Altitude (ft)

–1312 ... 29028
ft

–

p

Height above sea level in feet.

AMR Active Set DL

Text

0 ... 3

Current active set of AMR speech codecs on downlink, each codec being described by a text string, e.g. "12.2 kbit/s rate".

Argument: 0 gives the first member of the active set, etc.

AMR Codec Call DL (%)

0 ... 100
%

0 ... 16

Distribution of downlink AMR codec usage for the current call.

Invalid if no call is ongoing.

Argument: Indicates the AMR codec. See also ► 3GPP 26.071, 26.190.

0: AMR-NB 12.2 kbit/s
1: AMR-NB 10.2 kbit/s
2: AMR-NB 7.95 kbit/s
3: AMR-NB 7.40 kbit/s
4: AMR-NB 6.70 kbit/s
5: AMR-NB 5.90 kbit/s
6: AMR-NB 5.15 kbit/s
7: AMR-NB 4.75 kbit/s
8: AMR-WB 6.60 kbit/s
9: AMR-WB 8.85 kbit/s
10: AMR-WB 12.65 kbit/s
11: AMR-WB 14.25 kbit/s
12: AMR-WB 15.85 kbit/s
13: AMR-WB 18.25 kbit/s
14: AMR-WB 19.85 kbit/s
15: AMR-WB 23.05 kbit/s
16: AMR-WB 23.85 kbit/s

AMR Codec Cell DL (%)

0 ... 100
%

0 ... 16

Distribution of downlink AMR codec usage since the device started using the current serving cell.

Argument: See "AMR Codec Call DL (%)".

AMR Codec Usage DL (%)

0 ... 100
%

0 ... 3

Current distribution of downlink AMR codec usage across the active set being used.

Argument: 0 gives the first member of the active set, etc., the members being ordered as in "AMR Active Set DL".

AMR Hysteresis

0 ... 15

1 ... 3

Hysteresis values in AMR mode switch mechanism.

Argument: One hysteresis value for each possible mode transition (a maximum of four AMR codecs can be active simultaneously).

ARFCN BCCH

0 ... 1023

–

Absolute Radio Frequency Channel Number of Broadcast Control Channel.

GSM 450: 259 ... 293
GSM 850: 128 ... 251
P-GSM 900: 1 ... 124
E-GSM 900: 0 ... 124, 975 ... 1023
GSM 1800: 512 ... 885
GSM 1900: 512 ... 810

ARFCN TCH

0 ... 1023

–

h–

Absolute Radio Frequency Channel Number of Traffic Channel.

Valid only in dedicated mode and only for channels where no frequency hopping is used.

Band Control

0, 2

–

Use of band control function in device. See UM section "Band Lock".

0: Not activated
2: Activated

BER/Timeslot (%)

0 ... 26
%

0 ... 7

g
hs

Bit error rate for each used timeslot. Valid for data services only.

Argument: 0 represents the first used timeslot (not TS 0), etc.

BSIC

Text

–

Base Station Identity Code as text string.

C Value

0 ... 63
GSM RxLev units

–

Normalized signal level received at the MS (normalization with running average filter).

C/I Best

–5 ... 35
dB

0 ... 511
(8·64–1)

g+
hs+
h+

For PCTel scanners, one C/I value is obtained for each channel scanned.

Argument: 0 gives the C/I of the best channel, 1 gives that of the second best, etc.

C/I Best:
Timeslot

0 ... 7

0 ... 511
(8·64–1)

g
hs
h+

For multislot allocations: Timeslot list corresponding to the "C/I Best" element.

Argument: 0 gives the timeslot of the channel with the best C/I, etc.

C/I Hopping
List

–5 ... 35
dB

0 ... 63

g+
hs+
hc+

C/I values (unsorted) for the channels in the hopping list. For multislot channels, the mean value across all used timeslots is given.

Argument: 0 gives the C/I of the first channel in the hopping list, etc.

