FCC ID: NEO36IDRU420 Class B Booster

 

idDAS Installation and Maintenance Guide Doc. No. 00109GU Rev. 2.0 cobhamwireless.com Preface Material All rights reserved. Copyright 2020 Axell Wireless Limited trading as Cobham Wireless No part of this document may be copied, distributed, transmitted, transcribed, stored in a retrieval system, or translated into any human or computer language without the prior written permission of Axell Wireless Limited trading as Cobham Wireless. The manufacturer has made every effort to ensure that the instructions contained in this document are adequate and free of errors and omissions. The manufacturer will, if necessary, explain issues which may not be covered by this document. The manufacturer's liability for any errors in the document is limited to the correction of errors and the aforementioned advisory services. This document has been prepared to be used by professional and properly trained personnel, and the customer assumes full responsibility when using them. The manufacturer welcomes customer comments as part of the process of continual development and improvement of the documentation in the best way possible from the user's viewpoint. Please submit your comments to the nearest Cobham Wireless sales representative. Notice Confidential - Authorized Customer Use This document may be used in its complete form only and is solely for the use of Cobham Wireless employees and authorized Cobham Wireless channels or customers. The material herein is proprietary to Cobham Wireless. Any unauthorized reproduction, use or disclosure of any part thereof is strictly prohibited. All trademarks and registered trademarks are the property of their respective owners. Disclaimer of Liability Contents herein are current as of the date of publication. Cobham Wireless reserves the right to change the contents without prior notice. The information furnished by Cobham Wireless in this document is believed to be accurate and reliable. However, Cobham Wireless assumes no responsibility for its use. In no event shall Cobham Wireless be liable for any damage resulting from loss of data, loss of use, or loss of profits and Cobham Wireless further disclaims any and all liability for indirect, incidental, special, consequential or other similes damages. This disclaimer of liability applies to all products, publications and services during and after the warranty period. Contact Information Headquarters Axell Wireless trading as Cobham Wireless The Cobham Centre, Fourth Avenue, MARLOW, Buckinghamshire, SL7 1TF United Kingdom Tel: +44 1494 777000 www.cobhamwireless.com cw.support@cobham.com Website Support issues Technical Support Line, English speaking

+44 1494 777 747 Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | II About this Manual and for whom it is Intended This Installation Guide is intended for experienced technicians and engineers. It is assumed that the customers installing, operating, and maintaining Cobham Wireless equipment are familiar with the basic functionality of this type of equipment. It provides the following information:

Installation requirements Procedures for installations of various configurations

Description of the idDAS System Elements

Maintenance procedures

Ordering information Specifications Revision History REV ECO DETAILS Rev. 1.3 C12145

Maintenance procedures updates: MTDI chassis, idRU30, idRU40, MSDH, APOI, instructions for required web GUI operations Factory set static IP Address 192.168.1.253

Updated APOI to MTDI connections

Updates on idRU external alarms connections

High Power idRU 1800 composite output power specs with and without GSM

New Public safety idRU 30dBm

Ordering information updated and includes Eng. Numbers

Height dimension of MSDH for Americas PS DC = 350mm

Master Slave topology Input for DC powered units =36 to 60V DC Circuit breaker Type-C 10A required for idRU0036 LEDs updated RF source redundancy driven topology 2.0 C12559 Full system redundancy updates and public safety alarms RF exposure warning on minimum safe distance for the idRU id-DAS-RRU-3707-

3708-PS-NFPA-DC Safe distance update for id-DAS-RRU-3604-PS-NFPA-AC, RRU0042

Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | III General Warnings Required Permissions and Licenses Prior to the use of this equipment, the user must ensure they have the permissions and licenses required for the intended transmissions. Safety Instructions and Warnings Throughout this manual, important safety warnings and admonishments are included to warn of possible hazards to persons or equipment. A safety warning identifies a possible hazard and then describes what may happen if the hazard is not avoided. The safety warnings in the form of Dangers, Warnings and Cautions must be followed at all times. These warnings are flagged by the use of a warning icon, usually the triangular alert icon seen below. The exclamation point within the triangular alert icon is intended to warn the operator or service personnel of operation and maintenance from factors relating to the product and its operating environment, which could pose a safety hazard. Guarantees All antennas must be installed with lightning protection. Damage to power modules, as a result of lightning are not covered by the warranty. Switching on AC or DC power prior to the connection of antenna cables is regarded as faulty installation procedure and therefore not covered by the Cobham Wireless warranty. Repeater enclosures should be closed using the two screws. The screws must be fully tightened. Failure to do so may affect the IP66 compliancy and therefore any warranty. Unauthorized Changes to Equipment Changes or Modifications not expressly approved by Cobham Wireless could void the users authority to operate the equipment. Exclusive Remedies The remedies provided herein are the Buyers sole and exclusive remedies. Cobham Wireless shall not be viable for any direct, incidental, or consequential damages, whether based on contract, tort, or any legal theory. idRU FCC Compliance WARNING!!! This is NOT a CONSUMER device. This device is designed for installation by FCC LICENCEES and QUALIFIED INSTALLERS. You must have an FCC LICENCE or express consent of an FCC Licensee to operate this device. Unauthorized use may result in significant forfeiture penalties, including penalties in excess of $100,000 for each continuing violation. FCC Part 90 applicable only to id-DAS-RRU-3604-PS-NFPA-AC idRU FCC Part 90, applicable only to id-DAS-RRU-3604-PS-NFPA-AC idRU WARNING!!! This is NOT a CONSUMER device. This device is designed for installation by FCC LICENCEES and QUALIFIED INSTALLERS. You must have an FCC LICENCE or express consent of an FCC Licensee to operate this device. You MUST register Class B signal boosters (as defined in 47 CFR 90.219) online at www.fcc.gov/signal-boosters/registration. Unauthorized use may result in significant forfeiture penalties, including penalties in excess of $100,000 for each continuing violation. This booster must be operated as a Part 90 Class B booster. The installation procedure must result in the signal booster complying with FCC requirements 90.219(d). In order to meet FCC requirements 90.219(d), it may be necessary for the installer to reduce the UL and/or DL output power for certain installations. Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | IV FCC Part 15 This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions:

1. This device may not cause harmful interference, and 2. This device must accept any interference received, including interference that may cause undesired operation. Radio Frequency Interference (RFI) This equipment generates, uses, and can radiate radio frequency energy, and if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to RF reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:

Reorient or relocate the Donor antenna. Increase the separation between the equipment and receiver. Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. To comply with FCC RF exposure compliance requirement, adhere to the following warnings:

RF Safety WARNINGS!

Used only authorized and approved antennas, cables and/or coupling devices! The use of unapproved antennas, cables and or coupling devices could cause damage and may be a violation of FCC regulations. The use of unapproved antennas, cables and/or coupling devices is illegal under FCC regulations and may be subject to fines. Antennas used for this product must be fixed mounted on indoor permanent structures providing a separation distance as detailed in the following section. For frequency bands 379.5 MHz, 447.5 MHz, 796 MHz, and 2670 MHz, each individual antenna used for this transmitter must be installed to provide a minimum separation distance of 128 cm from all persons and must not be co-located with any other antennas for meeting RF exposure requirements. For frequency bands 728 MHz, 862 MHz, 1930 MHz, and 2110 MHz, each individual antenna used for this transmitter must be installed to provide a minimum separation distance of 186 cm from all persons and must not be co-located with any other antennas for meeting RF exposure requirements. For the id-DAS-RRU-3604-PS-NFPA-AC idRU each individual antenna used for this transmitter must be installed to provide a minimum separation distance of 25 cm from all persons and must not be co-located with any other antennas for meeting RF exposure requirements. The design of the antenna installation needs to be implemented in such a way as to ensure RF radiation safety levels and non-environmental pollution during operation.

Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | V idRU IC Compliance WARNING!

This is NOT a CONSUMER device. This device is designed for installation by an installer approved by an ISED LICENCEE. You must have an ISED LICENCE or express consent of an ISED Licensee to operate this device. ATTENTION!

Ce n'est pas un appareil consommateur. Cet appareil est conu pour tre install par un installateur agr par un licenci ISED. Vous devez avoir une licence ISED ou le consentement exprs dun dtenteur de licence ISED pour utiliser cet appareil. This device complies with Industry Canada license-exempt RSS standard(s). Operation is subject to the following two conditions: (1) this device may not cause interference, and (2) this device must accept any interference, including interference that may cause undesired operation of the device. The device meets the exemption from the routine evaluation limits in section 2.5 of RSS 102 and compliance with RSS-

102 RF exposure, users can obtain Canadian information on RF exposure and compliance. This transmitter must not be co-located or operating in conjunction with any other antenna or transmitter. This equipment should be installed and operated with a minimum distance as stated below, between the radiator and your body. Le prsent appareil est conforme aux CNR d'Industrie Canada applicables aux appareils radio exempts de licence. L'exploitation est autorise aux deux conditions suivantes: (1) l'appareil ne doit pas produire de brouillage, et (2) l'utilisateur de l'appareil doit accepter tout brouillage radiolectrique subi, mme si le brouillage est susceptible d'en compromettre le fonctionnement. Le prsent appareil respecte les limites dexemption de lvaluation courante indiques la section 2.5.1 du CNR 102 et la conformit aux limites d'exposition humaine aux radiofrquences du CNR 102 ; les utilisateurs peuvent obtenir linformation canadienne sur lexposition humaine aux radiofrquences et sur la conformit. Cet metteur ne doit pas tre install ni utilis en conjonction avec une autre antenne ou un autre metteur. Cet quipement doit tre install et fonctionner en respectant la distance minimale indique ci-dessous, entre lantenne et votre corps. RF Exposure info The installer of this radio equipment must ensure that the antenna is located or pointed such that it does not emit RF field in excess of Health Canada limits for the general population; consult Safety Code 6, obtainable from Heath Canadas website www.hc-sc.gc.ca/rpb. Class B Notice for Canada This Class B digital apparatus complies with Canadian ICES-003. Cet appareil numrique de la classe B est conforme la norme NMB-003 du Canada. This equipment complies with IC RSS-102, Safety Code 6 radiation exposure limits set forth for an uncontrolled environment. The minimum safe distance where RF exposure does not exceed IC permissible limit, is as follows for specific models:

* id-DAS-RRU-3707-3708-PS-NFPA-DC = 26 cm

* id-DAS-RRU-3604-PS-NFPA-AC = 32 cm. WARNING!

ATTENTION!

Cet quipement est conforme la norme CNR-102, les limites d'exposition aux rayonnements du Code de scurit 6 tablies pour un environnement non contrl. La distance minimale de scurit o l'exposition aux RF ne dpasse pas la limite admissible IC, est la suivante pour des modles spcifiques:

* id-DAS-RRU-3707-3708-PS-NFPA-DC = 26 cm

* id-DAS-RRU-3604-PS-NFPA-AC = 32 cm Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | VI Maximum Permissible Exposure (MPE) calculation for frequency bands MPE calculation for 395MHz, 446MHz, 791MHz, 2540MHz NOTE: Limits according to FCC. The following calculations are used to estimate MPE distance for a single band and for multiple bands:

Parameters for calculation:

Pn = Maximum measured conducted power for each single path, 43.75 dBm = 23,714 mW G = Maximum antennas gain (w/o cable loss) = 14dBi, 11dBi, 8dBi, 5dBi Gn = Maximum antenna gain 13.617, 12.589, 6.309, 3.162 respectively as above Sn = Power density limit [mW/cm2] per 47 CFR 1.1310 (B). Rn = Minimum distance calculated Equation for minimum distance for single band:

Rn PnGn 4Sn FREQ. BAND

(MHZ) 395 446 791 PN OUTPUT POWER

[MW]

3982 3982 10,000 SN POWER DENSITY LIMIT [MW/CM2]

RN MIN DIST.

[CM]

FOR ANT. GAIN 14DBI RN MIN DIST. [CM]

FOR ANT. GAIN 11DBI RN MIN RN MIN DIST. DIST. [CM]

[CM]

FOR ANT. GAIN 8DBI FOR ANT. GAIN 5DBI 0.263 0.297 0.527 1 174 164 195 123 116 138 87 82 98 70.9 62.0 58 69 50.2 2540 10,000 141.4 100.1 Minimum distance for single band Equation for minimum distance for multiple bands:

R Worst case scenario when all bands are active. ANTENNA GAIN R- MINIMUM DISTANCE 14dBi 11dBi 8dBi 5dBi 339.39 cm 240.102 cm 170.07 cm 120.37 cm Minimum distances for multiple bands for several antennas MPE calculation for 728 MHz, 862 MHz, 1930 MHz, and 2110 MHz INTERFACE DESCRIPTION Reference document 47 CFR & 1.1310 (B). Limit Frequency (MHz) PD(mW/cm2) 300 1500 S = f/1500 1550 100,000 S = 1 Calculation Result*:

Minimum distance in order to meet 1.1310= 524.37 cm Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | VII Combined Bands:

Each idRU supports up to four bands that are combined in one PLEXER into one antenna port. Each band can transmit up to +43.75 dBm (23.714W). All four bands can transmit four times the power, +49.75dBm (94.856W).

When more than one operator operates the band, the power budget is divided between the operators automatically. For example, when two operators using same band (different frequencies), each operator has a maximum output power of +40.75dBm (+43.75dBm / 2 = +40.75dBm). Operation bands and frequencies DL START [MHZ]

DL STOP [MHZ]

DL CF [MHZ]

DL BW [MHZ]

POWER [DBM]

LTE 700 CELL PCS AWS 728 862 1930 2110 757 894 1995 2180 742.5 878 1962.5 2145 29 32 65 70

+43.75

+43.75

+43.75

+43.75 The following calculations are used to estimate MPE distance for a single band and for multiple bands:

Parameters for calculation:

Pn = Maximum measured conducted power for each single path, 43.75 dBm = 23,714 mW G = Maximum antennas gain (w/o cable loss) = 14dBi, 11dBi, 8dBi, 5dBi Gn = Maximum Antenna gain 13.617, 12.589, 6.309, 3.162 respectively as above Sn = Power density limit [mW/cm2] per 47 CFR 1.1310 (B). Rn = Minimum distance calculated Equation for minimum distance for single band:

Rn PnGn 4Sn FREQ. BAND

(MHZ) PN OUTPUT POWER

[MW]

SN POWER DENSITY LIMIT [MW/CM2]

RN MIN DIST.

[CM]

FOR ANT. GAIN 14DBI RN MIN DIST. [CM]

FOR ANT. GAIN 11DBI RN MIN DIST. [CM]

FOR ANT. GAIN 8DBI RN MIN DIST.

[CM]

FOR ANT. GAIN 5DBI 728 862 1930 2110 23,714 0.4853 312.52 221.25 23,714 0.5747 23,714 23,714 1 1 287.20 217.72 217.72 203.32 154.13 154.13 156.63 143.94 109.12 109.12 110.89 101.90 77.25 77.25 Minimum distance for single band Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | VIII 14dBi 11dBi 8dBi 5dBi 524.37 cm 371.22 cm 262.80 cm 186.05 cm Minimum distances for multiple bands for several antennas Equation for minimum distance for multiple bands:

R Worst case scenario when all bands are active. ANTENNA GAIN R- MINIMUM DISTANCE EMEA Standards Safety:

EMC Radio EN 60950-1 EN 60825-1 EN 50385 EN 301 489-1 EN 301-489-5 EN 301 489-50 EN 303 609 EN 302 561 EN 301 908-1 EN 301 908-11 EN 301 908-15 General General General General UHF/TETRA Cellular GSM UHF/TETRA General 4G 3G 4G Exposure to Electromagnetic Fields Cobham Wireless Repeaters emit Radio Frequency signals which when connected to an antenna will produce an electromagnetic field. The International Commission for Non- Ionising Radiation Protection (ICNIRP)have issued guidelines that recommend the reference levels, which if adhered to, will provide maximum protection from adverse health effects that may be caused by exposure to such fields This equipment when correctly installed and commissioned will be fully compliant with the ICNIRP reference levels. ICNIRP produce two sets of reference levels, one for occupational exposure and one for general public exposure. The definition given of occupational exposure reference levels is that the individuals exposed will be aware of the potential hazards, be trained to recognize such hazards and be able to take corrective action if required. This might apply to trained RF engineers or antenna system installers but typically this equipment will be used in environments where persons not specifically trained will be exposed to electromagnetic fields generated by the equipment. Therefore it is recommended that when using this equipment the reference levels for exposure to the general public are used. The reference levels are based on the Specific Energy Absorption Rate (SAR) that determines the heating effect a person may experience as a result of exposure to electromagnetic fields. The heating effect varies with the radio frequency as the SAR varies depending on the frequencies used. The reference levels relevant to the frequencies used in this equipment are reproduced below:

The reference levels relevant to the frequencies used in this equipment are reproduced below:

FREQUENCY RANGE 10 400 MHz 400 2,000 MHz 2 300 GHz E-FIELD STRENGTH

(V M-1) 1.375f1/2 28 61 H-FIELD STRENGTH

(V M-1) 0.073 0.0037f1/2 0.16 B-FIELD

(T) 0.092 0.0046f1/2 0.20 EQUIVALENT PLANE WAVE POWER DENSITY SEQ (WM-2) 2 f/200 10 Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | IX The maximum recommended power density or field strength for typical Cobham Wireless repeaters would be as follows:

It should be noted that exposure to electromagnetic fields in excess of those stated above is not necessarily dangerous to the public but should such fields be present the installation should be investigated and action taken. This could be achieved by reducing the RF power delivered to the antenna or setting up exclusion zones either with physical separation or suitable signage. To assist the designers of distributed antenna systems to ensure that when using Cobham Wireless repeater equipment their installations are compliant with the ICNIRP reference levels the following example provided. To calculate the distance from the antenna where the reference level is reached the following formula is used. FM broadcast 100MHz 2W/m VHF 150MHz TETRA 390MHz UHF 460 MHz 900 MHz 1800 MHz 2100 MHz 2600 MHz 2W/m 2W/m 2.3W/m 4.5 W/m 9 W/m 10 W/m 10 W/m

P G Pd R PEIRP = Effective Isotropic Radiated Power (watts)

= Antenna input power (Watts)

= Numeric antenna gain

= Power density (W/m2)

= Distance Assume LTE signals on a 900 MHz band of a total +10 dBm (10 mW) maximum composite power, connected to an indoor omnidirectional antenna with unity (0dBi) gain. Maximum power density is 4.5W/m

The construction of a typical indoor antenna includes a driven element and a plastic radome. The distance calculated is from the driven element so would therefore be within the dimensions of the radome making the antenna touch safe. Assume 2 x UMTS and 2 x LTE signals each with a maximum carrier power of +5 dBm (3.2mW) are connected to antenna with 3dBi gain The maximum permitted power density is 9 W/m

When making such calculations the number of carriers and the frequencies must be taken into account so that the composite power of all the carriers presented to an antenna are included in the calculation. Where higher powers are delivered to antennas that would cause the exclusion zone to exceed the dimensions of the radome the antenna must be located so that members of the public cannot approach closer than the calculated distance and warning notices for maintenance staff who may use ladders to approach the antenna are prominently displayed. Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | X General Safety Warnings Concerning Use of System Throughout this manual, there are "Caution" warnings. "Caution" calls attention to a procedure or practice, which, if ignored, may result in injury or damage to the system, system component or even the user. Do not perform any procedure preceded by a

"Caution" until the described conditions are fully understood and met. DANGER! To prevent electrical shock when installing or modifying the system power wiring, disconnect the wiring at the power source before working with uninsulated wires or terminals. CAUTION! Some units may have more than one power cord. To reduce the risks of electric shock disconnect all power cords before servicing. Installation should be done by qualified personal according to the NEC (National Electrical Code). For Outdoor idRU (remote unit) installations:

Installation should be done according to NFPA 780 or CAN/CSA-B72 idRU equipment installed outdoors containing a power supply cord used in Wet Locations shall have the suffix W, W-A, or the words water resistant or outdoor marked on the flexible cord. Installation of Surge Arrestors external to the equipment to reduce overvoltages or to bypass surge current shall be installed as per Eng. 280 of ANSI/NFPA 70. Installation of Transient Voltages Surge Suppressors external to the equipment to reduce overvoltages or to bypass surge current shall be installed per Eng. 285 of ANSI/NFPA 70. Before installing or replacing any of the equipment, the entire manual should be read and understood. The user needs to supply the appropriate AC or DC power to the repeater. Incorrect power settings can damage the repeater and may cause injury to the user. Please be aware that the equipment may, during certain conditions become very warm and can cause minor injuries if handled without any protection, such as gloves.

When installing, replacing or using this product, observe all safety precautions during handling and operation. Failure to comply with the following general safety precautions and with specific precautions described elsewhere in this manual violates the safety standards of the design, manufacture, and intended use of this product. Changes or modifications not expressly approved by the party responsible for compliance could void the users authority to operate the equipment. Cobham Wireless assumes no liability for the customer's failure to comply with these precautions. This entire manual should be read and understood before operating or maintaining the repeater.

Warning: Restricted Access Location Access to the installation locations is restricted to SERVICE PERSONNEL. Attention:

Electrostatic Sensitivity

Observe electrostatic precautionary procedures. ESD = Electrostatic Discharge Sensitive Device.

Static electricity can be conducted to the semiconductor chip from the centre pin

of the RF input connector, and through the AC connector pins. When unpacking and otherwise handling the repeater, follow ESD precautionary procedures including use of grounded wrist straps, grounded workbench surfaces, and grounded floor mats. Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | XI Caution labels!

Electrical Shock Caution: Installation Procedure Attention: For OUTDOOR idRU Installations Caution: Safety to personnel Caution: Safety to equipment Caution: Class 1 Laser Exercise caution as follows:

RF radiation, arising from transmitter outputs connected to AWLs equipment, must be considered a safety hazard. This condition might only occur in the event of cable disconnection, or because a spare output has been left un-terminated. Either of these conditions would impair the systems efficiency. No investigation should be carried out until all RF power sources have been removed. This would always be a wise precaution, despite the severe mismatch between the impedance of an N type connector at 50 ohm, and that of free space at 377 ohm, which would severely compromise the efficient radiation of RF power. Radio frequency burns could also be a hazard, if any RF power carrying components were to be carelessly touched!

Antenna positions should be chosen to comply with requirements (both local &

statutory) regarding exposure of personnel to RF radiation. When connected to an antenna, the unit is capable of producing RF field strengths, which may exceed guideline safe values especially if used with antennas having appreciable gain. In this regard the use of directional antennas with backscreens and a strict site rule that personnel must remain behind the screen while the RF power is on, is strongly recommended.

Where the equipment is used near power lines or in association with temporary masts not having lightning protection, the use of a safety earth connected to the case-earthing bolt is strongly advised. The MSDH and idRU equipment described in this manual are equipped with class 1 lasers, which have been tested to meet IEC / EN 60825-1:2014 standards. Lasers should comply with CDRH to CFR 1040.10 and 1040.11

Use of controls or adjustments or performances of procedures other than those specified herein may result in hazardous radiation exposure.

Do not stare into beam or view with optical instruments. Optical transmitters in the Fibre optic converter can send out high energy invisible laser radiation. There is a risk for permanent damage to the eye. Always use protective cover on all unconnected cables and connectors.

Never look directly into a Fibre cable or a connector.

During handling of laser cables or connections, ensure the source is switched Consider that a Fibre can carry transmission in both directions. off. Regard all open connectors with respect and direct them in a safe direction and never towards a reflecting surface. Reflected laser radiation should be regarded as equally hazardous as direct radiation. The A-POI Controller module contains a button cell Renata CR1220 non-

rechargeable Lithium battery. The MSDH unit contains a button cell Panasonic Model BR1225A non-

rechargeable Lithium battery. CAUTIONS! Risk of explosion of battery is replaced by incorrect type. Dispose of used batteries according to local laws and instructions. Certain items of Cobham Wireless equipment are heavy and care should be taken when lifting them by hand. Ensure that a suitable number of personnel, appropriate lifting apparatus and appropriate personal protective equipment is used especially when installing Equipment above ground e.g. on a mast or pole and manual handling precautions relevant to items of the weight of the equipment being worked on must be observed at all times when handling, installing or dismounting this equipment. In some installations, under certain site conditions, it is required to add DC Blocks to the antenna cables of the remote units. For example, in installation locations with power cables that can induce currents resulting in trackside voltages or loop currents. In these type of situations, DC Blocks are required to protect the idDAS remotes from damage. Caution: RF Exposure Battery Replacement and Disposal Lifting and other Health and Safety Recommendations DC Blocks Required Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | XII Scurit gnrale concernant l'utilisation du systme Lables Attention!

Tout au long de ce manuel , il y a des avertissements "Prudence." s "Prudence" attire l'attention sur une procdure ou pratique, qui , si elle est ignore , peut entraner des blessures ou des dommages au systme, un composant du systme ou mme l'utilisateur. Ne pas effectuer toute procdure prcde d'une Attention jusqu' ce que les conditions dcrites sont parfaitement comprises et respectes . Choc lectrique DANGER! Pour viter un choc lectrique lors de l'installation ou la modification du cblage d'alimentation du systme, dbrancher le cblage la source d'alimentation avant de travailler avec des fils ou terminaux non isols. PRUDENCE! Certaines units peuvent avoir plus d'un cordon d'alimentation. Pour rduire les risques de dconnexion lectrique de choc tous les cordons d'alimentation avant l'entretien. Attention: Procdure d'installation L'installation doit tre effectue par un personnel qualifi selon personnel au CEC

(Code canadien de l'lectricit ) Pour les installations extrieures de idRU Attention: pour les installations extrieures de idRU

L'installation doit tre effectue conformment la norme NFPA 780 ou CAN /

CSA-B72

Pour idRU qui est install l'extrieur, qui comprend un cordon d'alimentation utilis dans les endroits humides, le suffixe "W", "W-A", ou les mots rsistant l'eau ou extrieur est marque sur le cordon flexible. Attention : la scurit au personnel Attention: la scurit l'quipement

Surge Arrestors externe l'quipement, qui sont utiliss pour rduire les surtensions ou de contourner courant de choc, doit tre install conformment l'Eng. 280 de la norme ANSI / NFPA 70.

Transient Voltages Parasurtenseur externe l'quipement, qui sont utiliss pour rduire les surtensions ou de contourner les surtensions de courant, doit tre install conformment l'Eng. 285 de la norme ANSI / NFPA 70.

Avant d'installer ou de remplacer l'un des quipements , la totalit du manuel doit tre lu et compris .

L'utilisateur doit fournir le courant alternatif appropri ou courant continu au rpteur . les paramtres d'alimentation incorrecte peut endommager le rpteur et peuvent causer des blessures l'utilisateur.

S'il vous plat tre conscient que l'quipement peut , dans certaines conditions devenir trs chaud et peut causer des blessures mineures en cas de manipulation sans protection , comme des gants .

Lors de l'installation, de remplacement ou d'utiliser ce produit, respecter toutes les consignes de scurit lors de la manipulation et de l'exploitation. Le non-respect des consignes de scurit gnrales suivantes, et avec des prcautions spcifiques dcrites ailleurs dans ce manuel, viole les normes de la conception, la fabrication de scurit, et l'utilisation de ce produit destin.

Les changements ou modifications non expressment approuvs par la partie responsable de la conformit pourraient annuler l'autorit de l'utilisateur utiliser l'quipement.

Cobham Wireless dcline toute responsabilit pour l'chec du client de se conformer ces prcautions. L'ensemble de ce manuel doit tre lu et compris avant d'utiliser ou de maintenir le rpteur. Attention: Emplacement accs restreint Accs aux emplacements d'installation est limit au personnel de service. Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | XIII Attention: exposition

Cette condition ne peut se produire en cas de dconnexion du cble, ou

Rayonnement RF qui dcoule de sorties du transmetteur connect l'quipement de AWL, doit tre considr comme un danger pour la scurit. RF parce qu'une sortie 'supplmentaire' a t laisse non termine. Chacune de ces conditions serait nuire l'efficacit du systme. Aucune investigation doit tre effectue jusqu' ce que toutes les sources de puissance RF ont t enlevs. Ce serait toujours une sage prcaution, malgr le grave dsquilibre entre l'impdance d'un connecteur de type-N 50 ohms, et celle de l'espace libre 377 ohms, ce qui serait compromettre gravement le rayonnement efficace de la puissance RF. brlures de frquence radio peuvent aussi tre un danger, le cas chant puissance RF portant des composants devait tre ngligemment touch!

Positions d'antenne doivent tre choisis pour se conformer aux exigences

(locales et statutaires) concernant l'exposition du personnel aux rayonnements RF. Lorsqu'il est connect une antenne, l'appareil est capable de produire des intensits de champ RF, qui peuvent dpasser les valeurs indicatives de scurit en particulier si elle est utilise avec des antennes ayant un gain apprciable. cet gard, l'utilisation d'antennes directionnelles avec backscreens et une rgle stricte du site que le personnel doit rester derrire l'cran tandis que la puissance RF est allum, est fortement recommand.

