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LARGE SCCS CABINET
ABSTRACT
This document is a Product Specification defining the specifications for the Large SelfContained Cell Site (Large SCCS) Cabinet/Enclosure. The cabinet is an environmentallycontrolled cabinet intended for outdoor Radio Base Station applications. It is designed to befully self contained and to provide mechanical and environmental protection for the RBS884telecommunications equipment installed within it.
TABLE OF CONTENTS
1. TERMINOLOGY ................................................................................... 4
2. GENERAL............................................................................................. 5
2.1 Applicable Standards.................................................................................................. 5
3. CABINET CONTENTS.......................................................................... 6
3.1 Radio Base Station Equipment................................................................................ 113.1.1 General Equipment Space Requirements ........................................................... 133.1.2 Operator / Customer Space ................................................................................. 133.1.3 Dehumidifier Space (Optional equipment). .......................................................... 13
3.2 DC Power System...................................................................................................... 143.2.1 Batteries ............................................................................................................... 16
4. CABINET CONSTRUCTION .............................................................. 17
4.1 Exterior....................................................................................................................... 174.1.1 General ................................................................................................................ 174.1.2 Roof...................................................................................................................... 174.1.3 Floor ..................................................................................................................... 184.1.4 Doors.................................................................................................................... 184.1.5 Power Pedestal(s) Mechanical Specifications ..................................................... 194.1.6 Antenna Cable Entry ............................................................................................ 194.1.7 Telecommunications and Alarm Cable Entry....................................................... 194.1.8 Bug/Rodent Screen.............................................................................................. 194.1.9 Service Cover/Tent Option................................................................................... 204.1.10 Mounting Base ..................................................................................................... 20
4.2 Interior ........................................................................................................................ 20
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4.2.1 Interior Insulation.................................................................................................. 204.2.2 Interior Finish ....................................................................................................... 20
4.3 Cabinet Serviceability ............................................................................................... 204.3.1 Common Fasteners ............................................................................................. 21
4.4 Cabinet Electrical System Requirements ............................................................... 214.4.1 Power Pedestal Electrical Specifications ............................................................. 214.4.2 Cabinet Electrical Specifications .......................................................................... 234.4.3 Ground Bars......................................................................................................... 244.4.4 Smoke Detector ................................................................................................... 244.4.5 Power Disconnect High Temp/Low Temp............................................................ 244.4.6 Ground Straps...................................................................................................... 254.4.7 Non-Metallic Components.................................................................................... 254.4.8 Auxiliary Power Connector Option ....................................................................... 254.4.9 Wiring................................................................................................................... 25
4.5 Cabinet Sealing ......................................................................................................... 254.5.1 Air Leakage Test Procedure ................................................................................ 25
4.6 Weight ........................................................................................................................ 26
4.7 Cabinet Exterior Color and Surface Treatment ...................................................... 26
4.8 Flammability .............................................................................................................. 26
4.9 Miscellaneous............................................................................................................ 264.9.1 Writing Surface .................................................................................................... 264.9.2 Document Holders ............................................................................................... 264.9.3 Cable Guides and Tie bases................................................................................ 264.9.4 Caulking ............................................................................................................... 27
4.10 Product Life ............................................................................................................... 27
4.11 Marking....................................................................................................................... 27
5. CLIMATE CONTROL UNIT (CCU) ..................................................... 27
5.1 Design ........................................................................................................................ 27
5.2 CCU Specifications ................................................................................................... 295.2.1 EquipmentCold Start Up Time Interval ................................................................ 305.2.2 CCUs Mounting.................................................................................................... 305.2.3 CCU Condenser Ambient Air Intake and Exhaust ............................................... 305.2.4 Condensate Drain ................................................................................................ 305.2.5 CCU Wind Tolerance........................................................................................... 30
6. ALARMS............................................................................................. 31
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6.1 General ....................................................................................................................... 316.1.1 Door Alarms ......................................................................................................... 316.1.2 Smoke Detector ................................................................................................... 316.1.3 Surge Arrestor(s) ................................................................................................. 316.1.4 Cabinet Temperature Alarms............................................................................... 326.1.5 CCU Alarm........................................................................................................... 326.1.6 AC Mains Voltage ................................................................................................ 326.1.7 DC Under Voltage ................................................................................................ 326.1.8 Hydrogen Gas Sensor.......................................................................................... 326.1.9 Air Filter Blockage................................................................................................ 32
7. TRANSPORT AND INSTALLATION .................................................. 32
7.1 Transport Packaging................................................................................................. 32
7.2 Installation ................................................................................................................. 337.2.1 Pad Mounting Hardware ...................................................................................... 337.2.2 Additional Shipping Materials ............................................................................... 33
7.3 Destination................................................................................................................. 33
8. APPENDIX.......................................................................................... 33
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1. TERMINOLOGY
A AmpsADF Alarm DistributionA-side Cabinet side Where There are 5 Stacks of RBS
EquipmentAhr Ampere HourABS Acrylonitrile Butadiene StyreneAC Alternating CurrentANP Antenna Near PartANPC Antenna Near Part CabinetATC Auto Tuning Combiner (radio equipment)ATCC Auto Tuning Combiner CabinetAWG American Wire GaugeB-side Battery Module Side of CabinetBeercase BYB 502 radio base station equipment cabinetBTU British Thermal UnitBYB 502 Equipment Cabinet (radio and power equipment)C CentigradeCB Circuit BreakerCCU Climate Control UnitCRI Control Radio InterfaceCSA Canadian Standards AssociationDC Direct CurrentF FahrenheitFOB Freight on BoardFt/min Feet per minuteGFI Ground Fault InterruptHr HourHVAC Heating, Ventilation, and Air ConditioningHz HertzI.D. Inside DiameterIn-lb Inch-poundsin. InchLbs PoundsL&B DFU Load and Battery Disconnect Fuse UnitMPH Miles Per HourNC Normally ClosedNEC National Electrical Code (USA)NEMA National Equipment Manufacturers Association (USA)NO Normally OpenNRTL Nationally Recognized Testing Laboratory
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PDHT/LT Power Disconnect High Temperature / LowTemperature
RBS Radio Base StationLSCCS Large Self Contained Cell SiteSCCS Self Contained Cell SiteSSCCS Super Self Contained Cell SiteTCB Transceiver CabinetTMA Tower Mounted AmplifierTRX TransceiverUL Underwriters LaboratoryUV UltravioletV VoltsW WattsVAC Volts Alternating Current
2. GENERAL
The Large SCCS Cabinet is an environmentally controlled enclosure, primarilyintended for outdoor use. The enclosure (cabinet) size was determined by thespace needed to house the Ericsson RBS884 telecommunications equipment3 x 31 1900MHz MP configuration, 3G/Edge, eighteen 19” customer rackunits, and battery capacity for up to one hour. The cabinet provides themechanical and environmental protection for the equipment installed, allowsaccess for craftsperson, and discourages unauthorized entry. The cabinetshall be fully self-contained with electrical, alarms, and HVAC control.
