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IN-BUILDING SOLUTIONS GUIDELINES
1 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
2 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
Work Flow for In-Building Design
ACCEPTANCE TEST
INPUT DATA
IMPLEMENTATION & INTEGRATION
SITE SURVEY &TEST MEASUREMENT DESIGN PROPOSAL
NOMINAL DESIGN
In-Building Process
3 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
Site Survey
4 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
Nominal Antenna Plan
Coverage Verification
Input Data
Customer’s RequirementsFloor PlanSite Access
TEMS Transmitter to simulate the transmit power of antennaNokia Net monitor to verify coverage and record measurements on floor plan
Antenna Positions
Power Budget
Site Survey
Required Pre-Survey Information
5 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
Required RxLevRequired RxQualIntended coverage areaCapacity requirements - No of TRX and type of Nokia BTSFloor PlanNumber of systems (eg GSM900, GSM1800, UMTS etc)
Required Site Survey Tools
6 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
ClipboardDigital CameraSpare BatteriesGPSRoller MeterTEMS Transmitter (GSM and UMTS)Nokia Net Monitor
Site Survey Activities
7 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
Equipment location and power source surveyRiser surveyIndoor antenna location surveyCable routing surveyTransmission surveyTake photo of the above locationsDocument all survey data
Key ConsiderationsIntended coverage areasCharacteristics of building walls/ceilingsNon-accessible areasEase of installation and maintenancePossibility of getting approval from building owner
BTS Location
8 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
Bts’s are located in several different locations inside the buildingBts/Antenna locations are picked according to specified service criteria to be met (coverage area and quality), affecting factors are:
size of areanumber of floorsnumber of passive unitslength and type of feeder runsattenuating materials, walls etc.
Possible bts locations are i.e. service rooms, in building warehouse rooms, service corridors, cleaning rooms, maintenance rooms, power distribution rooms, parking halls, etc. Before deciding on bts locations consider
is the bts in the most economical location ( power & distance to antennas, minimal amount of passive units etc.)is the feeder lines as short as possible (minimal amount of CW, feeder cost, attenuation)is the antenna in the most economical locations ( minimal amount of CW, passive units )where is the power source for the bts where and how is the AC power cables run to the bbuwhere and how is the TRS cable run to the TRS equipment (MW on the roof)can antennas be located more economically and still meet the requirements
In-Building coverage areas
9 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
1. Hotels LobbyBars and restaurantsBallroomsMeeting rooms / function roomsBusiness centreFitness centreLift lobbyBasement carparksGuest roomsHotel administration offices
In-Building coverage areas
10 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
2. Shopping MallsPublic access areaLift lobbyShopsRestaurantsBanksSupermarketsMajor tenantsBasement carparksBuilding administration offices
In-Building coverage areas
11 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
3. Commercial BuildingsSelected officesPublic access areaLift lobbyCafeteriaBasement carpark
4. AirportsArrival and departure waiting areaVIP lounges, restaurantsDuty free shopsLift lobbyBaggage claim areaBasement carpark, airport administration offices
12 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
RF DESIGN PROPOSAL
RF DESIGN PROPOSAL
• Building Photo
• Location Map : Shows the location of the Building to be covered
• Bill of Quantity : Indicates the quantity and type of material to be used in the system
• Power Budget Table : Indicates output power of each individual antenna in the RF distribution system
• Schematic Diagram : Indicates how the antenna system is being distributed to various parts of the building