Si l'quipement est utilis prs des lignes lectriques ou en association avec des mts temporaires ne pas avoir une protection contre la foudre, l'utilisation d'une terre de scurit reli au boulon de cas mise la terre est fortement conseill.

Respecter les procdures de prcaution lectrostatiques. ESD = dcharges lectrostatiques Sensitive Device. L'lectricit statique peut tre conduit la puce semi-conducteur, partir de la epingle central du connecteur d'entre RF et travers les epingle du connecteur courant alternatif. Lors du dballage et de toute autre manipulation du rpteur, suivre les procdures de prcaution ESD y compris l'utilisation de poignet mis la terre, des surfaces d'tabli mis la terre, et mat tapis la terre. L'quipement MSDH et idRU dcrit dans ce manuel sont quips de classe 1 lasers, qui ont t tests pour rpondre aux normes IEC / EN 60825-1: 2014. Lasers doivent tre conformes aux CDRH CFR 1040.10 et 1040.11 Faites preuve de prudence comme suit:

L'utilisation de commandes ou de rglages ou l'excution de procdures autres que celles spcifies dans le prsent document peuvent entraner une exposition des radiations dangereuses.

Ne pas regarder le faisceau ou la vue avec des instruments optiques. metteurs optiques dans le convertisseur optique de fibre peuvent envoyer de haute nergie, invisible, le rayonnement laser. Il y a un risque de dommages permanents l'il.

Toujours utiliser la couverture de protection sur tous les cbles et connecteurs qui ne sont pas connects.

Ne regardez jamais directement dans un cble de fibre ou d'un connecteur.

Considrer qu'une fibre peut transmettre dans les deux sens.

Pendant la manipulation des cbles laser ou des connexions, assurez-vous que la source est coupe.

Regard connecteurs tous ouverts avec respect et les diriger dans une direction sre et jamais vers une surface rflchissante. rayonnement laser Rflchie doit tre considre comme tout aussi dangereux que le rayonnement direct. Attention:

sensibles aux dcharges lectrostatiques Attention: laser de classe 1 Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | XIV Changement de piles et limination

Le module A-POI Controller contient une pile bouton Renata CR1220 Pile au lithium non rechargeables.

L'unit MSDH contient une pile bouton Panasonic Modle BR1225A de la batterie au lithium non rechargeable. Levage et autres recommandations sur la sant et la scurit Blocs DC Requis PRECAUTIONS !

Risque d'explosion de la batterie est remplace par type incorrect.

Jetez les piles usages conformment aux lois et instructions locales

Certains Eng.s de l'quipement Cobham Wireless sont lourds et il faut prendre soin de les soulever la main.

Assurez-vous qu'un nombre suffisant de personnel, des appareils de levage appropris et un quipement de protection individuelle appropri sont utiliss surtout lors de l'installation de l'quipement au-dessus de la terre, par exemple Sur un mt ou un poteau. En outre, les prcautions manuelles de manipulation qui sont pertinentes pour les Eng.s du poids de l'quipement en cours de travail doivent tre respectes en tout temps lors de la manipulation, de l'installation ou du dmontage de cet quipement. Dans certaines installations, dans certaines conditions de site, il est ncessaire d'ajouter des blocs DC aux cbles d'antenne des rpteurs. Par exemple, dans les emplacements d'installation avec des cbles d'alimentation qui peuvent induire des courants entranant des tensions de voie ou des courants de boucle. Dans ce type de situations, les blocs DC sont ncessaires pour protger les rpteurs idDAS contre les dommages. Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | XV Table of Contents IDDAS SYSTEM DESCRIPTION .................................................................................................. 1 1.1 About the idDAS System .......................................................................................................... 1 1.2 Architecture ............................................................................................................................. 3 1.3 Elements Interfaces and Power Feed ........................................................................................ 4 1.4 Bespoke 12V DC Headend Elements ...................................................................................... 15 TOPOLOGY EXAMPLES .......................................................................................................... 17 2.1 Basic Topology ...................................................................................................................... 17 2.2 Cascaded idRU Topology ...................................................................................................... 18 2.3 Master Slave Topologies ........................................................................................................ 19 2.4 Redundancy Driven Topologies .............................................................................................. 19 2.5 Additional Applications ........................................................................................................... 24 SYSTEM INSTALLATION REQUIREMENTS .............................................................................. 29 3.1 General Warnings .................................................................................................................. 29 3.2 Public Safety Installation Requirements .................................................................................. 29 3.3 Headend and idRU Location Criteria ....................................................................................... 30 3.4 RF Cable Installation Guidelines ............................................................................................. 31 3.5 Optics Related Requirements ................................................................................................. 32 3.6 Grounding Wire Requirements ............................................................................................... 33 3.7 Power Requirements and Power Cables ................................................................................. 33 3.8 EMV Protection ..................................................................................................................... 37 3.9 idRU Service Antenna Requirements ...................................................................................... 38 4 HEADEND ELEMENTS INSTALLATION .................................................................................... 40 4.1 Overview ............................................................................................................................... 40 4.2 Unpacking the Headend Units ................................................................................................ 41 4.3 Mounting in Rack, Ground and Power Connections ................................................................. 43 4.4 MSDH Connections ............................................................................................................... 50 4.5 RF Source to idDAS Connections ........................................................................................... 58 IDRU INSTALLATION .............................................................................................................. 63 5.1 Warnings and Safety Guidelines ............................................................................................. 63 5.2 PS NFPA idRUs Installation Instructions ................................................................................. 65 5.3 Unpacking and Package Contents .......................................................................................... 65 5.4 Brackets and Fan-Hood Assembly .......................................................................................... 67 5.5 Mounting the Repeaters ......................................................................................................... 74 5.6 idRU Connections .................................................................................................................. 81 5.7 External Alarms and Relay Connections.................................................................................. 89 VERIFICATION AND MAINTENANCE ....................................................................................... 96 6.1 Basic Verification of the Installation ......................................................................................... 96 6.2 Required Tools ...................................................................................................................... 97 6.3 Maintenance Schedule........................................................................................................... 98 6.4 idDAS System Routine Inspections ......................................................................................... 99 6.5 Periodical Procedures ........................................................................................................... 100 6.6 MSDH and MTDI Element Replacement Procedures .............................................................. 102 6.7 idRU Replacement Procedures ............................................................................................. 105 6.8 APOI Replacement Procedures ............................................................................................. 112 6.9 Web GUI Operations............................................................................................................. 117 6.10 F/O Cleaning Procedure ....................................................................................................... 130 SPECIFICATIONS .................................................................................................................. 133 7.1 Supported Frequencies ......................................................................................................... 133 7.2 Headend Units Specifications ................................................................................................ 136 idRU EMEA/APAC Specifications .......................................................................................... 139 7.3 7.4 idRU Americas Specifications ................................................................................................ 141 Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | XVI 1 2 3 5 6 7 8 ORDERING INFORMATION .................................................................................................... 143 8.1 EMEA/APAC Ordering Information ........................................................................................ 143 8.2 Americas Ordering Information .............................................................................................. 145 8.3 Bespoke Ordering Information ............................................................................................... 147 8.4 SFPs and Jumpers ............................................................................................................... 147 APPENDIX A EU DECLARATION OF CONFORMITY .................................................................... 148 Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | XVII 1 idDAS System Description This chapter provides the following information

Introduction to the idDAS system Features of the idDAS system idDAS for public safety idDAS architecture

Detailed descriptions of each element, including power consumption and interfaces 1.1 About the idDAS System Cobham Wireless idDAS provides a customizable and expandable cellular and data coverage solution for multiple operators and services over a common infrastructure. This is implemented via an all digital transport CPRI-based DAS. Supported RF sources inlcude macro and low power BTS devices, and small cells. Analogue RF services and sectors from the RF source are conditioned, digitized and then transported utilizing CPRI links over SMF, MMF, Cat 6 cable infrastructure to remote locations. Cellular services are converged with WiFi and small cells IP backhaul for distribution over the same CPRI link infrastructure. An intuitive, web-based software management application is used for single-source management of all system elements by opening a web session to any of the systems digital central switching hubs (MSDHs). The solution can be expanded and customized according to changing coverage and capacity needs. Cobham Wireless can provide a complete solution including design, site surveys and equipment related to the idDAS.

Inherent and simple MIMO capability over a single backbone - lowers costs and simplifies deployment 1.1.1 Physical Features

All digital transport CPRI-based DAS

Robust low noise, high dynamic range architecture

Software-controlled dynamic capacity management

8 frequency bands and more over the same F/O cable

Cable agnostic - supports SMF and MMF

Plug-and-play capability

Modular mixable and expandable architecture

Cobham Wireless patented DSP RF filtering technology

Embedded last mile 1 Gbit/s IP backhaul for WiFi AP and Small cell

Ready for direct CPRI base band interface

Active Element Manager (AEM) monitor and supervision software Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 1 1.1.2 idDAS for Public Safety idDAS supports families of products specifically designed for to meet rigid public safety requirements as required in various regions. idDAS public safety for North America (US and Canada) products meet the requirements as follows:

The enclosures are painted a Fire Life Safety Red

Compliance to NEMA4

Support for dry contact alarms in accordance with UL 2524 Standard for In-building 2-Way Emergency Radio Communication Enhancement Systems sections 12 & 33, in line with NFPA 72 National Fire Alarm and Signalling Code

Compliance to Multiple Public Safety Standard APCO P25 phase 1 and 2, TETRA, TETRAPOL, SMR, ESMR, LTE

Support for custom redundancy options idDAS public safety for EU/EMEA products meet the requirements as follows:

The enclosures are painted a Fire Life Safety Red

Meet the requirements of IP66

Compliance to Multiple Public Safety Standard TETRA, TETRAPOL, LTE

Support for custom redundancy options Figure 1-1 illustrates a PS NFPA idRU identified by the red enclosure. Refer to Section 8.2.1.4 for part numbers. Figure 1-1. PS NFPA idRU Front Panel Example Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 2 1.2 Architecture The idDAS solution consists of the following main elements refer to Figure 1-2:

APOI Active Point of Interface. A headend service conditioning unit that supports up to 16 BTS sectors (+30dBm max input power) via up to eight, modular plug in band specific modules. See Section 1.3.1 for A-POI interfaces. NOTE: Some Public Safety installations include POI instead of APOI equipment.

MTDI Multi-Technology Digital Interface. Digitizes and filters RF signals from APOI (up to 16 channels) or POI (up to 8 channels) sources via four band specific plug-in modules covering all common frequencies. See Section 1.3.2 for MTDI interfaces.

MSDH Multi-Sector Digital Hub. Serves as the central switching hub and control system of the idDAS. All digitized cellular resources converge at the MSDH through CPRI links and are then distributed to the relevant remote units. Two MSDH models are available: Master MSDH and Slave MSDH. Management is implemented via the Master MSDH. A Master and a Slave unit can be cascaded for single source management of the remote units connected to both. See Section 1.3.3 for MSDH interfaces.

idRU idDAS Remote Unit. IP66 outdoor unit with four band support. A range of models are available for medium power (32dBm per band) and high (40dBm per band). The idRU serve as the backhaul port for any IP device or switch in the neighborhood, distributing combined cellular and data services. See Section 1.3.4 for idRU interfaces.

Management all idDAS system elements are managed via a web session to the Main MSDH unit. Figure 1-2. idDAS System Architecture

* idRU 30 = idRU Medium Power

** idRU 40 = idRU High Power Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 3 1.3 Elements Interfaces and Power Feed This section describes the interfaces and power feed of the A-POI, MTDI, MSDH, and idRU. 1.3.1 A-POI Description The A-POI (Active Point of Interface) conditions and controls the level of up to 16 low power BTS sectors via band dedicated conditioning modules. All A-POI modules and interfaces are located on the front panel. The power connections for both AC and DC models are located on the rear panel. NOTE: A-POI RF modules support a maximum power of 30dBm. Low PIM attenuation is required for BTS signals whose power level exceeds 30dBm. 1.3.1.1 APOI Modules As illustrated in Figure 1-3, the APOI front panel supports the following modules: BTS Interface (BTSI) modules, a Control module and a Display and Switch module. The modules are described in Table 1-1. 8 BTSI-modules Display and Switch Module Control Module Figure 1-3. APOI Modules Each BTSI module supports two channels with dedicated BTS and MTDI interfaces as illustrated below. Figure 1-4. BTSI Interfaces per Channel Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 4 Table 1-1. APOI Modules Descriptions BTSI MODULES DESCRIPTION BTSI RF Interfaces Up to eight hot-swappable band-specific conditioning modules that provides BTS to MTDI interfaces. Each module supports two same-band channels of up to 30dBm.

BTS side simplex and duplex connections BTSI Module LEDs DL Input Status of input from the RF source:

MTDI side simplex only.

RF interfaces four QMA female connectors per sector: two BTS and two MTDI.

BTS connections per sector UL/DL QMA is a double purpose port used for BTS UL simplex connections and for BTS duplex connections

For single converged output (software configured), only the top sector interfaces are connected. Combined sectors are of the same band but cannot be the same frequencies. DL Output 1/2 Status of output towards BTS:

Green normal operation

Orange BTS power is lower than valid minimum input power

Orange blinking either in Test mode or RF is OFF

Green normal operation

Red (steady or blinking) Major fault The output power from either channel exceeds the power limit set in Manual mode.

Orange linking either in Test mode or RF is OFF

Implements the APOI control and management capabilities.

The Control module Eth port must be connected to (any) one of the Ethernet ports on the Display and Switch module.

CCD status LED Green blinking indicates normal operation. DESCRIPTION CONTROL MODULE Control Module Interfaces and LEDs DISPLAY AND SWITCH MODULE DESCRIPTION Display and Switch Module Interfaces

Provides identification, as well and management connection to MTDI.

RJ-45 ports four identical ports One of the ports is connected to the Control module Eth port, and another to the APOI MNG port on the relevant MTDI unit. Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 5 1.3.1.2 A-POI Power Feed and Grounding This section details the APOI power feed requirements for 100-240VAC and 48V DC. For bespoke applications feed, refer to Section 1.4.1. X2 VAC, 1A Max AC Feed APOI AC Power feed 100-240V~ 50/60Hz, 1A Max Connect BOTH power connectors. Figure 1-5. APOI AC Power Feed 48V DC, 2A Max/feed Figure 1-6. APOI 48V DC Power Feed 48V DC Equipment DC Power Feeding: 48V DC, 2A max Power Interface Pins (numbered from left to right):

Pin 1,2 Positive (+) Pin 3,4 Negative (-) For -48V DC Feeding:

Connect Pin 1,2 to RTN (0V)

Connect Pin 3,4 to -48V DC Terminal Connector specification:

Nominal current: 8A, Rated voltage 160 V Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 6 1.3.2 MTDI Description The MTDI (Multi Technology Digital Interface) unit digitizes and filters up to 16 conditioned RF sectors from one or more A-POI shelves, or up to 8 sectors from POI interfaces. The filtered signals are combined and routed over a single CPRI link (SM or MM) towards the MSDH. Signal digitization is implemented via four, band specific dual-channel modules. The MTDI is managed via the MSDH. 1.3.2.1 MTDI Front Panel Elements The MTDI front panel includes the digitization modules, CPRI interfaces, APOI interfaces and service ports. The front panel also includes the power feed of DC MTDI models. The power feed of AC MTDI models is located on the rear panel. MM SM APOI Four digitization modules DC Power ST Service ports Figure 1-7. DC Model MTDI Front Panel Interfaces Table 1-2. MTDI Front Panel Elements ELEMENT DESCRIPTION DC Power connector L1/L2 interface 48V DC input for DC models. Power connections are described in section 1.3.2.2. Two integrated CPRI SFPs L1 (MM), L2 (SM), each with a dedicated LED.

L1 SFP = Multimode SFP+ Transceiver 850nm 400m 10Gb MM LC L1 LED = Red flash every 10sec indicates SFP self-test OK

L2 SFP = Single Mode SFP+ Transceiver 1310nm 10 km 10Gb SM LC L2 LED = Fast blinking green link is connected Slow blinking green no link NOTE: Connect either L1 or L2 NOT both. Connect L2 to the UPPER interface only. System Test LED a very slow blinking green indicates system self-test is OK. Connected to any Ethernet port on the Switch and Display module on the APOI; enables the APOI to be managed via an MSDH session. ST LED A-POI Port LAN and MGMT Service access ports. RF digitization module Four service specific, dual-channel RF digitization modules.

RF connections two pairs of UL/DL QMA simplex connections to A-POI RF modules of the same band.

Connections can be to the same RF module on the APOI or to two modules with converged sectors.

The digitized services are combined towards the connected L1 or L2 CPRI port (only one port is relevant).

LED green flash every 4sec indicates RF board self-test OK Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 7 1.3.2.2 MTDI Power Feed The section describes the power feed options for 100-240VAC or 48V DC. For bespoke 12V DC feed, refer to Section 1.4.2). MTDI AC Feed GND lug VAC 2A max Figure 1-8. MTDI/MSDH VAC Feed 48V DC, 3A max/feed Figure 1-9. MTDI 48V DC Power Feed M4 GND lug M4 GND lug Figure 1-10. MTDI DC Rear Panel AC Power feed 100-240V~ 50/60Hz, 2A Max AC feed models support a single ground lug located on the rear panel. The MTDI 48V DC Feed Equipment DC Power Feeding: 48V DC, 3A max Power Interface Pins (numbered from left to right):

Pin 1,2 Positive (+) Pin 3,4 Negative (-) For -48V DC Feeding:

Connect Pin 1,2 to RTN (0V)

Connect Pin 3,4 to -48V DC Terminal Connector specification:

Nominal current: 8A, Rated voltage 160 V Note the following:

The ground lugs are M4.

DC feed models support two ground lugs located on either side of the rear panel (for convenience). It is required to connect only one ground lug.

Some bespoke MSDH models may include a Sync interface for future applications instead of a second ground lug on the rear panel. The Sync interface is not currently applicable. 1.3.2.3 MTDI Fan Module The MTDI supports a replaceable fan module that can be accessed from the rear panel. For instructions on replacing the fan module, refer to section 6.6.3. The fan module and the replacement instructions are identical for the MSDH and for the MTDI and are only described in dedicated sections for clarity. Replaceable fan module Figure 1-11. MSDH/MTDI Fan Module Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 8 1.3.3 MSDH Description The MSDH (Multi Sector Digital Hub) serves as the idDAS central switching hub and control system. It routes digitized cellular resources received from MTDI units along with data from the Ethernet backbone to the connected idRUs. All resources are routed over CPRI connections. Note the following:

The MSDH supports 16 CPRI interfaces and 16 Ethernet backhaul ports.

Each MSDH supports connection to a single additional MSDH via one of the CPRI ports.

Each MSDH supports connections to a number of MTDI and idRUs according to the limitations of the topology and ranges of the SFPs.

Data from any backhaul port that is connected to a router is forwarded to the idRU connected to the parallel CPRI port: e.g. ETH-1to CPRI-1, ETH-2 to CPRI-2, etc. NOTE: MSDH PS supports a dry contact output alarm on the rear panel. 1.3.3.1 MSDH Front Panel Elements The MSDH front panel contains all the management and communication interfaces. The power feed location is model dependent. V DC Management Ethernet Backhaul CPRI System LEDs Figure 1-12. MSDH Front Panel Table 1-3. MSDH Front Panel Elements INTERFACE DESCRIPTION DC Power Relevant only to DC models. AC models power connector is located on the rear panel. See Section 1.3.3.2.) CPRI Ports

Interfaces 16 CPRI ports providing interface to MTDIs, idRUs or to another MSDH unit in Master Slave configuration (Section 2.3):

Up to 16 standard range (10 km or below)

Up to 8 long range (above 10Km) + up to 8 standard range (10 km or below)

Supported SFPs Cobham Wireless SFP+ plug-in interfaces (ordered separately).

Connections For order and intuitive identification, it is recommended to connect the relevant MTDI and MSDH units to lower numbered ports (1, 2, 3, etc.), and the idRUs to higher numbered ports.

SFP LEDs all SFP LEDs flash every few seconds as self-test is performed. One of the four LEDs indicates link status as follows:

Steady green link identified and operational

Slow blinking green searching for link Ethernet Backhaul Ports

16 RJ-45 ports for Gigabit Ethernet connections

1 Gbps IP Backhaul per port

Connected ports route the data to the parallel CPRI port. Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 9 INTERFACE DESCRIPTION LAN port Ethernet management. Console port Serves as an additional local setup port. This is useful if the LAN port is already connected to the network. System LEDs

Power and Master steady green

Identify and Status off

All LEDs flash every ~12sec.

Identify function When the Identify function is activated in the GUI, all LEDs of the relevant MSDH unit blink very quickly. 1.3.3.2 MSDH Power Feed The section describes the power feed options for 100-240VAC or 48V DC. For bespoke 12V DC power feed, refer to Section 1.4.3). MSDH AC Feed AC Power feed 100-240V~ 50/60Hz, 2A Max VAC, 2A Max Figure 1-13. MSDH VAC Feed 48V DC, 3A per feed Figure 1-14. MSDH 48V DC Power Feed M4 GND lug M4 GND lug Figure 1-15. MSDH DC Rear Panel MSDH 48V DC Feed Equipment DC Power Feeding: 48V DC, 3A max/feed Power Interface Pins (numbered from left to right):

Pin 1,2 Positive (+) Pin 3,4 Negative (-) For -48V DC Feeding:

Connect Pin 1,2 to RTN (0V)

Connect Pin 3,4 to -48V DC Terminal Connector specification:

Nominal current: 8A, Rated voltage 160 V Note the following:

The ground lugs are M4.

DC feed models support two ground lugs located on either side of the rear panel (for convenience). It is required to connect only one ground lug. Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 10 1.3.3.3 MSDH Fan Module The MSDH supports a replaceable fan module that can be accessed from the rear panel. For instructions on replacing the fan module, refer to section 6.6.3. The fan module and the replacement instructions are identical for the MSDH and for the MTDI and are only described in dedicated sections for clarity. Replaceable fan module Figure 1-16. MSDH/MTDI Fan Module 1.3.3.4 MSDH PS NFPA Dry-Contact Output Alarm MSDH PS NFPA supports a 4-pin circular binder-type alarms connector on its rear panel for the implementation of an output dry-contact alarm. The alarm connections are described in Section 4.4.4. 4-pin Alarm Socket Figure 1-17 MSDH Public Safety Rear Panel Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 11 1.3.4 idRU Interfaces A range of idRU 30 medium power, idRU 40 high power, and PS NFPA idRU models are available. The interfaces of the models may vary according to the required connections. NOTE: idRU high power units require a fan-hood assembly for additional cooling. 1.3.4.1 idRU Enclosures Following are illustrations of the idRU enclosures. idRU Medium Power idRU High Power Public Safety idRU Figure 1-18. idRU Chassis Types The repeater model and serial number are displayed on the external label as illustrated in Figure 1-19. Figure 1-19. Repeater Identification Label Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 12 1.3.4.2 idRU Front Panel Elements The interface panels of idRU models may differ according to the number of antenna ports and other criteria. Figure 1-20 provides a typical example of a medium power idRU. Power Additional band GND Cascading Service antenna teeeeteeeeeee External alarms routing CPRI from MSDH AUX2 N/A CPRI for cascading IP backhaul connection Figure 1-20. Example of an idRU Medium Power Panel INTERFACE DESCRIPTION Power feed: 100-240V~ 50/60Hz, or 48V DC Power MAIN AUX1 CPRI interfaces towards MSDH. Use Cobham Wireless SFP+ plug-in interfaces (ordered separately). Be sure to match the SFP used in the corresponding MSDH port. CPRI interfaces for cascading idRU units by interconnecting their MAIN and AUX-1 ports. Use Cobham Wireless SFP+ plug-in interfaces (ordered separately). SERVICE Mobile antenna connection, where the interface differs according to idRU type:

idRU-30: 7/16 DIN RF connector

idRU-40: 4.3-10 RF connector LAN RJ45 Ethernet port for IP backhaul connection. EXT ALARMS

An aperture used for routing up to four external alarms internally to the repeater where they are connected. This requires opening the repeater door. Detailed in Section 5.7.1.

idRU models that include a Fan-hood assembly support up to three external alarms. The fourth external alarm provides fan-hood monitoring. AUX2 N/A (Future Option). NOTE: idRU LEDs currently not applicable. Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 13 1.3.4.3 idRU PS NFPA Front Panel Elements The interface panels of idRU Public Safety NFPA models are similar to the standard idRU interfaces described in Section 1.3.4.2 with two differences:

The red enclosure

The External Alarms of some PS NFPA models are connected via a Binder-type connector and the alarms pin-out differs from the pin-out of standard repeaters Figure 1-21 provides a typical example of a PS NFPA idRU. ATTENTION! In order to fully comply with NEMA-4, and IP66 for ROW, the LAN and each of the CPRI CPRI interfaces must be protected from moisture by using tubing and a seal. Refer to Section 3.2.1 tubing and seal details. Power Additional band Cascading GND Service antenna teeee Binder-Type Alarms Connector CPRI from MSDH AUX2 N/A CPRI for cascading IP backhaul connection Figure 1-21. Example of an idRU Public Safety NFPA Front Panel Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 14 1.4 Bespoke 12V DC Headend Elements This section describes the bespoke headend elements supporting an external 12V DC power source: APOI, MTDI, and MSDH. Aside from the 12V DC power source, the interfaces and operation of these elements are identical to the standard elements as described in Section 1.3. 1.4.1 12V DC APOI Power Feed 12V DC Feed Be sure the power input does not exceed 12V DC. Equipment DC Power Feeding: 12V DC, 3A max/feed Power Interface Pins (numbered from left to right):

Pin 1,2 Positive (+) Pin 3,4 Negative (-) For 12V DC Feeding:

Connect Pin 1,2 to 12V DC

Connect Pin 3,4 to RTN (0V) Terminal Connector specification:

Nominal current: 8A, Rated voltage 160V 1.4.2 12V DC MTDI Power Feed MTDI 12V DC Feed Equipment DC Power Feeding:

MTDI: 12V DC, 10A max Power Interface Pins (numbered from left to right):

Pin 1,2 Positive (+) Pin 3,4 Negative (-) For 12V DC Feeding:

Connect Pin 1,2 to 12V DC

Connect Pin 3,4 to RTN (0V) Terminal Connector specification:

Nominal current: 8A, Rated voltage 160 V 12V DC, 3A max Figure 1-22. APOI 12V DC Power Feed Rear Panel ATTENTION! Be sure the power input does not exceed 12V DC. 12V DC, 10A Max Figure 1-23. MTDI 12V DC Power Feed Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 15 ATTENTION! Be sure the power input does not exceed 12V DC 12V DC, 12A Max Figure 1-24. MSDH 12V DC Power Feed 1.4.3 12V DC MSDH Power Feed MSDH 12V DC Feed Equipment DC Power Feeding:

12V DC, 12A max Power Interface Pins (numbered from left to right):

Pin 1,2 Positive (+) Pin 3,4 Negative (-) For 12V DC Feeding:

Connect Pin 1,2 to 12V DC

Connect Pin 3,4 to RTN (0V) Terminal Connector specification:

Nominal current: 8A, Rated voltage 160 V Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 16 2 Topology Examples This chapter provides examples of the following types of topologies and applications

Basic topology

Cascaded idRUs

Master Slave topologies

Redundancy driven topologies RF source and dual-system redundancy driven topologies

Special applications such as single CPRI link, idDAS for Australia, and WCS applications. NOTE: Additional topologies are supported. Each type of topology requires the appropriate setup and configuration procedures. 2.1 Basic Topology This overview of a basic topology is designed to provide better understand the interoperation of the idDAS elements. The basic topology consists of the following elements:

1x APOI conditions up to 16 RF sectors

1x MTDI performs RF to optic conversion for up to 16 conditioned RF band sectors

1x MSDH routes the RF bands from the MTDI, towards up to 15 connected remotes. Ethernet backhaul is routed from the each connected Ethernet port to the parallel remote unit.

idRUs remote units NOTE: Each MSDH supports up to 16 standard SFPs (<10 km), where eight of the SFPs can be long range

(>10 km). 10GHz Link Capacity Figure 2-1. Example of a Basic Topology Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 17 2.2 Cascaded idRU Topology This topology supports up 36 idRUs connected to the MSDH in cascades or strings of up to six remotes per string. The first remote in the string is connected directly to the MSDH, and the remaining remotes in the same string are interconnected. All connections are CPRI based. This provides more coverage per fibre optic link between the MSDH at the headend and remotes. The following figure illustrates the connections for a single cascade. Figure 2-2. Example of a Cascaded idRU Topology The following example illustrates an installation with several strings for a maximum of up to 36 idRUs per installation. Up to 36 idRUs Figure 2-3. Example of a Cascaded idRU Topology with Several Strings Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 18 2.3 Master Slave Topologies This topology provides single source management for two cascaded MSDH units. A total of 36 idRUs are supported for the installation that includes both MSDH units. In this type of installation, the two MSDH units are cascaded and each MSDH unit interfaces to dedicated idRUs or idRU cascades referred to as strings. Depending on the required capacity, the MSDH units can be fed from either a single MTDI connected to the Master MSDH, or each MSDH may be fed from a dedicated MTDI. To implement single source management, the MSDH units are interconnected via one of the CPRI ports. One of the units is configured as Master, and the other as Slave. All management is performed via the Master MSDH. See section 4.4.5.1 for connections. Up to 36 idRUs Figure 2-4. MSDH Master Slave Configuration 2.4 Redundancy Driven Topologies The majority of public safety distributed coverage solutions require a high level of redundancy to ensure no single point of failure results in a total loss of service which could have a detrimental impact to general public safety and security. Currently, idDAS supports two types of redundancy driven topologies:

RF source redundancy, in which redundancy is provided for the RF source chain feeding the remote units. These include the BTS farms, MTDI elements, and MSDH elements.

