CISCO-WIRELESS-TC-MIB
File:
CISCO-WIRELESS-TC-MIB.mib (20364 bytes)
Imported modules
Imported symbols
Defined Types
| CwrRFZeroIndex |
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| This represents an index into the cwrRFTable. The valid values
are from 1 onwards. The special value of 0 is used to indicate
the absence of the associated RF resource. |
| TEXTUAL-CONVENTION |
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INTEGER |
0..2 |
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| CwrCwErrorFreeSecond |
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| A Codeword Error Free Second (EFS) is defined as 1 second when
the radio link was synchronized and no codeword errors detected
on the link. |
| TEXTUAL-CONVENTION |
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Gauge32 |
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| CwrCwErroredSecond |
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| A Codeword Errored Second (ES) is defined as 1 second when the
radio link was synchronized and 1 or more codeword errors were
detected on the link. |
| TEXTUAL-CONVENTION |
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Gauge32 |
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| CwrCwSeverelyErroredSecond |
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| A Codeword Severely Errored Second (SES) is defined as 1
second when the radio link was synchronized and the codeword
error rate (CER) was greater than the threshold specified by
cwrLinkHighCwErrThresh. |
| TEXTUAL-CONVENTION |
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Gauge32 |
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| CwrCwConsecutiveSevErrSecond |
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| A Codeword Consecutively Severely Errored Seconds (CSES) is
defined as the metric that measures the number of times a
sequence of Codeword Severely Errored Seconds(SES) crosses the
cwrLinkCSESThresh value. It is independent of the length of
the SES sequence. In other words this counter is incremented by
one and only one for every such occurrence. |
| TEXTUAL-CONVENTION |
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Gauge32 |
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| CwrCwDegradedSecond |
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| A Codeword Degraded Second (DS) is defined as a 1 second
interval during which the CER was between cwrLinkLowCwErrThresh
and cwrLinkHighCwErrThresh. |
| TEXTUAL-CONVENTION |
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Gauge32 |
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| CwrCollectionAction |
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| The action to perform on the identified specification.
It can be:
Stop: Stop the collection specification from continuing.
Start: Start the collection specification.
Clear: Clear the current collection data. A collection in
progress must be stopped before it can be cleared.
Restart: Identical to Clear followed by a Start. |
| TEXTUAL-CONVENTION |
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INTEGER |
actionStop(1), actionStart(2), actionClear(3), actionRestart(4) |
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| CwrCollectionStatus |
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| This indicates the current status of the collection
specification. It can be:
Idle: No action in progress.
In_progress: Collection specification is currently being
executed
Stopped: The collection specification has been stopped before
it completed successfully.
Captured: The collection is complete and data is available. |
| TEXTUAL-CONVENTION |
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INTEGER |
statusIdle(1), statusInProgress(2), statusStopped(3), statusCaptured(4) |
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| CwrdBm |
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| This is a unit of power measurement. It is measured in decibels
of milliwatts (dBm). dBm = 10 * log(millwatts of power). |
| TEXTUAL-CONVENTION |
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INTEGER |
-80..33 |
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| CwrdB |
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| This is a unit of measurement defined as decibels (dB).
dB = 10 * log(measured_value). |
| TEXTUAL-CONVENTION |
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INTEGER |
0..16 |
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| CwrThreshLimitType |
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| This object represents the kind of change that needs to be
monitored for a thresholdable attribute . An event is generated
when the following condition is met.
The kinds of change that may be setup in the radio hardware are:
upChange : Monitored value changes by a positive amount.
downChange : Monitored value changes by a negative amount.
highThresh : Monitored value exceeds specified threshold.
lowThresh : Monitored value receeds below a threshold.
upLimit : Monitored value crosses the specified threshold
when increasing in value.
lowLimit : Monitored value crosses the specified threshold
when decreasing in value. |
| TEXTUAL-CONVENTION |
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INTEGER |
upChange(1), downChange(2), highThresh(3), lowThresh(4), upLimit(5), lowLimit(6) |
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| CwrRadioSignalAttribute |
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| This represents the set of radio signal attributes that may be
monitored by using histograms, timelines, and thresholds.
The attributes are:
rsaIN(1) -
This is the Interference + Noise power levels computed
by the hardware on a burst by burst basis. This is
available for a dual antenna system only.
rsaINR(2) -
This is the ratio of the interference+noise power levels
captured by first antenna to that captured by the second
antenna on a burst by burst basis.
The values reported are in log to base 2.
rsaConstellationVariance(3) -
Constellation variance(CV) is the average energy of the
constellation error signal. The constellation error
signal is the error between the received (noisy)
constellation symbol and the nearest ideal constellation
symbol. CV is a measure of the Signal to
Interference+noise ratio, (SINR) for that tone.
On a Single antenna system it represents (1/SINR).
