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Date Document name Version History

8/16/2010 UMTS parameters mapping V1 20100816 V1 Creation

8/25/2011 UMTS parameters mapping V1 20100825 V2 Creation

8/27/2011 UMTS parameters mapping V1 20100825 V3 Creation

8/29/2011 UMTS parameters mapping V1 20100829 V4 Creation

9/1/2011 UMTS parameters mapping V1 20100901 V5 Creation

9/2/2011 UMTS parameters mapping V1 20100902 V6 Creation

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Comments

Current Value should be filled by cutomer.

Parameter mapping result should be audited by HQ.

Some abnormal value should be double check by customer.

Provide to Customer

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Ericsson Parameter

Name MO Class Name Description Range

Idle

t3212 LocationArea

Periodic update timer for LA update.

Special values:

0 means infinite time (not active).

Unit: 0.1 h (6 min)

0..255

att LocationArea

Indicates to the UE whether IMSI

attach/detach is allowed. (Some IMSIs

are not allowed in some LAs.) This helps

to facilitate the avoidance of unnecessary

paging attempts. The value is sent on the

BCCH.

Value mapping:

FALSE: IMSI attach not allowedTRUE: IMSI attach allowed

FALSE = 0

TRUE = 1

nmo RoutingAreaNetwork operation mode that indicates

whether the Gs interface between the

SGSN and MSC/VLR is installed.

MODE_I = 0

MODE_II = 1

qQualMin UtranCell

Used in UE functions for cell

selection/reselection in idle mode and

connected mode. Minimum required

(acceptable) quality level in the cell.

Unit: dB

-24..0

qQualMin ExternalUtranCell

level in the cell (dB). Used to set cell

border between two cells.-24..0

qRxLevMin UtranCell

selection/reselection in idle mode and

connected mode. Minimum required-119..-25

qRxLevMin ExternalUtranCell

selection/reselection in idle mode and

connected mode. Minimum required -119..-25

Ericsson

Paging 3..9utranDrxCycleLength

The DRX cycle length coefficient (k) for

UEs in URA_PCH.The DRX cycle length is the frequency

with which the UE listens on the paging

channel. The parameter is applicable for

both UTRAN and CN initiated paging in

URA_PCH.

Value mapping:

The cycle length is calculated as the k'th

power of 2, where k = 3..9. For example,

6 corresponds to cycle length 640 ms, 7

corresponds to cycle length 1280 ms, etc.

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qRxLevMin ExternalGsmCell

the cell.

Used in UE functions for cell-115..-25

qualMeasQuantity UtranCell

selection/reselection in idle and connected

mode.

CPICH_RSCP = 1

CPICH_EC_NO = 2

sIntraSearch UtranCell

intra-frequencies shall be performed.0..27

Sintersearch UtranCell

inter-frequencies shall be performed.0..27

sRatSearch UtranCell

GSM frequencies shall be performed is

made using this parameter in relation with-32..20

qHyst1 UtranCell

functions in idle and connected mode.

Value launched by System information0..40

qHyst2 UtranCell

.

Used to perform cell ranking for the

serving cell.0..40

treSelection UtranCell

. -to-trigger for cell reselection.

Value launched by System information0..31

qOffset1sn UtranRelation

target cells. used when the IE

"cell_selection_and_reselection_quality_m

" "

-50..50

qOffset1sn UtranRelation

target cells. used when the IE

"cell_selection_and_reselection_quality_m

" "

-50..50

qOffset1sn GsmRelation

target cells.-50..50

qOffset2sn UtranRelation

target cells. used when the IE

"cell_selection_and_reselection_quality_m" "

-50..50

qOffset2sn UtranRelation

target cells. used when the IE

"cell_selection_and_reselection_quality_m

" "

-50..50

Handover

w1b UeMeasControl Weight factor to include active set cells

other than the best in evaluation criteria

measQuantity1 UeMeasControlUsed by UE functions for intra-frequency

measurements (in CELL_DCH). Quantity

CPICH_RSCP = 1

CPICH_EC_NO = 2

maxActiveSet UeMeasControlMaximum number of cells in active set.

The reporting deactivation threshold, used2..4

0..20

hysteresis1a UeMeasControl Hysteresis used in addition-window in

evaluation criteria for event 1a to avoid0..15

hysteresis1c UeMeasControl Used by UE functions for intra-frequency

measurement re ortin in CELL DCH .0..15

hysteresis1b UeMeasControl Hysteresis used in addition-window inevaluation criteria for event 1a to avoid

0..15

hysteresis1d UeMeasControl Hysteresis used in drop window in

evaluation criteria for event t e 1d.0..15

reportingRange1a UeMeasControl

Used by UE functions for intra-frequency

measurement reporting (in CELL_DCH).

