94.6 CDMA Information Elements
|
IE Name |
Range/Unit |
Arg. |
Description |
Refined |
|
Access Channel Max Capsule Size |
0 ... 7 |
– |
Maximum number of Access Channel or Enhanced Access Channel frames in an Access Channel Message Capsule, less 3. |
|
|
Access Channel Preamble Size |
0 ... 255 |
– |
Number of frames in the Access Channel or Enhanced Access Channel preamble, less 1. |
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|
Access Initial Power Offset |
0 ... 255 |
– |
Initial power offset or adjustment used in the open loop power control procedure. |
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|
Access Max Req Seq |
0 ... 15 |
– |
Maximum number of access probe sequences for each 1x access attempt (used for regular MS origination). |
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|
Access Max Rsp Seq |
0 ... 15 |
– |
Maximum number of access probe sequences for each 1x access attempt (used in case of PACA origination). |
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|
Access Num Step |
0 ... 15 |
– |
Number of access probes in each 1x access probe sequence, less 1. |
|
|
Access Power Increment |
0 ... 255 |
– |
Open loop transmit power increment in units of 1 dB between successive access probes in an 1x access probe sequence. |
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|
Access Probe Number |
0 ... 255 |
– |
Sequence number of access probe sent during 1x access attempt. |
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|
Access Probe Sequence Number |
0 ... 255 |
– |
Sequence number of access probe sequence sent during 1x access attempt. |
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|
Active Set IEs: General remark |
The argument points to the active set member index. In case of multicarrier operation, the IEs contain the six strongest active set members from all carriers taken together. |
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|
Active Set Band Class |
Text |
1 ... 6 |
Frequency band class for each active set member. ► 3GPP2 C.S0057-B |
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|
Active Set Cell Name |
Text |
1 ... 6 |
Cell name for each active set member as defined in cell file (if available). Requires cell file. |
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|
Active Set Channel |
0 ... 1199 |
1 ... 6 |
Channel number of RF channel used by each active set member. |
✔ |
|
0 ... 24 |
– |
The number of members in the active set, whether in idle or traffic mode. In the multicarrier case, the active set members on all carriers are counted, although only the six strongest of these appear in the other Active Set elements. |
|
|
|
–157 ... 10 |
1 ... 6 |
Received signal code power for each active set member. |
✔ |
|
|
–32 ... 0 |
1 ... 6 |
Signal-to-noise ratio (Ec/I0 in dB) for each active set member. |
✔ |
|
|
Active Set |
–32 ... 0 |
– |
Total signal-to-noise ratio (Ec/I0 in dB) for all active set members. The summing is done in the mW domain. |
|
|
Active Set PN |
0 ... 511 |
1 ... 6 |
Pilot PN offset for each active set member. |
✔ |
|
–125 ... –25 |
– |
Total received signal power in the serving RF channel. |
|
|
|
Altitude (ft) |
–1312 ... 29028 |
– |
Height above sea level in feet. Reported by positioning equipment. |
✔ |
|
Altitude (m) |
–400 ... 8848 |
– |
Height above sea level in meters. Reported by positioning equipment. |
✔ |
|
Analog RSSI |
–120 ... –30 |
– |
Received signal strength indicator for AMPS. |
|
|
Analog SCC |
0 ... 255 |
– |
AMPS Supplemental Code Channel. |
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|
Analog Tx Power Level |
0 ... 7 |
– |
Transmit power level in AMPS traffic state. See ► TIA/EIA-553-A, section 2.1.2.2; ERP levels in dBW are found in table 2.1.2-1. |
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|
Base ID |
0 ... 65535 |
– |
Base ID transmitted in Layer 3 message System Parameters. |
|
|
Call Blocked Count |
0 ... 1000 |
– |
Number of "Blocked Call" events. |
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|
Call Dropped Count |
0 ... 1000 |
– |
Number of "Dropped Call" events. |
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|
Call Success Count |
0 ... 1000 |
– |
Number of "Call End" events. |
|
|
Calls Blocked (%) |
0 ... 100 |
– |
Calculated as: # blocks / where blocks = "Blocked Call" events drops = "Dropped Call" events ends = "Call End" events |
|
|
Calls Dropped (%) |
0 ... 100 |
– |
Calculated as: # drops / where blocks = "Blocked Call" events drops = "Dropped Call" events ends = "Call End" events |
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|
Candidate Set IEs: General remark |
The argument, where present, points to the candidate set member index. In case of multicarrier operation, the IEs contain the six strongest candidate set members from all carriers taken together. |
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|
Candidate Set Band Class |
Text |
1 ... 6 |
Frequency band class for each candidate set member. ► 3GPP2 C.S0057-B |
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|
Candidate Set Cell Name |
Text |
1 ... 6 |
Cell name for each candidate set member. Requires cell file. |
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|
Candidate Set Channel |
0 ... 1023 (dependent on band class) |
1 ... 6 |
Channel number of RF channel used by each candidate set member. |
✔ |
|
Candidate Set Count |
0 ... 24 |
– |
The number of candidate set members. In the multicarrier case, the candidate set members on all carriers are counted, although only the six strongest of these appear in the other Candidate Set elements. |
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|
Candidate Set Ec |
–157 ... 10 |
1 ... 6 |
Received signal code power for each candidate set member. |
✔ |
|
Candidate Set Ec/Io |
–32 ... 0 |
1 ... 6 |
Signal-to-noise ratio (Ec/I0 in dB) for each candidate set member. |
✔ |
|
Candidate Set PN |
0 ... 511 |
1 ... 6 |
Pilot PN offset for each candidate set member. |
✔ |
|
CDMA Rx State |
Text |
– |
One of: " |
|
