818 E. Orangethrope Ave Fullerton, CA 92831 Tel. +1.714.515.1100 www.kmwcomm.com USER MANUAL FOR POD SYSTEM ( Version 0.7) Document No.
User Manual for POD Systems Revision: 0.7 Revision History Version 0.1 0.2 0.3 0.4 0.5 0.6 0.7 Author KMW KMW KMW KMW KMW KMW KMW Descriptions Date Initial Release Update FCC Regulation Statement Update RF specification on 2.2 and 5 Update FCC RF Exposure information Make typo correct Change the RF Radiation Exposure Update RF Exposure statement and HAAT information 5/14/2015 12/23/2015 1/12/2016 1/15/2016 1/18/2016 2/4/2016 2/24/2016 Change List Version Change list © KMW USA Inc. 1818 E.
User Manual for POD Systems Revision: 0.
User Manual for POD Systems Revision: 0.7 Table of Contents 1. POD System Overview ......................................................................................................................................14 1.1 Features of POD System ............................................................................................................................14 1.2 POD System Architecture ........................................................................................................
User Manual for POD Systems Revision: 0.7 2.1.4.5 External Alarm Ports .................................................................................................................32 2.1.4.6 Communication port .................................................................................................................32 2.1.4.7 Alarms .......................................................................................................................................32 2.1.5 POD-H-FEM-L-x .
User Manual for POD Systems Revision: 0.7 2.1.10.3 RF port and LED .......................................................................................................................48 2.1.10.4 Optic port ................................................................................................................................49 2.1.10.5 Communication port ...............................................................................................................49 2.1.10.6 Alarms .....
User Manual for POD Systems 3. Revision: 0.7 2.2.2.2 Specifications ............................................................................................................................66 2.2.2.3 RF ports and LED .......................................................................................................................67 2.2.2.4 Debug Window .........................................................................................................................68 2.2.2.
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User Manual for POD Systems Revision: 0.7 Figure 2-43 POD-H-STM-8x4-DL RF port and LED ..................................................................................................52 Figure 2-44 POD-H-STM-8x4-UL RF port and LED ..................................................................................................52 Figure 2-45 Communication Port...........................................................................................................................
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User Manual for POD Systems Revision: 0.7 SAFETY AND REGUALTION WARNING NOTICE Only qualified personnel should handle the POD equipment. Any person involved in installation or operation of the POD should understand and follow these safety guidelines. REGULATION Obey all general and regional installation and safety regulations to prevent any kinds of safety accidents such as potential electric shock, or RF exposure while installation, maintenance, or operation.
User Manual for POD Systems FCC part 90 Industrial Booster statement - THIS IS A 90.219 CLASS B DEVICE (FCC ID: ZUQR-P78-27) - WARNING. This is NOT a CONSUMER device. It is designed for installation by FCC LICENSEES and QUALIFIED INSTALLERS. You MUST have an FCC LICENSE or express consent of 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.
User Manual for POD Systems Revision: 0.7 RF Radiation Exposure - - This equipment complies with RF radiation exposure limits set forth for an uncontrolled environment. This equipment should be installed and operated with a minimum distance of 60 cm with 3dBi antenna gain or 300 cm with 11dBi antenna gain between the radiator and your body. This transmitter must not be co-located or operating in conjunction with any other antenna or transmitter.
User Manual for POD Systems 1. Revision: 0.7 POD SYSTEM OVERVIEW POD System is a compact and flexible platform which is designed to provide effective service coverage for various indoor and outdoor applications. POD system supports multiple wireless standards currently being used such as CDMA/EVDO, WCDMA and LTE, as well as high traffic capacity and flexible distribution by sectorization and various flexibilities for future expansions.
User Manual for POD Systems - The cable with SMB-L connector provides more stable tight connection because SMB-L connector has lock function, comparing to SMB connector. The cable with SMB connector might be untied or loosened easily by vibration or unintentional cable pulling. The RF cable with SMB connector can be used instead of the RF cable with SMB-L connector because SMBL connector has compatibility with SMB connector. 1.2 Revision: 0.
User Manual for POD Systems Donor Antenna Revision: 0.7 BTS Air Interface BUILDING #1 BUILDING #2 Coa Coa x x Server Antenna Remote Unit Bi-directional Amplifier or Repeater BTS Head-end BDA SCM FEM OIM-S OEM-B DTM DTM HOM HOM OEM-S OEM-S Optic Equipment Room COAX OPTIC CPRI BTS Optic OIM_B OIM-B Figure 1-2 How it works Figure 1-2 is a practical example of POD DAS system. It shows how to distribute various BTS signals from Headend Unit to multiple Remote Units.