Threshold used for addition-window in

evaluation criteria for event type 1a.

0..29

reportingRange1b UeMeasControl

Used by UE functions for intra-frequency

measurement reporting (in CELL_DCH).

Threshold used for drop window in

evaluation criteria for event 1b.

0..29

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serviceOffset2dEcno UeRc

Service-specific offset for event 2d when

the measurement quantity is Ec/No.

For each cell in the Active Set, the cell-20..20

serviceOffset2dRscp UeRc

Service-specific offset for event 2d when

the measurement quantity is RSCP.For each cell in the Active Set, the cell

parameter

-50..50

serviceOffset2dEcno UeRc

Service-specific offset for event 2d when

the measurement quantity is Ec/No.

For each cell in the Active Set, the cell

-20..20

serviceOffset2dRscp UeRcService-specific offset for event 2d when

the measurement quantity is RSCP. -50..50

serviceOffset2dEcno UeRc Service-specific offset for event 2d when -20..20

serviceOffset2dRscp UeRc Service-specific offset for event 2d when -50..50

serviceOffset2dEcno UeRc Service-specific offset for event 2d when -20..20

serviceOffset2dRscp UeRc Service-specific offset for event 2d when -50..50

serviceOffset2dEcno UeRc Service-specific offset for event 2d when -20..20

serviceOffset2dRscp UeRc Service-specific offset for event 2d when -50..50

serviceOffset2dEcno UeRc Service-specific offset for event 2d when -20..20

serviceOffset2dRscp UeRc Service-specific offset for event 2d when -50..50

timeToTrigger2dRscp UeMeasControl Time between detection of event 2d and.. .. ..

40..40 60..60 80..80

timeToTrigger2fRSCP UeMeasControl Time between detection of event 2f and.. .. ..

40..40 60..60 80..80

timeToTrigger2dRscp UeMeasControl Time between detection of event 2d and.. .. ..

40..40 60..60 80..80

timeToTrigger2fRSCP UeMeasControl Time between detection of event 2f and.. .. ..

serviceOffset2dEcno UeRc Service-specific offset for event 2d when -20..20

timeToTrigger1a UeMeasControlTime between detection of event 1a and

sending of the measurement report.

0..15

timeToTrigger1b UeMeasControl Time between detection of event 1b and

sendin of the measurement re ort.0..15

timeToTrigger1c UeMeasControl Time between detection of event 1c and

sendin of the measurement re ort.0..15

timeToTrigger1d UeMeasControl Time between detection of event 1d and

sendin of the measurement re ort.

0..15

reportingInterval1a UeMeasControl Interval of event-triggered periodical

re ortin in case of 'cell addition failure' or0..7

reportingInterval1c UeMeasControl Interval of event-triggered periodical

' '0..7

hysteresis2f UeMeasControl

Hysteresis for event 2f.

Value mapping:

0..29

hysteresis2d UeMeasControl

Hysteresis for event 2d.

Value mapping:

0..29

use req e res cn

oUeMeasControl

Relative threshold for event 2f versus

event 2d for the used frequency when the0..20

usedFreqRelThresh2fRsc

pUeMeasControl

Relative threshold for event 2f versus

event 2d for the used frequency when the0..20

use req e res cn

oUeMeasControl

e a ve res o or even versus

event 2d for the used fre uenc when the0..20

use req e res scUeMeasControl Relative threshold for event 2f versus 0..20

use req e res cn

oUeMeasControl

e a ve res o or even versus

event 2d for the used fre uenc when the0..20

use req e res scUeMeasControl Relative threshold for event 2f versus 0..20

use req e res cn

oUeMeasControl

e a ve res o or even versus

event 2d for the used frequency when the0..20

use req e res scUeMeasControl Relative threshold for event 2f versus 0..20

e a ve res o or even versusevent 2d for the used frequency when the 0..20use req e res sc

UeMeasControl Relative threshold for event 2f versus 0..20

use req e res cno UeMeasControl

use req e res cn

oUeMeasControl

e a ve res o or even versus

event 2d for the used fre uenc when the0..20

use req e res scUeMeasControl Relative threshold for event 2f versus 0..20

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serviceOffset2dEcno UeRc Service-specific offset for event 2d when -20..20

serviceOffset2dEcno UeRc Service-specific offset for event 2d when -20..20

serviceOffset2dRscp UeRc Service-specific offset for event 2d when -50..50

serviceOffset2dRscp UeRc Service-specific offset for event 2d when -50..50

serviceOffset2dRscp UeRc

Service-specific offset for event 2d when

-50..50

Power&HSPA

primaryCpichPower UtranCell

Power to be used for transmitting the

PCPICH.