Dual-system redundancy, in which redundancy is provided for the RF source as well as the remote units. Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 19 2.4.1 RF Source Redundancy Driven Topologies The RF source redundancy driven topology supports end-to-end cell resource redundancy for a system with up to 36 cascaded remotes, installed in strings of up to six remotes per string. Each remote in a cascade has access to two independent RF feeds that include BTS farms, MTDI, and MSDH units. Redundancy is provided per individual cell resource in each remote. One of the RF feeds is designated and configured as Primary and the other as Secondary, and each remote is allocated either the Primary or Secondary RF source as the default RF feed. If an issue such as an unavailable RF source or CPRI is detected, failover occurs only for the affected cell resources and the appropriate alarms are generated. Failover occurs only after the availability of the alternate resource is verified. Once the issue causing failover has been resolved, fallback automatically occurs. Referring to Figure 2-5 and Figure 2-6, the physical connections are implemented as follows:

The idRUs are cascaded by interconnecting their Main and Auxiliary ports.

The cascade is fed by two parallel and independent RF source chains one at each end. Each RF chain consists of a BTS farm, MTDI, and MSDH systems.

The idRU at each end is connected to the same port number on the corresponding MSDH.

For synchronization, the Primary MSDH and Secondary MSDH units are interconnected via a link between the same CPRI port numbers on each MSDH. Additional synchronization links can be connected for redundancy.

The MSDH units can be located at a distance of up to 40Km from each other. NOTE: The MSDH and MTDI connections for this specific topology are detailed in Section 4.4.5.2. The idRU connections for this topology are described in Section 5.6.3.3. 5GHz Link Capacity 5GHz Link Capacity 40 km Max Figure 2-5. Physical Connections of the Redundant idDAS Systems Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 20 Figure 2-6. Illustration of an RF Source Redundancy Driven Topology This area is intentionally left blank Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 21 2.4.2 Dual-System Redundancy The dual-system redundancy driven topology provides full, end-to-end redundancy consists of two independent systems, where only one of the systems transmits RF at any one time. By default, the user designated Active system transmits RF, and the designated Standby system is muted. If a fault is detected, switchover occurs. Each system consists of an independent set of BTS, MTDI, MSDH, and idRU units. Both systems are connected to the same IP network via a switch and are configured to communicate with each other, in order to continually analyze conditions and perform the required redundancy related procedures. If an issue such as an unavailable RF source or CPRI is detected, failover occurs to the other system and the appropriate alarms are generated. Failover occurs only after the availability of the alternate resource is verified. Once the issue causing failover has been resolved, fallback occurs automatically by default. Fallback can also be user configured to occur manually upon user command. NOTE: Each system is installed as a standard system and both systems are connected to the network. The dual-system topology is implemented by configuring the required parameters via the Web management application. The procedure is described in the idDAS Commissioning Guide. The following figure illustrates a basic dual-system redundancy installation that includes one MSDH and one MTDI per system. Figure 2-7. Example of A Basic idDAS Dual-system Redundancy Topology Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 22 The following figure illustrates a dual system redundancy installation with Master-Slave MSDH and multiple MTDIs per system. The MTDIs can be connected to the same MSDH or to dedicated MSDH units. Figure 2-8. Example of Dual-system Redundancy Topology with Master-Slave and Multiple MTDIs Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 23 2.5 Additional Applications This section describes special topologies for specific types of requirements. The general architecture and the system elements operate as described in section 1.2 however the connections are specific to each type of special topology. NOTE: This section provides a general description of each configuration. Details on connections for each type of configuration are provided in the relevant installation sections. The following topologies are covered in this section:

Single CPRI link remote routing of additional services

idDAS for Australia configuration

WCS band configuration

Five band SISO configuration

Multi-operator eight band MIMO configuration 2.5.1 idDAS for Australia This configuration requires the following main elements:

idRU 40 tri-band 700/2300TDD/2600 idRU 40 quad-band 850/900/1800/2100 40/43 dB

7-band Plexer-Combiner

Antenna Hybrid The relevant frequencies are fed to each remote unit via a dedicated CPRI link to the MSDH. At each remote, the signals are filtered and amplified. The idRU tri-band frequencies (700/2300TDD/2600) are multiplexed to a single output which is fed to the Antenna Hybrid unit. The idRU quad-band frequencies are fed to the External Plexer/Combiner as shown in Figure 2-9. At that point they are combined and fed to the Antenna Hybrid unit. All the signals are combined for routing over a single antenna (or optionally a dual antenna), infrastructure. Figure 2-9 provides a general view of the architecture; Figure 2-11 shows more details. Figure 2-9. Example of Australia Seven-band Topology Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 24 Figure 2-10, provides a detailed block diagram of the same topology for Australia. Note the following:

The CPRI link must support the needed capacity.

The topology is implemented for the usage of three operators, where some bands are allocated to one operator, some to two operators and some to three operators.

Headend elements:

The APOI, MTDI and MSDH installations are standard as described in Chapter 3.

Two APOI and two MTDI units are required for this topology. Available APOI and MTDI chassis slots can be used for additional capacity.

The APOI chassis can support up to eight band modules and the MTDI chassis up to four band modules. The block diagram below shows only the relevant modules. Figure 2-10. Details of Australia Seven-band Topology Example Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 25 2.5.2 WCS Applications To implement a MIMO configuration of WCS and 700/850/1700/1800 bands, three idRUs are required:

Two quad-band idRUs supporting 700, 800, 1700 and 1800 MIMO A and MIMO B bands;

One idRU supporting two 2300 LTE TDD filters, amplifiers and antennas ;

Each quad-band idRU receives its bands along with the 2300FDD band from the MSDH via a dedicated CPRI link. The filtered and amplified services from each idRU are forwarded to the idRU 2300 TDD, along with the 2300 TDD. At the 2300 idRU, the 2300 band is filtered, amplified and combined with the other (previously filtered bands) for distribution over two antennas at the idRU 2300 TDD. Note the following

The CPRI link must support the needed capacity.

Headend elements: the APOI, MTDI and MSDH installations are standard as described in Chapter 3.

The idRU installation procedure described in Chapter 5 includes specific instructions for the WCS configuration, in all relevant sections. Figure 2-11. Illustration of a WCS Configuration Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 26 2.5.3 Five Band SISO Configuration The five-band SISO configuration distributes five bands (800, 900, 1800, 2100 and 2600) over a single antenna infrastructure connected to one of the repeaters (Main). All five bands are transferred over a single CPRI connection from the MSDH. The Main idRU conditions four of the bands and the Aux idRU conditions one of the bands (2100). All five bands are then distributed over the same antenna infrastructure connected to the Main idRU. NOTE: The CPRI link must support the needed capacity. Figure 2-12. Example of Five Band SISO Topology Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 27 2.5.4 Multi-Operator Eight Band MIMO Configuration The eight-band MIMO configuration routes eight bands (800MIMO, 900, 1800MIMO, 2100 and 2600MIMO) over a single CPRI link, for conditioning and distribution at the remote end over two remote units with dedicated antennas. All eight bands are transferred over a single CPRI connection from the MSDH. The Main idRU conditions and distributes four of the bands; the Aux idRU conditions and distributes four other bands. NOTE: The CPRI link must support the needed capacity. Figure 2-13. Example of Eight Band MIMO Topology Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 28 3 System Installation Requirements This chapter provides the following information

General warnings

Public safety pre-installation requirements

Location selection criteria

Optics related requirements

Grounding wire requirements

Power requirements and power cables

EMV protection

idRU service antenna requirements 3.1 General Warnings ATTENTION!

ATTENTION!

dploiement.

The installer is held accountable for implementing the rules required for deployment.

Good engineering practice must be used to avoid interference.

Output power should be reduced to solve any IMD interference issues

L'installateur est tenu responsable de la mise en uvre des rgles ncessaires pour le

Les bonnes pratiques d'ingnierie doit tre utilis pour viter les interfrences.

La puissance de sortie doit tre rduite pour rsoudre tous les problmes d'interfrence de l'IMD. 3.2 Public Safety Installation Requirements ATTENTION!

Public safety idDAS installations do not utilize APOI.

Input RF power to the MTDI = 0dBm.

The RF power source (e.g. BTS) is connected to the MTDI via the appropriate attenuators to provide an input RF power level of 0dBm. 3.2.1 idRU PS Required Tubing for NEMA 4 Compliance For public safety idRUs with NEMA 4 ready enclosure In order to meet NEMA 4 sealing requirements, it is required to use tubing meeting the following specifications for all CPRI and ETH idRU connections:

Manufacturer REIKU

Product Tubing for Cable Protection

PA REG / PA REB Polyamid 6, light, simple

Article No. Black PA REB-23F (or Gray PA REG-23F)

NW 23mm Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 29

32/21 M/PG

d2 28.3, d1 22.8

45mm Radius (Stat.)

9.0Kg/100m

50m VE,PU 3.3 Headend and idRU Location Criteria This section describes the locations criteria for the headend elements and for the remote units. 3.3.1 Headend Elements Location Criteria The following criteria should be considered when selecting the installation site location for the head-end elements:

Distance from BTS (for relevant elements) - it is recommended that the installation location be as close as possible to the BTS site in order to maintain the cable loss to a minimum.

General surroundings and accessibility of location must be considered.

Install the elements in a shielded, ventilated, and easy-to-reach area preferably at eye level.

There must be adequate airflow and ventilation within the rack and around the installed components so that the safety of the equipment is not compromised.

Electro-Static Discharge (ESD) precautions must be followed.

Ambient environment temperature must not exceed 50C (122F). 3.3.2 idRU Location Criteria Location criteria

Wall compatibility - check the suitability of the wall on which the unit is to be to be fitted.

Plan mount - check the actual fixing centers (see below) and overall dimensions of the unit enclosure. The unit is supplied with two wall mounting brackets; when the unit is mounted on these brackets adequate ventilation is provided between the unit and the wall to which it is fixed.

Plan connection cable clearances - the Optical, RF and power connections located on the underside of the unit will need at least 300mm vertical clearance below the unit to enable the connections to be made. The minimum bend radius for Optical and RF cables must not be less than the recommendations made by the cable manufacturer. Plan the cable runs and ensure adequate space is available.

Allow for door opening - ensure that there is sufficient space at the front of the unit to allow the door to be fully opened and for maintenance engineers to get access to the unit with test equipment such as a spectrum analyzer. Allow an additional 500mm of space in front of the unit when the door is fully open.

Allow for heat dispersion - Mount the repeater so that heat can be dispersed from it. The repeater wall mounting kit ensures an optimum airflow between the wall and the repeater.) Do not block this air channel as it will cause the MTBF of the repeater to drop dramatically, or even in the worst case cause the repeater to fail completely. If possible, use a wall in the shade to minimize the overall sun loading. If sufficient shielding cannot be obtained, an additional sun shield should be mounted. Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 30 3.4 RF Cable Installation Guidelines DC Blocks Required Blocs DC Requis In some installations, under certain site conditions, it is required to add DC Blocks to the antenna cables of the remote units. For example, in installation locations with power cables that can induce currents resulting in trackside voltages or loop currents. In these types of situations, DC Blocks are required to protect the idDAS remotes from damage. Dans certaines installations, dans certaines conditions de site, il est ncessaire d'ajouter des blocs DC aux cbles d'antenne des rpteurs. Par exemple, dans les emplacements d'installation avec des cbles d'alimentation qui peuvent induire des courants entranant des tensions de voie ou des courants de boucle. Dans ce type de situations, les blocs DC sont ncessaires pour protger les rpteurs idDAS contre les dommages. Note: idRU-30 mobile antenna interface is 7/16 DIN RF connector; idRU-40 mobile antenna interface is 4.3-10 RF connector.

All coaxial connections to/from the Repeater must be high performance, flexible, low loss 50 ohm coaxial communications cable.

All cables shall be weather-resistant type.

Cable length - determined by the Repeater installation plan. When calculating the cable length, take into account excess cable slack so as not to limit the insertion paths.

Make sure the cable and the connector are compatible. Using cables and connectors from the same manufacturer is helpful.

All connectors must be clean and dry.

Waterproof all outdoor connections using silicon, vulcanizable tape or any other suitable substance, as moisture and dust can impair RF characteristics

Make sure enough room has been allocated for the bending radius of the cable. RF cables must not be kinked, cut or damaged in any way.

Connect the RF cable to the antenna tightly but without damaging threads. Fasten cable tightly to cable ladder or aluminum sheet. For short length feeder cables, use 1/2; for longer feeder cables, use 7/8. Choose thicker coax cables for lower attenuation. Minimize the length of the coax cables to reduce attenuation.

Use jumper cable for easy installation. The RF coaxial cable can be substituted at each end with a jumper cable. Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 31

3.5 Optics Related Requirements This section provides the following information:

Optic fiber cable requirements

Examples of supported CPRI transport cables

Information on required SFPs for the MSDH and for remotes 3.5.1 Optic Fibre Cable Requirements and Warnings CAUTION! Un-terminated optical receptacles may emit laser radiation. Do not stare into beam or view with optical instruments. PRUDENCE! Rcipients optiques qui ne sont pas termines peuvent mettre un rayonnement laser. Ne pas regarder le faisceau ou voir avec des instruments optiques. NOTE: In case of bi-directional SFP modules, be sure to use matching SFP module pair.

This product is equipped with class 1 lasers, as per definition in EN 60825-1.

All the SFP+ modules have LC/UPC fibre connectors.

Cable length - determined by the installation plan. When calculating the cable length, take into account excess cable slack so as not to limit the insertion paths. 3.5.2 Examples of Supported CPRI Transport Cables As opposed to legacy fibre-optic systems that can only use single mode fibre cables, idDAS architecture being cable agnostic, allows, existing infrastructure within buildings to be utilized. These infrastructures include single-mode and multimode copper cables as listed in the table below. CABLE TYPE STANDARD MAXIMUM LINK DISTANCE Fibre Fibre Fibre Multimode-OM4 Multimode-OM3 Single Mode Up to 300m Up to 200m Up to 10/20/40/80 km 3.5.3 SFPs for idRU and MSDH Elements

Be sure to order the required SFPs for your MSDH and idRUs.

For a list of available SFPs, refer to Chapter 8.

Note that the SFPs for MSDH and for the corresponding idRUs match. Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 32 3.6 Grounding Wire Requirements

Where relevant, ground the units with their grounding bolts.

Protective grounding conductor - should be aluminum with cross-section 10AWG.

Lug of the protective grounding conductor - should be aluminum

Washers and screw - should be high Cr stainless steel, or 12% Cr stainless steel, or Cr on, Ni on steel, tin on steel 3.7 Power Requirements and Power Cables 3.7.1 Power Feeding Equipment Requirements

All power equipment for feeding of idDAS rack units (APOI, MTDI and MSDH) is required to meet

DC units must be powered from safety approved DC power distribution unit according to IEC/EN/UL 60950-1 or IEC/EN/UL 62368-1and which limited to 60V DC maximum. ATTENTION!

NEC CLASS 2 standards. ATTENTION!

Tous les quipements de puissance pour l'alimentation des idDAS units de rack (APOI, MTDI et MSDH) est ncessaire pour rpondre NEC CLASS 2 normes.

Les units CC doivent tre alimentes par une unit de distribution d'alimentation CC conforme la norme IEC / EN / UL 60950-1 ou IEC / EN / UL 62368-1 et limite 60V DC maximum. 3.7.2 Power Specifications for System Elements This section describes the power feeding and power consumption for all idDAS elements: cellular headend and remote, public safety remotes, and bespoke applications. 3.7.2.1 Headend Elements Power Specifications APOI APOI MTDI MTDI MSDH MSDH POWER FEED AMP / FEED POWER CONSUMPTION*

POWER FEED AMP / FEED POWER CONSUMPTION*

100-240V~ 50/60Hz 48 V DC 100-240V~ 50/60Hz 48 V DC 100-240V~ 50/60Hz 48 V DC 1A Max 2A Max 2A Max 3A Max 2A Max 3A Max 36W Max*

36W Max*

140W Max*

140W Max*

150W Max 150W Max POWER FEED AMP / FEED POWER CONSUMPTION

(*) APOI Rack with 8 band modules, fanless configuration; MTDI rack with 4-band modules. Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 33 3.7.2.2 Cellular idRU Power Specifications IDRU 30 POWER FEED AMP / FEED POWER CONSUMPTION Quad-Band idRU 30 100-240V~ 50/60Hz 48V DC 3A Max 3A Max (per feed) 210W Max IDRU 40 POWER FEED AMP / FEED POWER CONSUMPTION Quad-band idRU 40 100-240V~ 50/60Hz 12A Max 690W to 820W 3.7.2.3 Public Safety idRU Power Specifications IDRU 40 POWER FEED AMP / FEED POWER CONSUMPTION Single-band Tetra idRU 40 48V DC 5A Max 193W 3.7.2.4 Bespoke Headend Elements Power Specifications APOI APOI MTDI MTDI MSDH MSDH POWER FEED AMP / FEED POWER CONSUMPTION POWER FEED AMP / FEED POWER CONSUMPTION 12 V DC 12 V DC 3A Max 36W Max*

10A Max 120W Max*

POWER FEED AMP / FEED POWER CONSUMPTION 12 V DC 12A Max 150W Max

(*) APOI Rack with 8 band modules, fanless configuration; MTDI rack with 4 band modules. 3.7.3 Circuit Breaker Requirements

Calculate the required fuse protection, referring to section 3.7.2. The calculated value of the circuit breaker should be 125% of the sum of the maximum current rating of the unit(s).

Verify a circuit breaker is located at an easily accessible distance and location from the units.

Circuit breaker needs to be Type-C SAFETY approved.

For idRU0036 operating up to 220VAC nominal, circuit breaker needs to be Type-C, 10A safety approved.

Care must be taken in positioning all electrical equipment in relation to the position of the water supply pipes/air-conditioning water pipes in case a leak or burst pipe should occur. ATTENTION! Maximum power consumption on each power line (over a pair of wires) for rack units

(APOI, MTDI and MSDH) input power is 100VA or less. ATTENTION! Consommation d'nergie maximale sur chaque ligne d'alimentation (sur une paire de fils) pour les units de rack (APOI, MTDI et MSDH) puissance d'entre est 100VA ou moins. Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 34 Below is an example of a circuit breaker plan for a DC powered idDAS headend elements rack. Figure 3-1. Example of Circuit Breaker Plan for DC Powered Headend Elements 3.7.4 AC Power Cables This section describes the headend and remote end AC power cables. 3.7.4.1 Headend Elements - AC Power Cables AC Power Cables are provided only for AC powered units, where the supplied power cord meets the requirements of your geographical location. One or more of the following AC power cords is supplied:

COUNTRY AC CORD DESCRIPTION UK and Singapore AC power cord UK and Singapore, straight (C13), 13A 250V AC, 2.5 m Australia and New Zealand AC power cord Australia and New Zealand, straight (C13), 10A 250V AC, 2.5 m USA AC power cord USA, straight (C13), 10A 125V AC, 2.5 m 3.7.4.2 idRU AC Power Cable Description The supplied power cord meets the requirements of your geographical location. AC Power Cable One or more of the following cords is supplied for AC powered units:

AC power cord Europe, Binder IP67, 16A 250 V AC, 2.5m AC power cord UK and Singapore, Binder IP67, 13A 250V AC, 2.5m AC Cable specifications SVT 18/3C power cord;

Flexible power cord, 18AWG, 300V, 10A, 75C. 3.7.5 idRU AC Outdoor Installation CAUTION! Follow these guidelines for AC Powered idRU units installed outdoors. PRUDENCE! Suivez ces instructions pour AC Propuls units idRU qui sont installs l'extrieur. Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 35 For AC powered idRUs installed outdoors

Add external to the unit, a surge suppressor rated min. 2500V:

For Europe the surge arrestor should be installed according to local installation code and comply with IEC 61643-series.

For USA and Canada - the surge arrestor should be installed according to CEC Section 280 and NEC 26-500 to 26-512 and ANSI/NFPA70 and comply with UL 1449 standard.

Rise of earth potential Attention is drawn to the fact that during fault clearing conditions, HAZARDOUS VOLTAGES may exist and by accessible for longer periods than indoor equipment and special earthing conditions may be necessary. These are typically specified in local installation codes. NOTE: in the USA, these requirements are contained in the National Electric code. In Canada, these are contained in the Canadian Electrical Code. 3.7.6 DC Power Feed Cable Requirements 3.7.6.1 Headend Elements DC Cable Requirements The APOI, MTDI, and MSDH DC cable specifications are as follows:

4 wire; #18; multi-conductor unshielded;

Gray polyvinylchloride jacket overall, 3m max. 3.7.6.2 idRU DC Cable Specifications The idRU DC cable specifications are as follows:

6 wire; #18; multi-conductor unshielded;

Gray polyvinylchloride jacket overall, 3m max. REGULAR DC CONNECTOR CLASS 2 DC CONNECTOR For -48V DC Feeding:

Connect Positive to

Connect Negative to -

RTN (0V) 48V DC For -48V DC Feeding:

Connect Positive to RTN

Connect Negative to -

(0V) 48V DC Figure 3-2. Regular DC Connector Pinout Figure 3-3. Class 2 DC Connector Pinout Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 36 3.8 EMV Protection CAUTION!

Protect all coaxial cables and power cables from the transients caused by lightning. If insufficient Electromagnetic Protection is provided, or if EMV measures are not taken, warranties issued by Cobham Wireless are not valid. PRUDENCE!

Protgez tous les cbles coaxiaux et les cbles d'alimentation des transitoires causs par la foudre. Si insuffisante protection lectromagntique est fourni , ou si des mesures ne sont pas prises EMV , les garanties mises par Cobham sans fil ne sont pas valides. Connect the lightning protection The lightning hazard to electric and electronic equipment consists in the interferences of direct lightning current infections and high surge voltages induced by the electromagnetic field of nearby lightning channels or down conductors. Amplitudes from cloud-to-earth lightning amounts to several 10kA and may last longer than 2 ms. The damage caused depends on the energy involved and on the sensitivity of the electronics systems. For detailed information please refer to IEC 61024-1 and 61312-1 for international standards for protection of information systems against LEMP (Lightning Electromagnetic Pulse), including radio transmitters. They define proper planning, installation and inspection of effective lightning protection systems. Ensure that lightning protection measures are taken to create a reliable repeater site. Protect all coaxial cables and power cables from the transients caused by lightning. Fit all cables with suitable lightning protection devices. The Cobham Wireless repeaters comply with the EN standard ETS 301 498-8 which stipulates demands on lightning/surge protection for typical infrastructure telecom equipment installations. Several lightning protection devices should be used in series with declining threshold voltages to help attenuate the pulse component which makes it through the first layer of protection. The primary protective device is part of the site installation and is not supplied by Cobham Wireless. Coaxial lightning protection is normally one of these three types: gas capsule, high-pass and bandpass. A protective device is also required on the power supply cord. Figure 3-4: Protective device installed in connection with the power supply Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 37 3.9 idRU Service Antenna Requirements This section describes the requirements for installing the service antennas. idRU Compliance to FCC and IC WARNING!

Direct connection of antenna to the SERV/MOB port is not permitted.

To ensure that the noise and spurious emissions levels meet the limits defined in RSS-131, the following conditions must be met on installation, for the following specific models:

id-DAS-RRU-3707-3708-PS-NFPA-DC id-DAS-RRU-3707-3708-PS-NFPA-AC id-DAS-RRU-3604-PS-NFPA-AC

-6dBd Antenna Gain Assembly Antenna Assembly Gain[dBd] = Gain Antenna[dBi] 2.15 Loss of cables/splitters[dB] -6dB Conformit du rpteur idRU aux normes FCC et d'Industrie Canada AVERTISSEMENT!

La connexion directe de lantenne au port SERV/MOB nest pas autorise.

Pour sassurer que les niveaux de bruit et dmissions parasites restent dans les limites dfinies par le CNR-131, les conditions suivantes doivent tre remplies lors de linstallation pour les modles spcifiques suivants:

id-DAS-RRU-3707-3708-PS-NFPA-DC id-DAS-RRU-3707-3708-PS-NFPA-AC id-DAS-RRU-3604-PS-NFPA-AC Gain de lensemble antenne -6dBd Gain de lensemble antenne [dBd] = Gain de lantenne[dBi] 2.15 Perte des cbles/diviseurs [dB] -6dB 3.9.1 General Considerations The following antenna requirements, specifications and site considerations should be met:

Type of installation indoor or outdoor

Service area type and size

Antenna type and characteristics

Height

Length and type of coaxial cable required for connecting the service antenna to the Repeater and the attenuation. Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 38 3.9.2 Indoor Installations Service Antenna Requirements Determine the antenna installation configuration, according to the transmission requirements and the installation site conditions. Installation requirements:

An indoor antenna should be installed at a convenient location. It should be free of metallic obstruction.

Install the Service Antenna at the designated height and tune it roughly toward the Service coverage area. 3.9.3 Outdoor Installations Service Antenna Requirements For applications in which the Service/Mobile antenna is installed outdoors, the antenna type is chosen according to the available infrastructure (single-pole or horizontal installation). In addition, isolation between the donor and service antennas must be taken into account when selecting the location of the antennas. Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 39 4 Headend Elements Installation This chapter describes the installation of the following idDAS elements: APOI, MTDI and MSDH. This chapter provides the following information

Overview of the headend elements installation

Unpacking and accessories provided with each type of element

Rack mounting of headend elements

MSDH connections including MSDH to MTDI connections

For installations with APOI APOI to MTDI

RF source connections to idDAS APOI or MTDI according to the installation 4.1 Overview NOTE: For cabinet ready installations, the ground and power for each element are preconnected in the cabinet. It is only required to connect the cabinet ground, and the cabinet power strip to the power source. Unpack elements and verify received items against packing list. 1 2 3 4 5 6 7 8 9 8. Mount in rack. Ground each element. Connect power to each element. Connect MTDI CPRI to MSDH. Connect MSDH CPRIs to idRUs and if relevant, to another MSDH. Connect MSDH IP Backhaul (if relevant). If your system inlcudes APOI units, connect APOI to MTDI. Connect the RF source to the APOI or MTDI according to your system.*

For PS installations - connect the External Alarms of the MSDH PS.

*RF sources can be connected to idDAS by following a detailed plan or via the idDAS web management BTS Port Wizard. The BTS Port wizard provides guidance to the valid connections. Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 40 4.2 Unpacking the Headend Units 4.2.1 General Instructions Upon receiving each element/ unit, do the following:

Examine the shipping container for damage before unpacking the unit.

Perform a visual inspection to reveal any physical damage to the equipment.

Verify that all of the elements listed in the shipping list are included.