User Manual for POD Systems 1.3 POD System Configuration 1.3.1 SISO Configuration Assumption - Revision: 0.7 Supported frequency Band: 700M, SMR800, 850M, PCS, AWS, WCS, 2.6G # of RU: 2 System Configuration Module or Unit Q’ty H-DMCU or H-MCM H-PSU or H-PSM H-FEM-L-7 H-FEM-L-S8 H-FEM-L-C H-FEM-L-P H-FEM-L-A H-FEM-L-W H-FEM-L-B H-COM-8 H-HOM-L 7 band RU Comments 1 1 1 1 1 1 1 1 1 1 1 2 eNB Main Controller Power Supply Unit 700M SMR800 850M PCS AWS WCS 2.
User Manual for POD Systems 1.3.2 MIMO Configuration Assumption - Revision: 0.7 Supported frequency Band SISO: 700M, SMR800, 850M, PCS, AWS, WCS, 2.6G MIMO: 700M, PCS, AWS, 2.6G # of RU: 2 System Configuration Module or Unit Q’ty H-DMCU or H-MCM H-PSU or H-PSM H-FEM-L-7 H-FEM-L-S8 H-FEM-L-C H-FEM-L-P H-FEM-L-A H-FEM-L-W H-FEM-L-B H-COM-8 H-HOM-L 7 band RU Comments 1 1 1 1 1 2 1 1 1 2 2 4 Main Controller Power Supply Unit 700M SMR800 850M PCS AWS WCS 2.
User Manual for POD Systems 1.4 Revision: 0.
User Manual for POD Systems Table 1-1 Revision: 0.7 POD System Scalability & Limitations Supported maximum number POD System1) H-FEM 1) 2) 3) 4) 5) 6) 7) 8) 9) /Rack /H-SRU H-DMCU 1 RACK 4 H-PSU 4 12) H-SRU 26 7 208 843) 124) H-FEM-L H-FEM-H H-COM-8 26 26 124) H-DTM 8x8 26 26 64) HOM 32 28 45) RU 2566) 2247) 328) H-OIM-B 4 4 4 H-OEM-S 6 6 6 # of path/Module 29) 1 Table 1-1 shows hardware capacity of one POD system.
User Manual for POD Systems 2. 2.1 Revision: 0.
User Manual for POD Systems Head-end Unit consists of - Revision: 0.
User Manual for POD Systems 2.1.1 Revision: 0.7 POD-H-DMCU (DAS Main Control Unit) KMW Run ENT Link Up DMCU Alarm Down HE Alarm ESC RU Alarm Reset Modem 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 Web GUI 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 Power SW External Alarm DMCU HPSU Input 1 1 2 2 3 Output 4 5 6 7 8 3 Figure 2-3 POD-H-DMCU 2.1.1.
User Manual for POD Systems OFF DMCU Alarm HE Alarm RU Alarm Solid Yellow OFF Solid Yellow Solid Red OFF Solid Yellow Solid Red OFF Revision: 0.7 When H-DMCU communicates with all modules which are directly connected with H-DMCU such as H-SCM or H-PSU. When H-DMCU has minor alarm. When H-DMCU has no alarm. When at least one module or unit in the head-end has minor alarm. When at least one module or unit in the head-end has major alarm. When all modules and units in the head-end have no alarm.
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User Manual for POD Systems 2.1.2 Revision: 0.7 POD-H-SRU Figure 2-8 POD-H-SRU Front View HPSU - 30 - FUSE #12 #11 #10 #9 #8 #7 #6 #5 #4 #3 #2 #1 Spare Fuse - 30 - FAN Figure 2-9 POD-H-SRU Rear View 2.1.2.1 Functions and features - One H-SRU supports 12 slot including one SCM and other modules such as H-FEM, H-COM, H-DTM, HOM. Supplies 24V DC power received from H-PSU to each individual module through the backboard.
User Manual for POD Systems Revision: 0.7 HPSU - 30 - Spare Fuse - 30 - FUSE Figure 2-10 DC Input port - DC input port & Fuse The 24V DC power is supplied from H-PSU through this port, and this port includes H-SRU ID, rack ID which is set by ‘Rack ID’ dip switch in H-PSU. FUSE - Current capacity: 15A The fuse protects the damages of all modules installed in H-SRU due to high current. H-SRU provides spare fuse for just in case fuse is broken. 2.1.2.
