pktcSigPowerRingFrequency OBJECT-TYPE
SYNTAX INTEGER {
f20Hz(1),
f25Hz(2),
f33Point33Hz(3),
f50Hz(4),
f15Hz(5),
f16Hz(6),
f22Hz(7),
f23Hz(8),
f45Hz(9)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
" This object must only be provided via the configuration
file during the provisioning process. The power ring
Beacham, et al. Standards Track [Page 20]
frequency is the frequency at which the sinusoidal voltage
must travel down the twisted pair to make terminal
equipment ring. Different countries define different
electrical characteristics to make terminal equipment
ring.
The f20Hz setting corresponds to a power ring frequency
of 20 Hertz. The f25Hz setting corresponds to a power ring
frequency of 25 Hertz. The f33Point33Hz setting
corresponds to a power ring frequency of 33.33 Hertz. The
f50Hz setting corresponds to a power ring frequency of 50
Hertz. The f15Hz setting corresponds to a power ring
frequency of 15 Hertz. The f16Hz setting corresponds to a
power ring frequency of 16 Hertz. The f22Hz setting
corresponds to a power ring frequency of 22 Hertz. The
f23Hz setting corresponds to a power ring frequency of 23
Hertz. The f45Hz setting corresponds to a power ring
frequency of 45 Hertz."
REFERENCE
"ETSI-EN-300-001"
View at oid-info.com
This object must only be provided via the configuration
file during the provisioning process. The power ring
frequency is the frequency at which the sinusoidal voltage
must travel down the twisted pair to make terminal
equipment ring. Different countries define different
electrical characteristics to make terminal equipment
ring.
The f20Hz setting corresponds to a power ring frequency
of 20 Hertz. The f25Hz setting corresponds to a power ring
frequency of 25 Hertz. The f33Point33Hz setting
corresponds to a power ring frequency of 33.33 Hertz. The
f50Hz setting corresponds to a power ring frequency of 50
Hertz. The f15Hz setting corresponds to a power ring
frequency of 15 Hertz. The f16Hz setting corresponds to a
power ring frequency of 16 Hertz. The f22Hz setting
corresponds to a power ring frequency of 22 Hertz. The
f23Hz setting corresponds to a power ring frequency of 23
Hertz. The f45Hz setting corresponds to a power ring
frequency of 45 Hertz.
Parsed from file rfc5098-PacketCable__IPCablecom-NCS-Signaling.mib.txt
Company: None
Module: PKTC-IETF-SIG-MIB
This object must only be provided via the configuration
file during the provisioning process. The power ring
frequency is the frequency at which the sinusoidal voltage
must travel down the twisted pair to make terminal
equipment ring. Different countries define different
electrical characteristics to make terminal equipment
ring.
The f20Hz setting corresponds to a power ring frequency
of 20 Hertz. The f25Hz setting corresponds to a power ring
frequency of 25 Hertz. The f33Point33Hz setting
corresponds to a power ring frequency of 33.33 Hertz. The
f50Hz setting corresponds to a power ring frequency of 50
Hertz. The f15Hz setting corresponds to a power ring
frequency of 15 Hertz. The f16Hz setting corresponds to a
power ring frequency of 16 Hertz. The f22Hz setting
corresponds to a power ring frequency of 22 Hertz. The
f23Hz setting corresponds to a power ring frequency of 23
Hertz. The f45Hz setting corresponds to a power ring
frequency of 45 Hertz.