C/I On BCCH Carrier

–5 ... 35
dB

–

C/I on the current BCCH.

If frequency hopping is used, then if the BCCH is used as hopping frequency, the C/I for that channel is reported.

If frequency hopping is not used, then if the BCCH is equal to the TCH, the C/I for that channel is reported.

Invalid otherwise.

C/I Worst: ARFCN

0 ... 1023

0 ... 511
(8·64–1)

g+
hs+
h+

ARFCN list corresponding to the "C/I Worst" element.

For Nokia UEs, the BCCH ARFCN is given at argument 0.

Argument: 0 gives the ARFCN of the channel having the worst C/I, etc.

C1

–127 ... 127
dB

–

Pathloss criterion C1. ► 3GPP 45.008, section 6.4

Valid only in idle mode.

C31

–127 ... 127
dB

–

g

GPRS signal strength threshold criterion C31. ► 3GPP 45.008, section 10.1.2

Valid both in packet idle and packet dedicated mode.

Cell EGPRS Support

Text:
"Yes"/"No"

–

EDGE supported/not supported in the cell. This information is available also to non-EDGE devices.

Cell Id

0 ... 65535

–

Cell Identity. Equal to the 16-bit C-Id in ► 3GPP 25.401, section 6.1.5.

Cell Name

Text

–

c

Name of serving cell.

Requires cell file.

Calculated using a number of different algorithms: see "Cell Name Algorithm".

Cell Reselection RxLev Min (dBm)

–120 ... –10
dBm

–

Minimum received signal level at the UE required for access to the system: RXLEV_ACCESS_MIN in ► 3GPP 45.008, section 6.4.

CGI

Text

–

Cell Global Identity. Consists of Mobile Country Code, Mobile Network Code, Location Area Code and Cell Identity. Presented on the format "MCC MNC LAC CI".

Channel Mode

Text

–

Activity on channel: Signaling only, speech transmission, or data transmission.

Channel RxLev (dBm)

–120 ... –10
dBm

0 ... 1023

Same as "Channel RxLev" but in dBm.

Argument = ARFCN.

Ciphering Algorithm

Text

–

Currently used ciphering (A5/1, A5/2, GEA/1, etc.), for packet-switched or circuit-switched. ► 3GPP 43.020

Coding Scheme DL

Text

–

g

Modulation coding scheme used on downlink.

EDGE: One of:
"MCS-1" ... "MCS-9",
"MCS-5-7",
"MCS-6-9",
"MCS-3 (pad)",
"MCS-6 (pad)".

MCS-5-7 and MCS-6-9 are explained in ► 3GPP 44.060.

"(pad)" means that an RLC block is retransmitted using MCS-3 and MCS-6 respectively.

GPRS: One of
"CS-1" ... "CS-4".

Coding Scheme DL Usage (Total) (%)

0 ... 100
%

1 ... 4

g

Distribution of coding scheme usage on downlink (overall, not limited to own data).

Argument: 1 means CS-1, etc.

Control Ack Type

Text

–

Control Ack Type parameter in System Information. ► 3GPP 44.060, sections 9.3, 9.5

Current CS DL

1 ... 4

–

g

Coding scheme currently used on downlink.

Current MCS DL

1 ... 9

–

g

Modulation coding scheme currently used on downlink.

Data Mode

Text

–

Indicates whether the data transfer is performed over GPRS, EGPRS, or circuit-switched.

Downlink Signalling Counter Current

0 ... 45

–

Current value of Downlink Signalling Counter (DSC).

Valid only in idle mode.

DTX Rate DL

0 ... 100
%

–

g–

Use of DTX on downlink. Calculated as the percentage of the total number of blocks that was not sent.

Two mandatory blocks are always sent even if DTX is used: one TCH (with SID information) and one SACCH.

Non-existent for packet-switched (no DTX).

EGPRS BEP (Variance)

0 ... 7

See Description

–

Variance of bit error probability as reported in the Layer 3 message EGPRS Packet Downlink Ack/Nack.