User Manual for POD Systems 2.1.3 Revision: 0.7 POD-H-SCM Up Link Down ESC ALM Reset KMW Run Web GUI ENT DMCU SCM Figure 2-12 POD-H-SCM 2.1.3.1 Functions and features - One H-SCM can be installed in one H-SRU. Provides web-based GUI interface to user Provides the user interface to control and monitor using LCD window and key pad. Provides physical path between H-DMCU and all modules in H-SRU Controls FAN on/off and FAN speed and monitors FAN alarm.
User Manual for POD Systems Solid Yellow OFF Revision: 0.7 When H-SCM has minor alarm. When H-SCM has no alarm. 2.1.3.4 Ethernet Port Figure 2-14 DMCU port - Ethernet Port Provides physical communication path between H-DMCU and all modules in H-SRU by connecting DMCU port of H-SCM to available one port among Ethernet port #1~#32 of H-DMCU. Web GUI port - Used to access to web-based GUI using notebook or desktop PC. 2.1.3.
User Manual for POD Systems 2.1.4 Revision: 0.7 POD-H-MCM External Alarm 1 2 Input 3 4 Output Figure 2-16 POD-H-MCM 2.1.4.1 Functions and features - In case of small size DAS system, H-MCM can replace H-DMCU. Controls, monitors, and generates alarms for all modules and units connected to H-MCM via Ethernet cable, backboard of H-SCM, or optic cable. Provides web-based GUI interface to user Provides the user interface to control and monitor using LCD window and key pad.
User Manual for POD Systems Figure 2-17 H-MCM provides the user interface to control and monitor using LCD window and key pad. Reset - LED, LCD & Key PAD, Reset LCD window and key pad - Revision: 0.7 Used for H-MCM reset. LED Table 2-7 POD-H-MCM LED Operation Specifications Run Solid Green OFF Blink Green Link OFF MCM Alarm Blink Green OFF Blink Green HE Alarm RU Alarm Solid Red OFF Blink Green Solid Red OFF When power is on. When power is off.
User Manual for POD Systems Revision: 0.7 2.1.4.5 External Alarm Ports POD-H-MCM provides 2 alarm inputs to get the alarm statuses of the connected any external devices. Then, the input conditions are reported to the O&M system. POD-H-MCM also provides 2 alarm outputs to control the external devices or to signal any alarm condition or status information to the external devices. External Alarm Input 1 3 2 4 Output Figure 2-19 External Alarm Ports Figure 2-20 Communication Port 2.1.4.
User Manual for POD Systems 2.1.5 Revision: 0.
User Manual for POD Systems Revision: 0.7 2.1.5.1 Functions and features - Provides the interface between DAS and Base station Provides independent two RF path except H-FEM-L-P ALC function for DL/UL Path Spectrum monitoring function for DL Input TDD Switching for TD-LTE (POD-H-FEM-L-B only) Acquisition and transmission of synchronization signal (POD-H-FEM-L-B only) 2.1.5.
User Manual for POD Systems Revision: 0.7 2.1.5.
User Manual for POD Systems Revision: 0.7 LED Table 2-11 POD-H-FEM-L-x LED Operation Specifications PWR ALM DL Out UL In T-sync #1~#4 Solid Green Off Off Solid Yellow Solid Red Blink Green Blink Green Blink Green When power is on. When power is off. When H-FEM-L-x has no alarms. When H-FEM-L-x has minor alarm. When H-FEM-L-x has major alarm. At the cable connection guide, green led blinks to indicate which RF ports should be connected to. 2.1.5.
User Manual for POD Systems 2.1.6 Revision: 0.
User Manual for POD Systems Revision: 0.7 2.1.6.1 Functions and features - Provides the interface between DAS and Base station ALC function for DL/UL Path Spectrum monitoring function for DL Input TDD Switching for TD-LTE (POD-H-FEM-H-B only) Acquisition and transmission of synchronization signal (POD-H-FEM-H-B only) 2.1.6.
User Manual for POD Systems Revision: 0.7 2.1.6.
User Manual for POD Systems Revision: 0.7 LED Table 2-15 POD-H-FEM-H-x LED Operation Specifications PWR ALM DL Out UL In T-sync #1~#4 Solid Green Off Off Solid Yellow Solid Red Blink Green Blink Green Blink Green When power is on. When power is off. When H-FEM-H-x has no alarms. When H-FEM-H-x has minor alarm. When H-FEM-H-x has major alarm. At the cable connection guide, green led blinks to indicate which RF ports should be connected to. 2.1.6.
User Manual for POD Systems 2.1.7 Revision: 0.7 POD-H-COM-8 KMW UL COM ALM DL COM #1 PWR #1 #4 #2 #4 #5 #2 #5 #6 #3 #6 #7 #3 #7 #8 UL #8 DL COM-8 Figure 2-27 POD-H-COM-8 2.1.7.