|
Country ID |
0 ... 999 |
– |
MCC, Mobile Country Code. |
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|
Dialed Number |
Text |
– |
The number dialed to initiate the current call. Valid only while a call is in progress. |
✔ |
|
DSC Channels |
0 ... 8 |
0 ... 15 |
Data Source Control channel associated with each pilot in the Traffic Channel Assignment message. ► 3GPP2 C.S0024-A, section 8.7.6.2.2 Argument: Pilot PN index in Traffic Channel Assignment message. |
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|
EV-DO Access Failure Rate (%) |
0 ... 100 |
– |
Number of failed EV-DO access attempts divided by total number of EV-DO access attempts. |
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|
EV-DO Access Max Probe Seq |
0 ... 255 |
– |
Maximum number of access probe sequences per EV-DO access attempt. |
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|
EV-DO Access Probe Count |
0 ... 255 |
– |
Sequence number of access probe sent during EV-DO access attempt. |
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|
EV-DO Access Probe Num Step |
0 ... 255 |
– |
Number of access probes in each EV-DO access probe sequence. |
|
|
EV-DO Access Probe Seq Count |
0 ... 255 |
– |
Sequence number of access probe sequence sent during EV-DO access attempt. |
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|
EV-DO Access Result |
0 ... 3 |
– |
Result of EV-DO access attempt: 0: ACAck not received |
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|
EV-DO Active Set IEs: General remark |
The argument, where present, points to the active set member index. In case of multicarrier operation, the IEs contain the six strongest active set members from all carriers taken together. |
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|
EV-DO Active Set DRC Cover |
0 ... 7 |
1 ... 6 |
EV-DO: DRC cover for each active set member. |
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|
EV-DO Active Set DRC Lock |
Text |
1 ... 6 |
EV-DO: DRC lock status for each active set member: " |
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|
EV-DO Active Set Drop Timer Active |
0 ... 1 |
1 ... 6 |
EV-DO: Drop timer for each active set member. 0: Inactive |
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|
EV-DO Active Set Drop Timer Expired |
0 ... 1 |
1 ... 6 |
EV-DO: Drop timer status for each active set member. 0: Drop timer running |
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|
EV-DO Active Set MAC Index |
0 ... 127 |
1 ... 6 |
EV-DO: The medium access control index associated with each active set member. |
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|
EV-DO Active Set Predicted DRC |
0 ... 7 |
– |
EV-DO: DRC cover for the active set pilot currently having the best predicted SINR. |
|
|
EV-DO Active Set Predicted SINR |
–30 ... 15 |
– |
EV-DO: Predicted SINR for the active set pilot currently having the best predicted SINR. |
|
|
EV-DO Active Set RAB Usage (%) |
0 ... 100 |
1 ... 6 |
EV-DO: For each active set member, the rate of reverse activity bits during the last PN roll (16 slots), calculated as (number of ones) / 16. |
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|
EV-DO Active Set RPC Index |
0 ... 15 |
1 ... 6 |
EV-DO: Reverse power control index for each active set member. |
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|
EV-DO Active Set RPC Indication |
–1 ... 1 |
1 ... 6 |
EV-DO: For each active set member, a running average of the last 64 reverse power control bits, showing the recent trend of the power control. ► 3GPP2 C.S0024, section 9.2.1.2.4.2 |
|
|
EV-DO Active Set Serving DRC |
0 ... 7 |
– |
EV-DO: DRC cover for the current serving active set pilot. |
|
|
EV-DO Active Set Serving PN |
0 ... 511 |
– |
EV-DO: PN offset for the current serving active set pilot. |
✔ |
|
EV-DO Active Set Serving RPC |
0 ... 15 |
– |
EV-DO: RPC index for the current serving active set pilot. |
|
|
EV-DO Active Set Serving SINR |
–30 ... 15 |
– |
EV-DO: SINR for the current serving active set pilot. |
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|
EV-DO Active Set SINR |
–30 ... 15 |
1 ... 6 |
EV-DO: Signal to interference-plus-noise ratio for each active set member. |
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|
EV-DO Active Set Window Center |
0 ... 23768 |
1 ... 6 |
EV-DO: Center of search window for each active set member. Given in chip units. |
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|
0 ... 1800 |
– |
EV-DO: RRI at which the reverse link packet was transmitted. This should be ⤠"EV-DO Condition RRI (kbit/s)"; if Actual RRI < Condition RRI, then the reverse rate has been demoted, as there is not enough data to be sent. |
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|
|
0 ... 5 |
– |
EV-DO: Air Link Management Protocol state. 0: Inactive |
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|
|
EV-DO ALMP State (Text) |
Text |
– |
Same as "EV-DO ALMP State (Num)" but in text format. |
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|
0 ... 5 |
– |
EV-DO access terminal state. 0: Inactive (AT is switched to 1x or is in Deep Sleep) |
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|
|
EV-DO AT State (Text) |
Text |
– |
Same as "EV-DO AT State (Num)" but in text format. |
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|
EV-DO Attempt Duration |
0 ... 65535 |
– |
Time (in slots) taken to complete the EV-DO access attempt. |
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|
EV-DO Attempt Transaction Id |
0 ... 255 |
– |
Transaction ID of EV-DO access attempt. |
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|
EV-DO Best Pilot PN |
0 ... 511 |
– |
EV-DO: PN offset for the active set pilot currently having the best predicted SINR. |
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|
EV-DO Best SINR |
–30 ... 15 |
– |
EV-DO: Predicted SINR for the active set pilot currently having the best predicted SINR. |
✔ |
|
EV-DO Candidate Set IEs: General remark |