Coded according to the table in ► 3GPP 45.008, section 8.2.5.

EGPRS Window Size DL

64 ... 1024
RLC blocks

–

Retransmission buffer size on downlink (RLC protocol level).

Equipment Time

Text

–

Time as reported in device timestamp. Given in the format "hh:mm:ss.ddd", where "ddd" = decimal seconds.

FER Full (%)

0 ... 100
%

–

Frame erasure rate, Full value. Calculated as the percentage of the total number of blocks that was erased.

A block is erased when the parity check (CRC) fails.

Firmware Version

Text

–

Version number of device firmware.

Forced Multislot Class

0, 2

–

g

Use of GPRS multislot class forcing function in device.

0: Not activated
2: Activated

Not supported by any currently connectable devices.

Frequency Band

Text

–

Frequency band of BCCH carrier, e.g. "850", "1800", "900E", "900R".

Frequency Band For TCH

Text

–

Frequency band of current traffic channel or channels, e.g. "850", "1800", "900E", "900R".

GPRS Multislot Class

1 ... 34

–

g

GPRS multislot class according to ► 3GPP 45.002.

GSM RACH Max Retransmission Count

Text

–

RACH control parameter "Maximum number of retransmissions". ► 3GPP 44.018, section 10.5.2.29

Hardware

Text

–

Device model.

Heading (deg)

0 ... 360
degrees

–

p

Direction of travel measured in degrees clockwise from north.

Hopping List

Text

–

h

ARFCNs of the channels in the hopping frequency list, for example "1, 10, 19, 28".

Idle Channel Quality

0, 2

–

Use of idle mode RxQual measurement function in device.

0: Not activated
2: Activated

Not supported by any currently connectable devices.

Interference Measured ARFCN

0 ... 1023

–

si

The ARFCN scanned for interferers during interference scanning.

(Interference scanning is no longer supported by any connectable devices.)

LAC

0 ... 65535

–

Location Area Code.

Latitude

–90 ... 90
degrees

–

p

Latitude recorded by positioning equipment.

Latitude Decimal Degrees (Text)

Text

–

p

Latitude in decimal degrees, presented as text.

LLC Bytes Sent UL

0 ... 2 · 109
bytes

–

g

Number of bytes sent at the LLC protocol level since PS attach.

Longitude (Text)

Text

–

p

Longitude as text. For the presentation format, see TR section "Data".

MAC Mode DL

0 ... 3

–

g

Type of GPRS connection on downlink:

0: Dynamic Allocation
1: Extended Dynamic Allocation
2: Fixed Allocation, not half duplex mode
3: Fixed Allocation, half duplex mode

MAC Mode UL

0 ... 3

–

g

Type of GPRS connection on uplink. See "MAC Mode DL".

MAIO

0 ... 63

–

h

Mobile Allocation Index Offset. Indicates where in the hopping frequency list to start. Valid only if frequency hopping is used. ► 3GPP 45.002

MCS-n DL Usage (Own Data) (%),
n = 1 ... 9

0 ... 100
%

0 ... 7

These elements contain the distribution of modulation coding scheme usage (on the downlink and for own data only) for each timeslot.

Argument: 0 represents the first used timeslot (not TS 0), etc.

MNC

000 ... 999

–

Mobile Network Code. May consist of two or three digits.

Mode (Num)

1 ... 7

–

1: No service
2: Idle mode
3: Dedicated mode
4: Limited service mode
5: Scan mode
6: Packet mode
7: Packet Idle mode

Mode - System (Text)

Text

–

Same as "Mode - System" but in text format.

Modulation UL

Text

–

Type of modulation on uplink.

MS Power Control Level

0 ... 31

See Description

–

UE transmit power ordered by the base station, mapped to a number between 0 and 31 according to the tables in ► 3GPP 45.005, section 4.1.1. Valid only in dedicated mode.

Multiband Reporting

0, 2

–

Not used; the feature has been removed from TEMS Investigation. The element is retained in order to maintain compatibility with old logfiles.

