The unit is capable of sending a pseudorandom test pattern
(511 or QRSS) out the WAN and monitoring the WAN received
data for the same pattern. The BERT pattern may be selected
to occupy either the full T1 payload or only the bandwidth
allocated to the DTE (fractional T1). When a unit is sending
this BERT, the receiver will monitor and characterize the
incoming signal for the same BERT pattern. In Frame Relay
applications the unit will not preserve the LMI path during
this diagnostic and in-band management may not operate.
This test may be ineffective in certain frame relay environments
as pseudorandom data lacks appropriate framing. Refer to
VLOOP and VBERT for PVC-based error-rate testing in a live frame
relay network.
(1) Start a BERT test on full T1 - replaces entire T1 payload with
the configured BERT pattern while monitoring the full T1 bandwidth
(1.536M) for the presence of the BERT pattern.
(2) Start a BERT test on fractional T1 - replaces only the protion
of the T1 payload that has been allocated to the DTE with the
configured BERT pattern while monitoring the same T1 bandwidth
(DTE Data Rate) for the presence of the BERT pattern.
(3) Stop a BERT test.
(4) Inject a single bit error into the outgoing pattern.
(5) Clear current BERT results.
Parsed from file TFRAP.MIB.txt
Company: None
Module: TFRAP-MIB
The unit is capable of sending a pseudorandom test pattern
(511 or QRSS) out the WAN and monitoring the WAN received
data for the same pattern. The BERT pattern may be selected
to occupy either the full T1 payload or only the bandwidth
allocated to the DTE (fractional T1). When a unit is sending
this BERT, the receiver will monitor and characterize the
incoming signal for the same BERT pattern. In Frame Relay
applications the unit will not preserve the LMI path during
this diagnostic and in-band management may not operate.
This test may be ineffective in certain frame relay environments
as pseudorandom data lacks appropriate framing. Refer to
VLOOP and VBERT for PVC-based error-rate testing in a live frame
relay network.
(1) Start a BERT test on full T1 - replaces entire T1 payload with
the configured BERT pattern while monitoring the full T1 bandwidth
(1.536M) for the presence of the BERT pattern.
(2) Start a BERT test on fractional T1 - replaces only the protion
of the T1 payload that has been allocated to the DTE with the
configured BERT pattern while monitoring the same T1 bandwidth
(DTE Data Rate) for the presence of the BERT pattern.
(3) Stop a BERT test.
(4) Inject a single bit error into the outgoing pattern.
(5) Clear current BERT results.
Parsed from file TFRAP-MIB.mib
Module: TFRAP-MIB
Vendor: Sync Research, Inc.
Module: TFRAP-MIB
[Automatically extracted from oidview.com]
tfrapDiagDteBerState OBJECT-TYPE SYNTAX INTEGER { start-bert-test-t1 (1), start-bert-test-dte (2), stop-bert-test (3), inject-error-bert-test (4), clear-error-bert-test (5) } ACCESS write-only STATUS mandatory DESCRIPTION "The unit is capable of sending a pseudorandom test pattern (511 or QRSS) out the WAN and monitoring the WAN received data for the same pattern. The BERT pattern may be selected to occupy either the full T1 payload or only the bandwidth allocated to the DTE (fractional T1). When a unit is sending this BERT, the receiver will monitor and characterize the incoming signal for the same BERT pattern. In Frame Relay applications the unit will not preserve the LMI path during this diagnostic and in-band management may not operate. This test may be ineffective in certain frame relay environments as pseudorandom data lacks appropriate framing. Refer to VLOOP and VBERT for PVC-based error-rate testing in a live frame relay network. (1) Start a BERT test on full T1 - replaces entire T1 payload with the configured BERT pattern while monitoring the full T1 bandwidth (1.536M) for the presence of the BERT pattern. (2) Start a BERT test on fractional T1 - replaces only the protion of the T1 payload that has been allocated to the DTE with the configured BERT pattern while monitoring the same T1 bandwidth (DTE Data Rate) for the presence of the BERT pattern. (3) Stop a BERT test. (4) Inject a single bit error into the outgoing pattern. (5) Clear current BERT results." ::= { tfrapDiagDteTable 6 }