The argument, where present, points to the candidate set member index. In case of multicarrier operation, the IEs contain the six strongest candidate set members from all carriers taken together. |
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||
|
EV-DO Candidate Set Drop Timer Active |
0 ... 1 |
1 ... 6 |
EV-DO: Drop timer for each candidate set member. 0: Inactive |
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|
EV-DO Candidate Set Drop Timer Expired |
0 ... 1 |
1 ... 6 |
EV-DO: Status of drop timer for each candidate set member. 0: Drop timer running |
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|
EV-DO Candidate Set Window Center |
0 ... 23768 |
1 ... 6 |
EV-DO: Center of search window for each candidate set member. Given in chip units. |
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|
EV-DO Color Code |
0 ... 255 |
– |
EV-DO base station color code. |
|
|
0 ... 1800 |
– |
EV-DO reverse rate indication calculated according to the algorithm in ► 3GPP2 C.S0024, section 8.5.6.1.5.2. Compare "EV-DO Actual RRI (kbit/s)". |
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|
|
0 ... 5 |
– |
EV-DO Connected state. 0: Inactive |
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|
|
EV-DO Connected State (Text) |
Text |
– |
Same as "EV-DO Connected State (Num)" but in text format. |
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|
EV-DO Connection Failure Rate (%) |
0 ... 100 |
– |
Number of failed EV-DO connection attempts divided by total number of EV-DO connection attempts. |
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|
EV-DO DRC Rate Received (kbit/s) |
0 ... 4000 |
– |
EV-DO received downlink data rate, instantaneous value. |
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|
EV-DO DRC Rate Received Average |
0 ... 4000 |
– |
EV-DO received downlink data rate, running average. |
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|
EV-DO DRC Rate Requested (kbit/s) |
0 ... 4000 |
– |
EV-DO downlink data rate requested by terminal, instantaneous value. |
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|
EV-DO DRC Rate Requested Average |
0 ... 4000 |
– |
EV-DO downlink data rate requested by terminal, running average. |
✔ |
|
EV-DO DRC State |
Text |
– |
EV-DO DRC state: " |
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|
EV-DO Finger IEs: General remark |
The argument points to an EV-DO finger index. |
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|
EV-DO Finger Antenna Selection |
0 ... 1 |
1 ... 12 |
Antenna(s) selected for each EV-DO finger. Of interest only if the access terminal is equipped with two antennas and is enabled to use both. 0: Antenna 0 |
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|
EV-DO Finger C/I Antenna 0 |
–30 ... 15 |
1 ... 12 |
EV-DO: When antenna diversity is enabled, for each finger, the cumulative energy of all search results for antenna 0. |
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|
EV-DO Finger C/I Antenna 1 |
–30 ... 15 |
1 ... 12 |
EV-DO: When antenna diversity is enabled, for each finger, the cumulative energy of all search results for antenna 1. |
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|
EV-DO Finger Diversity Enabled |
0 ... 1 |
1 ... 12 |
State of EV-DO antenna diversity. Relevant only if the access terminal is equipped with two antennas. 0: Not enabled |
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|
EV-DO Finger Index |
1 ... 12 |
1 ... 12 |
The index of the EV-DO finger. |
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|
EV-DO Finger MSTR |
0 ... 232 – 1 |
– |
EV-DO Mobile Station Time Reference: the access terminal's current timing reference based on the sync channel time (in slots) and on the finger lock to the earliest arriving usable multipath of a pilot. Given in units of 1/8 chip. |
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|
EV-DO Finger MSTR Error |
–32767 ... 32767 |
1 ... 12 |
Finger delay for each EV-DO finger, expressed as an offset from the current MSTR. Given in units of 1/8 chip. |
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|
EV-DO Finger MSTR Pilot PN |
0 ... 511 |
– |
EV-DO: PN offset of pilot currently used as timing reference. |
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|
EV-DO Finger RPC Cell Index |
1 ... 6 |
1 ... 12 |
EV-DO RPC Cell Index. Pilots that have the same RPC bit for the AT share the same value. |
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|
EV-DO FL IEs: General remark |
The argument, where present, points to a DRC index. Arg. 0 = DRC index 0x1, etc. |
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|
EV-DO FL Bad Packet Count |
0 ... 231 – 1 |
0 ... 25 |
For each DRC index, the number of packets on the forward link received with bad CRC, accumulated over latest reporting period. |
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|
EV-DO FL Bad Packet Count (Total) |
0 ... 231 – 1 |
0 ... 25 |
For each DRC index, the number of packets on the forward link received with bad CRC, accumulated from start. |
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|
EV-DO FL Bad Packet Rate |
0 ... 100 |
0 ... 25 |
For each DRC index, the percentage of bad packets on the forward link. Given for the latest reporting period. |
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|
EV-DO FL Bad Packet Rate Multi User (Total) |
0 ... 100 |
0 ... 25 |
For each DRC index, the percentage of bad multi-user packets on the forward link, accumulated from start. |
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|
EV-DO FL Good Packet Count |
0 ... 231 – 1 |
0 ... 25 |
For each DRC index, the number of packets on the forward link received with good CRC, accumulated over latest reporting period. |
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|
EV-DO FL Good Packet Count (Total) |
0 ... 231 – 1 |
0 ... 25 |
For each DRC index, the number of packets on the forward link received with good CRC, accumulated from start. |
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|
EV-DO FL Good Packet Rate |
0 ... 100 |
0 ... 25 |