2.1 APPLICABLE STANDARDS
The cabinet with telecommunications equipment installed shall meet or exceedthe following standards:• Primary: Ericsson standard: Climatic and Mechanical requirements for
RBS Outdoor Enclosures (1/1056-FCP 103 2995) with notedexceptions contained within this specification.
• Primary: Ericsson standard: Product Safety for RBS Outdoor ShelterEnclosures (2/1056-FCP 103 2995) with noted exceptions containedwithin this specification.
• Primary: NEC (wiring code).• Bellcore GR-487-Core: specifications not contained with within
Ericsson specification for outdoor enclosures with noted exceptionscontained within this specification.
• Bellcore GR-63-Core Section 4.2 Fire Resistance with notedexceptions contained within this specification.
The cabinet manufacturer shall supply a cabinet that is NRTL listed to UL 50or recognized to UL 1950. There shall be no changes to the cabinet that affectcompliance with the NRTL listing report without the permission of Ericssonengineering and NRTL.
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3. CABINET CONTENTS
The majority of the cabinet equipment consists of Ericsson radio equipmentpackaged in BYB 502 (“beercase”) type cabinets. A typical equipment cabinetis shown in Figure (1). Equipment cooling airflow enters the front of theequipment and exhaust at the rear in an upward direction. BYB 502s in mostcases, will be bolted together forming cabinet stacks of four high with a base atthe bottom and a power distribution unit (POWD 2000) attached to the top(see Figure (2).
Figure 1. BYB 502 Equipment Cabinet (“beercase”)
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Figure 2. Typical RBS Equipment Stack
The cabinet will be configured such that cabinet equipment stacks will beinstalled in the majority of configurations. Equipment/subracks/modules with adepth of less than 280 (11”) can added or removed from the BYB 502s tochange the capacity or alter the configurations once the BYB 502 stacks areinstalled in the cabinet. The BYB 502, once installed, should not have to beremoved.
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Figure 3. Enlarged View of Equipment Stack Top Area
An AC to DC power conversion and power distribution system provides27VDC to the equipment. The majority of the power equipment is contained inone large cabinet (equivalent to four beercases). It contains load distribution,battery distribution, and space for 9 x 1700W rectifiers. Two additionalcabinets contain space for up to six additional rectifiers.
A battery module containing 12 x 24VDC VRLA type batteries are includedwithin the enclosure to provide power in case of the loss of AC power for 30-60 minutes at 70% maximum equipment load. This module is about equal tothe height and 355 (14.1”) narrower than a two-beercase stack, and about 250(9.8”) deeper than a beercase. Up to four BYB 502s may be mounted on topof this module. If two stacks of two-high BYB 502s are mounted on top of thebattery module (to accommodate one two-high BYB502 stack of powercabinets and one two-high BYB502 stack containing the alarm frame and theoptional dehumidifier) it will be necessary to install either one or both stacks ontop of the battery module after the module is installed in the cabinet since twobeercase stacks are wider than the battery module. The top of the batterymodule shall be designed to hold four BYB502s although the mounting of thehumidifier on the floor adjacent to the battery module and the wall mounting ofthe alarm distribution frame may be implemented which would require onlyone two-high stack containing the power cabinet to be mounted on the batterymodule. The cabinet manufacture must provide structural support to thebottom of the cantilevered BYB 502 stacks if they are present.
Additional space is allocated in the cabinet for future RBS equipment migrationto Edge. Also, eighteen rack units of 19” rack-mountable space are allocated
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for the operator/customer for installation of their preferred equipment. Some24VDC power and AC power receptacles are available within the cabinet foruse by the equipment operator.
The entire group of equipment representing the maximum equipmentconfiguration for a RBS 1900 MP 3x32 is shown in Figure (4) and (5). Note:the cabinet may contain less equipment than the shown 3x31 configuration.
Figure 4. Power and RBS Equipment Side (POWD 2000 not shown on top ofequipment stack).
Figure 5. Battery Side of Equipment Stack (POWD 2000 not shown on Top)
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Additional space within the cabinet is needed for cables, climate controlsystem components, controls, alarms, lights, smoke alarm, and ac powerreceptacles.
The beercase stack is secured to the floor and the stack tops should beanchored in order to meet vibration and shock requirements
The equipment stacks will be electrically grounded to a central point by meansof wires/cables.
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Item Weight (lbs.) Quantity Total Weight (Lbs)
TCB 121 12 1452
ATCC 100 6 600
ANPC Full-band 100 3 300
CRI 77 3 231
POWD 2000 25 8 200
Distribution Frame 25 1 25
Top cover for equip stack 3.4 8 27
Base for equipment stack 54 8 432
Edge 180 1 180
Customer Equipment 180 1 180
Ericsson Power Cabinet(BZA 201/26)+ BatteryConnection and LoadDisconnect + 9 Rectifiers
400 1 400
Rectifier Cabinet +3Ericsson Rectifiers
90 2 180
Equipment Cables 300 1 300
Dehumidifier (optional) 22 1 22
Miscellaneous Hardware 50 1 50
Sub-Total 4580 (2080Kg)
Batteries 12 +frame 2330 2330
Cooling Condensers Unit+ Compressor
400 2 800
Evaporator Coil 70 2 140
Evaporator Cooling Fans 2 14 28
TOTAL 7878 (3577 Kg)
Table 1. Internal Cabinet Equipment Weight Estimate
3.1 RADIO BASE STATION EQUIPMENT
The interior of the cabinet shall be able to contain the volume equivalent to 40Ericsson BYB 502 cabinets with the exception of providing additional depth forthe batteries. See Figures (4) and (5).
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Equipment Cabinet Contents Quantity forMaximumConfiguration
3x31 1900MP
Quantity forMinimumConfiguration
3x15 1900MP
TCB (Transmitter/Receiver) 12 6
CRI 3 3
ATCC 6 3
ANPC1,2 3 3
Edge 2 0
Customer/Operator Space1
2 0
Power/Rectifiers 6 4
Battery2
4 4
Alarm Distribution3
0.5 0
Dehumifier4
1 0
TOTAL 39.5 23
Empty BYB 502 0.5 17
Table 2. BYB 502 Cabinet Count
Notes:
1. Customer/Operator Space is equivalent to 18 x 19” rack mount spaces.Customer equipment may protrude up to 150 (6”) from front of BYB 502.