Disturbances:

-99..500

maximumTransmissio

nPowerUtranCell

Maximum transmission power. This is the

maximum power for all downlink channels

that are allowed to be used

simultaneousl in a cell added to ether.

0..500

maxFach1Power Fach

Maximum power, to be used for

transmitting the first FACH channel,

relative the primaryCpichPower value. The

first FACH is used for lo ical channels

-350..150

constantValueCprach Rach

Constant value used by the UE to

calculate the initial power on PRACH

according to the Open loop power control

rocedure.

-35..-10

preambleRetransMax Rach

Maximum number of preambles in one

preamble ramping cycle.1~64

numHsScchCodes Hsdsch

Number of codes of SF=128 used for the

HS-SCCH. 1..4

gsmThresh3a UeMeasControl Threshold for event 3a for GSM. Range is -115..0

gsmThresh3a UeMeasControlThreshold for event 3a for GSM. Range is

valid for GSM carrier RSSI.-115..0

gsmThresh3a UeMeasControl Threshold for event 3a for GSM. Range is -115..0

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Current Value Huawei Parameter

NameParameter Level

GUI Value

Range

Actual Value

Range

Huawei Default

Value

10 T3212 RNC 0~255 0~1530 step:6 10 (60min)

TRUE ATT RNC

NOT_ALLO

WED,

ALLOWED

NOT_ALLOWED,

ALLOWEDALLOWED

MODE_II = 1 NMO RNC MODE1,

MODE2 MODE1, MODE2 MODE2

DRXCYCLELENCO

EFRNC 6~9 6~9 6

DRXCYCLELENCO

EFRNC 3~9 3~9 6

-18 Qqualmin UCell -18

-18 Qqualmin External UCell -18

-115 Qrxlevmin UCell -58 (-115dBm)

-115 Qrxlevmin External UCell -58 (-115dBm)

-24~0 -24~0

-58~-13 -115~-25, step:2

5

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-107 Qrxlevmin U2G Relation -58~-13-115~25

Step2-50(-99dBm)

CPICH_EC_NO QUALMEAS UCell

_

O(CPICH

Ec/N0),

CPICH_ECNO,

CPICH_RSCPCPICH_ECNO

22 IdleSintrasearch UCell -16~10, 127 {-32~20}, {127},

step:25 (10dB)

0 IdleSintersearch UCell -16~10, 127 {-32~20}, {127},

step:24 (8dB)

2 SsearchRat UCell -16~10, 127 {-32~20}, {127},

step:22 (4dB)

2(4dB) IdleQhyst1s UCell 0~20 0~40, step:2 2 (4dB)

2(4dB) IdleQhyst2s UCell 0~20,255 {0~40}, {255}, step:2 1 (2dB)

1 Treselections UCell 0~31 0~31 1 (1s)

0 IdleQoffset1sn U2U Relation 0 (0dB)

0 IdleQoffset1sn U2U Relation 0 (0dB)

10 Qoffset1sn U2G Relation -50~50 -50~50 0 (0dB)

0 IdleQoffset2sn U2U Relation 0 (0dB)

0 IdleQoffset2sn U2U Relation 0 (0dB)

UCell

0 UCell

UCell

UCell

UCell

UCell

UCell

UCell

UCell

UCell

UCell

UCell

UCell

-50~50 -50~50

1~6

Hystfor1C 0~15 0~7.5, Step:0.5

Hystfor1B 0~7.5, Step:0.5

IntraFreqMeasQuan

tity

_

NO(CPICHCPICH_EC/NO,

CPICH_RSCP

-50~50 -50~50

CPICH_EC_NO = CPICH_EC/NO

Weight 0~20 0~2, Step:0.1 0

3

0 Hystfor1A 0~15 0~7.5, Step:0.5 0

MaxCellInActiveSet 1~6 3

00~15

2

0

8 (4dB)

8 (4dB)

15 Hystfor1D 0~15 0~7.5, Step:0.5

0~14.5, Step:0.5 6 (3dB)0~29

0~29 0~14.5, Step:0.56

IntraRelThdFor1AC

SNVPIntraRelThdFor1AC

SVP6 (3dB)

IntraRelThdFor1AP

S0~29 0~14.5, Step:0.5 6 (3dB)

12 (6dB)

10

IntraRelThdFor1BC

SNVP0~29 0~14.5, Step:0.5 12 (6dB)

IntraRelThdFor1BP

S

0~29 0~14.5, Step:0.5

IntraRelThdFor1BC

SVP0~29 0~14.5, Step:0.5 12 (6dB)