For each DRC index, the percentage of good packets on the forward link. Given for the latest reporting period. |
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|
EV-DO FL Multi Throughput (kbit/s) |
0 ... 4000 |
– |
Instantaneous EV-DO forward link throughput in the multi-user case. |
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|
EV-DO FL Packet Size |
Text |
0 ... 25 |
For each DRC index, the raw bit rate on the forward link (kbit/s). |
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|
EV-DO FL Throughput (kbit/s) |
0 ... 4000 |
– |
Instantaneous EV-DO forward link throughput. |
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|
EV-DO Hybrid Mode |
Text |
– |
Tells whether the access terminal is in hybrid mode: " |
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|
0 ... 5 |
– |
EV-DO Idle state. 0: Inactive |
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|
|
EV-DO Idle State (Text) |
Text |
– |
Same as "EV-DO Idle State (Num)" but in text format. |
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|
0 ... 5 |
– |
EV-DO Init State. 0: Inactive |
|
|
|
EV-DO Init State (Text) |
Text |
– |
Same as "EV-DO Init State (Num)" but in text format. |
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|
EV-DO Multicarrier IEs: General remark |
These elements are EV-DO Rev. B specific. The argument points to one of the carriers in use in the multicarrier configuration. In the EV-DO Rev. B specification, the use of up to three carriers is permitted; the reason for providing a fourth argument is that supported Qualcomm devices have the capability to handle four carriers (in anticipation of future EV-DO revisions). |
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|
EV-DO Multicarrier Bad Packet Count |
0 ... 16 |
1 ... 4 |
For each carrier, the number of packets on the forward link received with bad CRC, accumulated over latest reporting period. |
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|
0 ... 17 |
1 ... 4 |
Frequency band class for each carrier. ► 3GPP2 C.S0057-B |
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|
EV-DO Multicarrier Band Class (Text) |
Text |
1 ... 4 |
Same as "EV-DO Multicarrier Band Class (Num)" but in text format. |
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|
EV-DO Multicarrier Best Active Pilot PN |
0 ... 511 |
1 ... 4 |
For each carrier, PN offset for the active set pilot currently having the best predicted SINR. |
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|
EV-DO Multicarrier Best SINR |
–30 ... 15 |
1 ... 4 |
For each carrier, predicted SINR for the active set pilot currently having the best predicted SINR. |
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|
EV-DO Multicarrier Channel Numbers |
0 ... 1199 |
1 ... 4 |
RF channel number of each carrier. |
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|
EV-DO Multicarrier DRC Index (Num) |
0 ... 15 |
1 ... 4 |
DRC index on each carrier. |
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|
EV-DO Multicarrier DRC Rate (Text) |
Text |
1 ... 4 |
For each carrier, DRC rate corresponding to the DRC index. |
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|
EV-DO Multicarrier PER Instantaneous (%) |
0 ... 100 |
1 ... 4 |
Packet error rate, immediate value (no averaging). |
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|
EV-DO Multicarrier PER Long (%) |
0 ... 100 |
1 ... 4 |
Packet error rate, running average over (approximately) 600 reports. |
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|
EV-DO Multicarrier PER Short (%) |
0 ... 100 |
1 ... 4 |
Packet error rate, running average over (approximately) 60 reports. |
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|
EV-DO Neighbor Set IEs: General remark |
The argument, where present, points to the neighbor set member index. In case of multicarrier operation, the IEs contain the strongest neighbors (up to 40) from all carriers taken together. |
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|
EV-DO Neighbor Set Age |
0 ... 65535 |
1 ... 40 |
EV-DO: Age counter for each neighbor set member. ► 3GPP2 C.S0024, section 6.6.6.1.2.7 |
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|
EV-DO Neighbor Set Window Offset |
0 ... 65535 |
1 ... 40 |
EV-DO: Offset (from MSTR) of search window used for each neighbor set member. |
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|
EV-DO Neighbor Set Window Size |
0 ... 65535 |
1 ... 40 |
EV-DO: Size of search window used for each neighbor set member. |
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|
EV-DO Number Of Carriers |
0 ... 4 |
– |
EV-DO: Number of carriers in use. Greater than 1 in case of multicarrier operation. |
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|
0 ... 5 |
– |
EV-DO Overhead Message state. 0: Inactive |
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|
EV-DO OVHD Message State (Text) |
Text |
– |
Same as "EV-DO OVHD Message State (Num)" but in text format. |
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|
EV-DO PA State |
Text |
– |
State of EV-DO power amplifier: " |
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|
EV-DO PER Instantaneous (%) |
0 ... 100 |
– |
EV-DO packet error rate, immediate value (no averaging). |
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|
EV-DO PER Long (%) |
0 ... 100 |
– |
EV-DO packet error rate, running average over (approximately) 600 reports. |
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|
EV-DO PER Short (%) |
0 ... 100 |
– |
EV-DO packet error rate, running average over (approximately) 60 reports. |
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|
EV-DO Power Ratio ACK Pilot |
–20 ... 20 |
– |
EV-DO: Offset between the ACK Channel and Pilot Channel output powers. |
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|
EV-DO Power Ratio Aux Pilot |
–20 ... 20 |
– |
EV-DO: Offset between Aux Channel and Pilot Channel output powers. |
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|
EV-DO Power Ratio Data Pilot |
–20 ... 20 |
– |
