows (refer to the block diagram in Figure 2 for
details):

• 

I-CPE

0

*: Sets the CPE current to 0 mA..

60:

 Sets the CPE current to 60 mA to power an

external NID.

• 

TLOS-LB

DIS*

: A loss of the T1 XMT signal from the CPE

causes the HLU to transmit the AIS signal towards
the DSX-1 and does not cause the HRU to enter its
logic loopback state.

EN:

  A loss of the T1 XMT signal from the CPE

forces the HRU to enter its logic loopback state
(TLOS in Figure 5).  While in this loopback state, the
HRU transmits the AIS signal towards the CPE and
returns the Network signal back to the Network.  The
HLU displays the message TLOS in its 4 character
front panel read-out.  This condition remains until a
valid T1 signal is received from the CPE or until  a
loopdown command is issued.  Note that once the
TLOS initiated loopback has occurred, it can not
reoccur until the CPE T1 signal has been reapplied
and then removed.  This “latching” feature prevents
the HRU from oscillating into and out of TLOS
loopback when a loopdown command is issued in
the absence of a T1 signal from the CPE.

Figure 4. HRU-612 Manual Switches

Summary of Contents for 150-1218-02

Page 1: ...2 3 SPECIFICATIONS 3 4 CERTIFICATION 3 5 WARRANTY 4 6 TECHNICAL ASSISTANCE 4 B FUNCTIONAL DESCRIPTION 7 FUNCTIONAL OPERATION 4 8 FRONT PANEL 6 9 OPTIONS 7 10 LOOPBACKS 9 C INSTALLATION AND TEST 11 IN...

Page 2: ...jacks for test access CPE current monitor test points Front panel VHDSL margin threshold indicator Lightning and power cross protection on VHDSL and DS1 interfaces 1568 kb s full duplex 2B1Q VHDSL Tra...

Page 3: ...es These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment This equipment generates uses and can radiate radi...

Page 4: ...etin board system for obtaining current information on PairGain products product troubleshooting tips and aids accessing helpful utilities and for posting requests or questions This system is availabl...

Page 5: ...as described in the previous paragraph Figures 7 13 illustrate the displays provided from the terminal port Information displayed shows the status of the HLU at the distant end of the VHDSL spans as w...

Page 6: ...LB NET GREEN LED indicating the HRU is in a loopback state in which the signal from the NETwork is being looped back to the NETwork CI YELLOW LED indicating the HRU is in a loopback state in which the...

Page 7: ...611 100 for more details The HRU also has three user options set by switches located at the back of the unit as shown in Figure 4 Each switch has two settings as follows refer to the block diagram in...

Page 8: ...en the HRU does not function as the NID but is connected to en external NID It allows the external NID to set the appropriate NI level 15 Configures the T1 RCV LBO to 15 dB This sets the T1 output sig...

Page 9: ...t time out period if enabled expires 10 04 When the HRU is in its AIS ENA smart jack metallic loop back state its T1 input LOS Code Frame monitoring circuits are connected to the unframed AIS pattern...

Page 10: ...1 01 Upon receipt of the equipment visually inspect it for signs of damage If the equipment has been damaged in transit immediately report the extent of damage to the transportation company and to Pai...

Page 11: ...al NID is under power and that the voltage across the HRU 612 s front panel 60 mA MON test points measures between 55 and 65 mv This indicates that the CPE current is between 55 65 mA Note that the ex...

Page 12: ...ing to establish contact with each other ACQ1 Acquisition The HLU HRU multiplexers are trying to establish synchronization over each loop HES HDSL CRC Error At least 1 CRC error on the VHDSL Loop in t...

Page 13: ...the HLU is set to receive and transmit at its DSX 1 interface Displayed during System Settings mode defined above LOSW Loss of Sync Word Indicates that the VHDSL loop has lost sync Causes a minor alar...

Page 14: ...of band ESF data link code See Figure 5 NREM Network Remote Loopback Loopback at HRU remote towards network initiated by intelligent line repeater code HRU or HLU front panel push button or maintenan...

Page 15: ...4 Hour ES Errored Seconds The number of 1 second intervals that contained at least 1 CRC error This value is a running total of the last 24 Hours VHDSL 24 Hour UAS Unavailable Seconds The number of se...

Page 16: ...Section 150 612 100 Revision 02 Page 16 FIGURE 7 HRU 612 MAIN MENU Figure 8 HRU Status Display...

Page 17: ...Section 150 612 100 Revision 02 Page 17 FIGURE 9 Set Clock Menu Figure 10 System Settings Menu...

Page 18: ...Section 150 612 100 Revision 02 Page 18 Figure 11 Performance Data Figure 12 Performance Data History...

Page 19: ...Section 150 612 100 Revision 02 Page 19 Figure 13 HLU Alarm History...

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