bbf-melt-processing-profile-body

This submodule contains a collection of YANG definitions for managing processing profiles. Copyright (c) 2016-2022 Broadband Fo...

  • Version: 2022-05-23

    bbf-melt-processing-profile-body@2022-05-23


    
      submodule bbf-melt-processing-profile-body {
    
        yang-version 1.1;
    
        belongs-to bbf-melt {
            prefix bbf-melt;
        }
    
        organization
          "Broadband Forum <https://www.broadband-forum.org>
         Common YANG Work Area";
    
        contact
          "Comments or questions about this Broadband Forum YANG module
         should be directed to <mailto:help@broadband-forum.org>.
    
         Editor:      Ken Kerpez, ASSIA, Inc.
    
         Editor:      Joey Boyd, Adtran
    
         PS Leader:   Joey Boyd, Adtran
    
         WA Director: Sven Ooghe, Nokia
    
         WA Director: Joey Boyd, Adtran";
    
        description
          "This submodule contains a collection of YANG definitions for
         managing processing profiles.
    
         Copyright (c) 2016-2022 Broadband Forum
    
         Redistribution and use in source and binary forms, with or
         without modification, are permitted provided that the following
         conditions are met:
    
         1. Redistributions of source code must retain the above copyright
            notice, this list of conditions and the following disclaimer.
    
         2. Redistributions in binary form must reproduce the above
            copyright notice, this list of conditions and the following
            disclaimer in the documentation and/or other materials
            provided with the distribution.
    
         3. Neither the name of the copyright holder nor the names of its
            contributors may be used to endorse or promote products
            derived from this software without specific prior written
            permission.
    
         THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND
         CONTRIBUTORS \"AS IS\" AND ANY EXPRESS OR IMPLIED WARRANTIES,
         INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
         MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
         DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR
         CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
         SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
         NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
         LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
         CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
         STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
         ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF
         ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
    
         The above license is used as a license under copyright only.
         Please reference the Forum IPR Policy for patent licensing terms
         <https://www.broadband-forum.org/ipr-policy>.
    
         Any moral rights which are necessary to exercise under the above
         license grant are also deemed granted under this license.
    
         This version of this YANG module is part of TR-355a4; see
         the TR itself for full legal notices.";
    
        revision "2022-05-23" {
          description
            "Amendment 4.
           * Approval Date:    2022-05-23
           * Publication Date: 2022-05-23.";
          reference
            "TR-355a4: YANG Modules for FTTdp Management
            	    <https://www.broadband-forum.org/download/
            		   TR-355_Amendment-4.pdf>";
    
        }
    
        revision "2020-10-13" {
          description
            "Amendment 3.
           * Approval Date:    2020-10-13
           * Publication Date: 2020-10-13.";
          reference
            "TR-355a3: YANG Modules for FTTdp Management
            	    <https://www.broadband-forum.org/download/
            		   TR-355_Amendment-3.pdf>";
    
        }
    
        revision "2019-06-11" {
          description
            "Amendment 2.
           * Approval Date:    2019-06-11
           * Publication Date: 2019-06-11.";
          reference
            "TR-355a2: YANG Modules for FTTdp Management
            	  <https://www.broadband-forum.org/technical/download/
            		 TR-355_Amendment-2.pdf>";
    
        }
    
        revision "2018-10-01" {
          description
            "Amendment 1.
           * Approval Date:    2018-10-01
           * Publication Date: 2018-10-01.";
          reference
            "TR-355a1: YANG Modules for FTTdp Management
            	  <https://www.broadband-forum.org/technical/download/
            		 TR-355_Amendment-1.pdf>";
    
        }
    
        revision "2016-07-18" {
          description
            "Initial revision.
           * Approval Date:    see revision date above.
           * Publication Date: 2016-08-05.";
          reference
            "TR-355: YANG Modules for FTTdp Management
            	<https://www.broadband-forum.org/technical/download/
            		 TR-355.pdf>";
    
        }
    
    
        grouping processing-profile {
          description
            "Defines the parameters contained in a processing profile.";
          container loop-resistance-classification-threshold {
            description
              "This parameter defines the limits for classification of the
             resistances to ground (GND) of the loop under test.
    
             The following limit values need to be defined:
              - maximum resistance for a short-circuit to GND;
              - minimum resistance for a leakage to GND;
              - maximum resistance for a leakage to GND.
    
             A resistance to ground measured as being:
              - Below the maximum resistance for a short circuit shall be
                interpreted as a short circuit to GND.
              - Above the maximum resistance for a short circuit and
                below the minimum resistance for a leakage shall be
                interpreted as a resistance fault to GND.
              - Above the minimum resistance for a leakage and below the
                maximum resistance for a leakage shall be interpreted as
                a leakage to GND.
              - Above the maximum resistance for a leakage shall be
                interpreted as a high impedance to GND.";
            reference
              "ITU-T G.996.2 clause F.2.1.1 (MELT-LRC-TH)";
    
            leaf maximum-resistance-short-circuit-to-ground {
              type uint32;
              units "0.1 kiloohms";
              description
                "The maximum resistance threshold for a short circuit to
               ground.";
            }
    
            leaf minimum-resistance-leakage-to-ground {
              type uint32;
              units "0.1 kiloohms";
              description
                "The minimum resistance threshold for a leakage to ground.";
            }
    
            leaf maximum-resistance-leakage-to-ground {
              type uint32;
              units "0.1 kiloohms";
              description
                "The maximum resistance threshold for a leakage to ground.";
            }
          }  // container loop-resistance-classification-threshold
    
          container loop-parameters-per-unit-length {
            description
              "The a priori knowledge of some characteristic parameters per
             Unit length of the loop under test is necessary to derive
             length or distance information from the Metallic Line Test
             Physical Medium Dependent (MELT-PMD) measurements. This
             parameter combines the set of required loop parameters:
    