User Manual for POD Systems Revision: 0.7 Connected to UL input port of H-FEM Connector Type: SMB-L Female LED Table 2-17 POD-H-COM-8 LED Operation Specifications PWR Solid Green Off Off Solid Yellow Solid Red Blink Green Blink Green Blink Green Blink Green ALM DL #1 ~ #8 DL COM UL #1 ~ #8 UL COM When power is on. When power is off. When POD-H-COM-8 has no alarms. When POD-H-COM-8 has minor alarm. When POD-H-COM-8 has major alarm.
User Manual for POD Systems 2.1.8 Revision: 0.7 POD-H-DTM-8x8 VHF UHF OUT #1 PWR DL MON #1 VHF UHF OUT IN #1 ALM #1 KMW IN #2 DTM-8x8 UL UL MON #4 #2 #4 #5 #2 #4 #5 #6 #2 #4 #5 #6 #7 #3 #5 #6 #7 #8 #3 #6 #7 #8 #3 #7 #8 #3 #8 DL Figure 2-30 POD-H-COM-8 2.1.8.1 Functions and features - Receives downlink signals from up to 8 H-COM. After then, it combines and distributes them to up to 8 HHOM. Receives uplink signals from up to 8 H-HOM.
User Manual for POD Systems - - Revision: 0.
User Manual for POD Systems 2.1.9 Revision: 0.7 POD-H-HOM-L KMW PWR ALM DL UL DL UL UL DL DL UL UL Out DL In T_Sync #1 #2 #3 #4 HOM-L Figure 2-33 POD-H-HOM-L 2.1.9.1 Functions and features - Converts Downlink RF signal into optical signal and transfers to low power Remote Unit with less than 1W. Converts Uplink optic signal received from low power Remote Unit to RF signal and transfers to H-COM, HSTM, or H-DTM. Compensates optic loss between HOM-L and low power Remote unit. For 2.
User Manual for POD Systems Off Solid Yellow Blink Green Blink Green Blink Green UL #1 ~ #4 DL IN UL OUT T_Sync Revision: 0.7 When PD fails. When PD is Normal. At the cable connection guide, green led blinks to indicate which RF ports should be connected to. 2.1.9.4 Optic port optic port LD #1 ~ #4 - #1 #2 #3 #4 Figure 2-35 Each optic port is connected to one low power Remote Unit. Transfers downlink optic signal to low power Remote Unit.
User Manual for POD Systems Alarm Name RU Comm. Fail Description RU Communication Fail © KMW USA Inc. 1818 E. Orangethrope Ave, Fullerton, CA 92831 Tel. +1 (714) 515-1100 www.kmwcomm.com Remedy Check optic cable connection Revision: 0.
User Manual for POD Systems 2.1.10 Revision: 0.7 POD-H-HOM-H KMW ALM PWR UL1 DL/UL DL1 T_Sync HOM-H UL2 DL2 #1 Figure 2-37 POD-H-HOM-H 2.1.10.1 Functions and features - Converts Downlink RF signal into optical signal and transfers to high power Remote Unit with more than 20W. Converts Uplink optic signal received from high power Remote Unit to RF signal and transfers to H-COM, HSTM, or H-DTM. Compensates optic loss between HOM-L and high power Remote unit. For 2.
User Manual for POD Systems Table 2-23 Revision: 0.7 POD-H-HOM-L LED Operation Specifications PWR Solid Green Off Off Solid Yellow Solid Red Off Solid Yellow Blink Green Blink Green Blink Green ALM DL/UL DL 1/DL 2 UL 1/UL 2 T_Sync When power is on. When power is off. When POD-H-HOM-H has no alarms. When POD-H-HOM-H has minor alarm. When POD-H-HOM-H has major alarm. When PD fails. When PD is Normal. At the cable connection guide, green led blinks to indicate which RF ports should be connected to. 2.
User Manual for POD Systems Link Communication fail DL Optic Fail Downlink LD fail UL Optic Fail Uplink PD fail Exceed permitted optic loss RU Communication Fail UL Optic Loss RU Comm. Fail © KMW USA Inc. 1818 E. Orangethrope Ave, Fullerton, CA 92831 Tel. +1 (714) 515-1100 www.kmwcomm.com Check pin of communication port/ assigned IP address Check if optic LD fail alarm occurs again after reset.