2. Battery Module has approximately 355 (14”) of empty space beside it.Battery Module surface protrudes approximately 254 (10”) from BYB 502.
3. The alarm distribution frame may not require a BYB502 space, as it maybe wall mounted.
4. Dehumidifier will require air to be exchanged with the cabinet ambientenvironment. Access to the ambient may be provided through the floor,adjacent to the battery module. {The dehumidifier may not require a BYB502 space as it may be mounted on the floor adjacent to the batterymodule}.
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Height,equipment
1854 (73”) 4 high beercase stack includes top cover,POWD 2000, and base (BAYU 200 775).
Width,equipment
3000 (118.1”) 5 beercase columns stack wide.
Depth,equipment
805 (31.7”) 2 beercase columns back to back. Batteriesprotrudes 254 (10”) in front of equipmentcabinet stack.
Table 3. Total Equipment Dimensions (reference Figure 4 and 5.)
3.1.1 GENERAL EQUIPMENT SPACE REQUIREMENTS
1. Door opening height shall be at least 25.4 (1”) taller than the tallestunitized installed piece of equipment. The height of the tallest equipmentstack is 1854 (73”) that includes a 104 (4.1”) base, a 15 (0.6”) top cover,and a 135 (5.3”) tall POWD 2000 unit.
2. At least one door opening width shall be at least 25.4 (1”) wider than thebattery module. Battery module width is 843 (33.2”). Door opening widthsfor all beercases stacks should be at least 750 (29.5”). Door openingwidths may be the same as the battery module door width.
3. The clearance between the side cabinet interior sidewalls and theequipment should be not less than 100mm (4”) and preferably 125 (5”).
4. The cabinet equipment air exhaust collection ductwork shall beconstructed to prevent equipment air re circulation from the equipmentexhaust back into the air intake areas. The vertical distance between thetop of the duct and the top of the equipment shall be minimized.
5. The cabinet shall be designed to minimize the effort and tool requirementsfor installing an equipment stack (4 high BYB502 assembly) into thecabinet.
3.1.2 OPERATOR / CUSTOMER SPACE
Eighteen 19” rack units (equivalent to two BYB 502s tall) and 543 (21.4”) deep(which includes 95 (3.8”) air duct space at rear of beercase for coolingventilation) will be made available for the operator/customer. Customerequipment may be as deep as 460 (18”) and may extend in front of the RBSequipment stacks by 150 (6”). Reference information: the front equipment-mounting rail of a BYB 502 is approximately 95 (3.8”) behind the front cover.The equipment will be mounted in the BYB 502 unless special mountingprovisions/brackets or racks are needed in unique situations.
The cooling air should flow from front to rear.
3.1.3 DEHUMIDIFIER SPACE (OPTIONAL EQUIPMENT).
An optional dehumidifier (Munter’s MG50 or suitable alternative) shall be ableto be installed into the cabinet within the space of a BYB 502. The unit
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measures 275 x 275 x 388 (10.8” x 10.8” x 15.3”) and connects to 120VACwith a power cord that is included with the unit. An external air intake andexhaust connection with the ambient environment is required. It is envisionedthat the unit will be mounted on left side of the battery module with theconnections to the ambient air made through the floor. The unit also requiresconnection to a humidistat (accessory). Process air inlet (humid internalcabinet air), dry air outlet, outside air inlet and dry air outlet connections canbe made through flexible wall hose with 62.5 (2.5”) ID. The wet air outlet hoseID is 50 (2”).
This unit should be able to be field installed/removed.
3.2 DC POWER SYSTEM
The equipment utilizes a 24VDC power system. Since the batteries areconnected in parallel with the load, the rectifier output/load input is typically setto 27.2VDC that is equal to the battery float charge voltage. The maximumload requirement is 940A at 24VDC.
The input voltage and frequency requirement for the DC power system is 187-253 VAC, Single phase/2wire (L-L) and 3phase (L-L), 47-63Hz.
The proposed power system consists of components manufactured byEricsson EKA. Power system components for a maximum system load consistof:
1. (1x) BZA 201 26 [approximately equivalent to a stack of four BYB 502]
• Cabinet
• Load and Battery Fuse Unit
• (3) Rectifier Magazines with the capacity of 3x 1700W rectifiers
• (3) Fan Units
• Central Supervisory Unit and Door
2. (2x) Rectifier Magazines installed in BYB 502
• (2x) Top and front covers
• May eliminated for minimum configuration
3. (8x) Power Distribution Unit (BMG 662 016/2)
• Attached to top of each RBS equipment stack to distribute 24VDC toequipment in the stack
• 3600W maximum load (medium power version)
4. Rectifiers (BML 435 004/1)
• Maximum capacity is 15. Fourteen are need to supply maximum load
5. Battery
• 1000Ahr (single string, 12x 2V VRLA batteries in steel module)
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The rectifier efficiency is should be at least 90% with a power factor of 0.99.Each rectifier is supplied AC voltage via a single 208/240 branch circuit fromthe AC power panel.
DC POWER LOAD COMPONENT Power (W) Current (A@ 24VDC)
RBS Power 20245 844
3G/Edge 1060 44.2
TMA 30 1.3
POWD/Wire Loss 27 1.1
Customer Power (18 RU) 450 18.8
Evaporator Cooling Fans (14x) 294 12.25
DC Battery Float 143 6
Low Temp. Cabinet Exhaust Blowers 300 12.5
TOTAL 22,549 940
Table 4. 24VDC Maximum Power Requirements for a 3x31 1900MPConfiguration.
The equipment power is distributed from the load and battery connection/fuseunit located in the power cabinet (BZA 201 26) and is and distributed to up toeight POWD 2000 units. Each POWD 2000 unit has 12 output circuitsprotected by circuit breakers) contained within the assembly. The POWD2000 (MP version) is capable of distributing up to 3600W and has a circuitbreaker configuration of 8x25A, 2x10A, 2x5A. The connection between thepower cabinet load unit and the POWD will be made with a minimum wire sizeof 53mm
2 (1/0AWG).
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Cable Destination Cables/cabinet CabinetQty
DC PowerCables
TCB 4 12 48
ANPC 2 3 6
ATCC 2 6 12
CRI 2 3 6
Edge/3G 2 2 4
Customer/Operator 6 2 6
Subtotal 28 82
Evaporator Cooling Fans 2
Exhaust Blower 2
Low Ambient Air Door 4
CCU Controls 2
Hydrogen Gas Sensor 1
Spare 3
TOTAL 96
Table 5. Equipment DC Power Cable Connection Requirements
3.2.1 BATTERIES
The batteries are valve regulated lead acid absorbent glass mat type with theterminals located on the front side. During normal float operation the batteriesemit virtually no gas or acid mist.