EV-DO: Offset between Data Channel and Pilot Channel output powers. |
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|
EV-DO Power Ratio DRC Pilot |
–20 ... 20 |
– |
EV-DO: Offset between DRC Channel and Pilot Channel output powers. |
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|
EV-DO Power Ratio RRI Pilot |
–20 ... 20 |
– |
EV-DO: Offset between RRI Channel and Pilot Channel output powers. |
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|
EV-DO Reverse Rate AN Limit |
0 ... 1800 |
– |
EV-DO reverse link data rate limit imposed by access network (AN). |
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|
EV-DO Reverse Rate Average |
0 ... 1800 |
– |
EV-DO reverse link data rate, running average. |
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|
EV-DO Reverse Rate Current (kbit/s) |
0 ... 1800 |
– |
EV-DO reverse link data rate, instantaneous value. |
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|
EV-DO Reverse Rate PA Limit |
0 ... 1800 |
– |
EV-DO reverse link data rate limit imposed by power amplifier (PA). |
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|
EV-DO Revision |
Text |
– |
EV-DO revision: one of " |
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|
EV-DO RL IEs: General remark |
The argument, where present, points to a reverse link current rate index. |
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|
EV-DO RL Max Traffic To Pilot |
–20 ... 20 |
– |
EV-DO: Maximum offset between the Traffic Channel and Pilot Channel output powers. |
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|
EV-DO RL Packet Count (Total) |
0 ... 231 – 1 |
1 ... 5 |
For each RL current rate, the number of packets sent on the reverse link from start of logfile/since device activation. |
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|
EV-DO RL Packet Rate |
0 ... 100 |
1 ... 5 |
Percentage distribution showing the current usage of the reverse link current rates. Based on latest report. |
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|
EV-DO RL Packet Size |
Text |
1 ... 5 |
For each RL current rate, the raw bit rate on the reverse link. |
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|
EV-DO RL Throughput (kbit/s) |
0 ... 1800 |
– |
Instantaneous EV-DO reverse link throughput. |
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|
EV-DO RLP RX Duplicate Bytes |
0 ... 232 – 1 |
– |
EV-DO: Number of received duplicate frames. |
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|
0 ... 4 |
– |
EV-DO Route Update Protocol state. 0: Inactive |
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|
EV-DO Route Update State (Text) |
Text |
– |
Same as "EV-DO Route Update State (Num)" but in text format. |
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|
EV-DO Rx Power |
–120 ... 10 |
– |
EV-DO received signal power. |
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|
EV-DO Session Failure Rate (%) |
0 ... 100 |
– |
Number of failed EV-DO session attempts divided by total number of EV-DO session attempts. |
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|
EV-DO Session Full UATI |
Text |
– |
EV-DO: Full (128-bit) Unicast Access Terminal Identifier allocated to the access terminal. |
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|
EV-DO Session RATI |
0 ... 255 |
– |
EV-DO: Random Access Terminal Identifier allocated to the terminal. |
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EV-DO Session Result |
0 ... 1 |
– |
Success or failure of EV-DO session attempt, as indicated by the AN giving the AT a UATI assignment or not. 0: Failure |
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|
0 ... 5 |
– |
EV-DO session state. 0: Closed |
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|
EV-DO Session State (Text) |
Text |
– |
Same as "EV-DO Session State (Num)" but in text format. |
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|
EV-DO Session Transaction ID |
0 ... 255 |
– |
EV-DO: Transaction ID sent in UATIRequest message. ► 3GPP2 C.S0024, section 5.3.7.2.1 |
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|
EV-DO Session UATI Color Code |
0 ... 255 |
– |
EV-DO: UATI Color Code sent in UATIAssignment message. The AN sets this field to the Color Code associated with the subnet to which the UATI belongs. ► 3GPP2 C.S0024, section 5.3.7.2.2 |
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|
Text: "0000" ... "FFFF" |
1 ... 8 |
EV-DO: List of active UATIs (Unicast Access Terminal Identifiers), given as 32-bit values (lowest 4 bytes of full UATI). Argument: Sequence number. |
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|
EV-DO UATI (Num) |
0 ... 65535 |
1 ... 8 |
Same as "EV-DO UATI (Hex)" but in decimal format. |
|
|
EV-DO UATI Count |
0 ... 8 |
– |
EV-DO: Number of active UATIs. |
|
|
F-DCCH Bitrate (kbit/s) |
0 ... 162600 |
– |
Forward link DCCH bit rate configuration. |
|
|
F-DCCH Enabled |
Text |
– |
State of forward link DCCH: " |
|
|
F-DCCH Frame Length (bits) |
0 ... 65535 |
– |
Number of bits in a forward link DCCH physical layer frame. |
|
|
F-DCCH Frame Size (ms) |
Text |
– |
Forward link DCCH frame size in milliseconds. |
|
|
F-DCCH MUX PDU |
Text |
– |
Forward link DCCH MUX PDU type. ► 3GPP2 C.S0003-A, section 2.2.1.1 |
|
|
F-DCCH Radio Configuration |
1 ... 9 |
– |
Forward link DCCH Radio Configuration as specified in ► 3GPP2 C.S0002-A, table 3.1.3.1-1. |
|
|
FER DCCH (%) |
0 ... 100 |
– |
Frame erasure rate on the DCCH (Digital Control Channel). |
|
|
FER FCH (%) |
0 ... 100 |
– |
Frame erasure rate on the FCH (Fundamental Channel). |
|
|
FER SCH0 (%) |
0 ... 100 |
– |
Frame erasure rate on the SCH0 (Supplemental Channel 0). |
|
|
FER SCH1 (%) |
0 ... 100 |
– |
Frame erasure rate on the SCH1 (Supplemental Channel 1). |
|
|
FER Total (%) |
0 ... 100 |
– |
Frame erasure rate calculated over all forward channels. |
✔ |
|
F-FCH Bitrate (kbit/s) |
0 ... 162600 |
– |
Forward link FCH bit rate configuration. |
|
|
F-FCH Frame Length (bits) |
0 ... 65535 |
– |
Number of bits in a forward link FCH physical layer frame. |
|
|