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UCell

UCell

UCell

UCell

UCell

UCell

UCell

UCell

UCell

UCell

1 UCell

1 UCell

UCell

UCell

0 UCell

-2 UCell

UCell

UCell

UCell

UCell

UCell

UCell

1 UCell

1 UCell

UCell

UCell

0 UCell

-2 UCell

UCell

UCell

UCell

UCell

UCell

UCell

320 UCell

1280 UCell

UCell

UCell

UCell

2

3

2

3

9200ms TrigTime1A

, ,

D20, D40,

, , , , , ,

0,120,160,200,240,3 320ms

13(1280ms) TrigTime1B

TrigTime1CD0, D10,

D20, D40,

0, 10, 20, 40, 60, 80,

100, 120, 160, 200,640ms10

640ms

D0, D10,

D20, D40,

0, 10, 20, 40, 60, 80,

100, 120, 160, 200,640ms

14 TrigTime1dD0, D10,

D20, D40,

0, 10, 20, 40, 60, 80,

100, 120, 160, 200,3(1s) ReportIntervalfor1A

NON_PERIO

DIC_REPOR

NON_PERIODIC_R

EPORT, 250, 500,4000ms

3(1s) ReportIntervalfor1C_

DIC_REPOR

_ _

EPORT, 250, 500,4000ms

0

0 HystFor2D 0~29 0~14.5dB, Step:0.5 4 (2dB)

0~29 0~14.5dB, Step:0.5 4 (2dB)

InterFreqCSThd2DE

cN0 -24~0 dB -24~0 -14

HystFor2F

-24~0 -12

InterFreqCSThd2DRSCP -115~-25dBm -115~-25 -95

2 n er req

cN0 -24~0 dBm

InterFreqR99PSThd

2DEcN0

3 InterFreqCSThd2FR

SCP

-115~-25

dBm -115~-25 -92

-24~0 dB -24~0 -14

InterFreqR99PSThd

2DRSCP

-115~-25

dBm -115~-25 -95

2 n er req

2FEcN0 -24~0 dB -24~0 -12

3

n er req c

N0 -24~0 dB -24~0 -14n er req

CP

- ~-

dBm -115~-25 -95

n er req

2FRSCP

- ~-

dBm -115~-25 -92

2 n er req c

N0 -24~0 dB -24~0

-115~-25 -92

-12

3 n er req

CP

- ~-

dBmn er

cN0 -24~0 dB -24~0 -14

n er

SCP

- ~-

dBm -115~-25 -100

n er

cN0 -24~0 dB -24~0 -122

n er

SCP3

- ~-

dBm -115~-25 -97

-24~0

n er c

N0 -24~0 dB -24~0 -15

n er cN0 -24~0 dB

n er

CP

- ~-

dBm -115~-25 -110

-13n er

CP

- ~-

dBm -115~-25 -107

n er s

DEcN0 -24~0 dB

n er s

DRSCP

- ~-

dBm -115~-25 -110

-24~0 dB -24~0

-24~0 -15

-13n er s

FEcN0

-115~-25 -107n er s

FRSCP

- ~-

dBm

TimeToTrig2F, ,

D20, D40,

, , , , , ,

100, 120, 160, 200,1280ms

TimeToTrig2D, ,

D20, D40,

, , , , , ,

100, 120, 160, 200,320ms

arge req s cN0

-24~0

TrigTime2D, ,

D20 D40

, , , , , ,

100 120 160 200320ms

TrigTime2F, ,

D20 D40

, , , , , ,

100 120 160 2001280ms

-24~-0dB -12dB

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UCell

UCell

UCell

UCell

UCell

UCell

UCell

UCell

330 PCPICHPower UCell -100~500 -10~50 N/A

up to cell MaxTxPower UCell 0~500 0~50 Step:0.1 N/A

18 MaxFachPower UCell -350~150 -35~15dB 1dB

-19 Constantvalue UCell -35~-10 -35~-10dB -20dB

32 PreambleRetransM

axUCell 1~64 1~64 20

2 HsScchCodeNum UCell 1 to 15 1 to 15 4

dEcN0-24~0 -24~-0dB -12dB

arge req c

N0-24~0 -24~-0dB -12dB

arge req sc

-115~-25 -115~-25dBm -92dBm

arge req s

dRsc-115~-25 -115~-25dBm -92dBm

arge req s s

c-115~-25 -115~-25dBm -92dBm

TargetRatCsThd 0~63 -110~-48dBm 16(-95dBm)-90

TargetRatR99PsThd 0~63 -110~-48dBm 16(-95dBm)

TargetRatHThd 0~63 -110~-48dBm 16(-95dBm)

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Mapping Rule Mapping Value Huawei Command