User Manual for POD Systems 2.1.11 Revision: 0.7 POD-H-STM-8x4 ALM PWR KMW ALM PWR #1 #2 #1 #2 #3 #4 POD-H-STM-8x4-DL KMW #1 #2 #3 #4 #1 #2 #3 #4 #5 #6 #7 #8 STM-8x4 UL Figure 2-42 #3 #4 #5 #6 #7 #8 STM-8x4 DL Figure 2-41 POD-H-STM-8x4-UL 2.1.11.1 Functions and features - Programmable sectorization can be supported by using H-STM-8x4.
User Manual for POD Systems Revision: 0.7 2.1.11.
User Manual for POD Systems Revision: 0.7 LED Table 2-25 POD-H-STM-8x4 LED Operation Specifications PWR ALM DL IN #1 ~ #8 DL OUT #1 ~ #4 UL IN #1 ~ #8 UL OUT #1 ~ #4 Solid Green Off Off Solid Yellow Solid Red Blink Green Blink Green Blink Green Blink Green When power is on. When power is off. When POD-H-STM-8x4-DL (UL) has no alarms. When POD-H-STM-8x4-DL (UL) has minor alarm. When POD-H-STM-8x4-DL (UL) has major alarm.
User Manual for POD Systems 2.1.12 Revision: 0.7 POD-H-PSU-x #1 KMW #2 #3 #4 Group Rack DMCU 12 12 Power Alarm DMCU HPSU #5 #1 #2 #3 #4 #5 DMCU #6 #7 #6 #7 #8 #1 #2 #3 #4 #8 HSRU Figure 2-46 POD-H-PSU-x 2.1.12.1 Functions and features - Distributes +24Vdc to DMCU and up to 8 H-SRUs Turn on or off each DC output individually in a local or remote site Set Rack ID 2.1.12.
User Manual for POD Systems HPSU Revision: 0.
User Manual for POD Systems - Revision: 0.7 CAUTION) The rack ID connected to H-DMCU must be set as 1. Table 2-28 Rack ID DIP Switch Setting Group 1 Group 2 Rack 1 Rack 2 Rack ID #1 X X OFF OFF Rack ID #2 X X ON OFF Rack ID #3 X X OFF ON Rack ID #4 X X ON ON 2.1.12.8 Ground port - Refer to section 3.2.2 2.1.12.
User Manual for POD Systems 2.1.13 Revision: 0.7 POD-H-CDU Figure 2-52 POD-H-CDU 2.1.13.1 Functions and features 2.1.14 Provides cable routing space when RF, optic, DC power, and Ethernet cables are connected between the modules or units in POD DAS system. Has good space efficiency since H-FAU can be installed behind H-CDU POD-H-FAU Figure 2-53 POD-H-FAU 2.1.14.1 Functions and features - Installed right above the H-SRU for dissipating heat comes from the modules installed in POD-H-SRU.
User Manual for POD Systems - Revision: 0.7 Control signal for FAN speed control, DC power and FAN alarm signal are transferred between H-FAU and H-SCM through this signal cable. 2.1.14.4 Alarms Table 2-30 Alarm Name FAN POD-H-FAU - Alarms Description FAN fail © KMW USA Inc. 1818 E. Orangethrope Ave, Fullerton, CA 92831 Tel. +1 (714) 515-1100 www.kmwcomm.
User Manual for POD Systems 2.2 Revision: 0.7 Remote Unit RU (Remote Unit) provides wireless service coverage to users by transmitting downlink signal through the service antenna. Remote units which is supported by KMW are as below. - 2.2.
User Manual for POD Systems - Revision: 0.7 Input Power AC type: 110V, 50-60 Hz DC Type: -48V IP rating: IP65 Cooling method: convection cooling Dimension: (WxHxD) 13 x 17.3 x 4.7 in (330 x 440 x 120mm) Weight: 37.5 lbs (17kg) 700M, SMR800 + 850M Table 2-31 3/5/7 band RU - 700M, SMR800 + 850M Specifications 700M Frequency Band Downlink Uplink Bandwidth Mean Gain Maximum Gain Ripple(p-p) 728.0M - 746.0M 698.0M - 716.0M 746.0M - 756.0M 777.0M - 787.0M 862.0M - 894.0M 817.0M - 849.0M 18.
User Manual for POD Systems Revision: 0.7 PCS VSWR Delay EVM Operating band unwanted emissions Out of band emission AWS < 1:1.7 < 5.00 us < 5.0 % @E-TM 3.1 Meet FCC, 3GPP WCDMA/LTE Repeater Spec., 3GPP2 CDMA spec. Meet FCC, 3GPP WCDMA/LTE Repeater Spec., 3GPP2 CDMA spec. WCS, 2.65G Table 2-33 Frequency Band WCS 2.6G Downlink Uplink 2350.0M - 2360.0M 2305.0M-2315.0M 10.0 MHz 2496.0M - 2690.0M 2496.0M-2690.0M 194.0 MHz Downlink 39 ± 1.0 dB 40 ± 1.0 dB 39 ± 1.0 dB 40 ± 1.
