CISCO-WIRELESS-P2MP-PHY-MIB

CISCO-WIRELESS-P2MP-PHY-MIB Download

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This is the MIB Module for the Cisco Wireless Radio Point to MultiPoint interface.

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OID list for CISCO-WIRELESS-P2MP-PHY-MIB

p2mpRadioPhyTable
This table provides facilities to configure the physical layer characteristics of the radio link. The objects in this table are supported on the head end and at the subscriber unit.
p2mpRadioPhyEntry
The entry of this table is created when the managed system detects a propDocsWirelessMaclayer interface. The entry is removed when the associated propDocsWirelessMaclayer interface is deleted from the ifTable.
p2mpSelfTest
This object is used to enable/disable self test. When set to true(1), the software tests the memory and hardware integrity shortly after the router powers up.
p2mpDiversityAntennaPresent
When true(1), this object indicates that a diversity antenna is being used to receive the wireless transmissions. When false(2), the radio system is using a single antenna to transmit and receive.
p2mpCableLoss
This object indicates the measured signal power loss in dB due to the cable connecting the radio to the main antenna. The hardware compensates for this cable loss by adjusting the receive and transmit gain appropriately. A value of 0 indicates no degrada ...
p2mpCableLossDiversity
This object indicates the measured signal power loss in dB due to the cable connecting the radio to the diversity antenna. The hardware compensates for this loss by adjusting the receive and transmit gain appropriately. A value of 0 indicates no degrada ...
p2mpDenyService
Indicates if the service is disabled in the unit. For Head-end unit, if this object has the value of 'true', the link is in loopback mode; otherwise the link is enabled for transmitting / receiving data. For Subscriber unit, if this object has the value o ...
p2mpClockRefExt
This object controls the use of external reference clock for IF module as follows: 'true(1)' - an external reference clock is used 'false(2)' - an internal reference clock is used.
p2mpCommonTrapEnable
When set to true(1), the notifications common to the head end and subscriber unit are enabled. When set to false(2), these notifications are disabled. The notification controlled by this object are: - p2mpRadioPhyFailNotification - p2mpTrapRfSupplyVoltag ...
p2mpLastPhyFailureType
This object indicates the last physical link failure that resulted in a p2mpRadioPhyFailNotification trap. none(1) - no failure p2mpHwConfigUnsupported(2) - The radio subsystem has detected that the configuration requested is not supported by the hardware ...
p2mpLastPhyFailureReason
This is a text string that describes the last physical link failure identified by p2mpLastPhyFailureType.
p2mpRfTable
This table contains information about the state of the radio frequency resources used by the radio system. Physically each RF resource may be realized by one antenna and its associated control hardware. A single antenna and its associated electronics may ...
p2mpRfEntry
This represents one entry in the p2mpRfTable. An entry is created in this table when the managed system detects a RF resource. The entry is removed when the RF resource is removed from the wireless system.
p2mpRfIndex
This object, along with the ifIndex of the MAC layer, represents the index of this entry in the p2mpRfTable. Each entry in the table provides details on the state of the RF resources available in the system.
p2mpRfType
This object identifies the RF resource.
p2mpRfOpMode
This object specifies whether this RF resource can either transmit, receive, or do both.
p2mpTxFreqRangeMin
This object represents the minimum frequency at which this RF resource can transmit.
p2mpTxFreqRangeMax
This object represents the maximum frequency at which this RF resource can transmit.
p2mpRxFreqRangeMin
This object represents the lowest transmission frequency this RF resource can receive.
p2mpRxFreqRangeMax
This object represents the highest transmission frequency that this RF resource can receive.
p2mpMinTxPower
This object represents the minimum power that the RF subsystem can supply the antenna.
p2mpMaxTxPower
This object represents the maximum power that the RF subsystem can supply the antenna.
p2mpRfTemperature
This object represents the current temperature of the RF unit
p2mpRfTxOscState
This object represents the state of the transmit oscillator. The oscillator must be in oscillatorOk(1) state for the system to function properly.
p2mpRfRxOscState
This object represents the state of the receive oscillator. The oscillator must be in oscillatorOk(1) state for the system to function properly.
p2mpRfSupplyVoltageState