             1) Cable characteristic capacitance per unit length between
                tip and ring. The range of valid values is from 0 to 100
                nanofarads per kilometer with a granularity of 0.1
                nanofarads per kilometer.
             2) Cable characteristic capacitance per unit length between
                tip and GND and ring and GND. The range of valid values
                is from 0 to 100 nanofarads per kilometer with a
                granularity of 0.1 nanofarads per kilometer.
             3) Cable loop DC resistance per unit length (sum of both
                wires). The range of valid values is from 50 to 400
                ohms per kilometer with a granularity of 1 ohm per
                kilometer.";
            reference
              "ITU-T G.996.2 clause F.2.1.2 (MELT-LOOP-PARAMS)";
    
            leaf capacitance-per-unit-length-tr {
              type uint16 {
                range "0..1000";
              }
              units
                "0.1 nanofarads per kilometer";
              description
                "Cable characteristic capacitance per unit length between
               tip and ring. The range of valid values is from 0 to 100
               nanofarads per kilometer with a granularity of 0.1
               nanofarads per kilometer.";
            }
    
            leaf capacitance-per-unit-length-tg-rg {
              type uint16 {
                range "0..1000";
              }
              units
                "0.1 nanofarads per kilometer";
              description
                "Cable characteristic capacitance per unit length between
               tip and ground (GND) and ring and GND. The range of valid
               values is from 0 to 100 nanofarads per kilometer with a
               granularity of 0.1 nanofarads per kilometer.";
            }
    
            leaf dc-resistance-per-unit-length {
              type uint16 {
                range "50..400";
              }
              units "ohms per kilometer";
              description
                "Cable loop DC resistance per unit length (sum of both
               wires). The range of valid values is from 50 to 400
               ohms per kilometer with a granularity of 1 ohm per
               kilometer.";
            }
          }  // container loop-parameters-per-unit-length
    
          leaf hazardous-dc-voltage-level {
            type uint8 {
              range "0..200";
            }
            units "volts";
            description
              "This parameter defines the level above which DC voltage shall
             be identified as hazardous. The hazardous voltage level shall
             be configurable between 0 and 200 volts with a granularity of
             1 volt.";
            reference
              "ITU-T G.996.2 clause F.2.1.3 (MELT-HDCV-L)";
    
          }
    
          leaf hazardous-ac-voltage-level {
            type uint8 {
              range "0..200";
            }
            units "volts RMS";
            description
              "This parameter defines the level above which AC voltage shall
             be identified as hazardous. The hazardous voltage level shall
             be configurable between 0 and 200 volts RMS with a
             granularity of 1 volt RMS.";
            reference
              "ITU-T G.996.2 clause F.2.1.4 (MELT-HACV-L)";
    
          }
    
          leaf foreign-emf-dc-voltage-level {
            type uint8 {
              range "0..50";
            }
            units "volts";
            description
              "This parameter defines the level above which a DC voltage
             shall be identified as a foreign Electromagnetic Field (EMF).
             The foreign EMF voltage level shall be configurable between
             0 and 50 volts with a granularity of 1 volt.";
            reference
              "ITU-T G.996.2 clause F.2.1.5 (MELT-FDCV-L)";
    
          }
    
          leaf foreign-emf-ac-voltage-level {
            type uint8 {
              range "0..50";
            }
            units "volts RMS";
            description
              "This parameter defines the level above which an AC voltage
             shall be identified as a foreign Electromagnetic Field (EMF).
             The foreign EMF voltage level shall be configurable between
             0 and 50 volts RMS with a granularity of 1 volt RMS.";
            reference
              "ITU-T G.996.2 clause F.2.1.6 (MELT-FACV-L)";
    
          }
    
          leaf system-capacitance-cpe-side {
            type uint16 {
              range "0..20000";
            }
            units "0.1 nanofarads";
            description
              "This parameter is the expected value of the system
             capacitance at the Customer Premises Equipment (CPE) side as
             it appears in parallel between tip and ring in a
             corresponding Metallic Line Test (MELT) measurement.
             A priori knowledge of this capacitance improves accuracy of
             the results and offers additional degrees for
             interpretation. The range of valid values is from 0 to 2
             microfarads with a granularity of 0.1 nanofarads.";
            reference
              "ITU-T G.996.2 clause F.2.1.7 (MELT-SYSC-CPE)";
    
          }
        }  // grouping processing-profile
      }  // submodule bbf-melt-processing-profile-body
    

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