User Manual for POD Systems Revision: 0.7 2.2.1.
User Manual for POD Systems Revision: 0.7 2.2.1.4 Debug Window AC or DC Power input Port Optic Port Serial Port Ethernet Port #1 Ethernet Port #2 Figure 2-56 Debug Window User can know the name for each port of RU by attached sticker on the cover of debug window when user opens debug window. User can verify whether RU is AC or DC type, and RU is main RU or expansion RU. AC AC (L) (N) UL DL (OPTIC) AC GUI / EXT ! CAUTION AC ONLY Main RU - AC type © KMW USA Inc. 1818 E.
User Manual for POD Systems Revision: 0.7 -48V AC AC (L) (N) DC AC GUI GUI EXT ! CAUTION AC ONLY Expansion RU - AC type Figure 2-57 RTN DEBUG DEBUG EXT ! CAUTION DC ONLY Expansion RU - DC type Port name for each RU type Optic port - Connected to Head-end Expansion RU doesn’t need optic port because it is connected to main RU through RF cable.
User Manual for POD Systems Revision: 0.7 2.2.1.
User Manual for POD Systems 2.2.2 Revision: 0.7 PS700/800 RU for public safety 700/800 frequency band service (POD-R-P78-27-AC/DC) Figure 2-58 Remote Unit – PS700/800 2.2.2.
User Manual for POD Systems Table 2-36 Frequency Band Maximum Gain PS700/800 RU - Specifications PS700 PS800 Downlink Uplink 758.0M - 775.0M 788.0M - 805.0M 17.0 MHz 851M - 869M 806.0M - 824.0M 18.0 MHz Downlink 36 ± 1.0 dB 37 ± 1.0 dB 36 ± 1.0 dB 37 ± 1.0 dB Bandwidth Mean Gain Revision: 0.7 Uplink Downlink 67 dB Uplink 37 dB 3.5 dB @Full band 2.0 dB @759~774M 5.3 dB @Full band 2.0 dB @789~804M 27 dBm 4.
User Manual for POD Systems - Revision: 0.7 TDD sync port Provides TDD sync signal which can be used to synchronize with TDD signal measuring equipment such as spectrum analyzer. QMA female type LED Table 2-37 7/5/3 band RU LED Operation Specifications PWR Solid Green Off Off Solid Yellow Solid Red ALM When power is on. When power is off. When PS700/800 band RU has no alarms. When PS700/800 band RU has minor alarm. When PS700/800 band RU has major alarm. 2.2.2.
User Manual for POD Systems Revision: 0.7 -48V AC AC (L) (N) DC AC GUI GUI EXT ! CAUTION AC ONLY Expansion RU - AC type Figure 2-61 RTN DEBUG DEBUG EXT ! CAUTION DC ONLY Expansion RU - DC type Port name for each RU type Optic port - Connected to Head-end Expansion RU doesn’t need optic port because it is connected to main RU through RF cable.
User Manual for POD Systems Revision: 0.7 3 2 4 Figure 2-62 - 1 Battery backup port Connected to rechargeable battery Table 2-38 Pin map - Battery Backup Port Pin Assign 1 2 3 4 Specifications DC DC GND GND 26V 26V GND GND 2.2.2.
User Manual for POD Systems Optic PD Fail Downlink PD fail Optic Loss Excess permitted optic loss High current Power supply load too high Check optic cable connection with HHOM Check optic cable connection with HHOM / clean Optic connector and port Check if current alarm occurs again after reset. Revision: 0.7 Major Yellow Minor Yellow Critical Red 2.2.2.7 Grounding - Refer to section 3.3.2 © KMW USA Inc. 1818 E. Orangethrope Ave, Fullerton, CA 92831 Tel. +1 (714) 515-1100 www.kmwcomm.
User Manual for POD Systems 3. Revision: 0.7 EQUIPMENT INSTALLATION 3.1 Inspection before equipment installation Please follow these procedures before installing KMW POD equipments: Verify the number of packages received against the packing list. Check all packages for external damage; report any external damage to the shipping carrier. Open and check each package against the packing list. If any items are missing, contact KMW customer service. 3.1.1 The Part list for each unit 3.1.1.