Neighbor ARFCN

0 ... 1023

1 ... 32

ARFCNs of neighbor cells, sorted by ARFCN.

Neighbor BSIC

Text

1 ... 32

Base Station Identity Codes for neighbor cells (in text format), sorted by ARFCN.

Neighbor BSIC (Sorted)

Text

1 ... 32

Base Station Identity Codes for neighbor cells (in text format), sorted by signal strength.

Neighbor C1

–127 ... 127
dB

1 ... 32

Pathloss parameter C1 for neighbor cells, sorted by ARFCN. ► 3GPP 45.008, section 6.4

Neighbor C2

–127 ... 127
dB

1 ... 32

Cell reselection parameter C2 for neighbor cells, sorted by ARFCN. ► 3GPP 45.008, section 6.4

Neighbor C31

–127 ... 127
dB

1 ... 32

g

GPRS signal strength threshold criterion C31 for neighbor cells, sorted by ARFCN. ► 3GPP 45.008, section 10.1.2

Neighbor C32

–127 ... 127
dB

1 ... 32

g

GPRS cell ranking criterion C32 for neighbor cells, sorted by ARFCN. ► 3GPP 45.008, section 10.1.2

Neighbor Cell Id

0 ... 65535

1 ... 32

Cell identities of neighbor cells, sorted by ARFCN. Decimal format.

Neighbor Cell Id (Hex)

Text: "0000" ... "FFFF"

1 ... 32

Cell identities of neighbor cells, sorted by ARFCN. Hexadecimal format.

Neighbor Cell Name

Text

1 ... 32

c

Names of neighbor cells, sorted by ARFCN.

Requires cell file.

Neighbor Cell Name Algorithm

1 ... 6

1 ... 32

c

Indicates, for each neighbor cell, the input used by the algorithm determining the neighbor cell name, and the result of the cell search (where applicable):

1: MCC, MNC, LAC, CI used.

2: BSIC, ARFCN, and position information used. Unique cell found matching the parameters within a 35 km radius.

3: BSIC, ARFCN, and position information used. Several matching cells found within a 35 km radius, closest cell selected.

4: Serving cell found with the method denoted by "Cell Name Algorithm" = 1; this neighbor identified as a cell appearing in the serving cell's neighbor list and having matching BSIC and ARFCN.

5: Serving cell found with the method denoted by "Cell Name Algorithm" = 2; this neighbor identified as a cell appearing in the serving cell's neighbor list and having matching BSIC and ARFCN.

6: Serving cell found with the method denoted by "Cell Name Algorithm" = 3; this neighbor identified as a cell appearing in the serving cell's neighbor list and having matching BSIC and ARFCN.

Neighbors are sorted by ARFCN.

Requires cell file.

Neighbor LAC

0 ... 65535

1 ... 32

Location Area Codes for neighbor cells, sorted by ARFCN. Decimal format.

Neighbor LAC (Hex)

Text: "0000" ... "FFFF"

1 ... 32

Location Area Codes for neighbor cells, sorted by ARFCN. Hexadecimal format.

Neighbor RxLev

–10 ... 100
GSM RxLev units

1 ... 32

Received signal strength of neighbors, sorted by ARFCN.

Neighbor RxLev (dBm)

–120 ... –10
dBm

1 ... 32

Same as "Neighbor RxLev" but in dBm.

Neighbor (SI) ARFCN

Text

–

s

Neighbor list (obtained from System Information) of strongest cell scanned.

The list is given in text format, for example: "[ARFCN: 17, BSIC: 3‑2] 7, 18, 32". The data within square brackets pertains to the strongest cell, and the neighbor ARFCNs follow.

Network Mode Of Operation

Text

–

g

Handling of paging in the network.

I: All paging on GPRS channels; Gs signaling interface present

II: All paging on PCH; no Gs

III: All circuit-switched paging on PCH, all packet-switched paging on PPCH; no Gs.