• Floor Plans & Antenna Locations : Indicates the exact location of the antennas, and the proposed feeder routing to all antennas
• Equipment Location : Indicates where the radio base stations will be installed
• Technical Data : Includes technical brochures of equipment and components to be used in the system
13 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
14 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
BILL OF QUANTITIESCS code Description Manufacturer
1. AntennaCS7216901 Omni Indoor Antenna KathreinCS7216801 Indoor Panel Kathrein
2. RF FeederCS72251 Feeder cable RF 1/2""-50 AndrewCS72252 Feeder cable RF 7/8""-50 Andrew
3. Prefabricated jumper cables CS72684.01 Jumper cable RFF 1/4" 0,2m N-male/N-female AndrewCS72684.02 Jumper cable RFF 1/4" 0,3m N-male angle / N-female AndrewCS72685 Jumper cable RG214/U 0,2m N-male/N-male AndrewCS72686 Jumper cable RG214/U 0,2m N-male/N-female AndrewCS72805.01 Jumper cable 0,5m RFF 1/2" GHF, N-fem./N-male AndrewCS72805.02 Jumper cable 1m RFF 1/2" GHF N-male/N-female AndrewCS72805.03 Jumper cable 1m RFF 1/2" GHF N-male/N-male AndrewCS72808.04 Jumper cable 2m RFF 1/2" GHF, N-fem./7/16-male AndrewCS72808.05 Jumper cable 2m RFF 1/2" GHF 7/16-male/angle N-male Andrew
4. Feeder connectorsCS72687.13 Connector N-male for RF 1/2"cable AndrewCS72687.14 Connector N-female for RF 1/2"cable AndrewCS72688.11 Connector N-male for RF 7/8"cable AndrewCS72688.12 Connector N-female for RF 7/8"cable AndrewCS72690.11 Connector 7-16 male for RF1/2" cable AndrewCS72691.01 7-16 female,LCF 1/2"-monoblock AndrewCS72692.01 Connector 7-16 male for RF7/8" cable Andrew
5. Power SplitterCS72220.02 Indoor Pwr splitter 2xN-fem outputs 0.8-2.5GHz 100W AndrewCS72221.02 Indoor Pwr splitter 3xN-fem outputs 0.8-2.5GHz 100W AndrewCS72222.02 Indoor Pwr splitter 4xN-fem outputs 0.8-2.5GHz 100W Andrew
6. Power CouplerCS72218.06 Coupler for indoor 6dB N-female 0.8-2.5GHz AndrewCS72218.08 Coupler for indoor 8dB N-female 0.8-2.5GHz AndrewCS72218.10 Coupler for indoor 10dB N-female 0.8-2.5GHz AndrewCS72218.13 Coupler for indoor 13dB N-female 0.8-2.5GHz AndrewCS72218.15 Coupler for indoor 15dB N-female 0.8-2.5GHz AndrewCS72218.20 Coupler for indoor 20dB N-female 0.8-2.5GHz Andrew
7. Dual Band DiplexerCS72230.20 Diplexer 1710-1880/1920-2170 Kathrein
8. Power terminations and adaptorsCS77306.01 Terminator 1W 50 ohm N-female AndrewCS72682.01 Adapter N-male to N-male, Straight AndrewCS72682.02 Adapter N-male to N-female, Right angle AndrewCS72682.03 N-female/N-female straight adaptor AndrewCS73216.06 Adapter 7/16 (male) - N (female) 33 716-N-50-1 Andrew
9. Combiner for MetrositeCS7221612 Combiner GSM 1800MHz 2X10W for Metrosite Nokia
Indoor Solution site Type No.of Metro Sites No.of Metro Site50 Diplexer (1800+3G)
Hotel Type-1(Large) 4 4 4Hotel Type-2 (Medium) 3 3 4Hotel Type-3 (Small) 2 1 4Mall Type -1 (Big) 3 3 12Mall Type -2 (Small) 2 2 8Office/Commercial Building 6 6 24Airport 4 4 16
Allotted equipment per site category
Inclusive of College/Universities, Hospital and Exhibition Centers
2G and 3G POWER BUDGET TABLE
15 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
2G and 3G POWER BUDGET TABLE
16 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
Calculation of Power Budget
17 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
Input:
- Required signal strength- Interference situation- BTS output power
Power Budget CalculationsStep 1: Power levels
Metrosite 1800 10 W Metrosite50Table 11. Specific technical data for the 10W GSM/EDGE 1800 TRX
Property Value NoteTX frequency range 1805 - 1880 MHz -
RX frequency range 1710 - 1785 MHz -
Channel spacing 200 KHz -
Available radio channels 374 -
TX output power at antenna
connector, nominal
41 dBm (GMSK)
36 dBm (8-PSK)
18 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
Power Budget Calculations
19 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
3
3
350 m
30 m
5
20 m
3
3
3
40 m
360 m
20 m
� CB
20 m
Step 2: Calculation of losses
Attenuation (dB/100m)
1800 MHz7/8” 5.75 6.461/2” 10.1 11
2100 MHz
Power Budget CalculationsStep 3: Output power from each antenna
EiRP= RTP + AG – [Lcb + Ldp + Lsp + Lco + Lf + Ljc]