F-FCH Frame Size (ms) |
Text |
– |
Forward link FCH frame size in milliseconds. |
|
|
F-FCH MUX PDU |
Text |
– |
Forward link FCH MUX PDU type. ► 3GPP2 C.S0003-A, section 2.2.1.1 |
|
|
F-FCH Radio Configuration |
1 ... 9 |
– |
Forward link FCH radio configuration as specified in ► 3GPP2 C.S0002-A, table 3.1.3.1-1. |
|
|
F-FCH Rate |
0 ... 15 |
– |
Forward link FCH rate bitmask. A combination of: 0x01 (Full Rate allowed), |
|
|
0 ... 2 |
– |
Forward link FCH traffic type; one of: 0: No forward traffic |
|
|
|
F-FCH Traffic Type (Text) |
Text |
– |
Same as "F-FCH Traffic Type (Num)" but in text format. |
|
|
Finger IEs: General remark |
The argument, where present, points to a finger index. |
|
||
|
Finger Count |
0 ... 12 |
– |
Number of valid fingers. |
|
|
Finger Delay Delta (chips) |
2 ... 512 |
1 ... 12 |
The position of each finger (in chips) relative to the earliest finger arrived. |
|
|
Finger Delta (ms) |
0 ... 65535 |
1 ... 12 |
Time delta between the earliest finger and each of the other fingers. |
|
|
Finger Energy (dB) |
–32 ... 15 |
1 ... 12 |
Signal-to-noise ratio for each finger: equal to Ec/I0 for 1x fingers; equal to SINR for EV-DO fingers. |
|
|
Finger Energy Sum (dB) |
–64 ... 10 |
– |
Total signal-to-noise ratio for all fingers, instantaneous value: Ec/I0 for 1x fingers, SINR for EV-DO fingers. |
✔ |
|
Finger Pilot PN |
0 ... 511 |
1 ... 12 |
Pilot PN for each finger. |
|
|
Finger Reference |
1 ... 12 |
– |
Index of the earliest finger. |
|
|
Finger RTC Offset (1/8 chip) |
0 ... 232 – 1 |
1 ... 12 |
Real Time Clock offset for each finger. |
|
|
Finger Status |
Text |
1 ... 12 |
Status of each finger: a combination of " |
|
|
Firmware Version |
Text |
– |
Version number of device firmware. |
|
|
FPC F-DCCH Setpoint Avg |
0 ... 255 |
– |
The current outer loop estimation Eb/I0 setpoint of the forward link DCCH in units of 0.125 dB. |
|
|
FPC F-FCH Setpoint Avg |
0 ... 255 |
– |
The current outer loop estimation Eb/I0 setpoint of the forward link FCH in units of 0.125 dB. |
|
|
FPC F-SCH0 Setpoint Avg |
0 ... 255 |
– |
The current outer loop estimation Eb/I0 setpoint of the forward link SCH0 in units of 0.125 dB. |
|
|
Frame Offset |
0 ... 15 See Description |
– |
A time skewing of Traffic Channel frames from System Time in integer multiples of 1.25 ms. The maximum frame offset is 15 |
|
|
F-SCH Rate |
0 ... 5 |
– |
Forward link SCH rate. 0: 1X |
|
|
F-SCH0 Bitrate (kbit/s) |
0 ... 162600 |
– |
F-SCH0 channel bit rate configuration. |
|
|
F-SCH0 Enabled |
Text |
– |
State of F-SCH0 channel: " |
|
|
F-SCH0 Frame Length (bits) |
0 ... 65535 |
– |
Number of bits in an F-SCH0 physical layer frame. |
|
|
F-SCH0 MUX PDU |
Text |
– |
F-SCH0 MUX PDU type. ► 3GPP2 C.S0003-A, section 2.2.1.1 |
|
|
F-SCH0 Radio Configuration |
1 ... 9 |
– |
F-SCH0 Radio Configuration as specified in ► 3GPP2 C.S0002-A, table 3.1.3.1-1. |
|
|
Text |
– |
Device model. |
|
|
|
Text |
– |
ESN, Electronic Serial Number. |
|
|
|
Heading (deg) |
0 ... 360 |
– |
Direction of travel measured in degrees clockwise from north. Reported by positioning equipment. |
|
|
Latitude |
–90 ... 90 |
– |
Latitude recorded by positioning equipment. |
✔ |
|
Latitude (Text) |
Text |
– |
Latitude as text. For the presentation format, see TR section "Data". |
✔ |
|
Latitude Decimal Degrees (Text) |
Text |
– |
Latitude in decimal degrees, presented as text. |
|
|
Longitude |
–180 ... 180 |
– |
Longitude recorded by positioning equipment. |
✔ |
|
Longitude (Text) |
Text |
– |
Longitude as text. For the presentation format, see TR section "Data". |
✔ |
|
Longitude Decimal Degrees (Text) |
Text |
– |
Longitude in decimal degrees, presented as text. |
|
|
Mobile Identity Number |
Text |
– |
Mobile Identity Number of the device. |
|
|
Mode |
Text |
– |
Same as ""Mode (Num)"" but in text format: " |
✔ |
|
1 ... 7 |
– |
1: No service |
✔ |
|
|
1 ... 9 |
– |
Relevant values: 3: CDMA (1x) For the full set of values, see the "Mode - System" element under WCDMA. |
✔ |
|
|
Mode - System (Text) |
Text |
– |
Same as ""Mode - System"" but in text format. |
|
|
Text |
– |
Qualcomm chipset family. |
|
|
|
Neighbor Set IEs: General remark |
The argument, where present, points to the neighbor set member index. In case of multicarrier operation, the IEs contain the strongest neighbors (up to 40) from all carriers taken together. |
|
||
|
Neighbor Set Band Class |
Text |
1 ... 40 |
Frequency band class for each neighbor set member. ► 3GPP2 C.S0057-B |
|
|
Neighbor Set Cell Name |
Text |
1 ... 40 |
Cell name for each neighbor set member. Requires cell file. |
✔ |
|
Neighbor Set Channel |
0 ... 1199 |
1 ... 40 |
Channel number of RF channel used by each neighbor set member. |
✔ |
|
Neighbor Set Count |
0 ... 80 |
– |
The number of neighbor set members. In the multicarrier case, the neighbor set members on all carriers are counted, although only the strongest of these (up to 40) appear in the other Neighbor Set elements. |
|
|
Neighbor Set Ec |
–157 ... 10 |
1 ... 40 |
Received signal code power for each neighbor set member. |
✔ |
|
Neighbor Set Ec/Io |
–32 ... 0 |
1 ... 40 |
Signal-to-noise ratio (Ec/I0 in dB) for each neighbor set member. |
✔ |
|
Neighbor Set PN |
0 ... 511 |
1 ... 40 |
Pilot PN offset for each neighbor set member. |
✔ |
|
0 ... 65535 |
– |
Network Identification (NID). |
|
|
|
Network ID (Hex) |
Text: "0000" ... "FFFF" |
– |
Same as "Network ID" but in hexadecimal format. |
✔ |
|
Number Of DSC Channels |
0 ... 15 |
– |
Number of DSC (Data Source Control) channels currently in use. |
|
|
Pilot PN Increment |
1 ... 15 |
– |
Inter-sector pilot PN increment used by the AN in assigning PN offsets to sectors. |
|
|
Pilot Set IEs: General remark |
The argument, where present, points to the pilot set member index. In case of multicarrier operation, the IEs contain the strongest pilots (up to 52) from all carriers taken together. |
|
||
|
Pilot Set Band Class |
Text |
1 ... 52 |
Frequency band class for each pilot set member. ► 3GPP2 C.S0057-B |
|
|
Pilot Set Cell Name |
Text |