Number Of Used Timeslots DL

0 ... 8

–

g
hs

Number of timeslots in use on downlink.

PBCCH Timeslot

0 ... 7

–

g

Timeslot used for PBCCH/PCCCH, if any.

PDCH Utilization Control DL (%)

0 ... 100
%

0 ... 7

g

Percentage of downlink PDCH capacity currently used for control signaling, or not used at all.

PDCH Utilization Other Data DL (%)

0 ... 100
%

0 ... 7

g

Percentage of the downlink PDCH capacity currently used for other users' data.

PDCH Utilization Own Data UL (%)

0 ... 100
%

0 ... 7

g

Percentage of the available uplink PDCH capacity currently used for own data.

PDP IEs: General remark

PDP Address

Text

1 ... 11

g

User address (IPv4/IPv6).

PDP Contexts Active

0 ... 11

–

g

Number of active PDP contexts.

PDP LLC SAPI

3 ... 11

1 ... 11

g

LLC Service Access Point Identifier.

PDP NSAPI

5 ... 15

1 ... 11

g

Network SAPI (Service Access Point Identifier).

PDP Precedence Class

Text

1 ... 11

g

Precedence class as defined by subscription.

PDP Reliability Class

Text

1 ... 11

g

Reliability class as defined by subscription.

Prevent Serving Cell List

0, 2

–

Use of "prevent cell selection" function in device (camping on selected cells prevented in idle mode). See UM sections "Cell Lock", .

0: Not activated
2: Activated

P-TMSI

0 ... 232 – 1

–

g

Packet TMSI (Temporary Mobile Subscriber Identity). ► 3GPP 23.003

Q Search Power

Text

–

g

GPRS signal level criterion governing when to search for 3G cells (e.g. "Above –74 dBm", "Below –54 dBm", "Always", "Never"). ► 3GPP 45.008, section 10.4

RAC (Hex)

Text:
"00" ... "FF"

–

g

Same as "RAC", but coded as hexadecimal.

Radio Link Timeout Max

4, 8, ..., 64

–

Initial value of Radio Link Timeout counter. ► 3GPP 45.008, section 5.2

Valid only in dedicated mode.

RLA_P (dBm)

–120 ... –10
dBm

–

g

Same as "RLA_P" but in dBm.

RLC BLER UL (%)

0 ... 100
%

–

g

Percentage of RLC data blocks resent on uplink.

RLC Block Dump IEs

Text

0 ... 23

g

RLC/MAC block header as hex string (e.g. "80 1a 20"), for both data and control blocks.

One element for each timeslot on downlink and uplink.

Used for text-format logfile export only.

Argument: Points to an individual GPRS radio block.

RLC Block Type IEs

Text

0 ... 23

g

RLC/MAC block type as string.

Downlink: "Data Block to this MS", "Data Block to other MS", or "Control Block".

Uplink: "Allowed but no data sent", "Data Block sent", "Control Block sent", or "Forbidden".

One element for each timeslot on downlink and uplink.

Used for text-format logfile export only.

Argument: Points to an individual GPRS radio block.

RLC Bytes Sent UL

0 ... 2 · 109
bytes

–

g

Number of bytes sent at the RLC protocol level since GPRS attach.

RLC Throughput DL (kbit/s)

0 ... 384
kbit/s

–

g

Data throughput (including protocol headers, but excluding retransmissions) on downlink at RLC protocol level.

RLC Throughput UL (kbit/s)

0 ... 384
kbit/s

–

g

Data throughput (including protocol headers, but excluding retransmissions) on uplink at RLC protocol level.

RxLev Full

–10 ... 100
GSM RxLev units

–

Received signal strength (Full value) expressed in GSM RxLev units.

RxLev Full In Service

–10 ... 100
GSM RxLev units

–

Same as "RxLev Full" but valid only when the device is in idle, dedicated, packet idle, or packet dedicated mode. Not valid when in limited service or no service mode.