User Manual for POD Systems Revision: 0.7 3.1.1.2 Remote Unit 3.1.1.2.1 7/5/3 band RU, PS700/800 RU 7/5/3 band RU or PS700/800 RU Quick Installation Guide wall mount bracket AC or DC input power cable Ethernet Cable for Web GUI or modem connection GND Cable © KMW USA Inc. 1818 E. Orangethrope Ave, Fullerton, CA 92831 Tel. +1 (714) 515-1100 www.kmwcomm.com Q’ty Length 1 1 1 1 1 1 2m 2m 2m Comments Refer to section 4.2.1.
User Manual for POD Systems 3.2 3.2.1 Revision: 0.
User Manual for POD Systems Revision: 0.7 CAUTIONS AND CONSIDERATIONS - POD Head-end system should be installed inside building only and mounts in a standard 19” rack. The rule for installing FAN unit: refer to section Allowed minimum clearance Front and Rear: 10” (254mm) Both sides:2” (51mm) Top and bottom: No clearance is required. 3.2.1.1 The sequence for mounting head-end unit The sequence for mounting each head-end unit is as below.
User Manual for POD Systems 3.2.2 Revision: 0.7 Grounding The grounding terminals are located at the rear of H-PSU, H-DMCU, and H-SRU. They must be grounded properly before powering on the equipment. Figure 3-10 3.2.3 Head-end units Grounding Optic port Cleaning We recommend that optic connector should be cleaned using a dry optical cleaning swab or tissue in a dry environment before connecting optic cable. Also, if the expected optic loss is 1.
User Manual for POD Systems 3.3 Remote Unit 3.3.1 Revision: 0.7 Wall Mount for 3/5/7 band RU and PS700/800 RU Wall mounting procedure - Check the suitability of the wall-mounting kit and the wall based on Figure 3-5 Figure 3-5 - - Install the wall-mounting bracket using 4 x M10 screw anchors (not included**) according to the drilling layout. Confirm that the bracket is securely fastened to the wall.
User Manual for POD Systems - Confirm that all screws have been fastened and the unit is securely mounted to the wall. Figure 3-7 3.3.2 Revision: 0.7 3/5/7 band RU, PS700/800 RU – RU installed on the wall Grounding 3.3.2.1 3/5/7 band RU, PS700/800 RU Step A Step B Figure 3-8 - - Step C 3/5/7 band RU grounding Connect an earth-bonding cable to the grounding bolt connection provided on the outside of the remote unit (Left-side) as shown in Figure 3-8.
User Manual for POD Systems 4. CABLE CONNECTION 4.1 Head-end Unit Cable Connection 4.1.1 - Between H-DMCU and H-SCM or H-PSU Connector: RJ45, female Length: 2m Power & Signal cable - Between modules in H-SRU or between H-SRUs Downlink Connector: SMB-L, female Cable Color: Blue Jacket Uplink Connector: SMB-L, female Cable Color: Yellow Jacket CAUTION) RF cable with 35” length will be provided normally. 60” and 90” RF cable can be provided by user’s special order.
User Manual for POD Systems 4.1.2 Revision: 0.7 Cable Connection Example for frequency bands with FDD type POD DAS System configuration - H-DMCU : 1ea H-PSU: 1ea H-SRU: 1ea (H-SCM, H-FAU, H-CDU) H-FEM: 5ea (FEM-L-7, FEM-L-C, FEM-L-P, FEM-L-A, FEM-L-W) H-COM: 1ea H-DTM: 1ea H-HOM-L: 4ea Figure 4-2 shows cable connection example for frequency bands with FDD type. Figure 4-2 Cable Connection Example for frequency bands with FDD type © KMW USA Inc. 1818 E. Orangethrope Ave, Fullerton, CA 92831 Tel.
User Manual for POD Systems RF cable connection - The RF ports for BTS connection are located in the back of H-SRU. All RF ports for the connection between modules installed in H-SRU are located in the front of H-SRU. Optic cable connection - The optic ports for the connection with Remote units are located in the front panel of H-HOM-L. Ethernet cable connection Ethernet cable Revision: 0.
User Manual for POD Systems 4.1.3 Revision: 0.7 Cable Connection for TDD 2.6G frequency band POD DAS System configuration - H-DMCU : 1ea H-PSU: 1ea H-SRU: 1ea (H-SCM, H-FAU, H-CDU) H-FEM: 1ea (FEM-L-B) H-COM: 1ea H-DTM: 1ea H-HOM-L: 4ea Figure 4-3 shows cable connection example for TDD 2.6G frequency band. In case of 2.6G supporting TDD system, TDD sync signal generated from H-FEM-L-B should be transferred to RU to synchronize TDD timing in overall POD DAS system.