If any of the above conditions are not met, contact Cobham Wireless service representative. 4.2.2 APOI AC/48V DC Packing List ITEM X1 Flash Drive with documentation and driver for USB cable A to B (cable is not supplied) X1 Cable RJ45 LSZH 1GBit CAT6 3m 180 Green/yellow earth cable LSZH 300mm M4 Ring T. For DC powered models:

X1 DC Power cable 2.5m X1 Female connector 3.81mm, 4-Pin, 8A X2 power cables SAA/3-H05VVF3G1,00-C13/2.5M X2 UK AC cables to C13 2.5M 250V/10A BLK X2 USA AC power cable 125V 10A 1.5M X2 power cables 250V 3x1mm Plug-C13 2.5 For AC powered models, one or more of the following cables according to your region:

4.2.3 MTDI AC/48V DC Powered Packing List ITEM X1 Flash Drive with documentation and driver for USB cable A to B (cable is not supplied) X1 Cable 2mm single-mode 9/125 DUP LC/LC 3m X1 Cable 2mm multi-mode 50/125 DUP OM3 LC/LC 1.5m X1 Cable RJ45 LSZH 10/100/1000 CAT6 1.0m X1 Cable RJ45 LSZH 1GBit CAT6 3m 180 DEG X1 Ground cable internal For DC powered models:

X1 CABLE PWR DC DIST UNIT 2.5M X1 Connector Female 3.81mm 4-Pin, 8A For AC powered models, one or more of the following cables according to your region:

X1 CABLE POWER SAA/3-H05VVF3G1,00-C13/2.5M X1 UK AC CBL TO C13 2.5M 250V/10A BLK X1 USA AC POWER CABLE 125V 10A 1.5M Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 41 4.2.4 MSDH AC/48V DC Packing List ITEM X1 Flash Drive with documentation and driver for USB cable A to B (cable is not supplied) X1 Cable RJ45 LSZH 1GBit CAT6 3m 180 DEG For 48V DC powered models:

X1 Power cable DC distribution unit MSDH 2.5M X1 Connector female 3.81mm 4-Pin, 8A X1 Green/yellow earth CBL LSZH 300mm M4 Ring T. X1 Power cable SAA/3-H05VVF3G1,00-C13/2.5M X1 UK AC power cable TO C13 2.5M 250V/10A BLK X1 USA AC power cable 125V 10A 1.5M For MSDH PS MSDH010 NFPA Alarm Cable Assembly For AC powered models, one or more of the following cables according to your region:

4.2.5 Bespoke Headend Units Packing List 4.2.5.1 Bespoke APOI 12V DC Packing List X1 Flash Drive with documentation and driver for USB cable A to B (cable is not supplied) X1 Cable RJ45 LSZH 1GBit CAT6 3m 180 DEG X1 Green/Yellow Earth Cable LSZH 300mm M4 Ring T. X1 Connector Female 3.81mm 4-Pin, 8A 4.2.5.2 Bespoke MTDI 12V DC Packing List X1 Flash Drive with documentation and driver for USB cable A to B (cable is not supplied) X1 Cable RJ45 LSZH 10/100/1000 CAT6 1.0m X1 Cable RJ45 LSZH 1GBit CAT6 3m 180 DEG X1 Internal ground cable X1 Connector Female 3.81mm 4-Pin, 8A X1 Cable 2mm S.M 9/125 DUP LC/LC 3m X1 Cable 2mm M.M 50/125 DUP OM3 LC/LC 1.5m 4.2.5.3 Bespoke MSDH 12V DC Packing List X1 Flash Drive with documentation and driver for USB cable A to B (cable is not supplied) X1 Cable RJ45 LSZH 1GBit CAT6 3m 180 DEG X1 BNC adapter SMA/MALE BNC/FEMALE X1 Connector female 3.81mm 4-Pin, 8A X1 Green/yellow earth cable LSZH 300mm M4 Ring T. ITEM ITEM ITEM Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 42 4.3 Mounting in Rack, Ground and Power Connections This section provides instructions for mounting, powering and grounding individually supplied elements. NOTE: For headend units that are pre-installed in a cabinet, follow the instructions provided with our cabinet for grounding and power connections to the cabinet. 4.3.1 Mounting Elements in the Rack 4.3.1.1 Headend Elements - Physical Specifications Note the following:

The operating temperature of all elements is -5 to +50C.

For the physical specifications of bespoke elements, refer to Section 4.3.4. APOI Dimensions (w x h x d) 17.5 x 5.2 x 11.4 (445x 132x290 mm),

(3U,19 rack ) VAC/48V DC models: 20 lbs (9 Kg) Weight MTDI Weight MSDH Dimensions (w x h x d) All models: 17.5 x 1.75 x 13.5 (445x45x342 mm), 1U, 19 rack VAC and 48 V DC:

11.0 lbs (5.0 Kg) Dimensions (w x h x d) 17.5 x 1.75 x 13.5 (445x45x342 mm)*

1U, 19 rack Weight VAC/48V DC models: 11 lbs (5.0 Kg)

*For MTDI Americas PS DC model, the MTDI depth dimension differs as follows: 17.5 x 1.75 x 13.8 (445x45x350 mm) Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 43 4.3.1.2 Rack Mounting Considerations General Rack-mounting Criteria

Verify the rack location meets criteria described in section 3.3.1.

Referring to the element dimensions described in 4.3.1.1 and to Figure 4-1, plan the location of each element in the rack:

(Where relevant), DC power supply strip and power distribution unit should be located at the bottom of the rack. For optimum connections, MTDI units should be located below APOI units It is recommended to position MSDH below the lowest MTDI unit.

Allow for 1U brush for cable management above each APOI.

A-POI RF modules support a maximum power of 30dBm; to this end, Low PIM attenuation is required for BTS signals whose power level exceeds 30dBm. The following figure illustrates a rack installation with DC powered MSDH and MTDI units (DC power connector on rear panel). NOTE: APOI AC and DC power connections are located on the rear panel. Figure 4-1. Example of Headend Rack Installation for DC powered MSDH and MTDI Units Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 44 4.3.2 Grounding APOI, MTDI and MSDH ATTENTION!

Refer to section 3.6 - Grounding Wire Requirements.

Ground the unit according to the grounding standards required in your region.

Make sure the grounding product used is suitable for the kind and size of cable being used.

Connect the ground bolt to the same ground.

Be sure the ground is connected before powering the equipment. ATTENTION!

Se reporter la section 3.6 - Grounding Wire Requirements.

Rez l'unit selon les normes de mise la terre requis dans votre rgion.

Assurez-vous que le produit utilis de mise la terre est appropri pour le type et la taille du

Connectez le boulon de masse la mme mise la terre.

Assurez-vous que le cble de mise la terre de lquipement soit raccord avant la mise sous cble utilis. tension Connect the GND to the ground lug located on the rear panels of the elements. The elements in the example below are AC powered. NOTE: DC powered MTDI and MSDH support two ground lugs on either side of the rear panel. It is only required to connect one of the GND lugs. Low PIM Attenuation According to manufacturer instructions 1U Cable Mng Unit A-POI MTDI MSDH GND GND GND Figure 4-2. GND Lugs for idDAS Headend Elements Located on Rear Panels Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 45 4.3.3 Powering A-POI, MTDI and MSDH This section describes the power connections for AC and for DC powered headend elements. 4.3.3.1 AC Powering Headend Elements CAUTIONS!

AC powered APOI, MTDI and MSDH may be supplied with one or more AC power cords: EU, United Kingdom, Americas and Australia. Use only the supplied power cord and use the power-cord relevant to your geographical location. Be sure the equipment ground is connected before powering on the equipment. PRUDENCE !

AC aliment APOI, MTDI et MSDH peuvent tre fournis avec un ou plusieurs cordons d'alimentation AC: UE, Royaume-Uni, Amriques et en Australie. Utilisez uniquement le cordon d'alimentation fourni et utiliser le cordon d'alimentation correspondant votre zone gographique.

Assurez-vous que le cble de mise la terre de lquipement soit raccord avant la mise sous tension Low PIM Attenuation According to manufacturer instructions 100/240 AC 36W Max Connect x2 VAC feeds 100/240 AC 140W max 100/240 AC 150W max Figure 4-3. Illustration of APOI, MTDI and MSDH AC Power Connections Connect the 100 240VAC power source to each element feed

Refer to the power specifications in section 3.7.2.1.

The available AC power cables are described in section 3.7.4.1. For the APOI unit, connect both power connectors. Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 46

1U Cable Mng Unit A-POI MTDI MSDH 4.3.3.2 48 V DC Powered Headend Elements CAUTIONS!

PRUDENCE!

Be sure a CIRCUIT BREAKER meeting the instructions given in section 3.7.3 is connected near the shelf at an easily reachable and accessible location from the units.

The units are powered ON and powered OFF via the circuit breaker.

Assurez-vous d'un DISJONCTEUR prvu selon les instructions donnes dans la section 3.7.3, est reli proximit du chssis, dans un endroit qui est facilement accessible et accessible partir des units.

Les units sont sous tension et hors tension par l'intermdiaire d'un disjoncteur. 48 V DC, 36W max APOI Rear Panel Low PIM Attenuation 48 V DC 48 V DC 140W max 48 V DC 150W max Figure 4-4. APOI, MTDI and MSDH 48 V DC Power Connections A-POI MTDI MSDH Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 47 CONNECTOR PINOUT Equipment DC Power Feeding: 48V DC APOI: 2A max per feed; MTDI/MSDH: 3A per feed Power Interface Pins (numbered from left to right):

Pin 1,2 Positive (+) Pin 3,4 Negative (-) For -48V DC Feeding:

Connect Pin 1,2 to RTN (0V)

Connect Pin 3,4 to -48V DC Terminal Connector specification:

Nominal current: 8A, Rated voltage 160 V Connect the 48V DC power source to each element feed

Refer to the power specifications in section 3.7.2.1.

Use wires meeting specifications described in section 3.7.4.1.

Connect the wires to the provided connector.

Refer to the above DC connector pinout. 4.3.4.1 Physical Specifications for Bespoke Elements The following physical specifications are relevant to the 12V DC elements. APOI VALUES Dimensions (w x h x d) Dimensions (w x h x d) Weight MTDI Weight MSDH 17.5 x 5.2 x 11.4 (445x 132x290 mm), 3U,19 rack 17.9 lb (8.1 Kg) 17.5 x 1.75 x 13.5 (445x45x342 mm) 1U, 19 rack 9 lb (4.1 Kg) Dimensions (w x h x d) 17.5 x 1.75 x 13.5 (445x45x342 mm) 1U 19 rack Weight 12V DC models: 5.7 lbs (2.6 Kg) 4.3.4 Bespoke Application Physical and Power Specification Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 48 4.3.4.2 Powering Bespoke Headend Elements The powering procedure described in this section is relevant for bespoke 12V DC powered elements.

Be sure a CIRCUIT BREAKER meeting the instructions given in section 3.7.3 is connected near the shelf at an easily reachable and accessible location from the units.

The units are powered ON and powered OFF via the circuit breaker. CAUTIONS!

PRUDENCE!

Assurez-vous d'un DISJONCTEUR prvu selon les instructions donnes dans la section 3.7.3, est reli proximit du chssis, dans un endroit qui est facilement accessible et accessible partir des units.

Les units sont sous tension et hors tension par l'intermdiaire d'un disjoncteur. 12 V DC, 36W max APOI Rear Panel Low PIM Attenuation 12 V DC 12 V DC 120W max 12 V DC 150W max A-POI MTDI MSDH Figure 4-5. APOI, MTDI and MSDH 12 V DC Power Connections Following are the specifications for the power connector and connections for all the 12V DC headend units:

CONNECTOR PINOUT Equipment DC Power Feeding: 12V DC APOI: 3A max/feed; MTDI: 10A max/feed; MSDH: 12A max/feed;

Power Interface Pins (numbered from left to right):

Pin 1,2 Positive (+); Pin 3,4 Negative (-) For 12V DC Feeding:

Connect Pin 1,2 to 12V DC

Connect Pin 3,4 to RTN (0V) Terminal Connector specification: nominal current: 8A, Rated voltage 160 V Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 49 To connect DC power for each elements

Refer to the power specifications in section 3.7.2.

Use wires meeting specifications described in section 3.7.4.1:

Connect the wires to the provided connector.

Refer to the above DC connector pinout. 4.4 MSDH Connections This section provides the following information:

How to install the MSDH SFPs

MSDH to MTDI connections

MSDH to idRU and backhaul connections basic connections

MSDH PS NFPA external alarms connections

Master Slave MSDH Topology connections

RF source redundancy driven MSDH connections

Dual-system redundancy driven MSDH connections 4.4.1 Installing the MSDH SFP+ Modules If the SFPs are not already installed in the MSDH, it is required to install Cobham Wireless SFP+ modules in the MSDH unit CPRI ports that will be in use. See Section 8.4 for SFP part numbers and ordering information. NOTE: In case of bi-directional SFP modules, be sure to use a matching SFP module pair. CAUTION! It is recommended to detach any connected fibre-optic cables before installing the SFP+ module. PRUDENCE! Il est recommand de dtacher les cbles fibres optiques qui sont connects, avant d'installer le module SFP +. Figure 4-6. Cobham Wireless SFP+ Module Continued on the next page Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 50 To install the SFP+ module in the MSDH NOTE: The SFP modules are installed in opposing directions in the MSDH CPRI slots top row and in the bottom row. Cobham Wireless SFP+ in MSDH TOP CPRI row (Label facing UP) 1. To insert the SFP+ modules in the MSDH CPRI top row:

Align the SFP+ module with the MSDH slot opening SFP+ label facing UP.

Gently insert the SFP+ until it clicks into place. 2. To insert the SFP+ modules in the MSDH CPRI bottom row:

Align the SFP+ module with the MSDH slot opening SFP+ label facing DOWN.

Gently insert the SFP+ until it clicks into place. Cobham Wireless SFP+

Install in MSDH BOTTOM CPRI row

(Label facing DOWN) 4.4.2 MSDH to MTDI Connections To connect the MSDH to the MTDI Connect either the MTDI SM (L1 port) or the MM (L2 port) port to the corresponding SFP + module installed in one of the MSDH CPRI port:

L1 SFP = Multimode SFP+ transceiver 850nm 400m 10Gb MM LC

L2 SFP = Single Mode SFP+ transceiver 1310nm 10 km 10Gb SM LC Recommendation for connections -

For more orderly connections and intuitive identification, it is recommended to connect the lower CPRI ports

(i.e. CPRI Ports 1, 2, 3 etc.) to MTDI units or to an additional MSDH unit if relevant. The higher or remaining CPRI ports can then be connected to remote units. Figure 4-7. Example of MSDH to MTDI Connections Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 51 4.4.3 MSDH to idRU and IP Backhaul Connections This section details the basic connections between the MSDH and hosted idRUs. For more information on connecting the idRUs according to a specific topology such as Master Slave, or RF Source Redundancy, refer to Section 5.6.3. The MSDH CPRI ports provide the interface and route the RF resources towards the connected idRU. This may be a single idRU, or the first idRU in the cascade or string. Any data from MSDH backhaul ports (that are connected to a router), is automatically forwarded to the parallel CPRI ports. This is illustrated in Figure 4-8 as follows:

Ethernet backhaul is connected to MSDH Ethernet Port-14, Port-15, and Port-16.

The backhaul data will be routed to the idRUs connected to MSDH CPRI Port-14, Port-15, and Port-16. Note that in the example, the idRU connected to CPRI Port-13 will not receive data since Ethernet Port-13 is not connected to the backhaul. To connect the idRUs to the MSDH

Connect each idRU to the CPRI port on the MSDH according to your site plan.

To provide IP backhaul to any idRU, connect the parallel IP Backhaul port to a router. Figure 4-8. idRU to MSDH CPRI Connections with IP Backhaul Support

(*) Receives IP backhaul from corresponding Ethernet ports Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 52 4.4.4 MSDH PS NFPA Output Alarm idDAS PS MSDH supports one General alarm relay that is triggered if any of the MSDH alarms are activated. The alarm status is reflected by the General indicator in the Master MSDH window see Figure 4-11. The user may choose to disengage specific alarms from the relay as described in Section 4.4.4.2. NOTE: For the part numbers of the relevant MSDH units, refer to Section 8.1.2.2. 4.4.4.1 MSDH Relay Connections The MSDH relay is implemented by a 4-pin circular Binder-type external connector located on the MSDH rear panel. To connect the alarm 1. Use the alarms cable provided in the accessories kit (Section 4.2.4). 4-pin Output Alarm Socket Figure 4-9 MSDH Public Safety Output Alarm Connections 2. Connect the wires to the output source as normally open or normally closed, according to the pinout table below. PIN SIGNAL NAME 1 General Alarm Common DESCRIPTION Red 2 3 N/A General Alarm Normally Open General Alarm Normally Closed

Green White Black NOTE: No additional activation or configuration operations are required unless you wish to disengage any of the alarms from the relay. Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 53 4.4.4.2 MSDH General Alarm Filtering To filter out MSDH alarms affecting the relay 1. Select the MSDH Alarms Configuration hover-menu option. 2. Click the Advanced button. 3. Under Dry Contact, uncheck the required alarms to disengage them from the relay. 4. Click Apply. Figure 4-10. Filtering Alarms Associated with the Relay 4.4.4.3 MSDH General Alarm Monitoring As illustrated in Figure 4-9, the MSDH General alarm can be connected as Normally Open or Normally Closed. It is triggered if any of the MSDH alarms are activated. The summarized status of the General alarm is displayed in the Master MSDH hover-menu window. The MSDH General alarm is affected by default by all MSDH alarms, including the RRU alarms. The alarms can be filtered as described in Section 4.4.3. The alarms can be filtered at the MSDH level via the MSDH Alarm Configuration screen. Thus, even if an RRU parameter activates the RRU General alarm, it will only activate the MSDH General alarm indicator

(Figure 4-11) if the specific parameter was not disabled at the MSDH level. Filtering Relayed Alarms General NFPA Alarm Figure 4-11 Partial Master MSDH Window Showing the General Indicator Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 54 4.4.5 MSDH Topologies Connections This section summarizes the MSDH connections required for the following topologies:

Master Slave

RF source redundancy 4.4.5.1 Master Slave MSDH Topology Connections In a Master Slave configuration, two MSDH units are interconnected via any of the CPRI ports. The topology is illustrated in Figure 4-12. The RF feed to the MSDH units can be as follows:

A dedicated MTDI connected to each MSDH

A single MTDI connected to the Master MSDH NOTE: During the setup procedure, one of the MSDH units is designated as Master and the other as Slave, taking into consideration the physical setup. To connect a Master Slave topology 1. MSDH to MSDH connections:

Connect a CPRI port on the Master MSDH to any CPRI port on the Slave MSDH.

For order and clarity, it is recommended to use the lower numbered CPRI ports. 2. MTDI connections:

Master MSDH. 3. idRU connections:

Connect the MTDI L1 or L2 port (according to your installation) to a CPRI port on the designated

If your installation includes a dedicated MTDI per MSDH, connect the second MTDI to a CPRI port on the designated Slave MSDH. For order and clarity, it is recommended to use the lower numbered CPRI ports on the MSDH. Connect the CPRI port of each single idRU or the first idRU in the cascade to the designated Master or Slave MSDH according to the site plan. Figure 4-12. Example of a Master Slave Topology Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 55 4.4.5.2 RF Source Redundancy Driven Topologies MSDH Connections This section describes the MSDH connections for an RF source redundancy driven topology. In this type of topology, each string of idRUs is connected to two RF supply chains one at each end of the cascade. The MSDH units in each RF supply chain can located at a distance of up to 40 km from each other, and are interconnected via an Ethernet connection. For an overview and detailed description of the topology, refer to Section 2.4.1. The topology is illustrated in Figure 4-13. NOTE: The required setup parameters are defined during the commissioning procedure. To connect a redundancy topology 1. MSDH to MSDH synchronization connections:

Connect a CPRI port on the designated Primary MSDH to a parallel CPRI port on the designated Secondary MSDH. For example, CPRI Port-1 to CPRI Port-1.

For order and clarity, it is recommended to use the lower numbered MSDH CPRI ports.

Connect L1 or L2 port on the designated Primary MTDI to any CPRI port on the designated

Connect L1 or L2 port on the designated Secondary MTDI to any CPRI port on the designated 2. MTDI connections:

Primary MSDH. Secondary MSDH. 3. Connect each idRU string as follows:

on the Primary MSDH.

Connect the Main CPRI port of the outer idRU adjacent to the Primary MSDH to any CPRI port

Connect the AUX CPRI port of the outer idRU adjacent to the Secondary MSDH to any CPRI port on the Secondary MSDH. Below is an example of an RF source redundant topology. Figure 4-13. Physical Connections of the RF Source Redundant idDAS Systems Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 56 4.4.5.3 Dual-System Redundancy Driven Topologies MSDH Connections This section describes the MSDH connections for a dual-system redundancy driven topology. In this type of topology, two complete and independent systems are installed and powered-up, but only one system will be transmitting RF at any one time. For more information on the dual-system redundancy topology, refer to Section 2.4.2. To install the MSDH in a dual-system redundancy driven topology

Install the MSDH for each system according to the standard MSDH installation procedures described in Sections 4.4.1, 4.4.2, and 4.4.3.

Connect the MSDH rear panel alarms as described Section 4.4.4. NOTE: No further connections are required at this time. During the commissioning procedure described in the idDAS Commissioning Guide, the required setup parameters will be defined and the MSDH units will be connected to the network. Below is an example of an RF source redundant topology. Figure 4-14. idDAS Dual-system Redundancy Topology Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 57 4.5 RF Source to idDAS Connections This section details the RF source to APOI and to MTDI connections. Depending on the size of your system and your familiarity with the idDAS elements, you may either directly perform the connections according to your plan or open an Admin level session to the MSDH and use the BTS Port Wizard tool. The tool is briefly described in Section 4.5.3 and detailed in the idDAS Web Management Guide. 4.5.1 BTS Port Setup - BTS to APOI RF Connections This section describes the following RF connections along with the relevant considerations:

BTS to APOI

APOI to MTDI 4.5.1.1 BTS to APOI RF Connections CAUTION!

All band module services are set to OFF by default. Do NOT enable any services until all connections and commissioning procedures are complete.

Max input power from BTS: 30dBm (reduce higher input power using either external attenuators or by configuring a lower power (where possible)).

If necessary, use Low PIM attenuators between the BTS (DL ONLY for simplex connections). PRUDENCE!

Par dfaut, tous les services du module de bande sont rgls sur OFF. Ne pas activer les services jusqu' ce que toutes les connexions et les procdures de mise en service sont compltes.

La puissance maximale qui est entr partir de BTS: 30dBm (puissance d'entre qui est plus lev doit tre rduite en utilisant soit des attnuateurs externes ou en configurant une puissance plus faible (si possible)).

Si ncessaire, utilisez attnuateurs Low PIM entre le BTS (DL SEULEMENT pour les connexions simplex). Note the following:

Each A-POI conditioning card supports two same-band channels with dedicated BTS connections.

Each module supports dedicated SIMPLEX and DUPLEX BTS connections for each sub-band.

For LTE 700, Channel-1 is the UPPER Band and Channel-2 is the LOWER band.

Below is an overview of the BTS to APOI connections. BTS Band A CH1 Low PIM Atten.

(e.g. 20dB) 46dBm 26dBm Duplex or Simplex BTS Band A CH1 50dBm Low PIM Atten. 25dBm

(e.g. 25dB) APOI Module Band A CH1 APOI Module Band A CH2 Figure 4-15. Example of Connection of BTS Channel to the Corresponding A-POI Channel port Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 58

4.5.1.2 BTS to APOI Simplex Connections Referring to your installation plan for the connections:

1. Connect the BTS simplex connections:

BTS UL to Band Module UL

BTS DL to Band Module UL/DL 2. For BTS DL > 30dBm, use a Low PIM attenuator. Note the following:

For Simplex connections requiring attenuation, only the DL signal is attenuated to the duplex port.

Verify that the UL BTS interface signal strength corresponds in gain value to the DL BTS interface gain value. This can be done using the UL Offset gain parameter during the commissioning procedure for the channel, or by physically reducing the UL signal by external attenuator. 4.5.1.3 BTS to APOI Duplex Connections Connect the BTS duplex connections:

BTS UL/DL to Band Module UL/DL

If BTS output > 30dBm (you can use a Low PIM attenuator for BTS output > 30dBm). Figure 4-16. BTS Simplex Connections Figure 4-17. BTS Duplex Connections A-POI to MTDI RF Connections 4.5.2 Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 59 The two A-POI channels on each APOI Band Module are combined; as such, the frequencies must be of different ranges within the band. As illustrated in Figure 4-18, the two combined APOI bands are physically routed towards as single MTDI channel. This enables each MTDI module to support up to four APOI channels. A-POI BTSI A COMBINED A-POI BTSI B COMBINED 2X CHANNELS UL1 DL1 UL2 UL2 DL2 MTDI RF MODULE 2X CHANNELS Figure 4-18. Block Diagram Example of Four (Same-band) sector connections to MTDI Module To connect combined A-POI interfaces to the MTDI band module Connect only the top channels in each module as follows:

APOI BAND MODULE PORTS 1st Band Module - Top (only) UL and DL 2nd Band Module - Top (only) UL and DL UL1 DL1 UL2 DL2

(SAME BAND) MTDI BAND MODULE PORTS Figure 4-19. Example of Combined Sub-Band Connections between A-POI and MTDI Modules Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 60 4.5.3 Wizard Guided RF Connections The BTS Port Wizard is a tool provided by the idDAS Web Management. It can be used to facilitate the installation procedure by guiding you through the connections between the RF source and the APOI and MTDI. This ensures that the registered BTS Ports correspond to the physical connections. The BTS Port Wizard is accessed by opening an MSDH session. The tool is detailed in the idDAS Web Management Guide. Click physically connected ports Figure 4-20. Valid APOI to MTDI Connection onnection Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 61 4.5.4 MSDH to idRU Connections NOTE: In order to interconnect MSDH and idRUs, matching SFPs must be installed in elements on either side of the link. To connect idRUs to the MSDH Recommendation for connections

For more orderly connections and intuitive identification, it is recommended to connect idRU CPRI cables to the higher numbered CPRI ports in the MSDH i.e. Ports 16 and down to the available ports.

The first ports are used for connecting to another MSDH in case of Master Slave topology, and to MTDI equipment. Below is an example of a basic configuration consisting of two MTDIs and a number of remotes. In this configuration, up to 14 remotes can be connected on Ports 3 to 16. Figure 4-21. Example of idRU to MSDH Connections Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 62 5 idRU Installation This chapter includes the following information:

idRU safety guidelines

Unpacking and package contents

idRU 40 fan hood assembly

Rack-mount procedure

Wall-mount procedure

Basic connections

Connections of cascaded idRUs and various topologies

Dry-contact alarms connections 5.1 Warnings and Safety Guidelines Before installing the idDAS elements review the following safety information:

Follow all local safety regulations when installing the idDAS system elements.

The installation is to be conducted by qualified service personal according to local and national installation code. Follow Electro-Static Discharge (ESD) precautions. CAUTION! Safety to personnel

Please be aware that the idRU equipment may, during certain conditions become very warm and can cause minor injuries if handled without any protection, such as gloves.

The idRU is heavy. Two people or a crane may be required for lifting. PRUDENCE! Scurit au personnel.

S'il vous plat tre conscient que le idRU quipement peut, dans certaines conditions devenir trs chaud et peut causer des blessures mineures en cas de manipulation sans protection, comme des gants.

Le idRU est lourd. Deux personnes ou une grue peuvent tre ncessaires pour le levage. Heavy Warning Label Figure 5-1. idRU Heavy Warning Label Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 63

It is required to open the idRU only if the installation requires connecting External Alarms* or it is necessary to access the management GUI to diagnose problems; all other interfaces external.

The repeaters are secured with two hex screws (M8) and can also be locked with a key.

The two screws must be fully tightened. Failure to do so may affect the IP66 compliancy and therefore ATTENTION!

any warranty. ATTENTION!

Il est ncessaire d'ouvrir le idRU que si l'installation ncessite la connexion des alarmes externes ou il est ncessaire d'accder l'interface graphique de gestion pour diagnostiquer les problmes; toutes les autres interfaces sont accessibles depuis l'extrieur.

Les rpteurs sont verrouilles avec deux vis tte hexagonale (M8) et peuvent galement tre

Les deux vis doivent tre serres. Ne pas le faire peut affecter la conformit IP66 et cela affectera la verrouills avec une cl. garantie.