The batteries will be shipped installed in the cabinet. The batteries will bepackaged into a unitized framework allowing installation of the completeassembly into the cabinet.
The battery is sized to provide at least 30 minutes of power at 70% of therated maximum power draw for a 3x31 RBS 1900MP configuration.
The primary battery supplier will be C & D (see Table 6.).
The cabinet must have provisions to insure that battery gases do not exceeddangerous levels as those specified by BellCore GR-487-Core. A hydrogengas sensor can be used provide an alarm if Hydrogen gas should build upbeyond allowable limits.
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Module Size
Manufacture Product Ahr Height(in)
Width(in)
Depth(in)
Weight(lbs)
C & D 12 HD-900 990 34.7 33.2 25.5 2300
Alternate Suppliers:
GNB 3-90A23 965 38.4 33.4 23.6 2061
Panasonic 1049AT 1040 38.8 32.4 24.6 2600
Table 6. Battery Module
4. CABINET CONSTRUCTION
4.1 EXTERIOR
4.1.1 GENERAL
The cabinet must be deliverable to the site as a single integrated unit. To thegreatest extent practical, the design of the cabinet should facilitatereplacement of an installed Small SCCS Cabinet with a new Large SCCSCabinet.
All exterior cabinet fasteners shall be tamper resistant unless specifiedotherwise. Tamper resistant fasteners shall be utilized to secure all outsidepanels, such as wave-guide entry plates, blank off plates, and side panels.The cabinet shall have minimal seams and doors flush to exterior posts. Thecabinet shall have a powder coat textured paint or an Ericsson approvedtreatment that meets the applicable weather protection and corrosionspecifications.
Dimension Absolute Maximum Starting Objective
Height 2440 (102 in. = 8.5ft) 2540 (100)
Length 5000 (184 in = 16.4 ft) 4470 (176)
Depth 1675 (66 in. = 5.5ft) 1600 (63)
Door Swing Opening 1067 (42in. = 3.5ft) 965 (38)
Footprint with doors closed 7.8m2 (84 ft) 7.2 (77 ft^2)
Footprint with doors opened 20m2 (216 ft^2) 18 (192 ft^2)
Table 7. Maximum Exterior Dimensions Including CCU and Power Pedestal(s)
4.1.2 ROOF
The roof may include either: 1) a minimum of 4 removable lifting eyeboltsmounted into blind holes for facilitating installation at the site or 2) provisions
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for lifting the cabinet by the top corners similar to those found on ISOcontainers {there shall be lifting provisions built into the base}. All lifting shallbe assumed to be done with a fully equipped cabinet including batteries. Ifeyebolts are used, they shall be secured in a manner to withstand vibrationoccurring during lifting and should not allow water to enter the cabinet if theyare removed. IF eyebolts are used, the fully equipped cabinet includingbatteries shall be capable of being lifted using the eyebolts without damage tothe cabinet or eyebolts and have a load safety factor as stated in BellCore GR-487-Core.
4.1.3 FLOOR
The floor plate shall be capable of supporting the telecommunicationsequipment and batteries and meet the minimum floor loading criteria includingthe zone 4 seismic testing. The telecommunications equipment shall weighapproximately 550 pounds per stack of equipment. The batteries shall weigh2300-2500 pounds. See Table (1) for equipment weight. Provisions forfastening the equipment to the floor must be provided and it is suggested thatthe top of the equipment be attached to the cabinet to meet vibration andshock requirements. Typically, the equipment stack bases are fastened tofloors using four bolts per stack.
The height of the door-opening frame from the floor should be minimized (lessthan 62 (1.5”) to minimize installation effort and special lifting toolrequirements).
4.1.4 DOORS
All doors shall be insulated to a thermal resistance value of approximately R6-R8 (roughly equivalent to 1” rigid foam insulation). The doors should becapable of being opened and closed with the usage of one hand rotatinghandle approximately 90 degrees. Doors should be able to be opened fromthe inside. The doors shall utilize a heavy-duty three-point latch systemsecuring the door to the frame at the bottom and center. The handle shouldcapable of accepting a padlock. All padlocks shall be keyed alike including thepower pedestal door(s). Three keys shall be shipped with the cabinet. Theexternal surfaces of the door latch assembly shall be environmentally sealed.The door handle mechanism shall be environmentally sealed. The door latchmechanism shall be lubricated at the factory prior to shipment. If door-lockingrods are used, a friction reduction method shall be used to insure that the rodsmove smoothly within their guides. All door latch and lock components shallbe corrosion resistant.
Door hinges should be incorporated in such a way as to resist forced entryattempts. The doors shall use environmental seals to prevent air and wateringress into the cabinet.
All doors require a wind latch that restrains the doors in the open position.The wind latch shall be self-actuating when the doors are opened and shall bereleased manually to close the doors. The doors shall open to a minimum
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angle of 90° (preferably120°) and be able to be locked open at a minimumangle of 90° relative to the front of the cabinet
4.1.5 POWER PEDESTAL(S) MECHANICAL SPECIFICATIONS
All power pedestal exterior access panels shall be attached with tamperresistant hardware. Power pedestal(s) shall be painted to match the cabinet.
Environmental gaskets shall be used between the power pedestal and thecabinet to prevent water and air ingress into either cabinet.
The door should have a wind stay and be capable of using the same typepadlock used on the other cabinet doors.
A document holder should be attached to the inside of the door.
4.1.6 ANTENNA CABLE ENTRY
There shall be two antenna / wave guide entries located near the top andbottom of the cabinet end wall opposite the air conditioner end, located on thecabinet A-side (opposite side of battery module). Each opening shall have aminimum capacity of fifteen (15) antenna cables with diameters ranging from12.7 (0.5”) to 22.2 (0.9”).
The cabinet will be manufactured with two suitable mounting holes for the Roxframe (as indicated below) [or Ericsson approved equivalent] with these holescovered with a gasketed plate. It is suggested that the following Roxtec parts[or Ericsson approved equivalent] be included in a kit and supplied with eachcabinet:
• 16 RM30 Rox modules plus appropriate wedge and stay-plates.
• 1 Frame with 120x120 packing space (Rox S-4 or equivalent).
4.1.7 TELECOMMUNICATIONS AND ALARM CABLE ENTRY
A minimum of eight (8) cables must be accommodated with diameters rangingfrom 5.0 (0.2”) to 12.7 (0.5”). This entry point will be located near the floor onthe same end as the antenna cables. It is preferable to locate the entry/exitpoint on the B-side (battery) near the floor [location to be approved byEricsson. The cable entry point can utilize similar hardware used for theantenna cable entry point hardware i.e. ROX hardware.
