[ipcdn] IETF NCS Sig MIB Tone Table

[Beacham Gordon-CGB005 <Gordon.Beacham at motorola.com>]

Title: Message

ITU-T supplement 2 (E.180) identifies several tone definitions that cannot be currently satisfied by the IETF NCS Sig MIB tone table definition. It is important for the IETF NCS Sig MIB to support E.180 tone definitions for:

1. embedded tone cadences (i.e., Romania number unobtainable tone, etc) [2 examples shown below]
2. amplitude modulation (i.e., Japan call waiting tone) [1 example shown below]

To address these issues, the following changes are recommended:

PktcSigDevToneEntry ::= SEQUENCE {

    pktcSigDevToneType                      INTEGER,

    pktcSigDevToneDbLevel                   TenthdBm,

    pktcSigDevToneFreqType                  INTEGER,

    pktcSigDevToneNumFrequencies            Unsigned32,

    pktcSigDevToneFirstFrequency            Unsigned32,

    pktcSigDevToneFirstToneSecondaryFrequency Unsigned32,

    pktcSigDevToneFirstToneSecondaryMode      Unsigned32,

    pktcSigDevToneFirstToneSecondaryAttribute Unsigned32,

    pktcSigDevToneSecondFrequency           Unsigned32,

    pktcSigDevToneSecondToneSecondaryFrequency Unsigned32,

    pktcSigDevToneSecondToneSecondaryMode      Unsigned32,

    pktcSigDevToneSecondToneSecondaryAttribute Unsigned32,

    pktcSigDevToneThirdFrequency            Unsigned32,

    pktcSigDevToneThirdToneSecondaryFrequency Unsigned32,

    pktcSigDevToneThirdToneSecondaryMode      Unsigned32,

    pktcSigDevToneThirdToneSecondaryAttribute Unsigned32,

    pktcSigDevToneFourthFrequency           Unsigned32,

    pktcSigDevToneFourthToneSecondaryFrequency Unsigned32,

    pktcSigDevToneFourthToneSecondaryMode      Unsigned32,

    pktcSigDevToneFourthToneSecondaryAttribute Unsigned32,

    pktcSigDevToneFifthFrequency            Unsigned32,

    pktcSigDevToneFifthToneSecondaryFrequency Unsigned32,

    pktcSigDevToneFifthToneSecondaryMode      Unsigned32,

    pktcSigDevToneFifthToneSecondaryAttribute Unsigned32,

    pktcSigDevToneNumOnOffTimes             Unsigned32,

    pktcSigDevToneFirstToneOn               Unsigned32,

    pktcSigDevToneFirstToneOff              Unsigned32,

    pktcSigDevToneFirstToneRepeatCount      Unsigned32,

    pktcSigDevToneSecondToneOn              Unsigned32,

    pktcSigDevToneSecondToneOff             Unsigned32,

    pktcSigDevToneSecondToneRepeatCount     Unsigned32,

    pktcSigDevToneThirdToneOn               Unsigned32,

    pktcSigDevToneThirdToneOff              Unsigned32,

    pktcSigDevToneThirdToneRepeatCount      Unsigned32,

    pktcSigDevToneFourthToneOn              Unsigned32,

    pktcSigDevToneFourthToneOff             Unsigned32,

    pktcSigDevToneFourthToneRepeatCount     Unsigned32,

    pktcSigDevToneFifthToneOn               Unsigned32,

    pktcSigDevToneFifthToneOff              Unsigned32,

    pktcSigDevToneFifthToneRepeatCount      Unsigned32,

    pktcSigDevToneWholeToneRepeatCount      Unsigned32,

    pktcSigDevToneSteady                    TruthValue

    }

 

pktcSigDevToneFirstToneSecondaryFrequency

     SYNTAX     Unsigned32 (0..4000)

     MAX-ACCESS read-write

     STATUS     current

     DESCRIPTION

     "The secondary frequency used to amplitude modulate or

      which is summed with the pktcSigDevToneFirstFrequency

      depending on the setting of

      pktcSigDevToneFirstToneSecondaryMode."