RxLev Sub

–10 ... 100
GSM RxLev units

–

Received signal strength (Sub value) expressed in GSM RxLev units.

RxLev Sub In Service

–10 ... 100
GSM RxLev units

–

Same as "RxLev Sub" but valid only when the device is in idle, dedicated, packet idle, or packet dedicated mode. Not valid when in limited service or no service mode.

RxQual Full

0 ... 7

See Description

–

Received signal quality (Full value), calculated from the bit error rate according to the table in ► 3GPP 45.008, section 8.2.4.

RxQual Sub

0 ... 7

See Description

–

Received signal quality (Sub value), calculated from the bit error rate according to the table in ► 3GPP 45.008, section 8.2.4.

Scanned Adjacent ARFCN –2

0 ... 1023

0 ... 63

h+

C/A measurement: ARFCNs of channels at –400 kHz.

Argument: 0 means the channel adjacent to the first channel in the hopping list, etc.

Scanned Adjacent ARFCN C0

0 ... 1023

0 ... 63

h+

C/A measurement: ARFCNs used by current serving cell. BCCHs are shown in idle mode, TCHs in dedicated mode.

Note that this element does not itself refer to an adjacent channel but to the C0.

Argument: 0 means the first channel in the hopping list, etc.

Scanned Adjacent ARFCN +2

0 ... 1023

0 ... 63

h+

Same as "Scanned Adjacent ARFCN –2" but for the channels at +400 kHz.

Scanned Adjacent RxLev –1 (dBm)

–120 ... –10
dBm

0 ... 63

h+

C/A measurement: Same as "Scanned Adjacent RxLev –2 (dBm)" but applies to channels at –200 kHz.

Scanned Adjacent RxLev +1 (dBm)

–120 ... –10
dBm

0 ... 63

h+

C/A measurement: Same as "Scanned Adjacent RxLev –2 (dBm)" but applies to channels at +200 kHz.

Scanned ARFCN

0 ... 1023

0 ... 1321

s

ARFCNs of scanned channels.

Argument: 0 points to the channel with the lowest frequency, etc. (not ARFCN).

Scanned BSIC

00 ... 77 (octal)

0 ... 1321

s

BSICs of scanned channels.

Argument: 0 gives the BSIC of the channel with the lowest frequency, etc. (not ARFCN).

Scanned
C/A –2 (dB)

–100 ... 100
dB

0 ... 63

h+

C/A measurement: C/A values corresponding to "Scanned Adjacent RxLev –2 (dBm)".

Scanned
C/A +1 (dB)

–100 ... 100
dB

0 ... 63

h+

C/A measurement: C/A values corresponding to "Scanned Adjacent RxLev +1 (dBm)".

Scanned C/I

–5 ... 35
dB

0 ... 1023

s

C/I values for scanned channels.

Argument: 0 points to the channel with the lowest frequency, etc. (not that with the lowest ARFCN).

Scanned Cell Name

Text

0 ... 1321

c
s

Cell names for scanned channels. Obtained only if both ARFCN and BSIC are scanned.

Requires cell file.

Argument: 0 points to the channel with the lowest frequency, etc. (not ARFCN).

Scanned LAC

0 ... 65535

0 ... 1321

s

Location Area Codes of scanned channels.

Scanned MNC

000 ... 999

0 ... 1321

s

Mobile Network Codes of scanned channels.

Scanned RxLev (dBm)

–120 ... –10
dBm

0 ... 1321

s

Same as "Scanned RxLev" but in dBm.

Scanned RxLev On ARFCN (dBm)

–120 ... –10
dBm

0 ... 1023

s

Same as "Scanned RxLev On ARFCN" but in dBm.

Signal Strength On BCCH Carrier

–120 ... –10
dBm

–

Signal strength on the current BCCH. Especially useful for obtaining a correct measure of the cell size when frequency hopping is used and power control is applied to the TCHs.