It is suggested that the following Roxtec parts [or Ericsson approvedequivalent] be included in a kit and supplied with each cabinet:
• 8 RM 20 modules and compression block
The frame (Rox CSF8 with packing 80 x 40 packing space) and blanking plateshould be installed by the cabinet manufacture.
4.1.8 BUG/RODENT SCREEN
Cabinet ventilation openings shall be protected with perforated bug or rodentscreens. The maximum opening dimension of the openings shall be 3.3
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(0.13”). Cabinet ventilation openings shall have filters with excessive blockagealarm capability.
4.1.9 SERVICE COVER/TENT OPTION
The cabinet must incorporate provisions for the installation of a weatherprotection means (such as a service tent) that will keep the weather elementsout of the cabinet when the cabinet is being accessed during field service.Other alternatives in lieu or in conjunction with a tent should be considered.
4.1.10 MOUNTING BASE
The cabinet may be installed at ground level or on top of buildings.
Consideration in the base and service port entries should be made that theSSCCS will replace SCCS. Provisions for fastening the cabinet to a concretepad or steel beam base must be made. The base finish should protect it fromcorrosion due to handling induced finish damage such as finish scratches orminor dents.
Lifting provisions shall be included in the base.
4.2 INTERIOR
4.2.1 INTERIOR INSULATION
The walls (excluding doors) shall be insulated to a minimum of approximatelyR6-8, and the roof insulated to a R14-16 minimum. The floor shall be insulatedto R4-6 minimum. Interior walls (excluding doors) shall include a minimum of3/8” fire resistive marine grade plywood [or Ericsson approved equivalentmaterial] over the insulation to facilitate the wall mounting of equipment.
4.2.2 INTERIOR FINISH
White ABS vacuum formed panels, aluminum panels, or similar panel typeshould be considered as an acceptable level of interior trim. Ericsson shallapprove the cabinet interior finish of the equipment room. The design of thepanels shall be such to limit the areas for condensate to form (no bare metalinterior surface shall be in direct contact with the exterior surface).
4.3 CABINET SERVICEABILITY
The following components/assemblies must be field replaceable usingcommonly available service techniques and equipment:
• Complete Air Conditioner unit
• AC evaporator coil
• AC condenser coil
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• AC compressor
• AC condenser blower unit
• AC controls (internal and external)
• Heater unit
• Individual PCB modules (i.e. transceiver, backplane, subracks, fanassemblies, etc).
• Complete “Beercase” assembly
• Complete column of RBS equipment (stack of 4 Beercases)
• Cabinet evaporator and low temperature exhaust fans
• Battery and /or mounting frame
• Doors
• Power Pedestal Components: CBs, surge arrestor,
• Power Pedestal
• Door Locks and latching mechanisms
• AC Electrical components, controls, and wiring: smoke detector,thermostats, door alarm switches, receptacles, etc.
• Hydrogen Gas Sensor
Maximum service time for replacement of any of the above items is four hours.Replacement of these items must not require tools that are not accessiblewithin a four-hour time period.
4.3.1 COMMON FASTENERS
Minimize the number of tools and fastener sizes and typesrequired/encountered during installation and service work.
4.4 CABINET ELECTRICAL SYSTEM REQUIREMENTS
4.4.1 POWER PEDESTAL ELECTRICAL SPECIFICATIONS
The input power to the SCCS cabinet shall be supplied through a cabinetmounted power pedestal(s). If more than one power pedestal is used, thesmaller capacity one should be used for the CCUs. If two power pedestals areused, consideration should be made to make the smaller “power pedestal” aload disconnect box containing fuses or circuit breakers and manual switch fortransferring power from the utility to a generator. The power pedestal(s) shallbe UL listed unit and shall meet NEMA 3R specifications.
Input power to the power pedestal is 208 or 230, 60 Hz nominal, single phasepower input with a range from 187 to 253, 47 to 63Hz. Power is supplied
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through 200A (100A for CCU power pedestal/box) main breakers in a walkingbeam/sliding beam mechanical interlock configuration. One 120 volt 15 ampGFI receptacle shall be provided in the 200A power pedestal, which shall beaccessible when the power pedestal door is open.
Item Power (W) A @ 208V
DC Cabinet Equipment 22549
Power Supply Dissipation baseon 90% efficiency
2531
Subtotal 25080 120
AC Lights 300 1.4
Customer Receptacle 1800 15
Smoke Detector 10 .05
Dehumidifier (optional) 440 2.1
Subtotal 27630 133
Air Conditioner x2 (I = 32Arms@ 230V)
14720 71
TOTAL 42350 204 @ 208V
TOTAL 226 @ 187V
TOTAL 184 @ 230V
TOTAL 176 @ 240V
Table 8. Maximum Cabinet AC Power Input
Minimum cabinet AC power is 61A @ 208VAC for an idling 3x15 1900Mhzconfiguration.
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Item Quantity Positions TotalPositions
Ericsson Rectifiers 15 @15A 2 (240V) 30
Internal Cabinet Receptaclesfor customer Equipment (2groups of duplex receptaclestotal of eight plug positions withGFI
@ 15A 1 (120V) 1
Dehumidifier (optional) 1 @ 15A 1 (120V) 1
Cabinet Heaters 2 @ 40A 2 (240V) 4
Lights & Smoke Detector 1 @ 15A 1 (120V) 1
External Receptacle in PowerPedestal with GFI
1 @ 15A 1 (120V) 1
Spare (minimum) 2
Subtotal 40
CCU (fuse size is approximately 2.25
x running load)
2 @ 65A 2 (240V) 4
TOTAL (minimum positions) 44
Table 9. Total AC Circuit Breaker Capacity Requirements
Provisions shall be made in the design to allow for an optional 3-phase versionof the power pedestal(s).
All AC line power feeds should have lightning protection shall be provided byan AC Data Systems surge arrestor, p/n AC2XXV-06 (or Ericsson approvedequivalent). The surge arrestor(s) shall have indicator lights and alarmcontacts that indicate when protection capacity has diminished by 10% ormore.
Openings around wiring feeding through the power pedestals into the cabinetenvironmentally controlled area must be sealed.
4.4.2 CABINET ELECTRICAL SPECIFICATIONS
The cabinet and distribution panel shall be wired per the cabinet electricalschematic. All electrical wiring shall conform to the latest National ElectricCode (NEC). All components utilized must be NRTL listed.