This object specifies whether the voltage supply to the RF unit is within specifications or not. Voltage specifications are hardware dependent.
p2mpRfStatus
This object specifies whether the RF resource is functioning properly. If it is functioning properly then it will be online(1), else offline(2). At the Subscriber Unit, this object will reflect offline(2) if p2mpTxMuteEnable in the p2mpSuRadioPhyTable is ...
p2mpRfLoopbackSupported
This object indicates if the RF unit supports loopback. When true(1), the user can configure loopback using the objects in p2mpLoopbackTable. When false(2), any attempt to configure RF loopback will fail.
p2mpDuplexerTable
This table contains information about the Duplexers available for use on the system. A Duplexer is a mechanical device, that acts as a band pass filter when installed in an RF resource. Normally a RF resource is capable of operating over a wide frequency ...
p2mpDuplexerEntry
This represents one entry in the p2mpDuplexerTable. Each entry contains information about the duplexers capabilities and the associated RF resource. An entry is created in this table when the managed system detects a RF resource. The entry is removed when ...
p2mpDuplexerIndex
This object, along with ifIndex, uniquely identifies an entry in this table. Each entry contains information about the duplexer's capabilities and also identifies the associated RF resource.
p2mpDuplexerRF
This object identifies the RF resource associated with this duplexer.
p2mpDuplexerLoPassbandMinFreq
This object identifies the minimum frequency in the low passband that this duplexer will pass through without attenuation.
p2mpDuplexerLoPassbandMaxFreq
This object identifies the maximum frequency in the low passband that this duplexer will pass through without attenuation.
p2mpDuplexerHiPassbandMinFreq
This object identifies the minimum frequency in the high passband that this duplexer will pass through without attenuation.
p2mpDuplexerHiPassbandMaxFreq
This object identifies the maximum frequency in the high passband that this duplexer will pass through without attenuation.
p2mpDuplexerReceivePassband
This object indicates which of the two passbands are being used to receive transmissions. The RF Resource can receive on either of the duplexer passbands. loPassband(1) - The RF Resource is receiving on a frequency in the low passband. hiPassband(2) - Th ...
p2mpDuplexerTxInsertionLoss
This object represents the loss in 'dB' that would result in the transmission path due to the duplexer.
p2mpDuplexerBurnDate
This object indicates the date when the revision information was programmed into non-volatile memory.
p2mpAntennaTable
This table contains information about the antennas available in the system.
p2mpAntennaEntry
An entry is created in this table when the managed system detects a RF resource. The entry is removed when the RF resource is removed from the wireless system.
p2mpAntennaIndex
This object, along with ifIndex, represents the index of this entry in the p2mpAntennaTable.
p2mpRfResource
This object identifies if the antenna is connected to the main or the diversity RF resource.
p2mpAntennaXDim
This object represents the dimension of the antenna in the X direction.
p2mpAntennaYDim
This object represents the dimension of the antenna in the Y direction.
p2mpAntennaType
This object represents the antenna type. For example, 'dish-antenna'.
p2mpAntennaDescr
This object is used to describe the antenna. For example, it could be used to identify the manufacturer like in 'Manufactured by Watkins Johnson'.
p2mpAntennaGain
This object represents the receive and transmit gain of this antenna.
p2mpAntennaPolarization
This object represents the polarization of the antanna.
p2mpLoopbackTable
This table provides facilities to establish loopback points to exercise various sections of the hardware.
p2mpLoopbackEntry
This represents one entry in the p2mpLoopbackTable. It is created when the managed system detects a propDocsWirelessMaclayer interface. The entry is removed when the associated propDocsWirelessMaclayer interface is deleted from the ifTable.
p2mpLocalLoopbackMode
This object is used to configure the system in loopback mode prior to executing some system diagnostic tests. The user selects the point in the system where the data signal should be looped back. The diagnostic tests outlined in the user manual have to ...
p2mpLocalLoopbackAntenna
This object identifies the RF resource used for loopback testing. This object is not applicable for loopback testing when p2mpLocalLoopbackMode has a value of 'noLoopback(1)'.
p2mpLocalLoopbackChannel
This object identifies the channel being used to loopback the data. This object is not applicable for loopback testing when p2mpLocalLoopbackMode has a value of 'noLoopback(1)'.