EiRP = Effective Isotropic Radiated PowerLf = Feeder lossLcb = combiner / diplexer lossLdp = diplexer lossLsp = splitter lossLco = coupler lossLjc = total jumper/connector lossAG = Antenna gainRTP = Output power from BTS
20 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
Distributed Antenna Example
+41 dBmTotal feeder loss 11 dB(150 m -1/2”)
Total splitterloss 18 dB
2 dBiEIRP = +2 dBm(Ant. gain 2 dBi)
1
2
3
4
5
2-ways
3-ways
4-ways
-3 dB
-5 dB
-6 dB
MetrositeMetrosite 10 W10 W
21 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
Distributed Antenna Example
EIRP = +2 dBm(Ant. gain 2 dBi)
Assumed wallloss 25 dB
5
7
Propagationloss 65 dB(Approx.... 50 m)
6
Level intomobile approx.....-85 dBm
8
Metrosite 10 WTo BSC
22 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
Schematic Diagram
23 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
Schematic Diagram
24 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
Floor Planwith Cable Routing & Antenna Locations
25 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
Antenna Floor Layout
26 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
Antenna Floor Layout
27 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
28 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
ANTENNA CONFIGURATION CASES
Case 1
29 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
Antenna
Thick outer wall with high attenuation and thin inner wall with little attenuation e.g. basement carpark
Little leakage to outdoorLow interference from
outdoorLess antenna, higher output
powerEasy to plan for frequency
reuse between buildings
Case 2
Big glass windows with almost no attenuation to the surrounding e.g. open office environment
Lots of leakage to and from the surrounding
More antenna, lower output power
Distance to co-channel cell has to be large or shadowing building in between or use dedicated frequencies
30 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
Case 3
Lots of inner supporting walls causing attenuation e.g. hotel rooms
Need more antenna to keep leakage down while maintaining coverage
31 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
Antenna configuration for multi-storey building
O = Antenna
Antennas are recommended to be placed in a zigzag manner to get as even distribution of the signal strength as possible
32 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
33 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
Distributed Antenna SystemProblems – Recommendations - Result
DAS - Office Building
34 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
DAS - Office Building
35 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
Problem• Building is tall compared with the surrounding buildings• Frequencies are very tightly re-used in the area• High interference• Therefore required signal strength is -65 dBm
Recommendation• A distributed antenna system consisting of 11 antennas, 5 omni and
6 panel• Antenna EIRP = 6 dBm
Result• Full coverage. Evenly distributed signal strength and a low amount
of radiated power to the surroundings
DAS - Car Park
36 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
DAS - Car Park
37 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
Problem• Very low interference from outdoor• Therefore signal strength required is -90dBm
Recommendation
A distributed antenna system consisting of 7 omni antenna• Antenna EIRP = 8 dBm
Result• The antenna are distributed in such a way that the critical spots (lifts,
escalators, car ramps) have good coverage
DAS - Shopping Mall
Directional Antenna
0 25 50 75 100 m
Omni-directionalAntenna
38 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
DAS - Shopping Mall
39 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
Problem• There is a need both for better coverage and increased capacity in
the building
Recommendation• A distributed antenna system consisting of 4 antennas, 2 omni and 2
panel• Antenna EIRP = 10 dBm
Result• The antenna are distributed in such a way that all passages have
good coverage, and therefore quite a lot of traffic is caught. Signal is spread outside the mall, but mainly takes traffic from the nearby streets, which is good in this case.