Parsed from file PKTC-IETF-SIG-MIB.mib
Module: PKTC-IETF-SIG-MIB
Automatically extracted from RFC5098
pktcSigPowerRingFrequency OBJECT-TYPE SYNTAX INTEGER { f20Hz(1), f25Hz(2), f33Point33Hz(3), f50Hz(4), f15Hz(5), f16Hz(6), f22Hz(7), f23Hz(8), f45Hz(9) } MAX-ACCESS read-only STATUS current DESCRIPTION " This object must only be provided via the configuration file during the provisioning process. The power ring frequency is the frequency at which the sinusoidal voltage must travel down the twisted pair to make terminal equipment ring. Different countries define different electrical characteristics to make terminal equipment ring. The f20Hz setting corresponds to a power ring frequency of 20 Hertz. The f25Hz setting corresponds to a power ring frequency of 25 Hertz. The f33Point33Hz setting corresponds to a power ring frequency of 33.33 Hertz. The f50Hz setting corresponds to a power ring frequency of 50 Hertz. The f15Hz setting corresponds to a power ring frequency of 15 Hertz. The f16Hz setting corresponds to a power ring frequency of 16 Hertz. The f22Hz setting corresponds to a power ring frequency of 22 Hertz. The f23Hz setting corresponds to a power ring frequency of 23 Hertz. The f45Hz setting corresponds to a power ring frequency of 45 Hertz." REFERENCE "ETSI-EN-300-001" ::= { pktcSigDevObjects 19 }
pktcSigPowerRingFrequency OBJECT-TYPE SYNTAX INTEGER { f20Hz(1), f25Hz(2), f33Point33Hz(3), f50Hz(4), f15Hz(5), f16Hz(6), f22Hz(7), f23Hz(8), f45Hz(9) } MAX-ACCESS read-only STATUS current DESCRIPTION " This object must only be provided via the configuration file during the provisioning process. The power ring frequency is the frequency at which the sinusoidal voltage must travel down the twisted pair to make terminal equipment ring. Different countries define different electrical characteristics to make terminal equipment ring. The f20Hz setting corresponds to a power ring frequency of 20 Hertz. The f25Hz setting corresponds to a power ring frequency of 25 Hertz. The f33Point33Hz setting corresponds to a power ring frequency of 33.33 Hertz. The f50Hz setting corresponds to a power ring frequency of 50 Hertz. The f15Hz setting corresponds to a power ring frequency of 15 Hertz. The f16Hz setting corresponds to a power ring frequency of 16 Hertz. The f22Hz setting corresponds to a power ring frequency of 22 Hertz. The f23Hz setting corresponds to a power ring frequency of 23 Hertz. The f45Hz setting corresponds to a power ring frequency of 45 Hertz." REFERENCE "ETSI-EN-300-001" ::= { pktcSigDevObjects 19 }
Internet Assigned Numbers Authority
| OID | Name | Sub children | Sub Nodes Total | Description |
|---|---|---|---|---|
| 1.3.6.1.2.1.169.1.1.19.0 | pktcSigPowerRingFrequency | 0 | 0 | None |
| OID | Name | Sub children | Sub Nodes Total | Description |
|---|---|---|---|---|
| 1.3.6.1.2.1.169.1.1.1 | pktcSigDevCodecTable | 1 | 4 | pktcSigDevCodecTable OBJECT-TYPE SYNTAX SEQUENCE OF PktcSigDevCodecEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "… |
| 1.3.6.1.2.1.169.1.1.2 | pktcSigDevEchoCancellation | 1 | 1 | This object specifies if the device is capable of echo cancellation. The MTA MUST set this MIB object to a value of true(1) if i… |
| 1.3.6.1.2.1.169.1.1.3 | pktcSigDevSilenceSuppression | 1 | 1 | This object specifies if the device is capable of silence suppression (as a result of Voice Activity Detection). The MTA MUST se… |