Direct Mapping 10 ADD UCNDOMAIN

Direct Mapping ALLOWED ADD UCNDOMAIN

Direct Mapping MODE2 ADD UCNDOMAIN

Use Huawei Baseline 6 ADD UCNDOMAIN

Direct Mapping 5 SET UFRC

Direct Mapping -18 ADD UCELLSELRESEL

Direct Mapping -18 ADD UEXT3GCELL

Direct Mapping -58 ADD CELLSELRESEL

Direct Mapping -58 ADD UEX3GCELL

Huawei

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Direct Mapping -54 ADD U2GNCELL

Direct Mapping CPICH_ECNO ADD UCELLSELRESEL

Direct Mapping 5 ADD UCELLSELRESEL

Direct

Mapping_Optimization127 ADD UCELLSELRESEL

Direct Mapping 2 ADD UCELLSELRESEL

Use Huawei Baseline 2 ADD UCELLSELRESEL

Use Huawei Baseline 1 ADD UCELLSELRESEL

Direct Mapping 1 ADD UCELLSELRESEL

Direct Mapping 0ADD

UINTRAFREQNCELL

Direct Mapping 0ADD

UINTERFREQNCELL

Direct Mapping 10 ADD U2GNCELL

Use Huawei Baseline 0ADD

UINTRAFREQNCELL

Use Huawei Baseline 0ADD

UINTERFREQNCELL

ADD

UCELLINTRAFREQHOADD

UCELLINTRAFREQHOADD

UCELLINTRAFREQHOADD

UCELLINTRAFREQHO

ADDUCELLINTRAFREQHO

ADD

UCELLINTRAFREQHOADD

UCELLINTRAFREQHOADD

UCELLINTRAFREQHOADD

UCELLINTRAFREQHOADD

UCELLINTRAFREQHOADD

UCELLINTRAFREQHOADD

UCELLINTRAFREQHOADD

UCELLINTRAFREQHO

Direct Mapping CPICH_EC/NO

Direct Mapping 0

Direct Mapping 3

Direct Mapping 0

Direct Mapping 0

Use Huawei Baseline 8 (4dB)

Use Huawei Baseline 8 (4dB)

Direct Mapping 6 (3dB)

Direct Mapping 6 (3dB)

Direct Mapping 6 (3dB)

10(5dB)

Direct Mapping

Direct Mapping

10(5dB)

Direct Mapping 10(5dB)