Cabinet lighting should be installed such that the nomenclature (Arial font size12 or larger) on the front of the equipment can be read during the nighttime.Light on/off switches will be integrated within each light unit. Since batterypower will have a higher availability than AC power, it is recommended that
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DC lights be used. If DC power lighting is not practical because of low lumenoutput, limited availability, high product cost, etc.; approval may be sought touse AC powered lights. It is thought that the lights will be mounted on the endwalls in front of the equipment to avoid equipment access problems with theoverhead cooling system components.
Two GFI protected groups of outlets containing a total of eight outlets shouldbe mounted on each side cabinet side; six positions on the B-side and twopositions (duplex) on the A-side.
The CCU feed voltage drop from the power service entrance to the to the CCUinput terminals shall be less than one volt with a current draw of 60A {to bereviewed with CCU vendor}.
4.4.3 GROUND BARS
An internal and external copper ground bar shall be shall be attached to thecabinet using insulated standoffs. Each ground bar shall have a minimum ofeight cable lug positions with 16x ¼ x 20 tapped holes placed on 25.4 (1)vertical centers. The horizontal spacing between holes shall be at least 25.4(1) {requirement to be reviewed to allow usage of commercially availableparts}.One ground bar will be placed on the exterior near the power pedestal and theother will be placed on the interior end wall opposite the CCUs. ConsultEricsson engineering personnel for location approval.
4.4.4 SMOKE DETECTOR
A 120 VAC 60 Hz (to be considered to be powered by VDC) poweredcommercial smoke detector with dry contact alarms shall be installed on theroof of the cabinet. The smoke detector shall be UL listed to UL 268Aspecifications. The smoke detector shall be tested for function on all cabinetsprior to shipment.
4.4.5 POWER DISCONNECT HIGH TEMP/LOW TEMP
The cabinet shall employ a Power Disconnect High Temp/Low Temp hardwareto disconnect DC rectifier power and the batteries from the radio equipmentwhen RBS air intake temperatures exceed 55C (134 ºF) or fall below –10C (14ºF).
The PDHT/LT hardware may consists of two normally closed thermal switchwired in series with the battery and rectifier load connection solenoid coil(s)such that when one of the thermal switches opens, coil current is reduced tozero and the connection between the load and the rectifier+battery (batteryand rectifier output are wired together in parallel) is “opened”. Consequently,load power other than that generated by the idling rectifiers is eliminated.
The High Temperature Disconnect thermal switch shall be normally closed,open on temperature rise. The Low Temperature Disconnect thermal switchshall be normally closed, open on temperature drop. The failure rate of thesesensors must be extremely low and measures to eliminate nuisance failures
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and increase system availability and reliability should be employed such asusing redundant wiring and connections.
Provisions for eliminating the usage of these devices at the customer’spreference must be made. In the case of series wired NC contactor switches,a jumper wire could be placed across the switch to eliminate its usage. This isrequired during power up of a cold or hot soaked cabinet.
4.4.6 GROUND STRAPS
All doors shall be grounded to the main cabinet with a minimum #6 AWGflexible copper braided wire. The paint shall be masked around the boltssecuring the ground strap to the cabinet. There shall be separate dedicatedhardware used to attach the ground strap to the cabinet.
4.4.7 NON-METALLIC COMPONENTS
Non-metallic components (i.e. rubber and plastic) must meet the flammabilityrequirements in addition to the mechanical and environmental requirements.All gasketing around door openings should be made from EDPM, Urethane,Silicone filled rubber, or Ericsson approved equivalent.
4.4.8 AUXILIARY POWER CONNECTOR OPTION
The design of the power pedestal(s) must allow for the installation of anoptional power connector for use with an on-site generator.
4.4.9 WIRING
AC cabinet wiring should be contained in flexible metallic shielding with a liquidtight-type cable covering or Ericsson approved equivalent.
All other wiring shall be contained within a cable covering to protect theconductors. A slit wall tubing type or spiral wrap are satisfactory coverings.
Cables shall be strain relieved to the cabinet walls or other cable routingprovisions.
4.5 CABINET SEALING
The SCCS cabinet must be sealed to prevent water and external ambient airingress to the cabinet during normal operation. During operation on batterypower, external ambient air is required to ventilate the battery compartmentand provisions must be made to assure that water is not drawn into thecabinet during this time.
4.5.1 AIR LEAKAGE TEST PROCEDURE
A cabinet air leakage test shall be performed on the fully assembled cabinetwhen the CCU is functioning in heating mode and/or cooling. Testing shallutilize an air velocity test or an alternately approved equivalent method.
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Airflow leakage testing shall be performed on all cabinets prior to shipment.{Specific test parameters (flow rate, stabilization time, etc.) are to bedetermined].
4.6 WEIGHT
Cabinet weight with the CCU installed is anticipated to be in the range of6000Kg (13,100 Lbs). This weight includes all hardware shipped with thecabinet, excluding the shipping pallet.
4.7 CABINET EXTERIOR COLOR AND SURFACE TREATMENT
The cabinet shall be painted according per the following chart to surfacetreatment specification MZY 509 01.
Product No. Description Color No.
SEB 112 1116 Pearl White NCS S2005-YTable 12. Cabinet Exterior Color
4.8 FLAMMABILITY
The cabinet as supplied to Ericsson must have Fire Resistance flammabilityrating according to Bellcore GR-63-Core Section 4.2.
4.9 MISCELLANEOUS
4.9.1 WRITING SURFACE
Two fold out writing surfaces minimum 18” X 18”, shall mount to the inside of adoor on each side hold up to 75 pounds for test equipment, and fold up flatwithin 1” against the door. The table shall be attached to the center door ifthree doors are used per cabinet side.
4.9.2 DOCUMENT HOLDERS
A total of six document holders shall be mounted to the cabinet doors. Eachdocument holder shall provide a storage volume of 12” x 12” x 1”.
CCU warranty, cabinet service documentation, installation documents, andEricsson manuals shall be placed in the document holders.
4.9.3 CABLE GUIDES AND TIE BASES
Provisions and consideration shall be made for cable routing and restrainingfor the following cables: 1) antenna (15x maximum); 2) telecommunication (8x
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maximum), 4) AC power input (50-60x 12AWG), 4) DC load power (16xmaximum 1/0 AWG); 5) battery (6-8x 4/0 AWG), and other RBS cables.
Where used: all adhesive mounted cable tie bases shall be secured to thecabinet with screws to insure adherence to the cabinet.
4.9.4 CAULKING
Use of caulking material shall be minimized. Caulking material shall not out-gas after it has cured. Maximum curing time at 20C (68) is 26hours. Allexterior caulking material used shall be UV resistant and have a minimum of a25-year product life.