tfrapDiagDteBerState OBJECT-TYPE SYNTAX INTEGER { start-bert-test-t1 (1), start-bert-test-dte (2), stop-bert-test (3), inject-error-bert-test (4), clear-error-bert-test (5) } ACCESS write-only STATUS mandatory DESCRIPTION "The unit is capable of sending a pseudorandom test pattern (511 or QRSS) out the WAN and monitoring the WAN received data for the same pattern. The BERT pattern may be selected to occupy either the full T1 payload or only the bandwidth allocated to the DTE (fractional T1). When a unit is sending this BERT, the receiver will monitor and characterize the incoming signal for the same BERT pattern. In Frame Relay applications the unit will not preserve the LMI path during this diagnostic and in-band management may not operate. This test may be ineffective in certain frame relay environments as pseudorandom data lacks appropriate framing. Refer to VLOOP and VBERT for PVC-based error-rate testing in a live frame relay network. (1) Start a BERT test on full T1 - replaces entire T1 payload with the configured BERT pattern while monitoring the full T1 bandwidth (1.536M) for the presence of the BERT pattern. (2) Start a BERT test on fractional T1 - replaces only the protion of the T1 payload that has been allocated to the DTE with the configured BERT pattern while monitoring the same T1 bandwidth (DTE Data Rate) for the presence of the BERT pattern. (3) Stop a BERT test. (4) Inject a single bit error into the outgoing pattern. (5) Clear current BERT results." ::= { tfrapDiagDteTable 6 }
| OID | Name | Sub children | Sub Nodes Total | Description |
|---|---|---|---|---|
| 1.3.6.1.4.1.485.5.3.3.6.0 | tfrapDiagDteBerState | 0 | 0 | None |
| OID | Name | Sub children | Sub Nodes Total | Description |
|---|---|---|---|---|
| 1.3.6.1.4.1.485.5.3.3.1 | tfrapDiagDteSigRTS | 1 | 1 | Status of the Request to Send (RTS) signal from the DTE port. (1) RTS Active (2) RTS Inactive |
| 1.3.6.1.4.1.485.5.3.3.2 | tfrapDiagDteSigDTR | 1 | 1 | Status of the Data Terminal Ready (DTR) signal from the DTE port. (1) DTR Active (2) DTR Inactive |
| 1.3.6.1.4.1.485.5.3.3.3 | tfrapDiagDteLclLpbk | 1 | 1 | Controls the DTE loopback state. This is a bi-directional loopback state where both the DTE and WAN ports are placed in line loop… |
| 1.3.6.1.4.1.485.5.3.3.4 | tfrapDiagDteV54Lpbk | 1 | 1 | This reports the status of any remote V54 testing initiated by this unit. Remote V54 loopback commands are intended to place comp… |
| 1.3.6.1.4.1.485.5.3.3.5 | tfrapDiagDteRmtV54Lpbk | 1 | 1 | Remote V54 loopback commands are intended to place compatible external equipment into a loopback state. The initiating unit will … |
| 1.3.6.1.4.1.485.5.3.3.7 | tfrapDiagDteBerStatus | 1 | 1 | Displays the current BERT test sync status. (1) BERT is not running (2) BERT is running but is not in sync (3) BERT is running and… |
| 1.3.6.1.4.1.485.5.3.3.8 | tfrapDiagDteBerErrors | 1 | 1 | Displays the number of errors detected in Bert Test. |
| 1.3.6.1.4.1.485.5.3.3.9 | tfrapDiagDteBerErrSec | 1 | 1 | Displays the number of seconds containing 1 or more errors in BERT Test. |
| 1.3.6.1.4.1.485.5.3.3.10 | tfrapDiagDteBerTimeElaps | 1 | 1 | Elapsed time since BERT test was started or cleared. |
| 1.3.6.1.4.1.485.5.3.3.11 | tfrapDiagDteBerResyncs | 1 | 1 | Displays the number of times BERT test has synched up on the pattern. The BERT will attempt to resynchronize in response to exces… |
| 1.3.6.1.4.1.485.5.3.3.12 | tfrapDiagDteBerPattern | 1 | 1 | The type of pseudorandom BERT pattern used. (1) 511: 9-bit pseudorandom pattern (2) QRSS: 20-bit pseudorandom pattern with no more… |
| 1.3.6.1.4.1.485.5.3.3.13 | tfrapDiagDteTimeRemaining | 1 | 1 | The remaining time on the active diagnostic before it times out and the unit returns to normal operation. The time is hundredths … |