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Direct Mapping D200 ADD

UCELLINTRAFREQHO

Direct Mapping D1280

UCELLINTRAFREQHO

UCELLINTRAFREQHO

UCELLINTRAFREQHO

UCELLINTRAFREQHO

UCELLINTRAFREQHO

Direct Mapping 0

UCELLINTERRATHOC

Direct Mapping 0

Direct Mapping 0

UCELLINTERRATHOC

Direct Mapping 0

UCELLINTERFREQHO

ADD

UCELLINTERFREQHO

COV

ADD

UCELLINTERFREQHOCOV

UCELLINTERFREQHOADD

UCELLINTERFREQHO

ADD

UCELLINTERFREQHO

COV

UCELLINTERFREQHO

UCELLINTERFREQHO

UCELLINTERFREQHO

UCELLINTERFREQHO

UCELLINTERFREQHO

UCELLINTERFREQHO

UCELLINTERRATHOC

UCELLINTERRATHOC

UCELLINTERRATHOC

UCELLINTERRATHOC

UCELLINTERRATHOC

UCELLINTERRATHOC

UCELLINTERRATHOC

UCELLINTERRATHOC

UCELLINTERRATHOC

UCELLINTERRATHOC

UCELLINTERFREQHO

UCELLINTERFREQHO

UCELLINTERRATHOC

UCELLINTERFREQHO

Use Huawei Baseline D640

Use Huawei Baseline D640

Use Huawei Baseline

Use Huawei Baseline D4000

D4000

usedFreqThresh2dEcno+ser

viceOffset2dEcno -13

usedFreqThresh2dEcno+ser

viceOffset2dEcno+usedFreq -11

-104usedFreqThresh2dRscp+serviceOffset2dRscp

usedFreqThresh2dEcno+ser

viceOffset2dEcno -14

-107

usedFreqThresh2dRscp+ser

viceOffset2dRscp+usedFreq -101

use req res cno+ser

viceOffset2dEcno+usedFre -12

usedFreqThresh2dRscp+ser

viceOffset2dRscp

use req res scp+ser

viceOffset2dRscp+usedFreq -104

use req res cno+ser

viceOffset2dEcno -14use req res scp+ser

viceOffset2dRsc -105

use req res scp+ser

viceOffset2dRsc +usedFre -102

use req res cno+ser

viceOffset2dEcno+usedFre -12

use req res cno+ser

viceOffset2dEcno -13

use req res scp+ser

viceOffset2dRscp -104

use req res scp+ser

viceOffset2dRsc +usedFre -101

use req res cno+ser

viceOffset2dEcno+usedFreq -11

use req res scp+ser

viceOffset2dRsc

use req res cno+ser

viceOffset2dEcno -14

-107

use req res cno+ser viceOffset2dEcno+usedFreq -12use req res scp+ser

viceOffset2dRscp+usedFreq -104

use req res scp+ser

viceOffset2dRsc

use req res cno+ser

viceOffset2dEcno -14

-105

use req res cno+ser

viceOffset2dEcno+usedFre -12

use req res scp+ser

viceOffset2dRsc +usedFre -102

Direct Mapping

D320

Direct Mapping D320

D1280

Direct Mapping

Direct Mapping D1280

Use Huawei Baseline -12

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UCELLINTERFREQHO

UCELLINTERFREQHO

UCELLINTERFREQHO

UCELLINTERFREQHO

UCELLINTERRATHOCADD

UCELLINTERRATHOC

PCPICHPower=primaryCpic

hPower+primaryCpichPower

+dlAttenuation(ExternalTma)

+dlAttenuation(AntFeederCa

330

ADD UPCPICH

ADD

UCELLQUICKSETUP

MOD UCELLMaxTxPower=maximumTran

smissionPower+maximumTr

ansmissionPower+dlAttenua

tion(ExternalTma)+dlAttenua

460

ADD UCELLSETUP

ADD

UCELLQUICKSETUP

MOD UCELL

Direct Mapping 18 ADD UFACH

Direct Mapping -19 ADD UPRACHBASIC

Direct Mapping 32 ADD UPRACHBASIC

Direct Mapping 2 ADD UCELLHSDPA

Use Huawei Baseline

-12

-92

Use Huawei Baseline -92

Use Huawei Baseline

-12

Use Huawei Baseline

Use Huawei BaselineDirect Mapping

-9220(-91dBm)

Direct Mapping 20(-91dBm)

20(-91dBm)Direct Mapping

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Description

Periodical location update is implemented by MS through the

location update procedure. 0: The periodical update procedure is

not used. This parameter is valid only when [CN domain ID] is set

as CS_DOMAIN. GUI value range:0~255 Actual value

range:0~1530 step:6 Unit:min Default value:10

Indicating whether attach/detach is allowed. NOT_ALLOWED

indicates that MS cannot apply the IMSI attach/detach procedure.

ALLOWED indicates that MS can apply the IMSI attach/detach

procedure. It is valid only when [CN domain ID] is set as

CS_DOMAIN. GUI value range:NOT_ALLOWED, ALLOWED

Actual value range:NOT_ALLOWED,ALLOWED Unit:None

Default value:ALLOWED Recommended Value:ALLOWED

This parameter should be set according to the actual network

situation . If there is the Gs interface between SGSN and

MSC/VLR this parameter is set as MODE1; otherwise, MODE2. It

is valid only when [CN domain ID] is set as PS_DOMAIN. GUI

value range:MODE1, MODE2 Actual value

range:MODE1,MODE2 Unit:None Default value:MODE2

Recommended Value:MODE2

CN domain specific DRX cycle length coefficient broadcast on

SIB1 and used by UEs in Idle Mode. GUI value range:6~9 Actual

value range:6~9 Unit:None Default value:6 Recommended

Value:6

This parameter specifies the UTRAN-specific Discontinuous

Reception (DRX) cycle length coefficient. In connected mode, the

UE uses the shorter one between CN-specific DRX cycle length

coefficient and UTRAN-specific DRX cycle length coefficient. In

idle mode, the UE can use the DRX mode to receive paging

indications so as to reduce power consumption; in this case, the

UE needs to monitor only one paging indication in one paging

occasion during each DRX cycle. - If the value of this parameter is

too small, the UE checks the paging channel frequently, thus

having great power consumption. - If the value of this parameter is

too large, the response of the UE to the paging becomes slow,

and the core network may repeatedly page the UE and thus

increase the downlink interference. GUI value range:3~9 Actual

value range:3~9 Unit:None Default value:-

RSCP. The UE can camp on the cell only when the measured

CPICH RSCP is greater than the value of this parameter. The

setting of Qrxlevmin should be related to Qqualmin. The higher

the parameter is, the more difficult it is for the UE to reside in the

cell. The lower parameter is, the easier it is for the UE to reside in

e m n mum requ re qua y res o correspon ng o

Ec/No. The UE can camp on the cell only when the measured

CPICH Ec/No is greater than the value of this parameter. The

higher the parameter value is, the more difficult it is for the UE to

reside in the cell. The lower parameter value is, the easier it is for

the UE to reside in the cel l, but it is possible that the UE cannot

receive the system messages that are sent through the PCCPCH.