*For PS NFPA idRU models, it is not required to open the repeater as the external alarms are connected directly to the front panel connector. Screws Lock Screws Lock LLLLLLL Figure 5-2. Securing idRU 30 Figure 5-3. Securing idRU 40 Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 64

5.2 PS NFPA idRUs Installation Instructions For Public Safety NFPAs NEMA 4 ready idRUs:

Use tubing meeting the specifications detailed in Section 3.2.1, for all connected CPRI and ETH idRU connections. Unused Ethernet and CPRI ports are plugged as described in Section 5.6.5.

idDAS public repeaters support a Binder-type external alarms connecter and additional alarms as described in Section 5.7.2. 5.3 Unpacking and Package Contents This section lists the package contents for two type of idRU installations:

idRUs with standard brackets (without fan hood) idRUs with fan-hood brackets 5.3.1 Unpacking Upon receiving the idRU Repeater perform the following:

1. Examine the shipping container for damage before unpacking the unit. 2. Perform a visual inspection to reveal any physical damage to the equipment. 3. Verify that all of the equipment (listed below) is included. Otherwise contact Cobham Wireless service representative. ITEM 5.3.2 Accessories for idRUs with Standard Brackets X1 Flash Drive with documentation and driver for USB cable A to B (cable is not supplied) x2 RJ45 LSZH cable, CAT6,1 Gbit, 3 m, 180 degrees For AC models one or more of the AC cables may be provided, according to your region:

UK AC external cable assembly with Binder connector

EU AC external cable assembly with Binder connector

US AC external cable assembly with Binder connector For DC models:

idRU 30 U.S. DC external cable assembly with 7-Pole Binder connector (P/N DC00219) idRU 40 DC external cable assembly with 4-Pole Binder connector (P/N 40WVC7900) x2 Brackets support both wallmount and rack mount options x4 M8x16 Screws, hex head, stainless steel x1 Drill Template used for marking wall mount drilling holes x4 3/8 Jumbo Anchor Bolts, zinc plated used for wallmount installations x2 Plugs and O-rings for plugging up to two unused Ethernet and AUX fibre ports:

Plug threaded blanking plug, M32x1.5 mm, nickel plated, IP68

O-ring M32x2 mm, NBR, black Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 65 5.3.3 Accessories for idRUs with Fan Hood ITEM X1 Flash Drive with documentation and driver for USB cable A to B (cable is not supplied) x2 RJ45 LSZH cable, CAT6,1 Gbit, 3 m, 180 degrees x1 Drill Template used for marking wall mount drilling holes x4 3/8 Jumbo Anchor Bolts, zinc plated used for wallmount installations x2 Plugs and O-rings for plugging up to two unused Ethernet and AUX fibre ports:

Plug threaded blanking plug, M32x1.5 mm, nickel plated, IP68 For AC models One or more of the AC cables may be provided, according to your region:

O-ring M32x2 mm, NBR, black Fan Hood Assembly:

x2 Mounting Brackets

x1 Front fan-hood assembly Cobham logo shield x1 Rear fan-hood shield assembly x8 M8x16 Screws, Hex head, stainless steel x8 M8 spring washers, DIN 7980, A2 Stainless

UK AC external cable assembly with binder

EU AC external cable assembly with binder

US AC external cable assembly with binder For DC models

DC external cable assembly with 4-Pole Binder connector For Public Safety models

10-pin external alarm for NFPA cable assembly Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 66 5.4 Brackets and Fan-Hood Assembly Depending on the model and the cooling requirements, repeaters are either provided with standard brackets, or with a fan-hood and the relevant accessories and brackets designed for the fan-hood. This section provides the following information:

Standard bracket assembly for rack and wall mount installations

Fan-hood assembly for repeaters that include fan-hood. NOTE: In addition to the mounting brackets or fan-hood assembly, it is recommended to use fixings as described in section 5.5.2.3 in order to further secure the mount. 5.4.1 idRU No Fan-hood Brackets Assembly This section is relevant for repeaters without a fan-hood. The provided brackets are used for both wall mount and for a rack mount procedure, where the bracket position differs according to the type of installation. NOTE: The installation requires x4M8 washers not supplied with the repeater. To assemble the brackets 1. Position the brackets according to the type of installation:

For Rack mount refer to Figure 5-4. For Wall mount refer to Figure 5-5. brackets. 2. Use the x4 (provided) M8 x16 Screws and X4 Spring Washers (not provided) to assemble the Figure 5-4: Rack-mount bracket position Figure 5-5. Wall Mount Bracket Position Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 67 5.4.2 idRU Fan Hood Assembly For repeaters that include a fan-hood (usually these are idRU-40 repeaters), it is required to assemble the fan hood onto the repeater before the repeater is mounted. WARNINGS!

This installation requires two people.

Assemble the fan hood ONLY on the repeaters with which it is supplied and designated. 5.4.2.1 Assembly Overview and Dimensions The fully assembled system is displayed in Figure 5-6, for reference. The dimensions are displayed in Figure 5-7. The parts list and assembly instructions are provided in the following sections. Front Fan Hood Fan Hood Power Interfaces (2) Rear Fan Hood Figure 5-6. idRU with Front and Rear Fan Hoods Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 68 The dimensions of the assembled repeater with the fan hoods are given below. Figure 5-7. idRU with Fan Hood Assembly Dimensions Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 69 5.4.2.2 idRU-40 Fan Hood Assembly This section describes how to assembly the fan hood onto idRU-40 repeaters. 1. Place the repeater on a flat surface with the repeater door panel facing down and the interfaces towards you. WARNING! Be sure to start with this phase otherwise, the assembly may be damaged. 2. Loosely assemble the mounting brackets the position differs depending on whether this is a wall mount or a rackmount, where Figure 5-8 shows position for wallmount:

Align innermost bracket holes to repeater mounting holes.

Loosely insert four bolts and washers. Align brackets and loosely insert four bolts and washers Note: For rack-mount installations, the bracket positions are inverted. ate Repeater front door

(Faces downwards in the illustration) Figure 5-8. Positioning Brackets Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 70 3. Assemble the rear fan hood:

Tighten the four bolts.

Position the rear fan hood under the (inserted) bolts and washers. Rear fan hood panel Position under bolts and tighten bolts Figure 5-9. Assembling Rear Fan Hood Panel Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 71 Figure 5-10 illustrates the assembled brackets and rear fan-hood panel. Figure 5-10. Assembled Rear Fan Hood and Mounting Brackets 4. Mount the repeater according to relevant section:

Rack mount Section 5.5;

Wall mount Section 5.5.2;

5. Assemble front fan-hood panel:

Referring to Figure 5-11, loosely insert the four M8x16 bolts and washers.

Hang the front fan hood on the repeater and tighten the bolts. Loosely insert bolts and washers Figure 5-11. Assembling Front Fan Hood Inserting Bolts and Hanging Front Fan Hood Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 72 6. Connect the fan hood power connections connect the front fan hood and the rear fan hood power connectors to the repeater power connectors. Connect power of rear and front fan hood assemblies Figure 5-12. Fan Hood Power Connections Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 73 5.5 Mounting the Repeaters This section describes how to mount the repeaters in a rack and on a wall. IMPORTANT!

The weight of the unit requires that two people mount the unit onto the rack.

The repeaters must always be installed vertically with the connectors on the underside for protection. Horizontal installation on a bench for long time may cause damage to the signal booster due to over-

heating. 5.5.1 Rack Mount Procedure To mount the repeaters in a rack

A remote without a fan hood;

A remote with a fan hood

A combiner filter (required for some installations) Below are two views of a rack installation that includes the following elements:

NOTE: The Filter/Combiner is installed with the components facing inwards. Repeater with fan hood Rear View of Filter Combiner Repeater without fan hood Figure 5-13. View-a of Rack Installation Figure 5-14. View-b of (same) Rack Installation Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 74 5.5.2 Wall Mount Procedure WARNINGS!

The repeater mounting procedure is for concrete or brick walls only.

The weight of the unit requires that two people mount the unit on the wall.

Due to the weight of the Repeater, it is NOT recommended to fix to a hollow wall.

Always check that there are no pipes or cables hidden in the wall beneath the area to be drilled. Various pipe and cable detectors are available for this type of inspection. AVERTISSEMENTS!

La procdure de montage du rpteur est seulement pour bton ou des murs de briques.

Le poids de l'unit exige que deux personnes monter l' appareil sur le mur.

En raison du poids du rpteur, il est recommand de ne pas fixer un mur creux ).

Toujours vrifier qu'il n'y a pas de tuyaux ou cbles cachs dans le mur sous la zone percer. Diffrents dtecteurs de tuyaux et de cbles sont disponibles pour ce type d' inspection. 5.5.2.1 Marking the Wall and Drilling

The Repeater wall mount brackets assembly should be fixed to a solid wall (these include brickwork, block work, and concrete).

To provide secure fixing to a solid wall, the most common method is drilling and plugging.

Use the X4 BOLT ANCHOR JUMBO 3/8 ZINC PLATED that are provided with the packing kit or parallel.

Care must be taken to ensure the alignment of the four fixings. A spirit level or plumb line should be used to ensure horizontal/vertical alignment. Figure 5-15. M6 Rawlbolt recommended for wall mount. Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 75 To mark and drill the wall 1. Plan the location on the wall of the repeaters and any other required equipment (such as the 7-band filer/plexer for Australia if installed on the wall). 2. Using the provided template in the kit, mark out the fixing centers of the repeater and other equipment on the chosen wall. Figure 5-16. Template Example 3. Mark and drill the wall with the correct size masonry bit as specified by the fixing manufacturer. NOTE: It is good practice to wear goggles to protect your eyes from flying debris when using power tools. 4. Hold the drill bit against the mark and begin drilling slowly so that the bit does not wander from the position. The wall should be drilled to a depth which is sufficient to accommodate the full length of the fixing. 5. Insert the fixings so that the top of the sleeve/anchor section is level with the wall surface. Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 76 6. Gently tighten the bolt by hand so that the anchor section of the fixing expands and grips the inside of the hole. Figure 5-17: Inserting Fixing and Tightening. 7. As the bolt pulls its way in, the sides of the anchor section are forced outwards, gripping the surrounding surface. Figure 5-18: Anchor Sides Pushed Outwards. 8. Once all four fixings are in place, carefully withdraw the four bolts. Figure 5-19: Withdraw Bolts Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 77 5.5.2.2 Mount the Repeater CAUTION! It is recommended that two people lift the repeater since (depending upon the configuration) the idRU weighs between 20 and 38 kg (44 and 84 lb). PRUDENCE! Il est recommand que le rpteur est soulev par deux personnes depuis (en fonction de la configuration), le idRU pse entre 20 et 38 kg (44 et 84 lb). To mount the repeater

Align repeater with the four fixings. Great care should be exercised here as the repeater is very heavy.

(A suitably rated heavy duty scissor lift table/trolley may be suitable for this operation.)

Once repeater is held in the chosen position, carefully insert the fixing bolts through the mounting lugs of the Repeater and into the sleeve/anchor sections of the fixing in the wall and tighten the bolts.

The repeater needs to be mounted tightly to eliminate vibration. Align Repeater and Secure Bolts Figure 5-20: Mount Repeater Figure5 5.5.2.3 Recommended Additional Fixing ATTENTION! It is the installers responsibility to ensure the repeater is installed in a secure manner. ATTENTION! Il est de la responsabilit de l'installateur pour assurer le rpteur est install de manire scurise. Suggested precautionary measure:

A bracket is provided to securely mount the repeater on the wall; however, as an ADDITIONAL precautionary measure, it is recommended to further secure the repeater to the wall (in addition to the bracket).

This can be done using any appropriate method. Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 78 The following figures provide EXAMPLES of additional fixings. In the examples, support is provided in the form of a CABLE HARNESS LOOP that is looped around the repeater handle and secured to the wall or part of the building support structure. NOTE: The wallmount procedure illustrated below is relevant for all idRU-40 and idRU-30 models. Figure 5-21: Example 1 Additional Fixing to Wall Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 79 Another example is of a repeater installed on a stadium gantry. Again, the support can be in the form of a cable harness loop, using the handle of the repeater and part of the gantry structure. ATTENTION! Any other secure method can be used. ATTENTION! Toute autre mthode scurise peut tre utilis. NOTE: The illustration shows an idRU-40. The procedure is identical for the idRU-30. Figure 5-22: Example 2 Additional Fixing to Gantry Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 80 5.6 idRU Connections This section describes the following connections to single repeaters: GND, CPRI, External Alarms, Antenna and Power. NOTE: The idRU model used for reference provides a general indication for all other connections. CAUTION! If insufficient Electromagnetic Protection is provided, or if EMV measures are not taken, warranties issued by Cobham Wireless are not valid. Refer to section 3.8 for EMV Protection instructions. PRUDENCE! Si insuffisante protection lectromagntique est fourni, ou si des mesures ne sont pas prises EMV, les garanties mises par Cobham sans fil ne sont pas valides. Se reporter la section 3.8 pour les instructions de protection EMV. NOTE: Use the one or two sets of provided threaded blank plugs (3732000831) and O-rings (3732000832) to plug any unused AUX ports or the Ethernet port. 5.6.1 Ground Connections

The connection to GND is done by connecting to the earthing stud/screw in the enclosure and not through the power cable

Ensure that good grounding protection measures are taken to create a reliable

Make sure to use adequately dimensioned grounding cables. The minimum recommended conductive area for a grounding cable is 16mm2

Make sure the grounding product used is suitable for the kind and size of cable being

Do not use the grounding bolt to connect external devices. For Dual Unit assemblies (five frequency band support), ground BOTH units. ATTENTION!

repeater site. used.

ATTENTION!

La mise la terre de l'unit se fait en se connectant la mise la terre stud / vis dans l'enceinte et non par le cble d'alimentation

Veiller ce que les bonnes mesures de protection de mise la terre sont prises pour crer un site de rpteur fiable.

Assurez-vous d'utiliser des cbles de mise la terre suffisamment dimensionns. La zone conductrice minimale recommande pour un cble de mise la terre est 16mm2

Assurez-vous que le produit de mise la terre utilis est appropri pour le type et la

Ne pas utiliser le boulon de mise la terre pour connecter des priphriques externes.

Pour les ensembles deux units (cinq frquences de soutien de bande), rez-de-deux taille du cble utilis. units. Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 81 To ground the repeater M6 Ground stud Connect the grounding cable and lug to the ground M6 stud on the repeater front panel. Minimum recommended conductive area for a grounding cable: 16mm2 Figure 5-23. Grounding the idRU 5.6.2 SFP Installation and CPRI Connections Follow this basic connection procedure for all topologies. Refer to Section 5.6.3, for connections of specific topologies such as cascaded string installations, Master Slave, Redundancy, etc. CAUTION! Un-terminated optical receptacles may emit laser radiation. Do not stare into beam or view with optical instruments. PRUDENCE! Rcipients optiques qui ne sont pas termines peuvent mettre un rayonnement laser. Ne pas regarder le faisceau ou voir avec des instruments optiques. Be sure to follow safety and connection procedures associated with optic fibres. Assurez-vous de suivre les procdures de scurit et de connexion associs des fibres optiques. ATTENTION!

ATTENTION!

AAAAAAAA In order to fully comply with NEMA-4 and with IP66 for ROW, all connected CPRI interfaces must be protected from moisture by using tubing and a seal that meet requirements equal to REIKU PA RE B-

23F (seal) and REIKU VP G R B-23M32 (tubing). Afin de se conformer pleinement aux normes NEMA-4 et IP66 pour lemprise, toutes les interfaces CPRI connectes doivent tre protges de lhumidit en utilisant un tube et un joint conformes aux exigences du REIKU PA RE B-23F (joint) et du REIKU VP GR B- 23M32 (tube). Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 82 To connect the CPRI cable from to the repeater CPRI port 1. Unscrew the protective cylinder on the CPRI port(s) and set the cylinder and the accompanying sponge aside. 2. If not inserted, insert the SFP module in the CPRI port. 3. Route the optic fibre through the cylinder and press into the rubber seal. 4. Connect the CPRI connector to the repeater MAIN or AUX1 CPRI port according to your topology. 5. Screw the protective cylinder back around the CPRI port and fit the rubber inside to minimize the entry of any dirt, dust or dampness. Figure 5-24. Remove Cylinder Figure 5-25. Press Fiber in Rubber Seal Cylinder Rubber CPRI Figure 5-26. Fibre Connection Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 83 5.6.3 Topology Specific CPRI Connections This section describes how to connect the CPRI cables for the following topologies:

A string of cascaded idRUs

Master Slave topology

RF source redundant topologies 5.6.3.1 Cascaded idRU Connections The cascaded idRU connections are relevant to all topologies that include strings of idRUs. To cascade idRUs next repeater. 1. Connect an optic fibre cable between the AUX1 port of the FIRST repeater to the MAIN port of the 2. Continue interconnecting AUX ports to Main ports of each subsequent repeater. NOTE: The AUX1 connection of the last idRU differs according to the topology. Figure 5-27. Example of Cascaded Repeaters Connections Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 84 5.6.3.2 Master Slave Topology idRU Connections Refer to Section 2.3 for a general description of the Master Slave topology, and to Section 4.4.5.1 for detailed information on the Master Slave element connections and illustrations. For a Master Slave installation connect the idRUs as follows 1. Referring to the site plan, connect the MAIN CPRI port of each first idRU in the string or single idRU to a CPRI port on either the Master or the Slave MSDH 2. For cascaded idRUs interconnect AUX1 CPRI of one idRU to MAIN CPRI of next idRU as illustrated in the following figure. 3. Do NOT connect the AUX1 port of the last idRU. 4. Plug the unused AUX1 port of the last idRU using the items described in Section 5.6.5. Figure 5-28. Example of Cascaded Repeaters Connections Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 85 5.6.3.3 Dual RF Source Redundancy idRU Connections Refer to Section 2.4.1 for a general description of the Master Slave topology, and to Section 4.4.5.2 for detailed information on the Master Slave element connections and illustrations. For a dual RF source redundancy connect as follows 1. Connect the MAIN CPRI port of the FIRST idRU to the Primary MSDH. 2. Cascade each of the remaining idRUs interconnect AUX1 CPRI to MAIN CPRI of next idRU. 3. Connect the AUX1 CPRI port of the LAST idRU to the Secondary MSDH. Figure 5-29. Example of Dual BTS Redundancy Connections 5.6.3.4 Dual-System Redundancy idRU Connections No special idRU connections are required for dual-system redundancy driven topologies. Each system is connected according to the standard procedures. Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 86 5.6.4 Antenna Connections DC Blocks Required Blocs DC Requis In some installations, under certain site conditions, it is required to add DC Blocks to the antenna cables of the remote units. For example, in installation locations with power cables that can induce currents resulting in trackside voltages or loop currents. In these types of situations, DC Blocks are required to protect the idDAS remotes from damage. Dans certaines installations, dans certaines conditions de site, il est ncessaire d'ajouter des blocs DC aux cbles d'antenne des rpteurs. Par exemple, dans les emplacements d'installation avec des cbles d'alimentation qui peuvent induire des courants entranant des tensions de voie ou des courants de boucle. Dans ce type de situations, les blocs DC sont ncessaires pour protger les rpteurs idDAS contre les dommages. NOTE: More than one antenna port may be available depending on your repeater model. Connect the service antennas to the SERVICE/MOBILE port.

idRU-30 DIN 7/16 connector, female idRU-40 4.3-10 connector Service antenna Figure 5-30. Front Panel Example showing Antenna Connection Port 5.6.5 Plugging Unused Ethernet and AUX ports Use the one or two sets of provided threaded blank plugs (3732000831) and O-rings (3732000832) to plug any unused AUX ports or the Ethernet port. Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 87 5.6.6 Power Connection NOTE: Refer to Section 3.7 for a full description of power requirements.

Use only the power cables (AC or DC) and any other relevant accessories provided with the unit to CAUTIONS!

connect power to the idRU.

Be sure to disconnect all power sources before servicing.

Be sure the equipment is grounded before powering it on.

Make sure the antenna cables or 50 ohm terminations are connected to the repeaters antenna connectors before the repeater is turned on.

Please be aware that the equipment may, during certain conditions become very warm and can cause minor injuries if handled without any protection, such as gloves.

Utilisez uniquement les cbles d'alimentation (AC ou DC) et tous les autres accessoires pertinents fournis avec l'appareil pour connecter l'alimentation l'idRU.

Veillez dbrancher toutes les sources d'alimentation avant l'entretien.

Assurez-vous que le cble de mise la terre de lquipement soit raccord avant la mise sous PRECAUTIONS !

tension.

Avant que le rpteur est activ, assurez-vous que les cbles d'antenne ou 50 ohms terminaisons sont connects aux connecteurs d'antenne du rpteur .

S'il vous plat tre conscient que l'quipement peut , dans certaines conditions devenir trs chaud et peut causer des blessures mineures en cas de manipulation sans protection, comme des gants . To connect power geographical location.

To connect AC power - use one of the supplied power cords according to the requirements of your

To connect DC power - use the provided DC cable or a DC cable meeting the specifications described in section 3.7.6 according to the requirements of your geographical location. Power feed Figure 5-31. Front Panel Example Showing Location of Power Connector Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 88 5.7 External Alarms and Relay Connections This section describes two types of dry-contact connections:

Standard idRUs

idRU PS NFPA model 5.7.1 Standard idRUs External Alarm and Relay Connections The standard idDAS repeaters support up to four active high or active low external alarms and one relay. The external alarms can be used to monitor third party equipment such as air-conditioners or power supplies that are located in the communication room. NOTE: If the repeater includes a fan-hood assembly, one of external alarms is reserved (factory connected) for monitoring the fan-hood assembly. The external alarms are connected to a plinth located inside the repeater. This requires routing the cable via the Ext Alarms aperture on the front panel, opening the repeater door and accessing the plinth inside the repeater. In order to activate the external alarms, the alarms are configured in the web management GUI according to their operation mode: active high or active low. This is done as part of the setup procedure described in the idDAS Commissioning Guide. 5.7.1.1 Alarm Specifications The wiring and connection specifications are as follows

Required wire diameter 6-12 mm

The maximum allowed load is 100mA.

Alarms voltage: 15 to 60 Vdc (15 Vdc internal source is available)

Each external alarm can be connected as active high or active low. Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 89 5.7.1.2 Connecting Alarms To connect the dry-contact alarms 1. Open the repeater door using the provided key Figure 5-2 and Figure 5-3. 2. Route your alarms cable (not provided) to the inside of the repeater, via the Ext Alarms aperture located on the front panel Figure 5-32. 3. Inside the repeater, route the cable and wiring towards the alarms connector Figure 5-33. Open the repeater door Aperture for routing External Alarms wires Figure 5-32. Front Panel Example Showing Location of Power Connector Figure 5-33: Dry Contact Alarms Internal Connector Pin 1 4. Wire the alarms to the connector according to Figure 5-34. The figure provides an example of two active low alarms connections. Note the following:

For idRU-30, four alarms are available for connection.

For idRU-40 models with fan-hood, Ext-4 (Pin-7 and Pin-8), is factory connected as a fan-hood alarm. Do not modify any factory connections.

Verify that each connected alarm is grounded to the same ground as the idRU chassis ground.

Pins A and B (voltage and ground connections) for each alarm can be reversed: i.e. GND can be connected to either Pin-A or Pin-B. Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 90

Pin-9 and Pin-10 can be respectively used as an internal 15 Vdc power source and as a chassis ground source.

Each connected alarm must be configured via the idDAS web management according to its trigger:

Active High or Active Low (Section 5.7.1.3). This step is also described as part of the commissioning procedures in the idDAS Commissioning Guide. It takes about 10 sec to activate an alarm.

Figure 5-34: Dry Contact Alarms Pinout and Connection Example Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 91 5.7.1.3 Configuring idRU External Alarms It is required to configure any external alarms connected to the idRU according to the trigger (high or low) and it is recommended to assign the alarms recognizable names (such as High Temperature, etc.). This is done via the web management GUI. The procedure is described in the idDAS Commissioning Guide as part of the setup, and provided in this section for your convenience. NOTE: For idRUs with fan-hood, three alarms are supported, where the fourth alarm is reserved for fan-

hood monitoring and must not be modified. To configure the external alarms 1. Open a session to the idDAS web GUI and log into the idRU whose alarms are to be configured. 2. In the hover-menu of the relevant idRU, click on the External Alarms option. 3. For each alarm:

4. Click Apply.

Set the Trigger to High or Low according to the connection.

Assign the alarm a recognizable description Set Trigger Enter Alarm Description Do NOT modify for repeaters with fan-hood Figure 5-35. Configuring idRU External Alarms Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 92 5.7.2 idRU Public Safety External Alarms and Relay Connections The dry-contacts alarms pin-out and interface have been modified for idRU public safety repeater models for NFPA compliance. The public safety compliant idRUs support the following dry-contact alarms:

Two external alarms Ext Alarm 1 and Ext Alarm 2. These are configured via the External Alarms hover-

Antenna Disconnect alarm provides indication of the antenna connection status. This alarm does not

General alarm provides indication if any idRU alarms are triggered. The associated alarms can be menu option. required configuration. filtered. 5.7.2.1 idRU Alarms Connections and Pin-out The idRU public safety alarms interface is implemented via an external, binder-type circular connector. The mating cable assembly is provided in the accessories kit of each remote. Dry Contact Alarms binder connector Figure 5-37. Alarms 10 Pin Circular Connector Figure 5-36. idDAS PS NFPA RRU Front Panel Table 5-1. RRU Dry-contact Alarms Connector PIN#

SIGNAL NAME WIRE COLOR Ant Disconnect Normally Open Orange Ant Disconnect Normally Closed Blue Ant Disconnect Common General N.O. General Alarm Normally Closed Brown 1 2 3 4 5 6 7 8 9 External alarm 1 (A)*

External alarm 1 (B)*

General Alarm Common External alarm 2 (A)*

10 External alarm 2 (B)*

Green Red White Yellow Black Grey Purple

*If connected, it is required to configure External Alarms 1 and 2 via the web management application as described in Section 5.7.2.2. The General and Antenna Disconnect alarms do not require configuration. Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 93 5.7.2.2 Configuring the idRU External Alarms 1,2 The idRU PS NFPA External Alarms 1/2 are configured via the web management application. This is done as part of the commissioning procedure detailed in the idDAS Web Management Guide or at any other time. For convenience and quick reference, a brief description is provided below. To configure the idRU External Alarm 1 and External alarm 2 1. Log into the relevant idRU and click the External Alarms hover-menu option. 2. If relevant, configure the External Alarms 1 and External Alarms 2 as follows:

Set the Trigger to High or Low as required.

You may optionally assign the alarm a recognizable description.

Click Apply. NOTE: Do NOT modify the definitions for External Alarm 3 (General alarm) and for External Alarm 4

(fan-hood). These alarms do NOT require configuration. Configurable Do NOT modify!

Figure 5-38. Configuring idRU External Alarms Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 94 5.7.2.3 idRU General Alarm Filtering The relayed alarm for a specific idRU can be filtered via the idRU Alarms Configuration hover-menu of that idRU. User selected alarms can be disabled for routing globally for all idRUs via the MSDH Alarm Configuration hover-menu or for a specific idRU via the idRUs Alarm Configuration hover-menu

(Section 4.4.4.2). To filter out idRU alarms affecting the relay 1. Log into the relevant idRU and select the Alarms Configuration hover-menu option. 2. Select the MSDH Alarms Configuration hover-menu option. 3. Click the Advanced button. 4. Under Dry Contact, uncheck the required alarms to disengage them from the relay. 5. Click Apply. Filtering Relayed Alarms Figure 5-39. Filtering Alarms Associated with the Relay 5.7.2.4 Monitoring the Alarms All of the idRU dry-contact alarms are monitored via the General area in the idRU Home window, General area:

General Alarm via the General LED

External Alarm 1/2 the LEDs of the relevant alarms

Antenna disconnect monitored via the LED of External Alarm 3.

Fan-hood LED of External Alarm 4 General Alarm Antenna Disconnect Figure 5-40. RRU Home Screen Antenna Disconnect Status Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 95 6 Verification And Maintenance This chapter provides the following information

Installation verification

Required Tools

Maintenance schedule

Routine inspections of the system

Periodical administrative and monitoring procedures

Replacement procedures

F/O Cleaning Procedure 6.1 Basic Verification of the Installation After completing the physical connections, it is recommended to perform some basic verification procedures and tests on the idDAS elements according to the list of procedures in the following table. Once the installation has been verified, continue to the commissioning procedure as described in the Commissioning Guide. NOTE: If any of the requirements are not compliant, please contact your Cobham Wireless project manager team. PROCEDURE VERIFY THE FOLLOWING:

LEDs on element front panels Inspect and verify the LEDs on the front panel of the elements are green, indicating normal operation:

APOI

BTSI LEDs - DL Input and DL Output LEDs = steady green

Control Module CCD status LED = blinking green MTDI L1 MM SFP = red flash every 10sec SFP self-test OK

L2 SM SFP = fast blinking green link connected;

slow blinking green no link

ST LED Very slow blinking green indicates system self-test OK MSDH

System LEDs:

Power and Master steady green

All LEDs flash every ~12sec. When the Identify function is Identify and Status off activated in the GUI, all LEDs blink quickly on identified unit.

CPRI with SFPs all SFP LEDs flash every few seconds. One of the four LEDs indicates link status as follows:

Steady green link identified and operational

Slow blinking green searching for link NOTE: idRU LEDs currently not applicable. Continued on the next page. Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 96 PROCEDURE VERIFY THE FOLLOWING:

Installation status Verify all fibre links end-to-end are installed and connected.

Verify the DAS is installed and connected to each idRU antenna port as per design.