p2mpLedTable
Entity (Light emitting diode) LED information. For each LED on the entity, an entry will exist in this table, describing the location and current status of that LED.
p2mpLedEntry
An entry in the table, containing the LED information. The entPhysicalIndex identifies the entity on which the LED's are present.
p2mpLedIndex
For a given entPhysicalIndex, this index value uniquely identifies an entry in the p2mpLedTable.
p2mpLedType
Indicates the type or label of the LED.
p2mpLedState
Indicates the state of the LED.
p2mpSuRadioPhyTable
This table contains information about the currently configured physical layer interfaces in the subscriber unit.
p2mpSuRadioPhyEntry
An entry containing the radio configuration information of the propDocsWirelessMaclayer interface in the subscriber unit. The entry is created when a propDocsWirelessMaclayer interface is detected in the subscriber unit. The entry is deleted when the asso ...
p2mpSuTxMuteEnable
When true(1), this object indicates the subscriber unit transmission has been turned off for a duration indicated by p2mpSuTxMuteDuration. When false(2), this object indicates that the subscriber unit is transmitting.
p2mpSuTxMuteDuration
This object indicates the duration of time (in minutes) for which the subscriber transmission will be turned off.
p2mpSuPowerScanTable
This table contains information about the receive power measured at the different possible center frequencies.
p2mpSuPowerScanEntry
An entry containing the power related status information of the propDocsWirelessMaclayer interface in the subscriber unit. The entry is created when a propDocsWirelessMaclayer interface is detected in the subscriber unit. The entry is deleted after the as ...
p2mpSuPowerScanIndex
For a given ifIndex, this index value uniquely identifies an entry in the p2mpSuPowerScanTable.
p2mpSuCenterFrequency
This object indicates the frequency at which the receive power at the subscriber unit was measured.
p2mpSuMeasuredPower
This object represents the power measured at the frequency indicated by p2mpSuCenterFrequency.
p2mpHeAlcTable
This table contains Automatic Line Control (ALC) configuration information. It is supported at the head end only.
p2mpHeAlcEntry
An entry containing the ALC configuration information the propDocsWirelessMaylayer interface at the head end. The entry is created when a propDocsWirelessMaclayer interface is detected in the head end unit. The entry is deleted after the associated propDo ...
p2mpHeAlcEnable
This object is used to enable/disable ALC at the Head End. A value of true(1), indicates that ALC is enabled.
p2mpHeAlcInterval
This object represents the scheduling interval. It is the regular interval at which the ALC grant in Map is transmitted to the SU's
p2mpHeAlcNumMiniSlots
This indicates the number of minislots within each grant.
p2mpHeIntFreqTable
This table contains information about the state of the intermediate frequency subsystem in the radio system. This table is supported at the head end only.
p2mpHeIntFreqEntry
The entry of this table is created when the managed system detects a propDocsWirelessMaclayer interface in the head end unit. The entry is deleted when the associated propDocsWirelessMaclayer interface is removed.
p2mpHeIfTxOscState
This object indicates the state of the IF transmit oscillator. The oscillator must be in oscillatorOk(1) state for the system to function properly.
p2mpHeIfRxOscState
This object indicates the state of the IF receive oscillator. The oscillator must be in oscillatorOk(1) state for the system to function properly.
p2mpHeIfRefOscState
This object indicates the state of the IF reference oscillator. The oscillator must be in oscillatorOk(1) state for the system to function properly.
p2mpHeIfInpFreq
This object represents the IF input frequency.
p2mpHeIfOutFreq
This object represents the IF output frequency.
p2mpHeTrapEnable
When set to true(1), this enables the notifications that are specific to the head end. When set to false(2), these notifications are disabled.
p2mpCommonRadioGroup
Mandatory group of objects implemented to configure a point to multipoint wireless radio.
p2mpCommonRfGroup
Mandatory group of objects implemented to tune the phy quality in a point to multipoint wireless radio.
p2mpCommonTestGroup
Mandatory group of objects implemented in the point to multi point wireless system for Testing the link.
p2mpRadioSuGroup
Group of objects implemented at the Subscriber unit.
p2mpRadioHeGroup
Group of objects implemented at the Head End.
p2mpRadioAntennaGroup
Group of objects implemented in the point to multi point wireless system for managing the antennas available in the system.

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