On a Dual antenna system it represents a
composite histogram providing (1/SINR).
rsaTimingOffset(4) -
This represents the histogram of timing delay variations
detected in radio link.
rsaReceivedPower(5) -
This is a measure of the analog signal power received
by the radio system on a burst by burst basis.
rsaGainSettingsIF(6) -
This represents the change in the automatic gain control
loop maintained by the hardware. This may be captured
for each antenna and at the intermediate frequency (IF)
module.
Units: Integral values
rsaGainSettingsRF(7) -
This represents the change in the automatic gain control
loop maintained by the hardware. This may be
captured for each antenna and at both the intermediate
frequency (IF) and radio frequency (RF) modules.
Units: Integral values
rsaFreqOffset(8) -
This represents the frequency offset calculations
made to keep the receive frequency on a slave radio in
sync with the master radio.
Units: Integral values.
rsaTotalGain(9) -
This represents the change in the automatic gain control
loop maintained by the hardware. This may be
captured for each antenna.
Units: Integral values
rsaSyncStatus(10) -
This represents the sync status. |
| TEXTUAL-CONVENTION |
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INTEGER |
rsaIN(1), rsaINR(2), rsaConstellationVariance(3), rsaTimingOffset(4), rsaReceivedPower(5), rsaGainSettingsIF(6), rsaGainSettingsRF(7), rsaFreqOffset(8), rsaTotalGain(9), rsaSyncStatus(10) |
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| CwrOscState |
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| The current state of the oscillator. |
| TEXTUAL-CONVENTION |
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INTEGER |
oscillatorOk(1), osccillatorBad(2) |
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| P2mpRadioSignalAttribute |
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| This represents the set of radio signal attributes that may be
monitored in a point to multipoint system by using histograms,
timelines, and thresholds. Some of these attributes are common
to the head end (HE) and the subscriber unit (SU) whereas some
are specific to either the HE or the SU.
The attributes are:
none(0) -
This is a special value reserved to indicate that there
is no threshold associated with a timeline. This
attribute cannot be used to create a histogram, timeline,
or threshold.
rsaSinrMainAnt(1) -
This is the Interference + Noise power level computed by
the hardware at the main antenna on a burst by burst
basis
rsaSinrDiversityAnt(2) -
This is the Interference + Noise power level computed by
the hardware at the diversity antenna on a burst by
burst basis.
rsaSinrRatio(3) -
Ratio of (Interference + Noise) in main antenna to
diversity antenna
rsaTimingOffset(4) -
This represents the timing delay variations detected on
a radio link.
rsaRxPowerMainAnt(5) -
This is a measure of the analog signal power received at
the main antenna RF head on a burst by burst basis.
rsaRxPowerDiversityAnt(6) -
This is a measure of the analog signal power received at
the diversity antenna RF head on a burst by burst basis.
rsaChDelaySpreadMainAnt(7) -
Number of samples that the channel response remains
within (TBD) db of the manimun TAP in the channel
response at the main antenna.
rsaChDelaySpreadDiversityAnt(8) -
Number of samples that the channel response remains
within (TBD) db of the manimun TAP in the channel
response at the diversity antenna.
rsaHeAmbientNoise(19) -
The ambient noise (in dB) is measured when there is no
signal being received at the Headend
rsaSuRxPowerDeltaMainAnt(10) -
Change in received power (dB) at the main antenna of the
subscriber unit on a burst by burst basis.
rsaSuRxPowerDeltaDiversityAnt(11) -
Change in received power (dB) at the diversity antenna
of the subscriber unit on a burst by burst basis.
rsaSuTotalTxPower(12) -
The sum of -20 dBm (reference level out of the DAC) +
Tx IF transmit gain - 13 dBm (cable compensation) + Tx
RF transmit gain. This parameter does not include
antenna gains.
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| TEXTUAL-CONVENTION |
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INTEGER |
none(0), rsaSinrMainAnt(1), rsaSinrDiversityAnt(2), rsaSinrRatio(3), rsaTimingOffset(4), rsaRxPowerMainAnt(5), rsaRxPowerDiversityAnt(6), rsaChDelaySpreadMainAnt(7), rsaChDelaySpreadDiversityAnt(8), rsaHeAmbientNoise(9), rsaSuRxPowerDeltaMainAnt(10), rsaSuRxPowerDeltaDiversityAnt(11), rsaSuTotalTxPower(12) |
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| CwrRfType |
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| Indicates if the outdoor RF unit is being used as the main RF
unit or the diversity RF unit. The main RF unit is used to
receive and transmit data whereas the diversity unit is used to
receive only. |
| TEXTUAL-CONVENTION |
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INTEGER |
main(0), diversity(1) |
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| CwrFixedPointScale |
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| International System of Units (SI) prefixes. |
| TEXTUAL-CONVENTION |
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INTEGER |
yocto(1), zepto(2), atto(3), femto(4), pico(5), nano(6), micro(7), milli(8), units(9), kilo(10), mega(11), giga(12), tera(13), exa(14), peta(15), zetta(16), yotta(17) |
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| CwrFixedPointPrecision |
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| When in the range 1 to 9, CwrFixedPointPrecision is the number
of decimal places in the fractional part of a fixed-point
number.