Verify that all equipment, including racks and idRUs, are installed and powered.

Verify that all BTS systems are installed and activated.

Verify that all DAS between the BTS and top of the Rack installed and connected.

Verify there are no active alarms on the MSDH.

Verify that all elements are installed with the same software version. This is done as part of the commissioning procedure via the Inventory hover-menu option. Tests performed on Installation

Verify the following RF tests have been performed on the DAS:

VSWR Test, PIM Test, DAS Coverage test using CW signal

Verify that all losses between BTS elements and top-of-the-rack are as expected according to the calculated link budget.

Verify all fibre links are tested end-to-end as per Cobham Wireless fibre guidelines

(including all patch leads). 6.2 Required Tools IT KIT COMMENTS Do not use Explorer, and clear regularly with cache. TeamViewer is used when providing support. COMMENTS Items required for parallel access to the system (including AEM if relevant) and access to the internet Required software:

Chrome browser

File transfer application (e.g. Winscp)

TeamViewer Client version 7 Required Cables:

USB cable type A (Printer cable)

Ethernet cable TOOLS Master key for racks (e.g. Rittal keys) Keys for idRUs Screwdriver Torx T8, T10, and T20 Screwdrivers Pozidrive 2, and 3 Flat Screwdriver Adjustable wrench Adjustable 30mm spanner Spanner 8mm, 22mm, and 19mm Allen key M6 (for idRU bolts) QMA decoupling tool for high density application. Example of supplier: HUBER+SUHNER, Type: 74_Z-0-0-459, Item: 84032400 Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 97 RF TEST EQUIPMENT AND KIT COMMENTS Capabilities: reads LTE control channel, channel power Up to 3Ghz @ 0dBm Spectrum Analyzer Signal Generator Multimeter RF components:

RF cable N-type Male to N-type Male, 1.5meters Cables

4.3-male to N-type female adapter

30dB attenuator 50W, up to 3GHz, N-

type Male to N-type Female

50ohm loads, 50W, N-type Male Optical power meter Fibre Scope Light Source LC fibre cleaner kit Spare SFP modules FIBRE CLEANING AND TEST EQUIPMENT COMMENTS OTDR (Optical Time Domain Reflectometer) Verify you have spares for all SFP types in your system. 6.3 Maintenance Schedule UNIT LRU/

SRU MAINT

. CATEG

. PREVENTIVE MAINTENANCE TASK FREQUENCY REFERENCE SKILL LEVEL MSDH-M LRU FC Admin user Section 6.5.1 LRU FC Oper user Section 6.5.2 Backup the configuration to an external location. Every configuration change Verify optical levels. Upon installation and initial commissioning. Every 6 months MSDH MTDI LRU RP Replace fan unit. Every 6 years Mechanical Section 6.6.3 LRU RP Replace fan unit. Every 6 years Mechanical Section 6.6.3 idRU 40 LRU RP Replace fan unit. Every 4 years Basic Section 6.7.1 APOI LRU

None required

Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 98 Terminology COLUMN LRU/SRU Maintenance Category DEFINITION IS (Inspection) CL (Cleaning) FC (Function Check) RP (Replacement) VC (Visual Check) LRU Line Replaceable Unit; SRU Shop Replaceable Unit 6.4 idDAS System Routine Inspections For optimum performance of the idDAS system, perform the following inspections on every site visit, at least once a year or more often as required by site conditions. Remove any excessive dust accumulations using standard procedures and tools for this type of equipment. NOTE: To avoid potential signal loss and performance degradation: If a fibre is disconnected be sure to clean the fibre connector and the SFP according to standard fibre-optic cleaning and verification procedures before reconnecting. Routine inspections 1 Site inspection 2 Ground and power connections

Inspect the installation site for moisture, loose wires or cables, and excessive dust.

Make sure that the power and grounding cables are arranged so that they do not obstruct access to other device components.

Inspect the rack and elements power and ground connections. 3 Fibre and coax connections

Inspect the fibre and coax connections. 4 Airflow around elements

Make sure that airflow is unobstructed around the devices and into any openings in the enclosures. 5 Dust 6 Power supply LEDs 7 Front panel LEDs

Make sure the fins of the remote units (idRUs) and the fan-hood do not have excessive dust deposits.

Make sure the fans of the MTDI and MSDH units do not have excessive dust deposits.

Routinely check the PWR LED on the power supplies front panel. If this LED is solid green, the power supplies are functioning normally. Check the status LEDs on the front panel of the elements and verify they are green. See section 6.1. Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 99 6.5 Periodical Procedures As part of the routine maintenance of the idDAS system, the administrator should perform the following operations:

With every configuration change, the current configuration should be backed up.

The optic level signal of the system connections should be verified. 6.5.1 Configuration Backup The administrator can back up the current configuration onto the MSDH Master or to another location. If needed, this backup file can then be used to restore the configuration. Two types of files can be individually backed up and restored:

System backup this file is the crucial file containing all the required information. It saves the system configuration for the specific installation and specific elements according to equipment ID.

General Backup this file contains the definitions of the Operators, quota definitions and frequency ranges. To back-up the current configuration file Configuration Backup dialog appears. 1. In the hover-menu, under System Administration, select the Configuration Backup option. The Remove the selected file Save file to your computer System backup files General backup files Save backup files ranges Figure 6-1. Configuration Backup Dialog 2. To back up the current configuration, click one or both of the following as needed:

Save System Configuration - system configuration according to equipment IDs

Save General Configuration - definitions of the Operators, quota definitions and frequency The configuration file is immediately saved and labeled according to the time and date that it is saved. For example, the System file SYSTEM_12_38_19_05_16.tar.gz, is saved at 12:38 on 19-MAY-2016. The backup files will be listed in the relevant window areas (e.g. System Backup File for System files, and General Backup Files for General files). 3. To save a backed up System or General configuration file to your computer:

In the relevant window area (System Backup Files or General Backup Files), select the file to be saved (if more than one file is available for each type of configuration).

Click Download. The file will be saved in your computers default Downloads directory. Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 100 6.5.2 Verifying MSDH Optical Levels Periodically, every six months, it is recommended to verify the optical levels of the system. For reference of the desired optical levels, it is recommended to save or record the initial optical levels (after commissioning) for reference. Every six months, the values should be compared to verify there is no deterioration of the optical levels. To verify the optical levels 1. Access the main monitoring screen of each MSDH:

For the Master MSDH (MSDH-M) click the Master MSDH hover-menu option. For the Slave MSDH (MSDH-S) log into the relevant MSDH using the Login button. This can be done from various screens: for example, from the Inventory screen, select the MSDH and click Login. 2. Record the values or acquire a screen capture of the image and save to a specific location for reference. Figure 6-2. MSDH Optic Levels (Partial Home Screen Advanced Mode) Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 101 6.6 MSDH and MTDI Element Replacement Procedures This section describes how to replace the following elements:

MTDI RF module and MTDI chassis replacement

MSDH replacement

MTDI and MSDH fan module replacement 6.6.1 MTDI Elements Replacement This section provides the following information:

MTDI RF module replacement

MTDI unit replacement 6.6.1.1 MTDI RF Module Replacement NOTE: Only the MTDI RF modules can be replaced. Any other fault such as a control module or a power supply error, or would require replacing the chassis. NOTE: The procedure for replacing an MTDI RF module requires the MTDI to be powered OFF and ON. The required steps have been designed to minimize down time. To replace an MTDI RF module 1. Remove the RF module as follows:

Label the RF connections for that module so the cables can be reconnected quickly and correctly to the same ports.

Disconnect the RF connections to the suspect module.

Loosen the captive screws of the suspect module and pull the suspect module out.

Place the suspect module in the packaging of the replacement module. Label RF Connections RF module captive screws Figure 6-3. Removing RF Modules 2. Install the new module as follows:

Disconnect power MTDI unit.

Connect the RF cables.

Gently but firmly insert the new module in the appropriate slot and tighten the captive screws.

Power on the MTDI and verify that the RF module LEDs flash green every few seconds. 3. Verify the operation of the MTDI RF module in the idDAS web GUI as follows:

Log into the MTDI unit.

Verify the module is identified and is operating properly. Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 102 6.6.1.2 MTDI Unit Replacement This section provides basic information on replacing the MTDI unit. If the new unit is of exactly the same model and configuration as the previous unit, the Clone option can be used to transfer the configuration from the suspect unit to the new unit after the physical installation. (The Clone option will be referred to in the instructions). ATTENTION! Before reconnecting CPRI cables, be sure to clean the CPRI cable and SFP interfaces using standard fibre cleaning procedures. See Section 6.10. To replace an MTDI unit 1. Unpack the replacement MTDI enclosure and set it aside on a flat clean surface. 2. Record the serial number of the suspect unit located externally on the label at the side of the

Click the Routing Profiles hover-menu option and select the disabled routing profile option. This disables all routing profiles. 4. Label all the cables connected to the RF modules of the suspect MTDI so they can be reconnected enclosure. 3. Disable the routing profile (Section 6.9.1).

Open an idDAS web GUI session. correctly. 5. Uninstall the suspect MTDI as follows:

Disconnect power.

Label and disconnect the CPRI connecters.

Disconnect the RF connectors.

Disconnect the GND connector.

Dismount the suspect MTDI along with its brackets and place it on a flat surface. 6. Clean the external surface of the suspect MTDI of dust and pack it in the packaging of the new MTDI for 7. Referring to the relevant section in Chapter 4, install the replacement MTDI:

transport.

Mount the new MTDI in the rack.

Ground the unit.

Clean the CPRI cables and the SFP connector and connect the CPRI cables.

Reconnect the RF cables according to the labels.

Connect power. 8. Verify the following LEDs flash as follows:

RF board LED flash green every few seconds.

ST LED slow blinking green (~3sec OFF and 3sec ON). Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 103 9. In the web GUI:

Section 6.9.3. Section 6.9.1.

If the MTDI is replaced by a unit of the same model, this is automatically identified by the system and the configuration of the replaced unit can be transferred to the new equipment using the Clone option. Section 6.9.2.

Click on the Inventory hover-menu option and verify the unit four-digit ID is displayed.

Click the Routing Profiles hover-menu option and re-enable the relevant routing profile. 6.6.2 MSDH Unit Replacement This section provides basic information on replacing the MSDH unit.

Before replacing the MSDH unit, it is required to back up the configuration to an ATTENTION!

external location.

Before reconnecting CPRI cables, be sure to clean the CPRI cable and SFP interfaces using standard fibre cleaning procedures. See Section 6.10.

In order to complete the MSDH replacement procedure, you will need to refer to the idDAS Quick Commissioning document in order to log into the new MSDH unit. To replace an MSDH unit 1. Back up the system configuration to an external location according to Section 6.5.1. 2. Unpack the replacement MSDH and set it aside on a flat clean surface. 3. Record the serial number and the four-digit identification located on the suspect unit chassis externally on the label at the side of the enclosure. 4. Label the following cables:

CPRI cables

Any connected Ethernet backhaul cables 5. Uninstall the suspect unit as follows:

Disconnect power.

Disconnect the LAN cable.

Disconnect the CPRI and any Backhaul cables.

Disconnect the GND connector.

Dismount the suspect MSDH along with its brackets and place it on a flat, clean surface. 6. Clean the external surface of the suspect MSDH of dust and place it in the packaging of the replacement MSDH for transport. 7. Referring to the relevant section in Chapter 4, install the replacement MSDH:

Mount the new MSDH in the rack.

Ground the unit.

Clean and connect the CPRI cables according to the labels.

Connect the Ethernet cables according to the labels.

Connect power. 8. Verify the LEDs are lit as follows:

Power and Master LEDs steady green

All LEDs flash every 12sec. 9. Referring to either the idDAS Quick Commissioning Guide or idDAS Web Management Guide:

Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 104

Open a first time web session to the MSDH MSDH factory set IP Address is 192.168.1.253.

From the Ethernet hover-menu screen, set the MSDH network parameters (Static IP address or DHCP). 10. Restore the previously backed up configuration according to Section 6.9.4. 6.6.3 MTDI/MSDH Fan Module Replacement The same fan module and the same procedure are used for replacing the MSDH and the MTDI fan modules. CAUTION! Be sure to disconnect power before disassembling the Fan Module. FAN module captive screws Figure 6-4. MTDI/MSDH Rear Panel Interfaces To replace the MTDI/MSDH fan module 1. Disconnect power to the unit. 2. Open the Fan Module captive screws and pull the fan module out. 3. Insert the new Fan Module and tighten the captive screws. 4. Reconnect power to the unit. 6.7 idRU Replacement Procedures This section describes how to replace the following elements:

idRU 40 fan-hood module replacement idRU replacement 6.7.1 idRU-40 Fan-hood Module Replacement NOTE: For optimal system operation, it is required to replace the fan-hood every four years. The idRU 40 repeaters support two fan-hood modules: front fan-hood and rear fan-hood. The fan-hood replacement procedure requires disconnecting all the cables and dismounting the repeater. CAUTION! It is recommended that two people lift the repeater since (depending upon the configuration) the idRU weighs between 20 and 38 kg (44 and 84 lb). Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 105

To replace the idRU fan-hood modules 1. Note the four-digit number on the label at the side of the suspect repeater. This information will be needed when verifying connection to the repeater after completing the replacement procedure. Four-digit Unit Identification displayed in the web management application Figure 6-5. idRU Identification Label 2. Remove the following connections:

Disconnect power to the unit and disconnect the power connector.

Label the idRU CPRI cables and disconnect the CPRI cables.

Disconnect the coax cable.

Disconnect the ground cable. 3. Disconnect the 2x fan-hoods POWER connectors one power connection per fan-hood. 4. Remove the 4x bolts securing the FRONT fan-hood module. Remove bolts Fan-hoods 2x Power Connections Remove bolts Figure 6-6. Disconnect power Connections and Disassemble Front Fan-hood Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 106

5. Remove the FRONT fan-hood module. 6. If external alarms are connected, referring to Section 5.7.1, disconnect the external alarms as follows:

If the external alarms are connected to an external power source, disconnect the power.

Unlock and open the repeater door. Label all externally connected wires connected to the alarms block. (These are pairs of wires routed via the External Alarms aperture on the repeater.) Loosen the relevant screws on the alarms block and remove the wires.

Pull the external alarms wires cable out through the external alarms aperture.

Close and lock the repeater door. 7. Loosen the 4x fixing bolts securing the repeater to the WALL, and dismount the repeater TOGETHER with the REAR fan-hood and brackets assembly. Dismount together If external alarms are connected open and disconnect alarms Lock Figure 6-7. Front Fan Hood Removed 8. Place the repeater and rear fan-hood assembly on a flat surface, rear fan-hood assembly facing up as illustrated in Figure 5-10. Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 107 9. Loosen the 4x screws securing the rear fan-hood and brackets to the repeater. Figure 6-8. Removing Rear Fan-hood and Mounting Brackets 10. Remove the rear fan-hood and brackets. 11. Clean the repeater fins using the standard telecom equipment cleaning procedure used at your installation site. 12. Referring to Section 5.4.2, assemble the NEW fan-hoods and brackets by reversing the steps:

Assemble the rear fan-hood and the brackets using the 4x supplied bolts and washers.

Turn the repeater over and assemble the front fan-hood using the 4x supplied bolts and washers.

Connect the fan-hoods power connections. 13. Referring to Section 5.5.2.2, mount the repeater and fan-hoods assemblies on the wall and tighten the 14. Referring to Section 5.6, reconnect the cables in the following order:

bolts.

Ground the repeater.

Connect the antenna.

Clean the CPRI cable(s) and MAIN/AUX SFPs and connect as labeled. 15. If relevant, referring to Section 5.7.1 connect the external alarms as follows:

Open the repeater door.

Route the alarms wires through the External Alarms connector and opening.

Connect the wires according to the labels.

Secure the Ext Alarms interface, close the repeater door and secure the repeater. 16. Connect power to the repeater (and if relevant to the external alarms.) Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 108 17. Verify the LINK-MAIN LED is green this is the LED to the right of the MAIN CPRI interface (it may be mislabeled on some units). LINK-MAIN LED = green Figure 6-9. LINK-MAIN LED 18. In the web GUI Click on the Inventory hover-menu option and verify the repeater four-digit ID is displayed (Section 6.9.3). 6.7.2 idRU Replacement Procedures This section includes the following replacement procedures:

idRU-40 replacement idRU-30 replacement ATTENTION! Before reconnecting CPRI cables, be sure to clean the CPRI cable and SFP interfaces using standard fibre cleaning procedures. See Section 6.10. 6.7.2.1 idRU-40 Replacement CAUTION! It is recommended that two people lift the repeater since (depending upon the configuration) the idRU weighs between 20 and 38 kg (44 and 84 lb). If the new unit is of exactly the same model and configuration as the previous unit, the Clone option can be used to transfer the configuration from the suspect unit to the new unit after the physical installation. To replace the idRU-40 1. Record the serial number and four-digit identification of the suspect repeater located on the label at the side of the repeater. This will be needed when shipping the repeater for service. Serial Number Four-digit Identification Figure 6-10. idRU Identification Label Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 109 2. Unpack the replacement idRU and set it aside on a flat clean surface. Be sure to save the packaging for 3. Referring to Section 6.7.1 Step-3 to Step-10, uninstall the suspect idRU as follows:

transporting the suspect idRU.

Disconnect power.

Disconnect the antenna cable.

Label and disconnect the CPRI cables.

Remove the front fan-hood and set it aside save bolts and washers for reuse.

Remove the Ground connector.

If any external alarms are connected disconnect power to the alarms, open the repeater door, label the wires routed via the Ext Alarms aperture, disconnect the alarm wires and pull them through the aperture. Loosen the four mounting bolts, dismount the suspect repeater along with the rear fan-hood and wall brackets as a unit, and place the COMPLETE ASSEMBLY on a flat surface.

Disassemble the rear fan-hood and wallmount brackets and set them aside save bolts and

Clean the external surface of the suspect repeater of dust and pack it in the packaging from the washers for reuse. new repeater for transport. 4. Referring to Section 5.4.2, assemble the previously removed fan-hoods and brackets:

Assemble the rear fan-hood and the brackets using the 4x bolts and washers previously set aside.

Turn the repeater over and assemble the front fan-hood using the 4x bolts and washers previously

Connect the fan-hoods power connections. 5. Referring to Section 5.5.2.2, mount the repeater and fan-hoods assemblies on the wall and tighten the 6. Note the four-digit identification of the new repeater on the repeater label. 7. Referring to Section 5.5.2.2, reconnect the cables in the following order:

Clean and connect the CPRI cables to the MAIN/AUX connectors according to the labels.

If relevant, connect the External Alarms by opening the repeater door, routing the External Alarms cable internally and connecting the wires according to the labels. 8. Verify the LINK-MAIN LED is green this is the LED to the right of the MAIN CPRI interface (it may be set aside. bolts.

Ground the repeater.

Connect the antenna.

Connect power. mislabeled on some units). LINK-MAIN LED = green Figure 6-11. LINK-MAIN LED 9. In the web GUI:

Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 110

If the idRU is replaced by a unit of the same model, this is automatically identified by the system and the configuration of the replaced unit can be transferred to the new equipment using the Clone option. Section 6.9.2.

Click on the Inventory hover-menu option and verify the repeater four-digit ID is displayed. Section 6.9.3. 6.7.2.2 idRU-30 Replacement This section provides basic information on the replacement procedure. For detailed information, refer to Chapter 5. If the new unit is of exactly the same model and configuration as the previous unit, the Clone option can be used to transfer the configuration from the suspect unit to the new unit after the physical installation. To replace the idRU-30 1. Unpack the replacement idRU and set it aside on a flat clean surface. Note if new brackets are included with your repeater accessories. Be sure to save the packaging for transporting the suspect idRU. 2. Record the serial number of the suspect repeater. The serial number is located externally on the repeater side panel. This will be needed when shipping the repeater for service.

Click the Routing Profiles hover-menu option and select the disabled routing profile option. 3. Disable the routing profile (Section 6.9.1).

Open an idDAS web GUI session. This disables all routing profiles. 4. Uninstall the suspect idRU:

Disconnect power. Label and disconnect the RF connector(s). Label and disconnect the CPRI connectors.

If any external alarms are connected disconnect power to the alarms (if powered by an external power source), open the repeater door, label and disconnect the alarm wires and pull through the Ext Alarms aperture.

Disconnect the GND connector.

Loosen the repeater mounting bolts, dismount the suspect repeater along with its brackets and place the COMPLETE ASSEMBLY it on a flat, firm and clean surface.

Remove the mounting brackets. NOTE: If new brackets are provided with your new repeater, use the new brackets, bolts and washers;

otherwise, set aside the brackets, bolts and washers for reuse.

Clean the external surface of the suspect repeater of dust and pack it in the packaging from the replacement repeater for transport. 5. Referring to Section 5.4, assemble the brackets according to your installation type: rack mount or 6. Referring to Section 5.5.2.2, reconnect the cables in the following order:

wallmount.

Ground the repeater.

Connect the antenna.

Clean and connect the CPRI cables and MAIN/AUX SFPs and reconnect according to the labels. Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 111

If relevant, connect the External Alarms by opening the repeater door, routing the External Alarms cable internally and connecting the wires according to the labels. Close and secure the repeater door. 7. Verify the LINK-MAIN LED is green this is the LED to the right of the MAIN CPRI interface (it may be

Connect power. mislabeled on some units). LINK-MAIN LED = green Figure 6-12. LINK-MAIN LED 8. In the web GUI:

Section 6.9.3. Section 6.9.1

If the idRU is replaced by a unit of the same model, this is automatically identified by the system and the configuration of the replaced unit can be transferred to the new equipment using the Clone option. Section 6.9.2.

Click on the Inventory hover-menu option and verify the repeater four-digit ID is displayed.

Click the Routing Profiles hover-menu option and re-enable the relevant routing profile. 6.8 APOI Replacement Procedures This section provides the following information:

APOI BTS Card (BTSC) replacement

APOI Control Module replacement

APOI chassis replacement 6.8.1 General Information Note the following:

Required tool: T8 star screwdriver, torque for securing modules: 078 Nm

All replaceable APOI modules are hot swappable.

After replacing a suspect module, you will be instructed to open a session to the APOI and perform the relevant configuration procedures. If a BTSC module is added to the chassis (i.e. additional band or sectors are added), it is required to perform the relevant commissioning procedures: these include quota allocation, BTS Port configuration, etc. The configuration procedures are described in the idDAS Commissioning Guide and are not within the scope of this manual. Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 112

6.8.2 APOI RF Module (BTSC) Replacement To replace an APOI RF module 1. Remove the suspect RF module as follows:

Label the RF connections for that module to facilitate reconnection.

Disconnect the RF connections to the suspect module.

Using the T8 screw driver, loosen the 4x captive screws, and gently and evenly pull the suspect module out by its tab (located above the bottom screws).

Place the suspect module in the packaging of the new module. 2x captive screws Label all connected cables Tab 2x captive screws Figure 6-13. Removing RF Modules

Gently but firmly insert the new module in the same slot of the suspect module and tighten the 2. Install the new module as follows:

captive screws using a torque of 078 Nm.

Reconnect the RF cables. 3. Configure the new APOI RF module in the idDAS web GUI according to Section 6.9.5.1. No other configuration is required. 4. Verify the BTSI DL Input and DL Output LEDs = steady green 6.8.3 APOI Control Module Replacement This section describes how to replace a suspect APOI Control module. The replacement process includes the following web management operations:

Backing up the configuration of the APOI

Configuring the APOI IP address in the new Control module

Manually adding the APOI IP Address to the idDAS management application

Restoring the backed up configuration to the new Control module Where relevant, references will be made to the corresponding sections describing the implementation of each procedure. Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 113 To replace an APOI Control module 1. The ID of the suspect Control module will be required for the replacement procedure. Note the ID provided by the suspect APOI Control module by doing the following:

Open a session to the idDAS web management application.

Access the Inventory screen and note the ID of the APOI hosting the suspect Control module. Refer to Section 6.9.3 for details. 2. Open a session to the APOI and back-up the configuration of the APOI using the Cluster level Configuration Backup and Restore option. Refer to following sections:

Section 6.9.6.1 for a description of the APOI Cluster Level Backup and Restore options

Section 6.9.6.3 for instructions on how to perform the configuration backup 3. Remove the suspect Control module as follows:

Disconnect the Ethernet jumper connecting the Control module Eth port to the adjacent Display and Switch Module. (There is no need to label the cable).

Using the T8 screw driver, loosen the 2x captive screws, and gently and evenly pull the suspect Control module out by its bottom tab.

Place the suspect module in the packaging of the replacement module. Captive Screw Disconnect Eth jumper

(Can be reconnected to any of the four ports Tab Captive Screw Figure 6-14. Removing the Control Module 4. Gently but firmly insert the new Control module in the same slot previously occupied by the suspect module and tighten the x2 captive screws using a torque of 078 Nm. (Do not reconnect the Eth jumper at this point). 5. Referring to Figure 6-15, determine the IP to be assigned to the new Control card as follows:

Access the idDAS Inventory screen according to Section 6.9.3.

Note the MSDH-M IP Address. Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 114

Analyzing the currently allocated internal IP Addresses, choose a NEW IP address (not currently listed) that is within the range of the MSDH IP Address. This address will be assigned to the NEW Control card. For example: If MSDH 10.0.0.1 assigned 10.0.2.1 to 10.0.0.8, then 10.0.2.9 would be available to assign to the APOI Control module. Currently allocated IP Addresses Figure 6-15. Determining an Available IP Address MSDH IP Address 6. Referring to Section 6.9.5.2, open a direct session to the APOI by connecting to the Control card Eth port, and configure the new IP Address for the APOI. 7. Reconnect the Eth jumper between the Control module Eth port and to any one of the Eth ports on the Switch and Display module. Reconnect the Eth jumper (to any of the four Eth ports) Figure 6-16. Reconnecting the Eth Jumper 8. Perform the following configuration procedures:

Referring to Section 6.9.5.3, manually add the APOI IP into the idDAS management system.

Referring to Section 6.9.2, restore the previously backed-up APOI configuration to the NEW APOI Control card. 9. Configure the previously noted five-digit ID of the suspect Control card. 10. Verify the Control Module CCD status LED = blinking green. Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 115 6.8.4 APOI Chassis Replacement This section provides basic information on replacing the APOI chassis.

An APOI chassis with one power supply can be transparently replaced by APOI chassis with two power

Be sure to note the slot numbers in which all the modules are located and reinsert them in the new Note the following:

supplies and vice versa. chassis in exactly the same order. To replace an APOI chassis 1. Unpack the replacement APOI enclosure and set it aside on a flat clean surface. 2. If you have not already done so, note the slot numbers corresponding to each module. The modules must be inserted in exactly the same order in the new chassis. 3. Uninstall the suspect chassis as follows:

Disconnect power.

Label and disconnect all the RF connecters. not necessary to label the connection).

Disconnect the GND connector.

Disconnect the Eth jumper between the Control module and the Display and Switch module (it is

Dismount the suspect APOI chassis along with its brackets and place it on a flat surface. 4. Clean the external surface of the suspect APOI chassis of dust and pack it in the packaging of the new APOI for transport. 5. Referring to the relevant section in Chapter 4, install the replacement APOI as follows:

Mount the new APOI chassis in the rack.

Ground the unit. 6. Referring to Section 6.8.2, reinstall the RF modules in the same order in which they were installed in the suspect chassis and reconnect the cables according to the user assigned labels. 7. Install the Control module and the Display and Switch module as follows:

Insert both modules in the appropriate slots.

Tighten the x2 captive screws of each module using a torque of 078 Nm.

Reconnect the Eth jumper between the Control module Eth port and any one of the four Eth ports on the Display and Switch card 8. Verify the front panel LEDs are as follows:

BTSI DL Input and DL Output LEDs = steady green

Control Module CCD status LED = blinking green Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 116 6.9 Web GUI Operations The following web GUI operations may be required for some of the maintenance and replacement procedures as indicated in the procedure steps.