     ::={pktcSigDevToneEntry x}

 

A similar object definition is required for:

 

pktcSigDevToneSecondToneSecondaryFrequency

pktcSigDevToneThirdToneSecondaryFrequency

pktcSigDevToneFourthToneSecondaryFrequency

pktcSigDevToneFifthToneSecondaryFrequency

 

pktcSigDevToneFirstToneSecondaryMode

    SYNTAX       INTEGER {

            noModNoSum (1),

            primaryModulatedBySecondary (2),

            primarySummedWithSecondary (3)

    }

MAX-ACCESS read-write

     STATUS     current

     DESCRIPTION

     "When pktcSigDevToneFirstToneSecondaryMode is set to

      primaryModulatedBySecondary, the

      pktcSigDevToneFirstToneSecondaryFrequency is

      used to amplitude modulate the

      pktcSigDevToneFirstFrequency.

      When pktcSigDevToneFirstToneSecondaryMode is set to

      primarySummedWithSecondary, the

      pktcSigDevToneFirstToneSecondaryFrequency is summed

      with the pktcSigDevToneFirstFrequency without any

      modulation. When pktcSigDevToneFirstToneSecondaryMode

      is set to noModNoSum, the

      pktcSigDevToneFirstToneSecondaryFrequency MUST NOT be

      used."

      DEFVAL { 1 }

     ::={pktcSigDevToneEntry x}

 

pktcSigDevToneFirstToneSecondaryAttribute

     SYNTAX     Unsigned32 (0..100)

     MAX-ACCESS read-write

     STATUS     current

     DESCRIPTION

     "The percentage of amplitude modulation applied to the

      pktcSigDevToneFirstToneSecondaryFrequency. This

      object is only used if

      pktcSigDevToneFirstToneSecondaryMode is

      primaryModulatedBySecondary. An attempt to set this object while the value of

          pktcSigDevToneFirstToneSecondaryMode

is not primaryModulatedBySecondary will result in

          an inconsistentValue error."

     ::={pktcSigDevToneEntry x}

 

A similar object definition is required for:

 

pktcSigDevToneSecondToneSecondaryAttribute

pktcSigDevToneThirdToneSecondaryAttribute

pktcSigDevToneFourthToneSecondaryAttribute

pktcSigDevToneFifthToneSecondaryAttribute

 

pktcSigDevToneFirstToneRepeatCount    

     SYNTAX     Unsigned32 (0..5000)

     MAX-ACCESS read-write

     STATUS     current

     DESCRIPTION

     "The repeat count which indicates the number of times

      to repeat the pktcSigDevToneFirstToneOn and

      pktcSigDevToneFirstToneOff cadence cycle. Setting

      this object may result in a tone duration longer or

      shorter than the overall signal duration specified by

      the time out (TO) object for a particular signal. If

      the repeat count results in a longer tone duration

      than the signal duration specified by the TO, the

      tone duration defined by the TO object for a

      particular signal always represents the overall

      signal duration for a tone. In this case, the tone

      duration repeat count will not be fully exercised and

      the desired tone duration will be truncated per the

      TO setting. If the repeat count results in a shorter

      tone duration than the signal duration specified by

      the TO, the tone duration defined by the repeat count

      takes precedence over the TO and will end the signal

      event. In this case, the TO represents a time not to

      be exceeded for the signal. It is recommended to

      ensure proper telephony signaling that the TO

      duration setting should always be longer than the

      desired repeat count time duration. A value of zero

      means the tone sequence is to be played once but not

      repeated."

     ::={pktcSigDevToneEntry x}

 

A similar object definition is required for:

 

pktcSigDevToneSecondToneRepeatCount    

pktcSigDevToneThirdToneRepeatCount     

pktcSigDevToneFourthToneRepeatCount    

pktcSigDevToneFifthToneRepeatCount

 

The following objects should be deleted. They are no longer applicable in lieu of the above changes.

