Belkin F1PI210ENau User Guide - Page 34
T1.413 Issue 2, G.992.1 G.dmt, G.922.2 G.lite, G.922.3 Adsl2, G.922.5 Adsl2, G.922.5 Adsl2+m
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Advanced Setup Method • T1.413 Issue 2 • G.992.1 (G.DMT) • G.922.2 (G.Lite) • G.922.3 (ADSL2) • G.922.5 (ADSL2+) • G.922.5 (ADSL2+M) Status The Status page displays ADSL status information. Parameter Description Status Line Status: Shows the current status of the ADSL line Data Rate: Upstream: Actual and maximum upstream data rate Downstream: Actual and maximum downstream data rate 64 Advanced Setup Method 1 Operation Data/Defect Indication: Noise Margin Upstream: Minimum noise margin upstream 2 Downstream: Minimum noise margin downstream Output Power: Maximum fluctuation in the output power 3 Attenuation Upstream: Maximum reduction in the strength of the upstream signal 4 Attenuation Downstream: Maximum reduction in the strength of the downstream signal Fast Path FEC: There are two latency paths that may be used: fast 5 and Correction interleaved. For either path a forward error correction (FEC) scheme is employed to ensure higher data integrity. For 6 maximum noise immunity, an interleaver may be used to supplement FEC. Interleaved Path An interleaver is basically a buffer used to introduce a delay, FEC Correction allowing for additional error 7 correction techniques to handle noise. Interleaving slows the data flow and may not be optimal for real-time signals such as video transmission. Fast Path CRC indicates the number of Fast Path Cyclic Redundancy Check Error errors. Interleaved Path indicates the number of Interleaved Path Cyclic Redundancy Error Check errors. Loss of Signal Momentary signal discontinuities. Defect Loss of Frame Failures due to loss of frames. Loss of Power Defect: Failures due to loss of power Fast Path HEC Error: Fast Path Header Error Concealment errors Interleaved Path HEC Error: Interleaved Path Header Error Concealment errors Statistics: (Superframes represent the highest level of data presentation. Each superframe contains regular ADSL frames, one of which is used to provide superframe synchronization, identifying the start of a superframe. Some of the remaining frames are also used for special functions.) Received Cells: Number of interleaved superframes received Interleaved Transmitted Cells: Number of interleaved super frames transmitted. Superframes Interleaved Received Number of fast super frames received. 65 section