Disabling the routing profile

Viewing the Inventory screen

Cloning equipment

APOI configuration procedures required for maintenance 6.9.1 Disabling the Routing Profile Some of the maintenance procedures on MTDI and idRU elements require disabling the currently active routing profile. Once the procedure is completed, the routing profile is re-enabled. To disable the active profile 1. Open an idDAS web GUI session. 2. Click the Routing Profiles hover-menu option. The list of available routing profiles appears. 3. For an Admin level user, verify the relevant operator is selected in the Operator field. The currently active routing profile is selected for that operator is indicated by the selected radio button (e.g. weekend). Relevant operator Figure 6-17. Routing Profiles Management Pane 4. To disable the routing profile, select the disabled routing profile option. Disables profiles NOTE: To re-enable the routing profile, access the pane and select the relevant profile. Figure 6-18. Profile Management Options Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 117 6.9.2 Cloning Equipment If an APOI, idRU or MTDI unit is replaced by a unit of the same model and physical configuration, the configuration of the replaced unit can be transferred to the new equipment using the Clone option. After the equipment is replaced and running, the system identifies that the previous equipment has been replaced with equipment of the same model; the Cloning option then becomes available in the idDAS management application, equipment specific Information pane. To Clone a replaced unit NOTE: It is assumed that the faulty unit has been physically replaced by a new unit of the same model. 1. Access the equipment Information pane:

For MTDI or APOI in the Topology view, click on the relevant MTDI or APOI icon. The Information pane of the relevant unit will be displayed by default. For idRU in the Topology view, click on the idRU Zone icon. In the displayed Connectivity pane, click on the relevant idRU icon to display its Information pane. Clone option Figure 6-19. Example of Clone Option in the MTDI Information Screen 2. In the Clone Configuration field choose the identification of the equipment that was replaced. 3. Click the Clone button. 4. When the information from the previous equipment has been updated onto the new unit, a notification indicating successful completion of the operation appears. 5. Click OK to close the dialog. The new equipment information dialog will be displayed WITHOUT the Clone options. Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 118 6.9.3 Inventory Screen During the replacement procedures, the Inventory screen can be used to verify that the unit has initiated properly and is identified by the system according to its four-digit unique ID. To access the Inventory screen Click the hover-menu Inventory option. The list of idDAS elements appears. Each element is displayed along with identifying information, including its unique 4-digit, or 5-digit ID. The filter options can be used to limit the display to specific elements. Element ID Click to Filter Internal IP Filtering options Figure 6-20. Verifying Device Detection and Status 6.9.4 Configuration Restore A configuration file can be restored from the MSDH. If it is stored in another location, it must first be uploaded to the MSDH before it is restored. NOTE: Configuration backup is described in Section 6.5.1. To restore a backed-up configuration file 1. In the hover-menu, under System Administration, select the Configuration Backup option. The Configuration Backup dialog appears. Select file Restore file System backup files General backup files Figure 6-21. Configuration Backup Dialog Upload file from another location Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 119 2. To restore a configuration file:

If the file is not uploaded in the MSDH (i.e. listed under the relevant window area - System Backup Files and/or System Configuration files, click Upload File, browse and upload the relevant file. In the relevant window area, select the file and click Load. This may take about 30 sec during which time a blank screen will be displayed 6.9.5 APOI Configuration Procedures This section describes the following APOI configuration procedures

APOI BTSC configuration

APOI IP Address configuration

Manually adding APOI to the idDAS 6.9.5.1 A-POI BTSC Configuration Each time a BTSC card is replaced or a new BTSC card is added, it is required to configure the new card according to the instructions in this section. To configure the service RF parameters 1. In the Inventory screen (Section 6.9.3), select the APOI shelf unit and click Login. 2. Enter the A-POI User Name (default = admin) and Password (default = admin) Figure 6-22. APOI Login Dialog 3. In the displayed APOI management window, do the following:

In the left pane, click the A-POI-xx item.

Click the A-POI Config tab. The tabular display shows the RF modules according to their slot position (counting from left to right). Continued on the following page Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 120

Configure the parameters in the order given in the following steps (the channel is activated last after all parameters have been set). A-POI Config tab Click A-POI item Activate Channel

(LAST operation) Port mode: Combine Gain Mode: SALC Figure 6-23. A-POI Configuration of Band Modules 4. Select the Port Mode for that conditioning module:

Combine (recommended) both services are routed via the top simplex RF connections to the MTDI.

Separate each service is routed via a separate (top or bottom) pair of simplex RF connections to the MTDI.

MIMO for MIMO connections with two base stations; one BTS connected to channel 1 and the other BTS to channel 2. 5. Set the Gain Mode to SALC. In this mode, the output power level is monitored and controlled automatically to maintain the Port PWR Limit value (set to 3 dBm). This is done by the patented Smart Automatic Level Control algorithm. This mode will automatically establish constant gain and constant pilot (or RSRP for LTE) signals in all traffic conditions. 6. Set the Port Power Limit to 3 dBm. This is the power limit when the base station transmits at maximum power. 7. Activate Channels by setting Channel Activation to RF ON for each channel. Click Send. Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 121 6.9.5.2 APOI IP Address Configuration 1. Verify your computers IP Address is in the same subnet as the A-POI IP Address. Default A-POI shelf IP Address = 192.168.1.253. 2. Connect the (supplied) Ethernet cable between the computer and the A-POI Control module CCD port. 3. Open a standard browser and enter the default

(provided) IP address of the A-POI: 192.168.1.253 4. Login:

Default User Name: admin

Default Password: admin The main window appears. Ethernet Figure 6-24. Local Setup Connection Figure 6-25. Default IP Address admin

Figure 6-26, Login Prompt Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 122 5. In the Main window, Topology Tree, click A-POI and select the Communication Configuration tab

(see Figure 6-27). Topology Tree Click Send Communication Configuration tab Click A-POI IP Address Configuration Figure 6-27, IP Address Configuration 6. Configure the shelf IP Address as follows:

Define the Local IP Address, Local Netmask and Local Gateway for this A-POI shelf.

Click Send. 6.9.5.3 Manually Adding A-POIs to the idDAS Management System Use this procedure to manually add the IP Address of an APOI shelf to the idDAS management system. NOTE: It is assumed that the APOI IP Address has already been configured, that the APOI management is already connected to the MTDI and that that you have opened an MSDH session. To configure the A-POI IP Address into the idDAS management system 1. In the hover-menu, under the Devices group click on the APOI Management item. The displayed screen lists the currently integrated A-POIs and provides options for adding or deleting A-

POI IP Addresses. Figure 6-28. List of Integrated APOIs Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 123 2. At the top of the screen, click on the Add APOI button. The following dialog appears. Figure 6-29. APOI IP Dialog Box 3. Enter the IP of the APOI you wish to integrate into the system and then click on Retrieve Data. The following dialog appears. The dialog provides identification information on the APOI, including the list of installed band modules according to their slots. A-POI identification and version A-POI Band Modules Figure 6-30. APOI Band Modules Details 4. Click Add-APOI. The A-POI will now be configured into the idDAS system and listed in the screen. Figure 6-31. APOI IP List Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 124 6.9.6 APOI Configuration Backup/Restore The APOI supports backup and restore at a Cluster level, and per RF module where specific parameters are backup up at each level. To implement this functionality, a dedicated Backup and Restore tab is available at the Cluster level and for each RF module. The dialogs and available options are identical at both levels. The corresponding options are backed up to a *.CSV file. By default, the backup file is named according to the current date and time. When generated, the file is saved in the APOI and listed in the relevant Backup and Restore pane. The file name can be user defined before the file is created, using the Remark option; the generated file can be saved to another location by clicking on its link in the list. Only files stored on the APOI can be restored; therefore, a file saved to another location must first be uploaded to the APOI before it can be restored. 6.9.6.1 Cluster Level Backup and Restore The cluster level Backup and Restore option is used for backing up the following definitions:

Operator definitions, external combiner definitions, and power allocation as shown in the APOI Cluster Operator Allocation pane.

External alarms definitions these define the PSU alarms relevant for the redundant PSU option. Figure 6-32. Cluster Operation Definitions Figure 6-33. External Alarms Definitions

Alarm severity definitions these are either default, or if modified, user allocated severities for each alarm as displayed in the Alarms Configuration tab of any one of the modules. Figure 6-34. External Alarms Definitions Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 125

SNMP related parameters configured in the Communication Configuration dialog. Figure 6-35. SNMP Related Parameters To access the cluster level backup and restore The cluster level pane is accessed by clicking the APOI Cluster item in the navigation tree and then selecting the Backup/Restore tab. Currently saved files (click link to Save As) Backup and restore options Figure 6-36. Cluster Level Backup and Restore Pane The file management buttons provide the following options:

DESCRIPTION ITEM Backup Remark Restore Delete Refresh Upload Click to save the currently running configuration file to the Master APOI control card. The file will be added to the list. A user defined file name can be assigned using the Remark option; otherwise, the file will be named according to the current date and time. Enables assigning a user defined name to the file before it is backed up. The file name cannot be changed once it is created. If a user name is not assigned, the file will be named according to the current date and time. Activates the selected configuration file stored on the APOI controller. Deletes the selected file from the list. Refreshes the displayed list of files. Enables uploading a configuration file from another location on your computer or the network to the APOI controller. The file will be added to the list. The Restore option can then be used to activate the file. File Click links to download files and save to a location on your computer or the network. Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 126 6.9.6.2 RF Module Level Backup and Restore The RF module Backup and Restore option is used for backing up the user configurable values per channel:

Channel Activation (mute), Operator Name, External Combiner, etc it does not include, the read values. Figure 6-37. Backed Up Module Parameters To access the RF module level Backup and Restore tab The RF module Backup and Restore pane is accessed by clicking the relevant RF module in the navigation pane and then selecting the Backup/Restore tab. Figure 6-38. Cluster Level Backup and Restore Pane Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 127 The file management buttons provide the following options:

DESCRIPTION ITEM Backup Remark Restore Delete Refresh Upload File Click to save the currently running configuration file to the Master APOI control card. The file will be added to the list. A user defined file name can be assigned using the Remark option; otherwise, the file will be named according to the current date and time. Enables assigning a user defined name to the file before it is backed up. The file name cannot be changed once it is created. If a user name is not assigned, the file will be named according to the current date and time. Activates the selected configuration file stored on the APOI controller. Deletes the selected file from the list. Refreshes the displayed list of files. Enables uploading a configuration file from another location on your computer or the network to the APOI controller. The file will be added to the list. The Restore option can then be used to activate the file. Click links to download files and save to a location on your computer or the network. 6.9.6.3 Backing Up the Current Configuration To back-up the current configuration 1. In the left pane, click the Cluster item and then click the Backup/Restore tab. 2. To assign the configuration file a recognizable name, enter a name in the remark field. Otherwise, the 3. Click the Backup button located on the right-hand side of the tab. The file will be added to the list file will be assigned a name by the system. displayed in the Backup/Restore tab. Note: Any file in the list can also be saved to another location on your computer or on the network by clicking the file link. Currently saved files. Click link to Save As to another location. 2. Click Backup 1. Assign tag Figure 6-39. Backup Booster Info Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 128 6.9.6.4 Restoring a Configuration Any configuration file listed in the Backup and Restore tab can be restored to the APOI. In order to restore a configuration file that was saved to a different location on your computer or the network, it must first be uploaded to the APOI and displayed in the list. To restore previous configuration 1. In the left pane, click the Cluster item and then click the Backup/Restore tab. 2. Verify the desired configuration file is displayed in the list. If the file is saved in a different location, click the Upload button, browse for the file and upload to the APOI, verifying that it is displayed in the list. 3. Select the required configuration file from the available list in the Backup/Restore tab, by enabling the 4. Click the Restore button to start the restore process, follow and respond appropriately to any prompts. adjacent button. 1. Select configuration file

(radio button) 2. Click Restore. 5. Click on the Control and Params tab and verify that the required configuration settings are displayed. Figure 6-40. Restore Band Configuration Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 129 6.10 F/O Cleaning Procedure 6.10.1 Tools TOOL DESCRIPTION Fibrescope connected to a PC running the appropriate viewing software. It is highly recommended that some form of Fibre viewing equipment such as a Fibrescope is used to ensure that all Fibre connections are clean before termination; failure to do may downgrade system performance ILLUSTRATION Lint-free swabs (box), P/N 99-000127 Lint-free wipes (pack) P/N 99-000125 Fujikura One Click cleaner P/N 98-900004. 99% isopropyl alcohol (can), P/N 99-000126 Cletop type S Cassette Cleaner, P/N 98-900001 Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 130 6.10.2 Dry F/O Cleaning Procedure CAUTION! Invisible laser radiation might be emitted from disconnected Fibres or connectors. Do not stare into beams or view directly with optical instruments. PRUDENCE! rayonnement laser invisible peut tre mis partir de fibres ou les connecteurs dbranchs. Ne pas regarder en faisceaux ou voir directement avec des instruments optiques. 1. Before cleaning the SFP connectors it is advisable to clean the connector of the mating cable being attached to the optical port. An unclean optical connector is often the cause for reduced system performance. A bit of dust or oil from a finger can easily interfere with, or block light. Fortunately, it is very easy to clean the connector. Be sure to use the correct procedure for the given connector. When disconnected, cap the SC/APC connector to keep it clean and prevent scratching the tip of the ferrule. Use a product specially designed for the purpose, such as the Cletop type S Cassette Cleaner. 2. Begin by dry cleaning the F/O bulkhead connector (shown below is the Fujikura One-Click in use). IMPORTANT! Always make sure there is a way of inspecting the connector after cleaning. Cleaning can actually leave the end-face in a worse condition, since alcohol residue is one of the most difficult contaminants to remove. IMPORTANT! Assurez-vous toujours il y a une faon d'inspecter le connecteur aprs le nettoyage. Le nettoyage peut en ralit laisser l'extrmit-face dans un tat pire, car le rsidu d'alcool est l'un des contaminants les plus difficiles liminer. 3. Remove the protective cap from the cleaning-head end of the One Click cleaner, lift the protective end-cap on the Fibre connector and offer-up the end to the Fibre connector 4. With the cleaning-head end fully engaged in the connector, push until an audible click is heard 5. Without fully withdrawing the cleaning head end push it in again twice more, each time until an audible click is heard. 6. Withdraw the One Click cleaner and replace the protective end cap. Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 131 7. Inspect the Fibre connector using a Fibrescope. On the PC monitor, verify that there is no contamination present on the connector end-face. 8. If the connector is dirty, clean it with a wet cleaning technique followed immediately by dry cleaning. This is to remove any remaining residue from the wet clean (the following steps demonstrate a wet cleaning technique). 6.10.3 Wet F/O Cleaning Procedure ATTENTION! Invisible laser radiation might be emitted from disconnected fibres or connectors. Do not stare into beams or view directly with optical instruments. PRUDENCE! rayonnement laser invisible peut tre mis partir de fibres ou les connecteurs dbranchs. Ne pas regarder en faisceaux ou voir directement avec des instruments optiques. 1. Lightly moisten a new lint-free wipe with 99% isopropyl alcohol. (Step 1 below). TIP: Have a dry lint-free swab available for immediately drying after performing the wet-cleaning. 2. Lightly press and turn a clean lint-free swab in the moistened area of the wipe to moisten the swab. It is important that the swab is not too wet. (Step 2 below). 3. Insert the moistened lint-free swab into the bulkhead adapter. Lightly press and rotate several times in the same direction. (Step 3 below). Step 1 Step 2 Step 3 Figure 6-41: Wet-Cleaning Technique 4. Immediately use a dry lint-free swab to clear any remaining alcohol residue. NOTE: Do not re-use any of the wipes and/or swabs. Dispose of them properly. 5. Follow steps 3 to 6 of Dry Cleaning above 6. Re-inspect the Fibre using the Fibrescope. On the PC monitor, verify that there is no contamination present on the connector end-face. 7. If the Fibre is still dirty, go back to step 1 (Wet Cleaning) and repeat the entire process. NOTE: The entire wet/dry cleaning cycle should only be used twice, if the Fibre is still dirty after two cycles of wet/dry cleaning seek advice from the Cobham Wireless Support Desk. Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 132

7 Specifications The chapter provides the following information:

Supported Cellular and Public Safety frequencies

Headend units specifications

Cellular idRUs specifications

Public Safety idRUs specifications 7.1 Supported Frequencies 7.1.1 EMEA/APAC Frequencies EMEA/APAC APOI, MTDI, idRU (Cellular) Bands The frequencies listed below are supported by APOI, MTDI, and idRU1. FREQUENCY RANGE 800 MHz 900 MHz 1800 MHz 2100 MHz 2300MHz (TDD) 2600 MHz UPLINK 832-862 MHz 880-915 MHz 1710-1785 MHz 1920-1980 MHz DOWNLINK 791-821 MHz 925-960 MHz 1805-1880 MHz 2110-2170 MHz 2300-2400 MHz 2500-2570 MHz 2620-2690 MHz EMEA/APAC MTDI, idRU (Public Safety) Bands The frequencies listed below are supported by MTDI, and idRU1. FREQUENCY RANGE 400 MHz(2) UPLINK 380-385 MHz 385-390 MHz 410-415 MHz 415-420 MHz 450-455 MHz 455-460 MHz 832-862 MHz 876-880 MHz 880-915 MHz DOWNLINK 390-395 MHz 395-400 MHz 420-425 MHz 425-430 MHz 460-465 MHz 465-470 MHz 791-821 MHz 921-925 MHz 925-960 MHz 1710-1785 MHz 1920-1980 MHz 1805-1880 MHz 2110-2170 MHz 2300-2400 MHz 2500-2570 MHz 2620-2690 MHz 800 MHz 900 MHz GSM-R2 900 MHz 1800 MHz 2100 MHz 2300MHz (TDD) 2600 MHz Other bands such as 700MHz, 3500MHz in process 2 Other frequency bands on 400MHz can be provided upon request 1 Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 133 PCS-D PCS-B1 PCS-B2 PCS-B3 PCS-B PCS-E PCS-F PCS-C1 PCS-C2 PCS-C3 PCS-C PCS-G AWS-B AWS-C AWS-D AWS-E AWS-F 7.1.2 Americas Frequencies AMERICAS CELLULAR BANDS AMERICAS FREQUENCIES 700 LTE Lower band Upper band 800 MHz (Sprint) 850 MHz (Cellular) 1700 MHz (AWS)

(Detailed below) 1700 MHz (AWS1 +3) 1900 MHz (PCS)

(Detailed below) PCS BAND BLOCKS BLOCK NAME IN GUI PCS-A UPLINK 698-716 MHz 776-787 MHz 817-824 MHz 824-849 MHz DOWNLINK 728-746 MHz 746-757 MHz 862-869 MHz 869-894MHz 1710-1755 MHz 2110-2155 MHz 1710-1780 MHz 1850-1915 MHz 2110-2180 MHz 1930-1995 MHz UL FREQ START UL FREQ STOP DL FREQ START DL FREQ STOP MHZ 1850 1865 1870 1875 1880 1870 1885 1890 1895 1900 1905 1895 1910 MHZ 1710 1720 1730 1735 1740 1745 MHZ 1865 1870 1875 1880 1885 1885 1890 1895 1900 1905 1910 1910 1915 MHZ 1720 1730 1735 1740 1745 1755 MHZ 1930 1945 1950 1955 1960 1950 1965 1970 1975 1980 1985 1975 1990 MHZ 2110 2120 2130 2135 2140 2145 MHZ 1945 1950 1955 1960 1965 1965 1970 1975 1980 1985 1990 1990 1995 MHZ 2120 2130 2135 2140 2145 2155 AWS BAND BLOCKS BLOCK NAME IN GUI AWS-A UL FREQ START UL FREQ STOP DL FREQ START DL FREQ STOP Americas Public Safety Bands AMERICAS PUBLIC SAFETY FREQUENCIES SMR 700MHz, D block SMR 700MHz SMR 800MHz 10MHz BW (USA) SMR 800MHz 11MHz BW (USA) SMR 800MHz 18MHz BW (Full BW) UPLINK DOWNLINK 788 - 793MHz 793 - 805MHz 806 816MHz 806 817MHz 806 - 824MHz 758 - 763MHz 763 - 775MHz 851 - 861MHz 851 - 862MHz 851 - 869MHz Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 134 7.1.3 Additional Supported Frequencies 7.1.3.1 Brazil Frequencies BRAZIL FREQUENCIES 850 MHz 7.1.3.2 Australia Frequencies AUSTRALIA FREQUENCIES 700MHz 1800 MHz 2100 MHz 2600 MHz 850MHz (*) 900 (*) 1800MHz 2100MHz 2300MHz (TDD) 2600MHz UPLINK 824-849 MHz 1710-1785 MHz 1920-1980 MHz 2500-2570 MHz UPLINK 703-748MHz 825-844.7 MHz 891.7- 915 MHz 1710 - 1785 MHz 1920 - 1980 MHz DOWNLINK 869-894 MHz 1805-1880 MHz 2110-2170 MHz 2620-2690 MHz DOWNLINK 758-803MHz 870-889.7 MHz 936.7 - 960 MHz 1805 - 1880 MHz 2110 - 2170 MHz

(*) Supporting 850 MHz and 900MHz in the same system requires 2 antenna ports or an external combiner / filter for co-

existence. 2300-2400 MHz 2500 - 2570 MHz 2620 - 2690 MHz This area is intentionally left blank Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 135 7.2 Headend Units Specifications 7.2.1 APOI Specifications RF input power range

+20 to +30dBm composite power per band RF PARAMETERS Frequencies Gain flatness GENERAL BTSI cards Sectors per BTSI card BTS side RF interfaces DAS side RF interfaces Management See System Frequencies 3 dB (p-p) Up to 8 Up to 2 4 QMA Connector Female (2 per sector) Simplex / Duplex connections per sector. 4 QMA Connector Female (Simplex) 2 sectors can be converged to a single simplex connection Advanced, Web based, management and control system Management through MTDI Power feeding 100/240 VAC or 48V DC or 12V DC (bespoke) Power consumption A-POI rack with 8 band modules. Fanless configuration. 36W max for all power feed models. Operating temperature

-5 to +50C MECHANICAL Dimensions (w x h x d) WEIGHT 445x 132x290 mm in 19 rack VAC and 48 V DC models: 20 lbs (9 Kg) 12 V DC models:

17.9 lb (8.1 Kg) Ingress Protection IP 20 , indoor unit Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 136 7.2.2 MTDI Specifications RF PARAMETERS Frequencies Gain flatness See System Frequencies 3 dB (p-p) RF input power range From APOI 0dBm composite power per band GENERAL Number of Digitization Modules Max number of sectors per Digitization Module RF Ports per module CPRI ports Management Power feeding Power consumption Operating temperature MECHANICAL Dimensions (w x h x d) Weight Ingress Protection CPRI INTERFACE MEDIA TYPES Single mode fibre Multi mode fibre 4 band-specific modules 4 sectors per module (via 2* A-POI band module in combined mode) 4 QMA Connector Female Two simplex Tx/Rx connections. 2 CPRI ports for connection to MSDH and MTDI cascading:

L1- MM connector

L2 SM connector 2 Ethernet ports:

APOI A-POI control connection

LAN idDAS Web Management (local or remote)

Console USB port for local connection

100/240 VAC 50/60 Hz or 48V DC

12V DC (bespoke) For MTDI rack with 4-band modules:

100/240VAC or 48 V DC =140 W

12V DC = 120W

-5 to +50C 17.5 x 1.75 x 13.5 (445x45x342 mm)*, 1U 19 rack VAC and 48 V DC:

12V DC models:

IP 20 , indoor unit 11.0 lbs (5.0 Kg) 9.0 lbs (4.1 Kg) DISTANCE SUPPORTED BANDWIDTH 1310, 1550 nm 850 nm Up to 80 km Up to 300 m Up to 220 MHz Up to 220 MHz Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 137 7.2.3 MSDH Specifications INTERFACES CPRI Ports (MTDI/idRU) SFP Configurations Ethernet Ports (RJ-45) Management 16 ports, 10 Gbit/s per port Up to 4 MTDI connections, Software configurable Up to 16 SFPs standard range (10 km or below) Up to 8 long range (above 10Km) + up to 8 standard range (10 km or below) 16 ports 1 Gbit /s per port Internally connected to the corresponding CPRI ports 1 RJ45 Ethernet port idDAS Web management (local or remote) Console USB port for local connection Dry-contact Alarms For MSDH Public Safety models only: x1 dry-contact output alarm. External sync interface Optional Power feeding 100/240 VAC 50/60 Hz or 48V DC 12V DC (bespoke) Power consumption 150W for all power feed models.

-5 to +50C Operating temperature MECHANICAL Dimensions (w x h x d) Weight Ingress Protection CPRI INTERFACE MEDIA TYPES Single mode fibre Multimode fibre 17.5 x 1.75 x 13.5 (445x45x342 mm)*, 1U 19 rack VAC and 48 V DC:

12V DC models:

IP 20, indoor unit 11.0 lbs (5.0 Kg) 9 lbs (4.1 Kg) DISTANCE SUPPORTED BANDWIDTH 1310,1550 nm 850 nm Up to 80 km Up to 300 m Up to 220 MHz Up to 220 MHz

* For Americas PS DC model, the depth dimensions differ as follows: 17.5 x 1.75 x 13.8 (445x45x350 mm). Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 138 7.3 idRU EMEA/APAC Specifications This information below includes both cellular and public safety specification for the EMEA/APAC idDAS system. OPERATIO HIGH POWER MEDIUM POWER TECHNOLOGI COMPOSITE OUTPUT COMPOSITE ES POWER

+36dBm OUTPUT POWER

+30 dBm

(+40dBm optional)

(TESTED) TETRA/P25 NAL BW 5 MHz UPLINK

(UL) 380-385 MHz 385-390 MHz 410-415 MHz 415-420 MHz 450-455 MHz 455-460 MHz DOWNLINK

(DL) 390-395 MHz 395-400 MHz 420-425 MHz 425-430 MHz 460-465 MHz 465-470 MHz FREQUENC Y RANGE 400 MHz3 440-450 P253

(Bespoke) 800 MHz4 GSM-R 900 MHz 900 MHz 441-444 MHz 446-449 MHz 3 MHz 36 dBm DL 30 dBm 832-862 MHz 791-821 MHz 30 MHz 876-880 MHz 921-925 MHz 4 MHz

+40 dBm5

+37 dBm5

+30 dBm

880-915 MHz 925-960 MHz 35 MHz

+40 dBm5

+30 dBm 1800 MHz 1710-1785 MHz 1805-1880 MHz 75 MHz

+30 dBm GSM6,

+43 dBm (w/o GSM)5

+40dBm (with GSM) 5 2100 MHz 1920-1980 MHz 2110-2170 MHz 60 MHz 100MHz

+43 dBm5

+43dBm

+30 dBm

+30dBm 2300MHz

(TDD) 2300-2400 MHz 2600 MHz 2500-2570 MHz 2620-2690 MHz 70 MHz

+43 dBm5

+30 dBm LTE GSM6, WCDMA,LTE GSM6, WCDMA,LTE WCDMA, LTE WCDMA,LTE LTE LTE GENERAL PARAMETERS Noise Figure Ripple Downlink Power System Impedance DL Return loss at antenna port Antenna Connectors No. of CPRI Ports Max RF bandwidth per CPRI link No. of Ethernet Ports Max throughput for backhul No. of Bands Cascading No. of antenna ports7 Electrical ratings External alarms 3.5 dB Typical (maximum gain) in Medium power 4 dB Typical (maximum gain) in High power Adjustable, in 1 dB steps 2 dB 50

>14dB 4.3-10 220MHz 2 ( 1 connects to MSDH, 1 to cascade to another idRU) 2 (1 for Ethernet Backhaul, 1 for LAN) 1 Gbps (combined UL and DL) 4 (8 when cascading two idRUs) Up to 8 units can be cascaded via CPRI link 1 connector for all bands combined 115/220VAC 50/60Hz or 48V DC (30 60V DC)8 4 external inputs , 1 external dry contact output 3 idRU30/40 Tetra uplink composite power = -142 dBm, idRU40 UL/DL Gain =36dB Max, idRU30 UL/DL Gain = 30 dBm Max 4 idRU30/40 uplink composite power = <-5dBm, idRU40 UL/DL Gain = 40dB Max, idRU30 UL/DL Gain = 30 dBm Max 5 Composite power PAR 8.5dB for idRU40 using WCDMA/LTE technology 6 For GSM modulation in idRU 40, ETSI IMD is measured with 2 tones - each is 6dB less than composite power 7Other configurations such as MIMO or antenna port per band are possible. In these configurations 4.3-10 connector type will be used. Please contact Cobham Wireless for details. 8For id-DAS-idRU-3604A-DC, Eng P/N idRU0037, input voltage = 48V DC (40.5 60V DC) Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 139 idRU EMEA/APAC Specifications cont DISTANCE SUPPORTED BANDWIDTH 1310,1550 nm 850 nm Up to 80 km Up to 300 m Up to 220 MHz Up to 220 MHz MODULATION ACCURACY AT NOMINAL OUTPUT POWER WCDMA/EVM Typ. 3.5% RMS (composite according to ETSI TS 25.106 with TM1/64 DPCH CPRI INTERFACE MEDIA TYPES Single mode fibre Multi mode fibre LTE/EVM PkCDE POWER CONSUMPTION Quad band Single band MECHANICAL Dimensions Weight Enclosure Ingress Protection ENVIRONMENTAL Operating Temperature Storage Temperature Humidity Typ. 3.5% RMS (composite according to 3GPP TS 136 106)