| 1.3.6.1.2.1.169.1.1.4 | pktcSigDevCidSigProtocol | 1 | 1 | This object is used to configure the subscriber-line protocol used for signaling on-hook caller id information. Different countri… |
| 1.3.6.1.2.1.169.1.1.5 | pktcSigDevR0Cadence | 1 | 1 | This object specifies ring cadence 0 (a user-defined field). The value of this MIB object MUST NOT persist across MTA reboots. |
| 1.3.6.1.2.1.169.1.1.6 | pktcSigDevR1Cadence | 1 | 1 | This object specifies ring cadence 1 (a user-defined field). The value of this MIB object MUST NOT persist across MTA reboots. |
| 1.3.6.1.2.1.169.1.1.7 | pktcSigDevR2Cadence | 1 | 1 | This object specifies ring cadence 2 (a user-defined field). The value of this MIB object MUST NOT persist across MTA reboots. |
| 1.3.6.1.2.1.169.1.1.8 | pktcSigDevR3Cadence | 1 | 1 | This object specifies ring cadence 3 (a user-defined field). The value of this MIB object MUST NOT persist across MTA reboots. |
| 1.3.6.1.2.1.169.1.1.9 | pktcSigDevR4Cadence | 1 | 1 | This object specifies ring cadence 4 (a user-defined field). The value of this MIB object MUST NOT persist across MTA reboots. |
| 1.3.6.1.2.1.169.1.1.10 | pktcSigDevR5Cadence | 1 | 1 | This object specifies ring cadence 5 (a user-defined field). The value of this MIB object MUST NOT persist across MTA reboots. |
| 1.3.6.1.2.1.169.1.1.11 | pktcSigDevR6Cadence | 1 | 1 | This object specifies ring cadence 6 (a user-defined field). The value of this MIB object MUST NOT persist across MTA reboots. |
| 1.3.6.1.2.1.169.1.1.12 | pktcSigDevR7Cadence | 1 | 1 | This object specifies ring cadence 7 (a user-defined field). The value of this MIB object MUST NOT persist across MTA reboots. |
| 1.3.6.1.2.1.169.1.1.13 | pktcSigDevRgCadence | 1 | 1 | This object specifies ring cadence rg (a user-defined field). The value of this MIB object MUST NOT persist across MTA reboots. |
| 1.3.6.1.2.1.169.1.1.14 | pktcSigDevRsCadence | 1 | 1 | This object specifies ring cadence rs (a user-defined field). The MTA MUST reject any attempt to make this object repeatable. The… |
| 1.3.6.1.2.1.169.1.1.15 | pktcSigDefCallSigDscp | 1 | 1 | The default value used in the IP header for setting the Differentiated Services Code Point (DSCP) value for call signaling. The va… |
| 1.3.6.1.2.1.169.1.1.16 | pktcSigDefMediaStreamDscp | 1 | 1 | This object contains the default value used in the IP header for setting the Differentiated Services Code Point (DSCP) value for … |
| 1.3.6.1.2.1.169.1.1.17 | pktcSigCapabilityTable | 1 | 5 | This table describes the signaling types supported by this MTA. |
| 1.3.6.1.2.1.169.1.1.18 | pktcSigDefNcsReceiveUdpPort | 1 | 1 | This object contains the MTA User Datagram Protocol (UDP) receive port that is being used for NCS call signaling. This object sho… |
| 1.3.6.1.2.1.169.1.1.20 | pktcSigPulseSignalTable | 1 | 7 | The Pulse signal table defines the pulse signal operation. There are nine types of international pulse signals, with each signal … |
| 1.3.6.1.2.1.169.1.1.21 | pktcSigDevCidMode | 1 | 1 | For on-hook caller id, pktcSigDevCidMode selects the method for representing and signaling caller identification. For the during… |
| 1.3.6.1.2.1.169.1.1.22 | pktcSigDevCidAfterRing | 1 | 1 | This object specifies the delay between the end of first ringing pattern and the start of the transmission of the FSK or DTMF con… |
| 1.3.6.1.2.1.169.1.1.23 | pktcSigDevCidAfterDTAS | 1 | 1 | This object specifies the delay between the end of the Dual Tone Alert Signal (DT-AS) and the start of the transmission of the FS… |