4.10 PRODUCT LIFE
The completed unit and components shall be designed/selected for a minimumlife of 10 years (87,660 hrs) when the cabinet is operated in an outdoorenvironment. This is based on the enclosure being subjected to normaloperating conditions as specified in Ericsson specification for outdoor cabinets.The CCU should be assumed to cycle three cycles per hour (260,000 on/offcycles total during 10 years).
4.11 MARKING
Every cabinet shall be labeled according to the following:
Ericsson Product Number: SEB 112 1116 (Pearl White)
Vendor Product Number: {?????????????} (Pearl White)
Product Revision (R) state: See P.O. or 1095
Ericsson Product ID: SCCS CABINET, Large
Manufacturer: Vendor/Site Identification
Date of Manufacture: Year & week of manufacturing (e.g. 9600).
The marking shall be resistant to mechanical wearing that can arise at normalhandling, storage and operation.
5. CLIMATE CONTROL UNIT (CCU)
5.1 DESIGN
The climate control system must maintain the cabinet internal equipment airintake temperatures below 40C (104°F) with an ambient temperature of 45C(113°F) with under full sunlight at maximum equipment loads. See thefollowing table for a summary operating and temperature ranges requirements.
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Operating Range Exterior (ambient) Interior (equipment airintake)
Normal -30 to 45 (-22 to 113°F) 5 to 40 (41 to 104°F)
Safe Function -35 to 50 (-31 to 122°F) -5 to 50 (23 to 122°F)
Non Destructive -40 to 55 (-40 to 131°F) -10 to 55 (14 to 131°F)
Solar 1120 W/m2
Table 10. Climate Summary for RBS 884M Outdoor Base Station Equipment
The CCU airflow design shall supply cool/dry air to the front of the equipmentwhere the air is drawn across the circuit boards/modules and is exhausted intothe equipment cabinet rear plenum. The stacked equipment air exhaustplenums line up vertically at the rear of each cabinet to form a chimney. Thehot air travels upward through the chimney to the top of the cabinet stack. Theheated air is then pulled into the ceiling from ductwork extending from theceiling over the cabinet exhaust area. Air moving devices located in the ceilingpull the air across the air conditioner evaporator coils (one per side) and thecool air is pushed downward in front of the equipment to be re-circulated backinto the equipment.
Two or more separate CCUs must be used to provide redundant cooling andheating. They must be sized to provide at least 75% of the maximum requiredcapacity. Both units may operate simultaneously to handle the maximumcooling demands. The units should be controlled so that when the coolingrequirements are such that one unit is capable of cooling the cabinet, a lead-lag type of controller operates one or other CCU system(compressor/condenser and evaporator unit). The minimum adjustableselectable “on time” interval shall be at least 24hrs. The maximum adjustable“on time interval” shall be a minimum of 72hrs {controller specifications andalternatives to be reviewed with CCU manufacture}.
A customer accessible thermostat located in the equipment area, attached tothe wall, shall be provided to allow the adjustment of heating and cooling setpoints in one-degree increments and the on/off differential in one-degreeincrements. Differential adjustment range must equal or exceed 7C (12°F).The thermostat should be jointly selected by the CCU and Ericsson andimplemented by the cabinet and CCU vendor. The cooling range set pointminimum range should be from 15C (60°F) to 45C (113°F) and a heatingrange from –17C (0°F) to 16C (80°F) minimum. The thermostat must retain itssettings in the case of an absence of AC power for a minimum of seven days.The thermostat may have to sense temperatures multiple locations in order toachieve an accurate representation of the temperature within the cabinet.
It must be possible to shut off operation of the CCU in response to alarmsignals generated elsewhere in the cabinet.
The installation of the CCU into the cabinet should require no additional Freonto be added such that the condenser or the evaporators hold the entire charge.
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5.2 CCU SPECIFICATIONS
The CCUs shall be a UL 484 Recognized unit. It is anticipated that cooling isrequired throughout the entire cabinet operating range (-40C to 55C).Although not desired, external air can be used to cool the cabinet whenexternal temperatures are below -20C (-4F) for long periods of time. Ifexternal air is used to cool the cabinet, the air should be filtered before itenters the cabinet. When filters are used, a method of detecting when thefilters should be replaced shall be available to the customer.
The cooling system must be designed such that during battery operation withambient temperature less or equal to 32C (approx. 90 F), maximum solarconditions, and at 70% of maximum cooling load, the air intake temperatures tothe RBS equipment shall remain below 50F. To meet this specification,typically, cooler outside air is brought into the cabinet through air entrancevents, which displaces the warmer internal cabinet air out of the cabinetthrough air exit vents. The vents are opened on demand and are designedsuch that water/rain/snow/ice can’t enter the cabinet when the vents are open.
The CCU compressors shall be controlled not to start simultaneously. Timedelay on power failure, lower pressure bypass time delay, high and lowpressure failure, and other controls shall be incorporated in the CCU controlsystem.
Item Maximum1
(W)Minimum
2
(W)
Internal Cabinet Equipment Power Dissipation 22549 2855
Power Supply Dissipation (90% efficiency) 2531 319
Less RF Power -1014 0
Subtotal 23810 3174
Solar Gain + Air Ingress 1292 0
TOTAL (W) 25102 3174
TOTAL (Btu/hr) 85,674 10,833Table 11. Cooling Capacity Requirements
Notes:
1. Maximum power calculated from a 3x31 1900MP RBS configuration (withmaximum traffic) with Edge and maximum customer equipmentoperational, and full solar load.
2. Minimum power calculated from a 3x15 1900MP RBS configuration withno traffic, no Edge, and minimum customer equipment operational and nosolar load.
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The power dissipated in a RBS four high equipment stack can vary from zeroto 3300W. The equipment airflow through one equipment stack can vary fromzero to 9.9m
3 (350 ft
3/min).
5.2.1 EQUIPMENT COLD START UP TIME INTERVAL
Maximum allowable time from a power off/cold soak condition (equipment andair intake at –40C (–40°F)) to power on of the RBS equipment (equipment andair intake = –10C (14°F) is 60 minutes. Electric heaters can be integrated inthe cooling system or located within the cabinet to meet this requirement.
5.2.2 CCUS MOUNTING
The CCUs shall be attached to the cabinet. The CCUs must be mounted tothe cabinet such the cabinet and CCUs are one moveable unit. The CCUsshould be protected against shipping damage.
If air is exchanged between the cabinet and CCU, the conditioned air intakeand discharge openings on the CCU shall be sealed to the cabinet usingclosed cell or micro-cellular foam gaskets. The gasket design andmanufacturing assembly procedures shall insure there is minimal air exchangebetween the conditioned air and the external environment. The CCU gasketsshall have an effective life equal to or greater than the effective life of thecabinet. All cabinets shall be required to pass an air leakage test prior toshipment.