<-33dB (ETSI TS 25.106 with TM 1/64 DPCH and spreading factor 256) MEDIUM POWER MODELS HIGH POWER MODELS MEDIUM POWER MODELS 540 x 382 x 198 mm 210W max

25 kg 690-820W max 193W max HIGH POWER MODELS 540 x 382 x 313 mm

(without fanhood) 38 kg Aluminium IP 65, Outdoor unit

- 10 to + 50 C

- 30 to + 70 C ETSI EN 300 019-2-4 COMPLIANCE Complies in applicable parts, on different markets, to Radio Equipment Directive (RED). Refer to the standards detailed in the Preface Material under Standards Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 140 7.4 idRU Americas Specifications This information below includes both cellular and public safety specification for the Americas idDAS system. IDRUS AMERICAS CELLULAR RF SPECIFICATIONS FREQUENCY RANGE UPLINK

(UL)

(DL) BW DOWNLINK OPER. COMPOSITE COMPOSITE TECHNOLOGIES IDRU 40 IDRU 30 700 Lower 698-716 MHz 728-746 MHz 29 MHz Upper 776-787 MHz 746-757 MHz 29 MHz 800 MHz (Sprint) 817-824 MHz 862-869 MHz 32 MHz 850 MHz (Cell) 824-849 MHz 869-894 MHz 32 MHz 1700 MHz (AWS) 1710-1755 MHz 2110-2155 MHz 45MHz 1700 MHz (AWS1+3) 1710-1780 MHz 2110-2180 MHz 70MHz OUTPUT POWER

+43dBm5

+43dBm5

+43dBm5

+43dBm5

+43dBm5

+43dBm5

+43dBm5 OUTPUT POWER

+30dBm

+30dBm

+30dBm

+30dBm

+30dBm

+30dBm

(TESTED) LTE LTE GSM6, CDMA,WCDMA,LTE GSM6,CDMA,WCDMA,LTE WCDMA, LTE WCDMA, LTE 1900 MHz (PCS) 1850-1915 MHz 1930-1995 MHz 65 MHz

+30dBm GSM6,CDMA,WCDMA,LTE IDRUS AMERICAS PUBLIC SAFETY RF SPECIFICATIONS FREQUENCY RANGE UPLINK

(UL) DOWNLINK

(DL) OPERATIO NAL BW IDRU 40 COMP. OUTPUT POWER MODULATION UHF 380-450MHz,9 or 10MHz Duplex Up to 8MHz 36 dBm DL P25 phase 1 and 2, LTE, Tetra 450-470MHz, 5MHz Duplex 470-512MHz, 3MHz Duplex

-14.5 dBm UL SMR 700MHz4 788-793 MHz 793-805 MHz 758-763 MHz 763-775 MHz 5 MHz 12 MHz SMR 800MHz 806-824 MHz 851-869 MHz 18 MHz 37dBm DL

-17 dBm UL 37dBm DL

-17 dBm UL P25 phase 1 and 2, LTE,

(Tetra future option) P25 phase 1 and 2, LTE,

(Tetra future option) Noise Figure Ripple Downlink power System Impedance Return loss at antenna port Antenna Connectors7 No. of CPRI Ports No. of Ethernet Ports GENERAL PARAMETERS CONT No. of Bands Cascading No. of antenna ports7 Electrical ratings External alarms CPRI INTERFACE MEDIA TYPES Single mode fiber Multi mode fiber 3.5 dB Typical (maximum gain) in Medium power 4 dB Typical (maximum gain) in High power Adjustable, in 1 dB steps 2 dB 50

>14dB Mini DIN 4.3-10 2 (1 connects to MSDH, 1 cascades to another idRU) 2 (1 for Ethernet Backhaul, 1 for LAN) 4 (8 when cascading two idRUs) Up to 8 units can be cascaded via CPRI links 1 connector for SISO, 2 connectors for MIMO 115/220VAC 60Hz or 48V DC (30 60V DC) 3 external inputs , 1 external dry contact output Public Safety idRU (700/800 UHF): 6 wires to fire panel NFPA Alarms: x2 dry-contact alarms with NO/NC options for antenna disconnection and unit failure DISTANCE SUPPORTED BANDWIDTH 1310,1550 nm 850 nm Up to 80 km Up to 300 m Up to 220 MHz Up to 220 MHz 4 idRU40 uplink composite power = <-5dBm, idRU40 UL/DL Gain = 40dB Max 5 Composite power PAR 8.5dB for idRU40 using WCDMA/LTE technology 6 For GSM modulation in idRU 40, ETSI IMD is measured with 2 tones - each is 6dB less than composite power 7Other configurations such as MIMO or antenna port per band are possible. In these configurations 4.3-10 connector type will be used. Please contact Cobham Wireless for details. Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 141 MODULATION ACCURACY AT NOMINAL OUTPUT POWER WCDMA/EVM LTE/EVM PkCDE POWER CONSUMPTION Quad band MECHANICAL Dimensions Weight Enclosure ENVIRONMENTAL EMC Operating Temperature Storage Temperature Humidity Typ. 3.5% RMS (composite according to ETSI TS 25.106 with TM1/64 DPCH Typ. 3.5% RMS (composite according to 3GPP TS 136 106)

<-33dB (ETSI TS 25.106 with TM 1/64 DPCH and spreading factor 256) MEDIUM POWER MODELS HIGH POWER MODELS max 210W MEDIUM POWER MODELS 21.3 x 15 x 7.8 540 x 382 x 198 mm 25 kg (max) 690-820W max HIGH POWER MODELS 21.3 x 15 x 12.3 540 x 382 x 313 mm

(without fanhood) 38 kg (max) Aluminium (IP65) FCC, IC

- 10 to + 50C

- 30 to + 70C ETSI EN 300 019-2-4 Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 142 8 Ordering Information This chapter provides ordering information for the following elements

EMEA Cellular and Public Safety elements

Americas Cellular and Public Safety

Bespoke public safety solutions

SFPs and Jumpers 8.1 EMEA/APAC Ordering Information 8.1.1 EMEA/APAC Cellular 8.1.1.1 EMEA/APAC Cellular APOI P/N APOI MARKETING P/N DESCRIPTION APOI-CH-AC-CN APOI chassis AC feed, includes controller APOI-CH-48V DC-CN APOI chassis 48 DC feed, includes controller APOI-CH-AC-R-CN APOI chassis AC feeding redundant PS, includes controller APOI-CH-48V DC-R-CN APOI chassis 48 V DC feeding redundant PS, includes controller APOI-BTSI-800LTE APOI BTS interface 800LTE APOI-BTSI-900 APOI-BTSI-1800 APOI-BTSI-2100 APOI-BTSI-2600 APOI-BLNK-PNL APOI-T864-MDM APOI BTS interface 900MHz APOI BTS interface 1800MHz APOI BTS interface 2100MHz APOI BTS interface 2600MHz APOI blank panel APOI-QMA-JUMPER-70CM APOI QMA-QMA jumper 70 cm APOI-SW-DISP APOI switch and Display card APOI CCD (controller module), includes Telit 864 WCDMA modem 8.1.1.2 EMEA/APAC Cellular MTDI P/N MTDI MARKETING P/N DESCRIPTION id-DAS-MTDI-4-CH-SM-MM-48V DC id-DAS MTDI 4 CH 1 SM & 1 MM SFP 48V DC id-DAS-MTDI-4-CH-SM-MM-AC id-DAS MTDI 4 CH 1 SM & 1 MM SFP AC id-DAS-RFB-800LTE id-DAS RF board 800LTE id-DAS-RFB-900 id-DAS-RFB-1800 id-DAS-RFB-2100 id-DAS-RFB-2600 id-DAS RF board 900MHz id-DAS RF board 1800MHz id-DAS RF board 2100MHz id-DAS RF board 2600MHz ENG. NUMBER POI0001 POI0002 POI0003 POI0004 OT00081 OT00082 OT00083 OT00084 OT00085 MA00094 1579100299 OT00077 OT00090 ENG. NUMBER MTDI003 MTDI004 RA00130 RA00131 RA00132 RA00133 RA00134 Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 143 8.1.1.3 EMEA/APAC Cellular MSDH P/N MSDH MARKETING P/N DESCRIPTION id-DAS-MSDH-48V DC id-DAS MSDH 48V DC feeding id-DAS-MSDH-AC id-DAS MSDH AC feeding 8.1.1.4 EMEA/APAC Cellular idRUs P/Ns EMEA/ IDRU MARKETING P/N DESCRIPTION id-DAS-idRU-M-3008-3009-3018-

3026-AC id-DAS-idRU-M-3008-3018-3021-

3026-AC id-DAS-idRU-M-4008-4009-4018-

4326-AC-F id-DAS-idRU-M-4008-4018-4321-

4326-AC-F id-DAS-idRU-M-4009-4018-4321-

4326-AC-F id-DAS-idRU-M-4008-4009-4318-

4321-AC-F id-DAS idRU Master 8/9/18/26 30dBm AC ID-DAS idRU Master 8/18/21/26 30dBm AC RRU0002 ID-DAS idRU Master 40/40/40/43 dBm 8/9/18/26AC FH RRU0007 ID-DAS idRU Master 40/40/43/43 dBm 8/18/21/26AC FH RRU0009 id-DAS-idRU-M-4008-4009-4018-

4321-AC-F ID-DAS idRU Master 40/40/40/43 dBm 8/9/18/21AC FH Clock Stability RRU0020 ID-DAS idRU Master 40/40/43/43 dBm 9/18/21/26AC FH RRU0022 ID-DAS idRU Master 40/40/43/43 dBm 8/9/18/21AC FH RRU0036 8.1.2 EMEA/APAC Public Safety 8.1.2.1 EMEA/APAC PS MTDI MTDI CHASSIS AND ELEMENTS DESCRIPTION id-DAS-MTDI-4-CH-SM-MM-48V DC id-DAS MTDI 4 CH 1 SM & 1 MM SFP 48V DC id-DAS-MTDI-4-CH-SM-MM-AC id-DAS MTDI 4 CH 1 SM & 1 MM SFP AC id-DAS-RFB-380-450 id-DAS RF board 380-450MHz 8.1.2.2 EMEA/APAC PS MSDH MSDH CHASSIS AND ELEMENTS DESCRIPTION id-DAS-MSDH-48V DC id-DAS MSDH 48V DC feeding id-DAS-MSDH-AC id-DAS MSDH AC feeding 8.1.2.3 EMEA/APAC PS idRU EMEA/APAC PUBLIC SAFETY IDRUS DESCRIPTION id-DAS-idRU-3604A-DC id-DAS-idRU-3604A-AC ID-DAS idRU 3604 380-385UL,390-395DL48V DC ID-DAS idRU 3604 380-385UL,390-395DL AC ENG. NUMBER MSDH005 MSDH006 ENG. NUMBER RRU0001 ENG. NO. MTDI003 MTDI004 RA00374 ENG. NO. MSDH005 MSDH006 ENG. NO. RRU0037 RRU0035 Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 144 APOI-CH-AC-R-CN APOI chassis AC feeding redundant PS includes controller APOI-CH-48V DC-R-CN APOI chassis 48 V DC feeding redundant PS includes controller POI0004 8.2 Americas Ordering Information 8.2.1 Americas Cellular 8.2.1.1 Americas Cellular APOI P/N APOI CHASSIS AND ELEMENTS APOI-CH-AC-CN DESCRIPTION APOI chassis AC feed includes controller APOI-CH-48V DC-CN APOI chassis 48 DC feed includes controller APOI-BTSI-700LTE APOI BTS int 700LTE Low/UP band APOI-BTSI-700LTE-UP APOI BTS int 700LTE Upper band APOI-BTSI-700LTE-LOW APOI BTS int 700LTE Lower band APOI-BTSI-800/850 APOI BTS int SMR800(7M) / 850 MHz APOI BTS interface 1700MHz APOI BTS interface 1900MHz APOI-BTSI-1700-13 APOI BTS interface 1700MHz AWS1+3 APOI-BTSI-1700 APOI-BTSI-1900 APOI-T864-MDM APOI-SW-DISP APOI-BLNK-PNL APOI CCD (Control module), includes Telit 864 WCDMA modem APOI switch and Display card APOI blank panel APOI-QMA-JUMPER-70CM APOI QMA-QMA jumper 70 cm 8.2.1.2 Americas Cellular MTDI P/N MTDI MARKETING P/NS DESCRIPTION id-DAS-MTDI-4-CH-SM-MM-48V DC id-DAS MTDI 4 CH 1 SM & 1 MM SFP 48V DC id-DAS-MTDI-4-CH-SM-MM-AC id-DAS MTDI 4 CH 1 SM & 1 MM SFP AC id-DAS-RFB-700LTE id-DAS-RFB-800/850 id-DAS-RFB-1700 id-DAS-RFB-1700-13 id-DAS-RFB-1900 id-DAS RF board 700LTE id-DAS RF board SMR800(7M)/ 850 MHz id-DAS RF board 1700MHz id-DAS RF board 1700MHz AWS1+3 id-DAS RF board 1900MHz 8.2.1.3 Americas Cellular MSDH P/N MSDH MARKETING P/NS DESCRIPTION id-DAS-MSDH-48V DC id-DAS MSDH 48V DC feeding id-DAS-MSDH-AC id-DAS MSDH AC feeding ENG. NUMBER POI0001 POI0002 POI0003 OT00086 OT00101 OT00102 OT00087 OT00088 OT00089 RA00463 OT00077 OT00090 MA00094 1579100299 ENG. NO. MTDI003 MTDI004 RA00179 RA00173 RA00174 RA00406 RA00175 ENG. NO. MSDH005 MSDH006 Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 145 8.2.1.4 Americas Cellular idRU P/N AMERICAS IDRUS MARKETING P/NS id-DAS-idRU-M-3007-3008-3017-3019-

AC id-DAS-idRU-M-3007-3008-3017-3019-

DC id-DAS-idRU-M-4307-4308-4317-4319-

AC-F DESCRIPTION ENG. NO. ID-DAS idRU Master 7/8/17/19 30dBm AC RRU0003 ID-DAS idRU Master 7/8/17/19 30dBm DC RRU0008 ID-DAS idRU Master 7/8/17/19 43dBm AC with fan hood RRU0019 8.2.2 Americas Public Safety Ordering Information 8.2.2.1 Americas PS MSDH P/N MSDH MARKETING P/NS DESCRIPTION id-DAS-MSDH-48VDC-NFPA id-DAS MSDH 48VDC OCOX feed W.NFPA alarm id-DAS-MSDH-AC id-DAS MSDH AC feeding 8.2.2.2 Americas Public Safety MTDI P/N MTDI MARKETING P/NS DESCRIPTION id-DAS-MTDI-4-CH-SM-MM-48V DC id-DAS MTDI 4 CH 1 SM & 1 MM SFP 48V DC id-DAS-MTDI-4-CH-SM-MM-AC id-DAS MTDI 4 CH 1 SM & 1 MM SFP AC id-DAS-RFB-700-PS id-DAS-RFB-800-PS id-DAS MTDI RF board 700MHz PS id-DAS MTDI RF board 800MHz PS id-DAS-RFB-420-425-PS id-DAS MTDI RF board DL 420-425MHz, UL425-430M, PS RA00507 8.2.2.3 Americas Public Safety idRU P/N IDRUS MARKETING P/NS DESCRIPTION id-DAS-idRU-3707-3708-PS-NFPA-AC ID-DAS idRU SMR 700/800 37dBm NFPA AC PWR id-DAS-idRU-3707-3708-PS-NFPA-DC ID-DAS idRU SMR 700/800 37dBm NFPA 48V DC PWR id-DAS-idRU-3604-PS-NFPA-AC ID-DAS idRU SMR 3604 NFPA AC PWR ENG. NO. MSDH010 MSDH006 ENG. NO. MTDI003 MTDI004 RA00393 RA00391 ENG. NO. RRU0042 RRU0027 RRU0043 Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 146 8.3 Bespoke Ordering Information APOI CUSTOMIZED PS DESCRIPTION APOI-CH-12V DC-CN APOI chassis 12V DC feed, including CCD MTDI CUSTOMIZED PS DESCRIPTION id-DAS-MTDI-4-CH-SM-MM-12V DC id-DAS-RFB-380-450 id-DAS-RFB-450-P25 id-DAS MTDI 4 CH SM & MM SFP 12V DC id-DAS RF board for 380-450MHz id-DAS RF board for UHF 450MHz P25 MSDH CUSTOMIZED PS DESCRIPTION id-DAS-MSDH-12V DC id-DAS MSDH 12V DC feeding IDRU CUSTOMIZED PS DESCRIPTION id-DAS-idRU-3604B-3604G-4008-4026-PS-

AC-F id-DAS-idRU-3004B-3004G-3008-3026-PS-

AC id-DAS-idRU-3604B-3604G-4008-4026-PS-AC-F id-DAS-idRU-3004B-3004G-3008-3026-PS-AC RRU0034 8.4 SFPs and Jumpers The SFPs and jumpers are common to all regions. SFPS MARKETING P/NS DESCRIPTION id-DAS-SFP-MM-10G-850NM-400M id-DAS SFP MM 850NM 10G 400m 2 F/O id-DAS-SFP-SM-10G-1310NM-10KM id-DAS SFP SM 1310NM 10G 10 km 2 F/O id-DAS-SFP-SM-10G-1271NM-10KM-WDM id-DAS SFP SM 1271NM 10G 10 km WDM id-DAS-SFP-SM-10G-1331NM-10KM-WDM id-DAS SFP SM 1331 NM 10G 10 km WDM id-DAS-SFP-SM-10G-1550NM-40KM id-DAS SFP SM 1550nm 40 km 10Gb LC id-DAS-SFP-SM-10G-CH25-80KM id-DAS SFP SM 10G 80 km 2 F/O CH25 JUMPERS MARKETING P/NS DESCRIPTION id-DAS-MM-JUMPER-2WIRE- 3M id-DAS MM jumper 3m 2 F/O id-DAS-SM-JUMPER-2WIRE- 3M id-DAS SM jumper 3m 2 F/O id-DAS-SM-JUMPER-WDM- 3M id-DAS SM jumper 3m WDM ENG. NUMBER POI0017 ENG. NO. MTDI070 RA00374 RA00453 ENG. NUMBER MSDH008 PART NUMBER RRU0030 ENG. NO. 1577900047 1577900048 1577900028 1577900029 1577900119 1577900085 ENG. NO. 1577900058 1577900049 1577900055 Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 147 Appendix A EU Declaration of Conformity This section provides the EU Declaration of Conformity for idRU, MSDH, and MTDI. Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 148 Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 149 Cobham Wireless idDAS Installation and Maintenance Guide 00109GU Rev. 2.0 Page | 150

 

 

 

 

 

 

 

 

 

 

Axell Wireless Ltd. LABELS FCC ID:NEO36IDRU420 IC:8749A-36IDRU420 The labels are affixed on the EUT side panel as shown below. The label material is sheet silver color metalized polyester with a permanent adhesive. Label with FCC ID and IC number Warning label Page 1 of 4 Axell Wireless Ltd. FCC ID:NEO36IDRU420 IC:8749A-36IDRU420 Labels location Label with FCC ID:NEO36IDRU420 and IC:8749-36IDRU420 is located here. The FCC Warning label is located here. The ISED warning labels are located here. Page 2 of 4 6 5 4 3 2 1 76.20 0 1 8 3

. D C B A NOTE. 1. MATERIAL: SHEET SILVER COLOR METALIZED POLYESTER WITH ONE SIDE WITH 3M 467MP BACK ADHESIVE + ADHESIVE 200MP ON ONE SIDE. 2. PRINTING 2.1 BACKGROUND "a": SILVER 2.2 SYMBOLS AND FONTS "b" : BLACK 2.3 FONTS: HELVETICA MEDIUM 3. USE RIBBON ACCORDING TO LABEL MANUFACTURER RECOMENDATION. 4. THE LABELS MUST BE SUPPLIED ON ROLL. 5. PART MUST COMPLY ToHS REQUIREMENTS. A 22.6.2017 Ziv.S ZONE REV DESCRIPTION DATE APPROVED REVISION HISTORY THIS IS A PROPRIETARY DESIGN OF COBHAM WIRELESS REPRODUCTION OR USE OF THIS DESIGN BY OTHERS IS PERMISSABLE ONLY IF EXPRESSLY AUTHORISED IN WRITING BY COBHAM WIRELESS. GENERAL TOLERANCES ISO 2768-1 MEDIUM ISO 2768-2 H UNLESS STATED OTHERWISE Checked Ziv.S Date 6 22 2017 Drawn Ziv.Schwartz 6 14 2016 ALL DIMENSIONS ARE IN mm UNLESS OTHERWISE STATED Scale 3:1 Approved Ziv.S 6 14 2016 3 Tel : +46 (0)8 475 4700 Fax : +44 (0)8 475 4799 Title IC Industrial Booster Warning Label First Angle Projection Drawing Number 9713002471 Rev. A Sheet A 3 1 1 2 1 6 5 4 D C B A 6 5 4 3 2 1 76.20 0 1 8 3

. D C B A NOTE. 1. MATERIAL: SHEET SILVER COLOR METALIZED POLYESTER WITH ONE SIDE WITH 3M 467MP BACK ADHESIVE + ADHESIVE 200MP ON ONE SIDE. 2. PRINTING 2.1 BACKGROUND "a": SILVER 2.2 SYMBOLS AND FONTS "b" : BLACK 2.3 FONTS: HELVETICA MEDIUM 3. USE RIBBON ACCORDING TO LABEL MANUFACTURER RECOMENDATION. 4. THE LABELS MUST BE SUPPLIED ON ROLL. 5. PART MUST COMPLY ToHS REQUIREMENTS. A ZONE REV DESCRIPTION 6.7.2017 DATE Ziv.S APPROVED REVISION HISTORY THIS IS A PROPRIETARY DESIGN OF COBHAM WIRELESS REPRODUCTION OR USE OF THIS DESIGN BY OTHERS IS PERMISSABLE ONLY IF EXPRESSLY AUTHORISED IN WRITING BY COBHAM WIRELESS. GENERAL TOLERANCES ISO 2768-1 MEDIUM ISO 2768-2 H UNLESS STATED OTHERWISE Checked Ziv.S 7 6 2017 Date 7 6 2017 Ziv.Schwartz Drawn ALL DIMENSIONS ARE IN mm UNLESS OTHERWISE STATED Approved Ziv.S 7 6 2017 Scale 3:1 3 Tel : +46 (0)8 475 4700 Fax : +44 (0)8 475 4799 Title French IC Industrial Booster Warning Label First Angle Projection Drawing Number 9713002504 Rev. A Sheet A 3 1 1 2 1 6 5 4 D C B A

 

 

Axell Wireless Ltd. idRU IC Compliance Warning Direct connection of antenna to the SERV/MOB port is not IC:8749A-36IDRU420 FCC ID:NEO36IDRU420 permitted. To ensure that the noise and spurious emissions levels meet the limits defined in RSS-131 for the idDASRRU37073708PSNFPADC the following conditions must be met on installation.

-6dBd Antenna Gain Assembly Antenna Assembly Gain[dBd] = Gain Antenna[dBi] 2.15 Loss of cables/splitters[dB] -6dB Conformit du rpteur idRU aux normes d'Industrie Canada Avertissement La connexion directe de lantenne au port SERV/MOB nest pas autorise. Pour sassurer que les niveaux de PAR(PuissanceApparenteRayonne)restent dans les limites dfinies par le CNR-131 pour le rpteur idDASRRU37073708PSNFPADC, les conditions suivantes doivent tre remplies lors de linstallation. Gain de lensemble antenne -6dBd Gain de lensemble antenne [dBd] = Gain de lantenne[dBi] 2.15 Perte des cbles/diviseurs

[dB] -6dB

 

 

Axell Wireless Limited trading as Cobham Wireless Cobham Wireless The Cobham Centre, Fourth Avenue, Marlow, Bucks, SL7 1TF, England. T: +44 1494 777 000 F: +44 1494 777 002 Subject: Application for certification of the Class B Booster (Intelligent Digital DAS UHF Public Safety idRU), FCC ID:NEO36IDRU420 To whom it may concern Axell Wireless Limited, hereby declares that the respective warning labels and class B disclosure will be shown in all relevant online and point-of-sale marketing material and also on the outside of packaging for the device. Sincerely yours, Brian Barton, Operations Support Director Axell Wireless Ltd. Axell Wireless Limited trading as Cobham Wireless Axell Wireless Limited trading as Cobham Wireless Registered in England and Wales: 04042808 Registered Office: C/O Cobham plc, Brook Road, Wimborne, Dorset, BH21 2BJ, UK www.cobham.com/wireless

 

 

FCC, Request for non-disclosure RF_501, Issue 7 Date: 19-Oct-10 Page 1 of 1 Company Name: Axell Wireless Limited Address:

City:

Country:

The Cobham Centre, Fourth Avenue, Marlow, Buckinghamshire, SL7 1TF, United Kingdom Edisonstraat 12A 6902 PK ZEVENAAR The Netherlands To: Telefication B.V., Dept. FCC TCB Subject: Request for confidentiality FCC ID: NEO36IDRU420 Reference number: ######

Dear FCC TCB, 1. Long-Term Confidentiality Pursuant to 47 CFR Section 0.459(a) & (b), we hereby requests non-disclosure and confidential treatment of the following materials submitted in support of FCC certification application:

Bill(s) of Material Block Diagrams Operational Description Schematic Diagrams Tune-up Procedure Above materials contain secrets, proprietary and technical information, which would customarily be guarded from competitors under 47 CFR, section 0.457(d)(2). Disclosure or publication or any portion of this company confidential material to other parties could cause substantial competitive harm and provide unjustified benefits for competitors. 2. Short-Term Confidentiality (STC) Pursuant to Public Notice DA 04-1705 of the Commissions policy, in order to comply with the marketing regulations in 47 CFR 2.803 and the importation rules in 47 CFR 2.1204, applicant hereby requests Short-Term Confidential treatment of the following materials (note 1):

Internal Photos Users Manual Test Set-up Photos External Photos Justification:

Axell Wireless Limited. is requesting the internal photos be permanently confidential. This non-

consumer device is inaccessible to the general public, and shall be kept in a secured and locked environment. Further, Axell Wireless Limited is requesting the Operational Description and User Manual (the Documents referenced below) be permanently confidential. The reason for this request is that the Documents are of a technical nature and are not provided to the consumer because the consumer cannot service the device. Our devices will be sold to a limited audience and the COBHAM wishes the Documents to be inaccessible to the general public at all times. Appropriate documentation will be made be available only to Axell Wireless Limited partners and integrators only. Designated professionals under the employ of these partners and integrators will be responsible for service and maintenance of our devices. Each partner and integrator will be under a non-disclosure agreement with Axell Wireless Limited FCC, Request for non-disclosure RF_501, Issue 7 Date: 19-Oct-10 Page 1 of 1 Planned Release Date STC: 180 days after grant date

(notes 2, 3, 4, 5). If no date is given, 45 days from grant date will be used. Date: 30th October 2019 Name and signature of applicant: Brian Barton Notes:

1) A document or type of document can only have ONE type of confidentiality!

2) Short-Term confidentiality is in principle for 45 days from date of grant; it can be extended max 3 times (total time 180 days max.)!

3) FCC must be informed when marketing begins earlier. 4) Release takes place automatically thus extension must be requested in time. Telefication does not remind you of this!

5) Request for extension or for release must be received by Telefication at least 7 days before date of actual marketing or before expiration of the STC period

 

 

Cobham Wireless The Cobham Centre, Fourth Avenue, Marlow, Bucks, SL7 1TF, England. T: +44 1494 777 000 F: +44 1494 777 002 Axell Wireless Limited The Cobham Centre, Fourth Avenue Marlow, Bucks SL7 1TF United Kingdom Declaration of Authorization We Name:

Address:

City:

Country:

Declare that:

Name Representative of agent: Michael Nikishin Agent Company name:

Address:

City:

Country is authorized to apply for Certification of the following product(s):

Product description: Class B booster (idDAS UHF Public Safety idRU) Type designation: id-DAS-RRU-3604-PS-NFPA-AC Trademark: Cobham Wireless Validity/ expiry date: 20th April 2021 on our behalf. Date: 20th April 2020 City: Marlow Name: Brian Barton Function: Operations Support Director Signature:

Hermon Laboratories Ltd. Harakevet Industrial Zone, Binyamina 30500, Israel. Axell Wireless Limited trading as Cobham Wireless Registered in England and Wales: 04042808 Registered Office: C/O Cobham plc, Brook Road, Wimborne, Dorset, BH21 2BJ, UK www.cobham.com/wireless