CwrFixedPointPrecision is 0 for non-fixed-point numbers. |
| TEXTUAL-CONVENTION |
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Integer32 |
0..9 |
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| CwrFixedPointValue |
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| This represents a fixed point number. Use values -2147483648
and +2147483647 to indicate underflow and overflow
respectively. Use CwrFixedPointPrecision to indicate how
many fractional digits the CwrFixedPointValue has. |
| TEXTUAL-CONVENTION |
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INTEGER |
-2147483648..2147483647 |
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| P2mpSnapshotAttribute |
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| This represents the set of radio signal attributes that may be
monitored by using a snapshot. The user can capture upto 4
radio signal attributes simultaneously, by picking at most one
signal from each of the sets below and setting the bit
corresponding to each selected signal.
When a snapshot request is issued up to four radio signal
attributes may be requested at once, one from each set:
===============================================
Type Set1 Set2
===============================================
RX y1n(x1) y2n(x2)
H2k(x80) H1k(x40)
===============================================
===============================================
Type Set3 Set4
===============================================
RX Y2k(x8) Y1k(x4)
h1n(x10) h2n(x20)
zhat(x100) -
===============================================
The attributes are:
rxRawBurstAnt1Y1n(0) -
This represents a snapshot of the received signal for
the main RF resource. For every sample, the real and
imaginary components are captured.
Units: (I, q)
Value: 32 bit quantities.
rxRawBurstAnt2Y2n(1) -
This represents a snapshot of the received signal for
the diversity RF resource. For every sample, the real
and imaginary components are captured.
Units: (I, q)
Value: 32 bit quantities.
rxSpectrumAnt1Y1k(2) -
This represents a snapshot of the spectrum of the
received signal for the main RF resource. For every
sample, the real and imaginary components are captured.
Units: (I, q)
Value: 32 bit quantities.
rxSpectrumAnt2Y2k(3) -
This represents a snapshot of the spectrum of the
received signal for the diversity RF resource. For every
sample the real and imaginary components are captured.
Units: (I, q)
Value: 32 bit quantities.
rxTimeDomainChannelAnt1H1n(4) -
This represents a snapshot of the time domain channel
for the main RF resource. For every sample the real and
imaginary components are captured.
Units: (I, q)
Value: 32 bit quantities.
rxTimeDomainChannelAnt2H2n(5) -
This represents a snapshot of the time domain channel
for the diversity RF resource. For every sample, the
real and imaginary components are captured.
Units: (I, q)
Value: 32 bit quantities.
rxFreqDomainChannelAnt1H1k(6) -
This represents a snapshot of the frequency domain
channel for the main RF resource. For every sample the
real and imaginary components are captured.
Units: (I, q)
Value: 32 bit quantities.
rxFreqDomainChannelAnt2H2k(7) -
This represents a snapshot of the frequency domain
channel for the diversity RF resource. For every sample,
the real and imaginary components are captured.
Units: (I, q)
Value: 32 bit quantities.
rxConstellationZHatk(8) -
This represents a snapshot of the soft decisions.
For every sample, the real and imaginary components are
captured.
Units: (I, q)
Value: 32 bit quantities. |
| TEXTUAL-CONVENTION |
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OCTET STRING |
Size(1) |
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| CwrPercentageValue |
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| This object can be used to represent percentage values for
codeword errors, available seconds, etc. The UNITS clause
associated with each object will indicate the degree of
precison. |
| TEXTUAL-CONVENTION |
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Gauge32 |
0..10000000 |
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| CwrUpdateTime |
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| This is used to report statistics values measured on the
wireless link with a 1 second granularity insted of timeTicks. |
| TEXTUAL-CONVENTION |
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Integer32 |
0..2147483647 |
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| CwrRfFreqRange |
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| This represents the entire radio frequency range for a wireless
radio product. The lower limit is assumed to be zero. |
| TEXTUAL-CONVENTION |
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Integer32 |
0..60000000 |
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| WirelessGauge64 |
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| This is a temporary textual convention that will be deleted
from this MIB when all references to this TC have been changed
to use 'CounterBasedGauge64' defined in RFC 2856 |
| TEXTUAL-CONVENTION |
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Counter64 |
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Defined Values
| ciscoWirelessTextualConventions |
1.3.6.1.4.1.9.9.137 |
| This module defines textual conventions used
in Cisco Wireless MIBs. |
| MODULE-IDENTITY |
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