5.2.3 CCU CONDENSER AMBIENT AIR INTAKE AND EXHAUST
The CCU condenser air intake and exhaust areas shall be covered for safetyand to minimize rodent intrusion and nesting.
The condenser air passage shall be designed to prevent coil blockage such asthat caused by icing during cold weather conditions.
5.2.4 CONDENSATE DRAIN
The CCU(s) shall have provisions to drain condensed moisture in such a waythat it does not interact with any other cabinet openings. The drainagepathways shall not be located over equipment. The drainage collectionmaterial shall be corrosion resistant. The drainage collection method shouldbe fabricated in such a way that the collection method has a secondary path(redundant) to be collected in case of a leak in the primary collection path.
All condensate drain hoses shall utilize a trap and drain to the sides of thecabinet.
5.2.5 CCU WIND TOLERANCE
The CCU shall be capable of operating properly in winds in excess 110 MPH(reference: Ericsson specification for outdoor cabinets).
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6. ALARMS
6.1 GENERAL
All alarms will be terminated into the Alarm Distribution Frame. This unit iscapable of accepting 32 alarm circuits and provides electrical isolation betweenthe alarms and the RBS equipment. A cable connects the Alarm DistributionFrame with one of the RBS ANPCs. Alarm wiring shall meet the requirementsfor connection to the alarm isolation modules.
All alarms shall be dry contact alarms. There shall be enough service-loop inthe alarm cables to reach any position in the alarm distribution frame. Alarmwiring shall be 22 AWG solid and twisted pair {to be reviewed with ADFconnection requirements}. All alarm wire connections to the isolation moduleconnection positions shall be labeled with the alarm name and positionnumber.
6.1.1 DOOR ALARMS
Each cabinet door shall employ a dry contact door alarm switch to signal whencabinet doors are opened. All door alarm switches, including the powerpedestal door switch, shall be wired in series. The door switches are to bewired normally closed when the doors are shut, and open to alarm when thedoors are opened. The cabinet door switch mounting hardware shall allowposition adjustment and easy removal and replacement of the switch.
The switch should allow for the circuit to be de-activated with the door open. Aplunger type switch can be selected such that the contacts can be closed, ifthe switch plunger is pulled forward. The switch should automatically resumeto normal operation once the door is closed.
6.1.2 SMOKE DETECTOR
The smoke detector shall employ a dry contact door alarm to signal whensmoke is detected within the cabinet. The smoke detector alarm shall bewired normally closed, open to alarm.
It must be possible to use this alarm signal to shut off operation of the CCU.
If practical, a 24DC powered smoke alarm should be selected since it willprovide alarm coverage during equipment operation loss of AC power whenthe battery powers the system.
6.1.3 SURGE ARRESTOR(S)
AC power input surge arrestor(s) shall have indicator lights and alarm contactsthat indicate when protection capacity has diminished by 10% or more. Thesurge arrestor alarm shall be wired normally closed, open to alarm.
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6.1.4 CABINET TEMPERATURE ALARMS
Separate adjustable high and low temperature alarms are required. The hightemperature alarm shall nominally set to 41C (105 ºF) and the low temperaturealarm shall be set to 4C (40 ºF). They shall have a minimum of +/-14C (25 ºF)adjustment range on either side of this set point and an adjustable differentialranging from a minimum adjustment increment of 1C (2 ºF) and a minimumdifferential of 7C (12 ºF). Both alarms shall be wired normally closed, open onalarm.
The sensors should be located near the warmest and coldest equipment airintake areas within the cabinet.
6.1.5 CCU ALARM
If either CCU fail to operate correctly, an NC alarm condition will generated.The alarm circuit shall wired normally closed, open on alarm.
6.1.6 AC MAINS VOLTAGE
An alarm will be used employing dry from the power system centralsupervisory unit to indicate the loss of cabinet AC Voltage. The alarm circuitshall wired normally closed, open to alarm.
6.1.7 DC UNDER VOLTAGE
An alarm will be used employing dry from the power system centralsupervisory unit to indicate that the DC output Voltage has dropped below apre-set threshold (normally 21V). The alarm circuit shall wired normallyclosed, open to alarm.
6.1.8 HYDROGEN GAS SENSOR
IF the Hydrogen gas level exceeds specification, an alarm circuit, which isnormally closed, shall open to alarm.
6.1.9 AIR FILTER BLOCKAGE
IF the pressure differential across a filter exceeds specification, an alarmcircuit, which is normally closed, shall open to alarm.
7. TRANSPORT AND INSTALLATION
7.1 TRANSPORT PACKAGING
Each cabinet and installation materials kit will ship secured to a shipping pallet.The pallet can be fastened to the cabinet using the pad mounting cabinetmounting attachment provisions. The shipping pallet maximum height shall be150 (6”) and shall be designed such that the cabinet can be lifted with a forklifttruck.
��������CONFIDENTIALPRODUCT SPECIFICATION 33 (33)
Prepared Subject responsible No.
GR/RM EV, TR EUS/GR/RM 1301 -SEB 112 1116 UenDoc response/Approved Checked Date Rev File: \\Eusrtp\Wildfire\RBS\
EUS/GR/RMC (Brian Glover) 2000-02-15 A SuperSCCSPrelim6_PA2_WIP3.doc
The cabinet and installation materials shall be protected against the ambientenvironment such that no damage to the cabinet and materials will beobserved if the materials are left exposed to the ambient environment withoutbeing hit by items for a period of 60 days {to be reviewed}. After this period,the product should be able to be installed without replacing the pallet orshipping protection materials. The protection materials shall withstand theenvironment similar to that experienced when shipping products on an opentractor flatbed trailer. Special shipping protection/requirements can be put onthe transporter to minimize the degree of product protection required by thecabinet manufacture.
7.2 INSTALLATION
7.2.1 PAD MOUNTING HARDWARE
A pad mounting kit shall be provided with each cabinet. Lifting hardware shallbe shipped installed onto the cabinet.
7.2.2 ADDITIONAL SHIPPING MATERIALS
Each cabinet shall be shipped with one (1) can of aerosol touch-up paint.
In addition, the cabinet shall be shipped with a bottle of paint with a touch-upbrush.
Ericsson will provide door padlock and key shipping instructions to the cabinetmanufacture.
7.3 DESTINATION
Ericsson to provide destination details on each purchase order. Pricing shallbe FOB.
8. APPENDIX
Revision Date CommentsPA1 1999-12-03 Preliminary Draft Release
PA2 2000-01-09 Revised by Ed Vitek
A 2000-02-16 Released
TABLE 13. REVISION HISTORY