1 ... 52 |
Cell name for each pilot set member. Requires cell file. |
|
|
Pilot Set Cell Type |
Text |
1 ... 52 |
Type of pilot: " |
|
|
Pilot Set Channel |
0 ... 1199 |
1 ... 52 |
Channel number of RF channel used by each pilot. |
|
|
Pilot Set Count |
0 ... 128 |
– |
Total number of pilots in active, candidate, and neighbor sets. In the multicarrier case, the pilot set members on all carriers are counted (up to 6 [A] + 6 [C] + 20 [N] = 32 pilots on each carrier), although only the strongest of these (up to 52) appear in the other Pilot Set elements. |
|
|
Pilot Set Ec |
–157 ... 10 |
1 ... 52 |
Received signal code power for each pilot set member. |
|
|
Pilot Set Ec/Io |
–32 ... 0 |
1 ... 52 |
Signal-to-noise ratio for each pilot set member. |
|
|
Pilot Set PN |
0 ... 511 |
1 ... 52 |
PN offset for each pilot set member. |
|
|
0 ... 7 |
– |
Base station protocol revision (P-Rev). |
|
|
|
Protocol Revision - Base (Text) |
Text |
– |
Same as ""Protocol Revision - Base (Num)"" but in text format. |
|
|
0 ... 7 |
– |
Device protocol revision (P-Rev). |
|
|
|
Protocol Revision - Mobile (Text) |
Text |
– |
Same as ""Protocol Revision - Mobile (Num)"" but in text format. |
|
|
0 ... 7 |
– |
Protocol revision (P-Rev) negotiated between phone and base station. |
|
|
|
Protocol Revision In Use (Text) |
Text |
– |
Same as ""Protocol Revision In Use (Num)"" but in text format. |
|
|
R-DCCH Bitrate (kbit/s) |
0 ... 162600 |
– |
Reverse link DCCH bit rate configuration. |
|
|
R-DCCH Enabled |
Text |
– |
State of reverse link DCCH: " |
|
|
R-DCCH Frame Length (bits) |
0 ... 65535 |
– |
Number of bits in a reverse link DCCH physical layer frame. |
|
|
R-DCCH MUX PDU |
Text |
– |
Reverse link DCCH MUX PDU type. ► 3GPP2 C.S0003-A, section 2.2.1.1 |
|
|
R-DCCH Radio Configuration |
1 ... 9 |
– |
Reverse link DCCH radio configuration as specified in ► 3GPP2 C.S0002-A, table 3.1.3.1-1. |
|
|
Text |
– |
For Analog and CDMA: "
For EV-DO: "
|
✔ |
|
|
0 ... 13 |
– |
"RF Mode" mapped to an integer. 0: Analog, Init |
✔ |
|
|
R-FCH Bitrate (kbit/s) |
0 ... 162600 |
– |
Reverse link FCH bit rate configuration. |
|
|
R-FCH Frame Length (bits) |
0 ... 65535 |
– |
Number of bits in a reverse link FCH physical layer frame. |
|
|
R-FCH MUX PDU |
Text |
– |
Reverse link FCH MUX PDU type. ► 3GPP2 C.S0003-A, section 2.2.1.1 |
|
|
R-FCH Radio Configuration |
1 ... 9 |
– |
Reverse link FCH radio configuration as specified in ► 3GPP2 C.S0002-A, table 3.1.3.1-1. |
|
|
R-FCH Rate |
0 ... 15 |
– |
Reverse link FCH rate bitmask. A combination of: 0x01 (Full Rate allowed), |
|
|
0 ... 2 |
– |
Reverse link FCH traffic type; one of: 0: No reverse traffic |
|
|
|
R-FCH Traffic Type (Text) |
Text |
– |
Same as "R-FCH Traffic Type (Num)" but in text format. |
|
|
RLP DL Avg. Throughput (kbit/s) |
0 ... 14500 |
– |
Averaged throughput on downlink at RLP level (16 s sliding window). Valid for both 1x and EV-DO. |
|
|
0 ... 14500 |
– |
Instantaneous throughput on downlink at RLP level. Valid for both 1x and EV-DO. |
✔ |
|
|
RLP Erasure Rate (%) |
0 ... 100 |
– |
Erasure rate at RLP level. |
|
|
RLP Retransmitted Frames Rx (%) |
0 ... 100 |
– |
Retransmitted frames on downlink at RLP level. |
|
|
RLP Retransmitted Frames Tx (%) |
0 ... 100 |
– |
Retransmitted frames on uplink at RLP level. |
|
|
0 ... 162600 |
0 ... 12 |
RLP downlink physical channel bit rate configuration. Argument: 0: FCH |
|
|
|
RLP Total Bytes Rx |
0 ... 231 |
– |
Total bytes transferred on downlink at RLP level. |
|
|
RLP Total Bytes Tx |
0 ... 231 |
– |
Total bytes transferred on uplink at RLP level. |
|
|
RLP Tx Channel Rate (kbit/s) |
0 ... 162600 |
0 ... 12 |
RLP uplink physical channel bit rate configuration. Argument: See "RLP Rx Channel Rate (kbit/s)". |
|
|
RLP UL Avg. Throughput (kbit/s) |
0 ... 2000 |
– |
Averaged throughput on uplink at RLP level (16 s sliding window). Valid for both 1x and EV-DO. |
|
|
0 ... 2000 |
– |
Instantaneous throughput on uplink at RLP level. Valid for both 1x and EV-DO. |
✔ |
|
|
R-SCH Rate |
0 ... 5 |
– |
Reverse link SCH rate. 0: 1X |
|
|
R-SCH0 Bitrate (kbit/s) |
0 ... 162600 |
– |
Reverse link SCH0 bit rate configuration. |
|
|
R-SCH0 Enabled |
Text |
– |
State of reverse link SCH0: " |
|
|
R-SCH0 Frame Length (bits) |
0 ... 65535 |
– |
Number of bits in a reverse link SCH0 physical layer frame. |
|
|
R-SCH0 MUX PDU |
Text |
– |
Reverse link SCH0 MUX PDU type. ► 3GPP2 C.S0003-A, section 2.2.1.1 |
|
|
R-SCH0 Radio Configuration |
1 ... 9 |
– |
Reverse link SCH0 Radio Configuration as specified in ► 3GPP2 C.S0002-A, table 3.1.3.1-1. |
|
|
–120 ... 10 |
– |
Received signal power (1x). |
✔ |
|
|
"Scanned 1st Freq." IEs |
PN scanning: First scanned RF channel. Argument: The sorting order within each element depends on the setting in the General window: see UM section "Sorting of Pilots". |
|||
|
Scanned 1st Freq. Band |
Text |
– |
Band class for scanned RF channel. ► 3GPP2 C.S0057-B |
✔ |
|
Scanned 1st Freq. Cell Name |
Text |
1 ... 512 |
Cell name corresponding to each scanned pilot. Requires cell file. |
|
|
Scanned 1st Freq. Channel |
0 ... 1199 |
– |
Channel number of scanned RF channel. |
✔ |
|
Scanned 1st Freq. Delay |
–3 ... 60 |
1 ... 512 |
Pilot delay in chips for each scanned pilot. See UM section "Setup of PN Scan: PCTel". |
✔ |
|
Scanned 1st Freq. Delay Spread |
0 ... 63 |
1 ... 512 |
Delay spread in chips for each scanned pilot. See UM section "Setup of PN Scan: PCTel". |
✔ |
|
–157 ... –10 |
1 ... 512 |
Received signal code power of each scanned pilot. |
✔ |
|
|
–32 ... 0 |
1 ... 512 |
Peak Ec/I0 for each scanned pilot. |
✔ |
|
|
–125 ... –25 |
– |
Total signal power in RF channel. |
|
|
|
Scanned 1st Freq. Pilot PN |
0 ... 511 |
1 ... 512 |
PN offset for each scanned pilot. |
✔ |
|
Scanned 1st Freq. Pilots Count |
0 ... 512 |
– |
Number of pilots scanned. |
|
|
PN scanning: First scanned RF channel. The strongest pilots are sorted by descending peak Ec/I0. Argument (1 ... 32): 1 means the pilot with highest peak Ec/I0, etc. |
||||
|
"Scanned 2nd (etc.) Freq." IEs |