Proposed Antenna Location
ANTENNA : A08 TYPE : Panel LOCATION : Basement 1 parking, near exit ramp MOUNTING : To be mounted using antenna bracket REMARKS :
40 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
Proposed Antenna Location
ANTENNA : A67 TYPE : Omni LOCATION : Between L19 and L20 MOUNTING : To be mounted to ceiling using antenna bracket REMARKS :
41 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
Proposed Antenna Location
ANTENNA : A176 TYPE : Omni LOCATION : Level 20, outside Building Admin Office MOUNTING : To be mounted to false ceiling REMARKS :
42 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
Proposed Equipment Location
PROPOSED EQUIPMENT LOCATION LEVEL : Basement 2 LOCATION : Inside Exchange Room REMARKS : To tap power supply from the nearest electrical DB
43 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
Metrosites
Metrosite 50WCDMA
• Metrosite • GSM /EDGE
Micro BBU
44 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
Metrosites DimensionsMetrosite (GSM) Metro 50 (WCDMA) MICRO BBU
Height: 870mm + 114mm (cable cover) 1100mm 775mmWidth: 310mm 400mm 590mmDepth: 215mm 435mm 427mmWeight: max 42 kg max 77kg empty cabinet ~30kg
with batteries ~110kg
• Metrosite GSM/EDGE max power consumption (DC) is 550W (worst case scenario)• Metrosite 50 max power consumption (DC) is 700W ( worst case scenario)
• BTS cabinets can be either pole mounted, wall mounted or laid on its back on a tray/shelf• Cabinets can be mounted vertically or horizontally (horizontally with 3 deg tilt)• Micro BBU can be pole mounted, wall mounted or floor mounted on a plinth
45 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
Installation diagramAC MDB fitted with 30A single pole breaker
For Metrosite GSM/EDGE use one 16A breaker
For Metrosite 50 use 32A breaker (=using connecting bridge)
AC3 x 4mm2
DC4 mm2
MetrositeGSM/EDGE
Micro BBU
When 2G and 3G is on same location one extra BTS breaker kit(2x16A) needs to be added to supply the3G bts
6 mm2DC
Metrosite50
GND
BAR
GND 16 mm2
46 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
Additional capacity for GSM Metrosite
• Metrosite GSM/EDGE can be expanded to max 12trx’s, 3 cabinets under 1 BCF object
• Expansion is done with chaining bts’s through the VIFA interface units
• Chaining kits available in 1, 3 and 5m lengths• BTS 1 is the master bts, trx 1 of that bts is the
master trx• Lower “EXT” port in bts 1 VIFA card needs a
termination connector (comes with the kit)• TRS cards in slave 2 & 3 bts needs to be removed
and replaced with transmission shield units
47 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
Technical Specifications
48 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
49 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
Technical SpecificationsDirectional Antenna
Technical Specifications
Splitters
50 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
Technical Specifications
Splitters
51 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
Technical Specifications
Splitters
52 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
Technical Specifications
Couplers
53 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
Technical Specifications
Feeder Cables
54 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
Technical Specifications
Combiners
55 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
56 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
Technical Specifications
Diplexers
Types of Acceptance Criteria
• Coverage Criteria
• RxLev & RxQual Test• Handover Test• Spillage Test
2G
• Pilot Channel • AMR Voice Calls• Data Calls
– Circuit & packet switch• Scenario tests
• – Spillage • – Handover • – Lift coverage
• Minimum Coupling Loss
3G
57 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
2G Coverage Criteria
58 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
• 95% of all indoor area shall have RxLev of -85dBm or better• 95% of all calls shall have RxQual of 4 or better• Better than 1% drop call rate• C/I better than 9dB• Better than 99% of all calls shall have smooth handover• No spillage of in-building signal causing drop call to outdoor
slow moving traffic
Acceptance procedure
59 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
1. Call setup success rate inside a buildingSuccess rate should be 98% or betterThe length of every call should be 30 sec.Select adequate amount of different places inside a building for test
calls to be sure of the functionalityDoes indoor cell serve all the test calls (handovers are not allowed to
outdoors, except entrance)2. Signal strength in call mode
Better than -85 dBm in 95% or more of measured resultsWalk test inside a building by using test mobile or measurement
equipment (NIB etc.)There should be no dropped calls during the test
Acceptance procedure
60 © NOKIA Presentation_Name.PPT / DD-MM-YYYY / Initials Company Confidential
3. Is MS camped to indoor cell all the time inside a building in idle- and call mode
walk test inside a buildingin idle mode C1 & C2-parameter settingshandover parameter settings in call modecheck signal spillage from indoor to outdoor
4. Handoversindoor / indoor (if needed)outdoor / indoor /outdoor -> this handover should occur only in
building entranceoutdoor / indoor -> one way, special case with careful optimization
5. Rxqualityequal or better than class 4
Recommended