User Manual for POD Systems RF cable connection - Revision: 0.7 The RF ports for BTS connection are located in the back of H-SRU. All RF ports for the connection between modules installed in H-SRU are located in the front of H-SRU. RF cable connection for TDD sync signal transfer From RF cable Module port Module port H-FEM-L(H)-B T-Sync #1~#4 H-HOM T_Sync Optic cable connection - The optic ports for the connection with Remote units are located in the front panel of H-HOM-L.
User Manual for POD Systems 4.1.4 Revision: 0.7 Cable Connection Example for Public Safety 700/800 band POD DAS System configuration - H-MCM : 1ea (or H-DMCU) H-PSM-OI: 1ea (or H-PSU) H-SRU: 1ea (H-SCM, H-FAU, H-CDU) H-FEM: 1ea (FEM-L-P7/P8) H-COM: 1ea H-DTM: 1ea H-HOM-L: 2ea Figure 4-4 shows cable connection example for Public Safety 700/800 band. Figure 4-4 RF cable connection - The RF ports for BTS connection are located in the back of H-SRU.
User Manual for POD Systems 4.1.5 Revision: 0.7 Cable Connection Example for MIMO configuration POD DAS System configuration - - H-DMCU : 1ea H-PSU: 1ea H-SRU: 2ea (H-SCM, H-FAU, H-CDU) H-FEM: 6ea (H-FEM-L-7, H-FEM-L-C, H-FEM-L-P x2, H-FEM-L-A, H-FEM-L-W) H-FEM-L-7, H-FEM-L-C, H-FEM-L-A, and H-FEM-L-W can support MIMO configuration by using one HFEM-L module because they have two paths in one module. H-FEM-L-P supports only one path in one module.
User Manual for POD Systems RF cable connection - The RF ports for BTS connection are located in the back of H-SRU. All RF ports for the connection between modules installed in H-SRU are located in the front of H-SRU.
User Manual for POD Systems 4.1.6 Revision: 0.7 Cable connection between multiple Racks Figure 4-6 shows how to connect cable and set rack ID for IP setting. One H-DMCU is able to control and monitor maximum up to 4 racks and one rack can be composed of maximum 7 H-SRUs and one H-DMCU. All H-PSU, H-SCM, and H-MCM are connected to H-DMCU through 32 Ethernet ports located in front side of H-DMCU. Rack ID can be set by dip switch in H-PSU. - Refer to section 2.1.12.
User Manual for POD Systems 4.2 Revision: 0.7 Remote Unit Cable Connection 4.2.1 7/5/3 band & PS700/800 RU 4.2.1.1 Cable Ethernet cable - AC or DC Power cable - For web GUI connection or connection with expansion RU Connector: RJ45, female Length: 2m Length: 2m GND Cable - Length: 2m © KMW USA Inc. 1818 E. Orangethrope Ave, Fullerton, CA 92831 Tel. +1 (714) 515-1100 www.kmwcomm.
User Manual for POD Systems Revision: 0.7 4.2.1.2 Optic cable connection - After loosening 4x SECURITY SCREWS (M4), open the door for debug window. - After loosening 5x SECURITY SCREWS (M4), open front door. - After taking out of gasket from optic cable entrance located in left side, pass optic cable through this entrance. - Connect optic cable to optic port located on the left top side in debug window. - Replace gasket into optic cable entrance. - Continue in section 4.2.1.3. © KMW USA Inc.
User Manual for POD Systems Revision: 0.7 4.2.1.3 AC or DC power cable connection - After taking out of gasket from power cable entrance located in right side, pass power cable through this entrance. - Connect power cable to AC (or DC) power terminal. In case of AC power cable, fasten ground cable by using GND SCREW to GND position located on the right top side in debug window. - Replace gasket into power cable entrance.
User Manual for POD Systems Revision: 0.7 4.2.1.4 Ethernet cable connection for connecting with Expansion RU If there is an expansion RU connected main RU, connect Ethernet cable with expansion RU before closing the door for debug window and front door. After taking out of gasket from Ethernet cable entrance located in the middle, pass Ethernet cable through this entrance. - Connect Ethernet cable to EXT port (RJ 45). - Replace gasket into Ethernet cable entrance.
User Manual for POD Systems 5. Revision: 0.7 SPECIFICATION 5.
User Manual for POD Systems Table 5-2 Revision: 0.
User Manual for POD Systems 5.2 Revision: 0.7 Additional Model Names Each 2-Band and 7-Band RU has several additional models from the basic model. They are identical to basic model except only with blocked RF band(s) by Factory loaded software and without hardware changing. So Basic model supports up to specified number of bands and additional models supports less number of bands with several blocked RF band(s).