| 1.3.6.1.2.1.169.1.1.24 | pktcSigDevCidAfterRPAS | 1 | 1 | This object specifies the delay between the end of the Ring Pulse Alert Signal (RP-AS) and the start of the transmission of the F… |
| 1.3.6.1.2.1.169.1.1.25 | pktcSigDevRingAfterCID | 1 | 1 | This object specifies the delay between the end of the complete transmission of the FSK or DTMF containing the caller id informat… |
| 1.3.6.1.2.1.169.1.1.26 | pktcSigDevCidDTASAfterLR | 1 | 1 | This object specifies the delay between the end of the Line Reversal and the start of the Dual Tone Alert Signal (DT-AS). This o… |
| 1.3.6.1.2.1.169.1.1.27 | pktcSigDevVmwiMode | 1 | 1 | For visual message waiting indicator (VMWI), pktcSigDevVmwiMode selects the alerting signal method. For the dtAsETS, rpAsETS, lr… |
| 1.3.6.1.2.1.169.1.1.28 | pktcSigDevVmwiAfterDTAS | 1 | 1 | This object specifies the delay between the end of the Dual Tone Alert Signal (DT-AS) and the start of the transmission of the FS… |
| 1.3.6.1.2.1.169.1.1.29 | pktcSigDevVmwiAfterRPAS | 1 | 1 | This object specifies the delay between the end of the Ring Pulse Alert Signal (RP-AS) and the start of the transmission of the F… |
| 1.3.6.1.2.1.169.1.1.30 | pktcSigDevVmwiDTASAfterLR | 1 | 1 | This object specifies the delay between the end of the Line Reversal and the start of the Dual Tone Alert Signal (DT-AS) for VMWI… |
| 1.3.6.1.2.1.169.1.1.31 | pktcSigDevRingCadenceTable | 1 | 3 | Cadence rings are defined by the telco governing body for each country. The MTA must be able to support various ranges of cadenc… |
| 1.3.6.1.2.1.169.1.1.32 | pktcSigDevToneTable | 1 | 6 | The Tone Table defines the composition of tones and various tone operations. The definition of the tones callWaiting1 through call… |
| 1.3.6.1.2.1.169.1.1.33 | pktcSigDevMultiFreqToneTable | 1 | 12 | This MIB table defines the characteristics of tones with multiple frequencies. The constraints imposed on the tones by the MIB t… |
| 1.3.6.1.2.1.169.1.1.34 | pktcSigDevCidDelayAfterLR | 1 | 1 | This object specifies the delay between the end of the Line Reversal and the start of the FSK or DTMF signal. This MIB object is … |
| 1.3.6.1.2.1.169.1.1.35 | pktcSigDevCidDtmfStartCode | 1 | 1 | This object identifies optional start codes used when the MIB object pktcSigDevCidSigProtocol is set to a value of 'dtmf(2)'. Diff… |
| 1.3.6.1.2.1.169.1.1.36 | pktcSigDevCidDtmfEndCode | 1 | 1 | This object identifies optional end codes used when the pktcSigDevCidSigProtocol is set to a value of 'dtmf(2)'. Different countri… |
| 1.3.6.1.2.1.169.1.1.37 | pktcSigDevVmwiSigProtocol | 1 | 1 | This object identifies the subscriber line protocol used for signaling the information on Visual Message Waiting Indicator (VMWI)… |
| 1.3.6.1.2.1.169.1.1.38 | pktcSigDevVmwiDelayAfterLR | 1 | 1 | This object specifies the delay between the end of the Line Reversal and the start of the FSK or DTMF signal. This object is only… |
| 1.3.6.1.2.1.169.1.1.39 | pktcSigDevVmwiDtmfStartCode | 1 | 1 | This object identifies optional start codes used when the pktcSigDevVmwiSigProtocol is set to a value of 'dtmf(2)'. Different co… |
| 1.3.6.1.2.1.169.1.1.40 | pktcSigDevVmwiDtmfEndCode | 1 | 1 | This object identifies an optional end code used when the pktcSigDevVmwiSigProtocol is set to a value of 'dtmf(2)'. Different co… |
| 1.3.6.1.2.1.169.1.1.41 | pktcSigDevrpAsDtsDuration | 1 | 1 | This object specifies the duration of the rpASDTS ring pulse prior to the start of the transmission of the FSK or DTMF containing… |