PN scanning: Second (etc.) scanned RF channel. Argument: The sorting order within each element depends on the setting in the General window: see UM section "Sorting of Pilots". |
|||
|
"Scanned 2nd (etc.) Freq. Strongest" IEs |
PN scanning: Second (etc.) scanned RF channel. The strongest pilots are sorted by descending peak Ec/I0. Argument (1 ... 32): 1 means the pilot with highest peak Ec/I0, etc. |
|||
|
Scanned Channel |
0 ... 1199 |
1 ... 512 |
RSSI scanning: RF channel number of each RF channel scanned. Argument: 1 means the RF channel with the lowest number, etc. |
|
|
Scanned Channels Count |
0 ... 512 |
– |
RSSI scanning: The number of RF channels scanned. |
|
|
"Scanned Code Domain" IEs: General remark |
These elements pertain to code domain scanning. A separate set of IEs is provided for each scanned pilot. The sets are distinguished by the ordinal "<nth>", where n = 1 ... 12. Argument (1 ... 128): Points to a Walsh code. |
|
||
|
Scanned Code Domain Pilots Count |
0 ... 12 |
– |
Number of pilots scanned. |
|
|
Scanned Code Domain <nth> Pilot Band |
Text |
– |
Band class for scanned RF channel. ► 3GPP2 C.S0057-B |
|
|
Scanned Code Domain <nth> Pilot Cell Name |
Text |
– |
Cell name corresponding to scanned pilot. Requires cell file. |
|
|
Scanned Code Domain <nth> Pilot Channel |
0 ... 1199 |
– |
Channel number of scanned RF channel. |
|
|
0 ... 127 |
1 ... 128 |
Code number of each scanned Walsh code. |
|
|
|
Scanned Code Domain <nth> Pilot Code Count |
0 ... 128 |
– |
Number of scanned Walsh codes. |
|
|
–157 ... –10 |
1 ... 128 |
Ec for each scanned Walsh code. |
|
|
|
–32 ... 0 |
1 ... 128 |
Ec/I0 for each scanned Walsh code. |
|
|
|
Scanned Code Domain <nth> Pilot Io |
–125 ... –25 |
– |
Total signal power in RF channel. |
|
|
Scanned Code Domain <nth> Pilot PN |
0 ... 511 |
1 ... 128 |
PN offset for scanned pilot. |
|
|
–120 ... –30 |
1 ... 512 |
RSSI scanning: RSSI for each RF channel. Argument: 1 means the RF channel with the lowest number, etc. |
|
|
|
–120 ... –30 |
– |
RSSI scanning: Average RSSI over all scanned RF channels. |
|
|
|
"Scanned Strongest" IEs |
These elements contain the strongest pilots irrespective of scanned RF channel. The pilots are sorted by descending peak Ec/I0. Argument (1 ... 32): 1 means the pilot with the highest peak Ec/I0, etc. |
|||
|
Searcher State |
Text |
– |
Searcher state, e.g. " |
✔ |
|
Searcher Window A |
0 ... 15 See Description |
– |
Size of search window used for pilots in the active set. For the mapping to PN chip length, see ► IS-95, table 6.6.6.2.1-1. |
|
|
Searcher Window N |
0 ... 15 |
– |
Size of search window used for pilots in the neighbor set. |
|
|
Searcher Window R |
0 ... 15 |
– |
Size of search window used for pilots in the remaining set. ► 3GPP2 C.S0005-A, pages 1–18 |
|
|
Sector ID |
Text |
– |
Hex string containing the 128-bit sector address of the serving sector. Format: " |
|
|
Service ID |
0 ... 254 |
– |
Radio Link Protocol service ID. |
|
|
0 ... 65535 |
– |
Service Option for the current session. ► 3GPP2 C.R1001 |
|
|
|
Service Option (Text) |
Text |
– |
Same as "Service Option (Num)" but in text format. |
|
|
Slot Cycle Index |
0 ... 7 |
– |
Slot cycle index described in ► 3GPP2 C.S0005-A, section 2.6.2.1.1.3. |
|
|
Soft Handoff State |
Text |
– |
Soft handoff state. One of " |
|
|
"Spectr Ana" IEs: General remark |
These elements are obtained from spectrum analysis scanning. The same elements are used for both uplink and downlink bands. The argument, where present, is simply a sequence number pointing to scanned frequencies as indicated by the "Spectr Ana Sc Freq (kHz)" element. |
|
||
|
410,000 ... 2,689,950 |
1 ... 2560 |
Scanned frequencies in ascending order. |
|
|
|
Spectr Ana Sc No Of Freq |
0 ... 2560 |
– |
The number of frequencies swept by the scan. |
|
|
–130 ... –20 |
1 ... 2560 |
RSSI of frequencies scanned. |
|
|
|
Speech Codec COP |
0 ... 7 |
– |
Speech codec capacity operating point, indicated as a value defined in ► 3GPP2 C.S0014-E. |
|
|
Speed (km/h) |
0 ... 250 |
– |
Speed in km/h. |
✔ |
|
Speed (mph) |
0 ... 160 |
– |
Speed in mph. |
✔ |
|
SQI MOS |
1 ... 5 |
– |
SQI expressed on the MOS scale. See UM chapter "Speech Quality Index – SQI". |
✔ |
|
Station Class Mark (hex) |
Text |
– |
Defined in ► 3GPP2 C.S0005-A, section 2.3.3. |
|
|
Subnet Mask |
0 ... 255 |
– |
Sector subnet identifier. |
|
|
System ID |
0 ... 65535 |
– |
System Identification (SID) in decimal format. |
✔ |
|
System ID (Hex) |
Text: |
– |
System Identification (SID) in hexadecimal format. |
✔ |
|
–32 ... 0 |
– |
Pilot detection threshold (sign reversed). ► 3GPP2 C.S0005-A, section 2.6.6.2.6.2 |
|
|
|
T-Add (Num) |
–63 ... 0 See Description |
– |
Pilot detection threshold (expressed in units of 0.5 dB and sign reversed). ► 3GPP2 C.S0005-A, section 1.1.2.2 |
|
|
T-Comp (dB) |
0 ... 8 |
– |
Active set versus candidate set comparison threshold. ► 3GPP2 C.S0005-A, section 2.6.6.2.5.2 |
|
|
T-Comp (Num) |
0 ... 15 See Description |
– |
Active set versus candidate set comparison threshold (expressed in units of 0.5 dB). |
|
|
–32 ... 0 |
– |
Pilot drop threshold (sign reversed). ► 3GPP2 C.S0005-A, section 2.6.6.2.3 |
|
|
|
T-Drop (Num) |
–63 ... 0 See Description |
– |
Pilot drop threshold (expressed in units of 0.5 dB and sign reversed). |
|
|
T-TDrop (Num) |
0 ... 15 See Description |
– |
Drop timer value, mapped to an integer value according to ► 3GPP2 C.S0005-A v6.0, table 2.6.6.2.3-1. |
|
|
T-TDrop (sec) |
Text ("0.1 s"... "319 s") |
– |
Drop timer value in seconds. ► 3GPP2 C.S0005-A v6.0, table 2.6.6.2.3-1 |
|
|
Tx Adjust |
–128 ... 127 |
– |
Tx Adjust power control parameter. Valid for both 1x and EV-DO. Equal to Closed Loop Adjust parameter when in EV-DO mode. |
|
|
Tx Open Loop Power |
–127 ... 36 |
– |
Tx Open Loop Power parameter. Valid for both 1x and EV-DO. |
|
|
Tx Pilot Power |
–127 ... 36 |
– |
Tx Pilot Power parameter. Valid for both 1x and EV-DO. |
|
|
Tx Power |
–127 ... 36 |
– |
Tx Power parameter. Valid for both 1x and EV-DO. |
✔ |