For detailed information, refer to the 3GPP TS 25.304. GUI value

range:-24~0 Actual value range:-24~0 Unit:dB Default value:-18

Recommended Value:-18

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.

Before the UE camps on the cell, take the measurement of the

signal quality in the cell. If the quality is better than this parameter,

.

set to CPICH Ec/N0 or CPICH RSCP. For detailed information of

this parameter, refer to 3GPP TS 25.304. GUI value

- .

the quality (CPICH Ec/No measured by the UE) of the serving cell

is lower than this threshold plus the [Qqualmin] of the cell , the

- - .

the quality (CPICH Ec/No measured by UE) of the serving cell is

lower than this threshold plus the [Qqualmin] of the cell, the inter-

- .

Ec/No measured by UE) of the serving cell is lower than this

threshold plus the [Qqualmin] of the cell, the inter-RAT cell

mode in case the quality measurement for cell selection and

reselection is set to CPICH RSCP. It is related to the slow fading

mode in case the quality measurement for cell selection and

reselection is set to CPICH Ec/No. It is related to the slow fading

UE) of a neighboring cell is better than that of the serving cell

during the specified time of this parameter, the UE reselects the

-

.

specifies the offset of the measurement value of the neighboring

GSM cell signal quality. This parameter is used for RSSI

This parameter is used to determine the relative threshold of the

soft handover based on the measurement of each cell in the

reselection when the UE is in idle mode. Offset of neighboring cell

CPICH measurement value This parameter is used for Ec/Nomeasurement. The offset is subtracted from the neighboring cell

measurement value before cell reselection. In cell reselection

algorithm, this parameter is used for moving the border of a cell.

This arameter can be confi ured b the network lanner

or reselection when the UE is in idle mode. Offset of neighboring

cell CPICH measurement value This parameter is used for RSSI

measurement. The offset is subtracted from the neighboring cell

measurement value before cell reselection. In cell reselection

algorithm, this parameter is used for moving the border of a cell.

This arameter can be confi ured b the network lanner

-

quantity. It defines the reference measurement quantity for the UE

This parameter specifies the hysteresis value for event 1A. The

value of this parameter correlates with slow fading. The larger the

This parameter specifies the maximum number of cells in the

active set. This parameter can achieve the balance between the

This parameter specifies the hysteresis value for event 1B. Thevalue of this parameter correlates with slow fading. The larger theThis parameter specifies the hysteresis value for event 1C. The

value of this parameter correlates with slow fading. The larger theMeaning: This parameter specifies the hysteretic value for event

1D. The value of this parameter is associated with the slowThis parameter specifies the CS non-VP service relative threshold

of event 1A. The higher the threshold is, the more easily the event

This parameter specifies the PS service relative threshold of

event 1A. The higher the threshold is, the more easily the event

This parameter specifies the VP service relative threshold of

event 1A. The higher the threshold is, the more easily the event

This parameter specifies the CS non-VP service relative threshold

of event 1B. The lower the threshold is, the more easily the eventThis parameter specifies the PS service relative threshold of

event 1B. The lower the threshold is, the more easily the event 1BThis parameter specifies the PS service relative threshold of

event 1B. The lower the threshold is, the more easily the event 1B

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This parameter specifies the time delay to trigger event 1B. The

value of this parameter correlates with slow fading. The larger the

.

value of this parameter correlates with slow fading. The larger the

This parameter specifies the time delay to trigger event 1C. The

value of this parameter correlates with slow fading. The larger theThis parameter specifies the interval time between detection of

event 1D and sending of the measurement report. The value ofThis parameter specifies the reporting period of event 1A. That is,

event 1A is reported at each reporting interval. Usually, event 1As parame er spec es e num er o repor ng mes o even

1C for periodical reporting. That is, event 1C is reported at eachThe value of this parameter correlates with slow fading. The larger

the value of this parameter, the smaller probability of ping-pong

effect or wrong decision, but event 2D might not be triggered in

The value of this parameter correlates with slow fading. The larger

the value of this parameter, the smaller probability of ping-pong

effect or wrong decision, but event 2F might not be triggered inres o o r gger n er- requency measuremen w

measurement quantity of Ec/No for CS domain services. This

parameter affects the proportion of the UEs in compressed mode

active status of a cell and the success rate of the hard handover.Threshold to trigger inter-frequency measurement with

measurement quantity of RSCP for CS domain services. Thisparameter affects the proportion of the UEs in compressed mode

active status of a cell and the success rate of the hard handover.Threshold to stop inter-frequency measurement with