The following steps are used to find a value for the element:

Neighbor list. If the BCCH frequency is in the neighbor list, report its signal strength.

Hopping list. If the BCCH is used as hopping frequency (in dedicated mode), report its signal strength.

Idle mode. If the device is in idle mode, report RxLev (dBm).

If frequency hopping is not used, step 2 becomes "If BCCH = TCH ...".

Invalid if no value is found in any of the above steps.

Spectr Ana Sc Freq (kHz)

380,200 ... 1,990,000
kHz

1 ... 2560

ss

Spectrum analysis: Scanned frequencies in ascending order.

Spectr Ana Sc RSSI (dBm)

–130 ... –20
dBm

1 ... 2560

ss

Spectrum analysis: RSSI of frequencies scanned.

Speed (mph)

0 ... 155
mph

–

p

Speed in mph.

SQI

–20 ... 30
dBQ

–

g–

Speech Quality Index. See UM chapter "Speech Quality Index – SQI". The range depends on the speech codec used:

HR (Half Rate): –20 ... 17 dBQ

FR (Full Rate): –19 ... 22 dBQ

EFR (Enhanced Full Rate): –20 ... 30 dBQ

AMR: Dependent on codec mode. The maximum SQI values for NB are as follows:

12.2 kbit/s: 30 dBQ
10.2 kbit/s: 28 dBQ
7.95 kbit/s: 28 dBQ
7.40 kbit/s: 27 dBQ
6.70 kbit/s: 27 dBQ
5.90 kbit/s: 24 dBQ
5.15 kbit/s: 21 dBQ
4.75 kbit/s: 19 dBQ

Non-existent for GPRS (no voice data in packets).

Strongest Scanned IEs: General remark

Strongest Scanned Band

450 ... 1900
MHz

0 ... 1321

s

Frequency bands of scanned channels.

Strongest Scanned C/I (dB)

–5 ... 35
dB

0 ... 1321

s

C/I for scanned channels.

Strongest Scanned Cell Name

Text

0 ... 1321

c
s

Names of scanned channels.

Obtained only if both ARFCN and BSIC are scanned.

Requires cell file.

Strongest Scanned MCC

000 ... 999

0 ... 1321

s

Mobile Country Codes of scanned channels.

Strongest Scanned RxLev (dBm)

–120 ... –10
dBm

0 ... 1321

s

Signal strength of scanned channels.

TA

0 ... 63

See Description

–

Timing Advance. Valid only in dedicated mode. For the significance of the parameter value, see ► 3GPP 45.010.

TFI UL

0 ... 31

–

g

Temporary Flow Id on uplink. Used to identify a one-block flow.

Timeslot IEs: General remark

Timeslot Channel Type DL

Text

0 ... 7

g
hs

Type of channel in each timeslot on downlink. See "Channel Type".

Timeslot Used DL

Text

0 ... 7

g
hs

Timeslots used on downlink.

TLLI

0 ... 232 – 1

–

g

Temporary Logical Link Identifier.

Training Sequence Code

0 ... 7

–

Current training sequence code.

"WCDMA Neighbor" IEs: General remark

WCDMA Neighbor CPICH RSCP (dBm)

–140 ... –15
dBm

1 ... 32

CPICH RSCP of measured WCDMA neighbors.

WCDMA Neighbor UARFCN

0 ... 16383

(frequency band dependent)

1 ... 32

UARFCNs of measured WCDMA neighbors.

Weakest Scanned IEs: General remark

Weakest Scanned Band

450 ... 1900
MHz

0 ... 1321

s

Frequency bands of scanned channels.

Weakest Scanned C/I (dB)

–5 ... 35
dB

0 ... 1321

s

C/I for scanned channels.

Weakest Scanned Cell Name

Text

0 ... 1321

c
s

Names of scanned channels.

Obtained only if both ARFCN and BSIC are scanned.

Requires cell file.

Weakest Scanned MCC

000 ... 999

0 ... 1321

s

Mobile Country Codes of scanned channels.