 

pktcSigDevToneFreqType    OBJECT-TYPE

    SYNTAX      INTEGER {

                allFrequencies (1),

                singleFrequencySequence (2),

                dualFrequencySequence (3),

                allFrequenciesModulated (4)

    }

    MAX-ACCESS   read-write

    STATUS       current

    DESCRIPTION

        "This object describes how the frequencies are applied.

         allFrequencies indicates all frequencies specifed by

         pktcSigDevToneNumFrequencies are mixed to form a single

         tone. The tone is then applied in sequence using the

         number of on/off times specified in

         pktcSigDevToneNumOnOffTimes. SingleFrequecySequence

         indicates all frequencies specified by

         pktcSigDevToneNumFrequencies are applied in sequence

         using the corresponding frequency number on/off time

         (e.g., pktcSigDevToneFirstFrequency uses

         pktcSigDevToneFirstToneOn and pktcSigDevToneFirstToneOff,

         pktcSigDevToneSecondFrequency uses

         pktcSigDevToneSecondToneOn and

         pktcSigDevToneSecondToneOff). For this tone type

         pktcSigDevToneNumFrequencies MUST equal

         pktcSigDevToneNumOnOffTimes. DualFrequencySequence

         indicates two pairs of frequencies are added to form two

         sequenced tones. The first and second frequency are added

         to form tone one and are applied using

         pktcSigDevToneFirstToneOn and pktcSigDevToneFirstToneOff.

         The third and forth frequency are added to form tone two

         and are applied using pktcSigDevToneSecondToneOn and

         pktcSigDevToneSecondToneOff. For this tone type

         pktcSigDevToneNumFrequencies MUST equal 4 and

         pktcSigDevToneNumOnOffTimes MUST equal 2.

         allFrequenciesModulated indicates all frequencies

         specified by pktcSigDevToneNumFrequencies are modulated to

         form a single tone. The tone is then applied in sequence

         using the number of on/off times specified in

         pktcSigDevToneNumOnOffTimes. For allFrequenciesModulated,

         the pktcSigDevToneNumFrequencies MUST equal 2, and the

         frequency in pktcSigDevToneFirstFrequency modulates the

         frequency in pktcSigDevToneSecondFrequency."

    REFERENCE

        "ITU-T E.180"

    DEFVAL { allFrequencies }

    ::={ pktcSigDevToneEntry 3 }

 

pktcSigDevToneNumFrequencies    OBJECT-TYPE

 

Example 1 - Modulated/Unmodulated Tone:

 

Japan call waiting tone with the following definition per ITU-T E.180:

f1 mod f2, where f1=400 Hz AM modulated by 16 Hz, f2=400 Hz not AM modulated

cadence:

first tone: 500ms ON then 0 to 400ms OFF

second tone: 50ms ON then 450ms OFF

third tone: 50ms ON then 3450ms OFF

fourth tone: 50ms ON then 450ms OFF

fifth tone: 50ms ON then 3450 ms OFF

not repeated, not continuous

 

Example 2 - Embedded Cadence:

This example of an embedded cadence is based on an operator variation of a national standard. A similar example of an embedded cadence can be found in ITU-T supplement 2 (E.180) for Romania.

 

Frequency: 425Hz

Cadence:

- 1) ton:1000msec, toff: 40msec

- 2) 9 sec repeat of (ton: 40mesc, toff: 40msec)

- 3) ton: continuous

 

Example 3 - Embedded Cadence:

This example of an embedded cadence is based on an operator variation of a national standard.

 

Frequency: 425Hz

Cadence:

- 1) ton: 160msec, toff: 40msec

- 2) 7* (ton: 40msec, toff: 40msec)

- 3) ton: 160msec, toff 40msec

- 4) 7* (ton: 40msec, toff: 40msec)

- 5) ton: 160msec, toff 40msec

- 6) 7* (ton: 40msec, toff: 40msec)

 

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