measurement quantity of Ec/No for CS domain services. This

-

measurement quantity of RSCP for PS domain non-HSPA

services. This arameter affects the ro ortion of the UEs in

Threshold to stop inter-frequency measurement with

measurement quantity of RSCP for CS domain services. This

Threshold to trigger inter-frequency measurement with

measurement quantity of Ec/No for PS domain non-HSPA

services. This parameter affects the proportion of the UEs in

res o o s op n er- requency measuremen w

measurement uantit of Ec/No for PS domain non-HSPAres o o s op n er- requency measuremen w

measurement quantity of RSCP for PS domain non-HSPAres o o r gger n er- requency measuremen w

measurement quantity of Ec/No for PS domain HSPA services.res o o r gger n er- requency measuremen w

measurement uantit of RSCP for PS domain HSPA services.

res o o s op n er- requency measuremen w

measurement uantit of RSCP for PS domain HSPA services.

res o o s op n er- requency measuremen w

measurement uantit of Ec/No for PS domain HSPA services.

res o o r g ger n e r- measuremen w measuremen

quantity of RSCP for CS domain services. For CS domain

res o o r g ger n e r- measuremen w measuremen

quantity of Ec/No for CS domain services. This parameter affects

res o o s op n er- measuremen w measuremen

quantity of Ec/No for CS domain services. The inter-RATres o o s op n er- measuremen w measuremen

uantit of RSCP for CS domain services. For CS domain

res o o r g ger n e r- measuremen w measuremen

uantit of RSCP for HSDPA services. For non-HSDPA services

res o o r g ger n e r- measuremen w measuremen

uantit of Ec/No for HSDPA services. This arameter affects the

res o o s op n er- measuremen w measuremenquantity of Ec/No for HSDPA services. This parameter affects the

res o o r g ger n e r- measuremen w measuremen

uantit of Ec/No for PS domain non-HSDPA services. This

res o o s op n er- measuremen w measuremen

quantity of RSCP for HSDPA services. For HSDPA services,

res o o s op n er- measuremen w measuremen

uantit of Ec/No for PS domain non-HSDPA services. This

res o o r g ger n e r- measuremen w measuremen

uantit of RSCP for PS domain non-HSDPA services. For PS

res o o s op n er- measuremen w measuremen

uantit of RSCP for PS domain non-HSDPA services. For PSme e ay o r gger even . e va ue o s parame er

correlates with slow fading. The larger the value of this parameter,

me e ay o r gger even . e va ue o s parame er

correlates with slow fadin . The lar er the value of this arameterme e ay o r gger e even . e va ue o s parame er

correlates with slow fadin . The lar er the value of this arameter

me e ay o r gger e even . e va ue o s parame er

correlates with slow fading. The larger the value of this parameter,

ean ng: res o o e arge requency or r ggerng n er-fre uenc measurement based on measurement uantit of

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TX power of the P-CPICH in a cell. This parameter should be set

based on the actual system environment such as cell coverage

(radius) and geographical environment. For the cells to be

covered, the downlink coverage must be guaranteed. For the cellsSum of the maximum transmit power of all DL channels in a cell . It

is configured in the network planning. For detailed information of

this parameter, refer to 3GPP TS 25.433. GUI value range:0~500

Actual value range:0~50, step: 0.1 Unit:dBm Default value:430

The offset between the FACH transmit power and P-CPICH

transmit power in a cell.

This parameter specifies a constant used at calculation of the

initial transmit power of the first preamble, to be used in the

random access procedure. The formula is as follows:

Preamble_Initial_Power = Primary CPICH DL TX power-The maximum number of preambles transmitted in a preamble

ramping cycle. For detailed information of this parameter, refer to

3GPP TS 25.211.

the NodeB can schedule in a TTI period. In the scenarios like

outdoor macro cells with power restricted, it is less likely to

-

ean ng: res o o e arge requency or r ggerng n er-

frequency measurement based on measurement quantity of

ean ng: res o o e arge requency or r ggerng n er-

fre uenc measurement based on measurement uantit of

ean ng: res o o e arge requency or r ggerng n er-

fre uenc measurement based on measurement uantit of

ean ng: res o o e arge requency or r ggerng n er-

frequency measurement based on measurement quantity ofean ng: res o o e arge requency or r ggerng n er-

fre uenc measurement based on measurement uantit ofean ng: ua y requ remen or e ce o ano er ur ng

inter-RAT handover for CS domain services.ean ng: ua y requ remen or e ce o ano er ur ng

inter-RAT handover for PS domain non-HSPA services.Meaning: Quality requirement for the cell of another RAT during

inter-RAT handover for HSPA services.