KMW H-FEM-L-W DAS Head-End User Manual PDO

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Document Description	POD User Manual_v0.7
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1818 E. Orangethrope Ave
Fullerton, CA 92831
Tel. +1.714.515.1100
www.kmwcomm.com
USER MANUAL
FOR
POD SYSTEM
( Version 0.7)
Document No.: MUN0630-2015
Date: February 24, 2016
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. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
Contents
User Manual for POD Systems
Revision: 0.7
List for Acronyms
AGC
ALC
BDA
BOM
BTS
DAS
DL
Downlink
HEU
IF
LNA
LTE
MS
NMS
PA
PSU
RF
RU
UL
Uplink
Uptime
VSWR
Automatic Gain Control
Automatic Level Control
Bi-Directional Amplifier
Bill of Material
Base Transceiver Station
Distributed Antenna System
Downlink
Path covered from the Base Transceiver Station (BTS) to the subscribers’ service area
via the repeater
Head-end Unit
Intermediate Frequency
Low Noise Amplifier
Long Term Evolution
Mobile Station
Network Management System
Power Amplifier
Power Supply Unit
Radio Frequency
Remote Unit
Uplink
Path covered from the subscribers’ service area to the Base Transceiver Station (BTS)
via the repeater
Time during which a Unit or Module is in operation
Voltage Standing Wave Ratio
© KMW USA Inc.
1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
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 ..........................................................................................................................15
1.3
POD System Configuration ........................................................................................................................17
1.3.1 SISO Configuration..............................................................................................................................17
1.3.2 MIMO Configuration ..........................................................................................................................18
1.4
2.
POD System Scalability & Limitation ..........................................................................................................19
POD system Components .................................................................................................................................21
2.1
Head-end Unit............................................................................................................................................21
2.1.1 POD-H-DMCU (DAS Main Control Unit)..............................................................................................23
2.1.1.1
Functions and features .............................................................................................................23
2.1.1.2
Specifications ............................................................................................................................23
2.1.1.3
LED, LCD & Key PAD, Reset .......................................................................................................23
2.1.1.4
Ethernet Ports ...........................................................................................................................24
2.1.1.5
DC power input port & power switch .......................................................................................24
2.1.1.6
External Alarm Port ..................................................................................................................24
2.1.1.7
Ground port ..............................................................................................................................25
2.1.1.8
Alarms .......................................................................................................................................25
2.1.2 POD-H-SRU .........................................................................................................................................26
2.1.2.1
Functions and features .............................................................................................................26
2.1.2.2
Specifications ............................................................................................................................26
2.1.2.3
DC input port & Fuse ................................................................................................................26
2.1.2.4
FAN port....................................................................................................................................27
2.1.2.5
Ground port ..............................................................................................................................27
2.1.3 POD-H-SCM ........................................................................................................................................28
2.1.3.1
Functions and features .............................................................................................................28
2.1.3.2
Specifications ............................................................................................................................28
2.1.3.3
LED, LCD & Key PAD, Reset .......................................................................................................28
2.1.3.4
Ethernet Port ............................................................................................................................29
2.1.3.5
Communication port .................................................................................................................29
2.1.3.6
Alarms .......................................................................................................................................29
2.1.4 POD-H-MCM .......................................................................................................................................30
2.1.4.1
Functions and features .............................................................................................................30
2.1.4.2
Specifications ............................................................................................................................30
2.1.4.3
LED, LCD & Key PAD, Reset .......................................................................................................30
2.1.4.4
Ethernet Ports ...........................................................................................................................31
© KMW USA Inc.
1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
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 ...................................................................................................................................33
2.1.5.1
Functions and features .............................................................................................................34
2.1.5.2
Specifications ............................................................................................................................34
2.1.5.3
RF Port and LED ........................................................................................................................35
2.1.5.4
Communication port .................................................................................................................36
2.1.5.5
Alarms .......................................................................................................................................36
2.1.6 POD-H-FEM-H-x ..................................................................................................................................37
2.1.6.1
Functions and features .............................................................................................................38
2.1.6.2
Specifications ............................................................................................................................38
2.1.6.3
RF port and LED ........................................................................................................................39
2.1.6.4
Communication port .................................................................................................................40
2.1.6.5
Alarms .......................................................................................................................................40
2.1.7 POD-H-COM-8 ....................................................................................................................................41
2.1.7.1
Functions and features .............................................................................................................41
2.1.7.2
Specifications ............................................................................................................................41
2.1.7.3
RF port and LED ........................................................................................................................41
2.1.7.4
Communication port .................................................................................................................42
2.1.7.5
Alarms .......................................................................................................................................42
2.1.8 POD-H-DTM-8x8 .................................................................................................................................43
2.1.8.1
Functions and features .............................................................................................................43
2.1.8.2
Specifications ............................................................................................................................43
2.1.8.3
RF port and LED ........................................................................................................................43
2.1.8.4
Communication port .................................................................................................................44
2.1.8.5
Alarms .......................................................................................................................................44
2.1.9 POD-H-HOM-L ....................................................................................................................................45
2.1.9.1
Functions and features .............................................................................................................45
2.1.9.2
Specifications ............................................................................................................................45
2.1.9.3
RF port and LED ........................................................................................................................45
2.1.9.4
Optic port ..................................................................................................................................46
2.1.9.5
Communication port .................................................................................................................46
2.1.9.6
Alarms .......................................................................................................................................46
2.1.10 POD-H-HOM-H ....................................................................................................................................48
2.1.10.1
Functions and features ............................................................................................................48
2.1.10.2
Specifications ..........................................................................................................................48
© KMW USA Inc.
1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
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 .....................................................................................................................................49
2.1.11 POD-H-STM-8x4 ..................................................................................................................................51
2.1.11.1
Functions and features ............................................................................................................51
2.1.11.2
Specifications ..........................................................................................................................51
2.1.11.3
RF port and LED .......................................................................................................................52
2.1.11.4
Communication port ...............................................................................................................53
2.1.11.5
Alarms .....................................................................................................................................53
2.1.12 POD-H-PSU-x ......................................................................................................................................54
2.1.12.1
Functions and features ............................................................................................................54
2.1.12.2
Specifications ..........................................................................................................................54
2.1.12.3
LED ..........................................................................................................................................54
2.1.12.4
Ethernet Port ...........................................................................................................................54
2.1.12.5
AC input on/off Switch & DC output on/off switch .................................................................54
2.1.12.6
AC input port & DC output port ..............................................................................................55
2.1.12.7
Rack ID.....................................................................................................................................55
2.1.12.8
Ground port ............................................................................................................................56
2.1.12.9
Alarms .....................................................................................................................................56
2.1.13 POD-H-CDU .........................................................................................................................................57
2.1.13.1
Functions and features ............................................................................................................57
2.1.14 POD-H-FAU .........................................................................................................................................57
2.2
2.1.14.1
Functions and features............................................................................................................57
2.1.14.2
The rules for installing FAN unit ..............................................................................................57
2.1.14.3
Port ..........................................................................................................................................57
2.1.14.4
Alarms .....................................................................................................................................58
Remote Unit ...............................................................................................................................................59
2.2.1 7/5/3 band RU for commercial band service (POD-R-7S8CPAWB-2730-AC/DC)................................59
2.2.1.1
Functions and features .............................................................................................................59
2.2.1.2
Specifications ............................................................................................................................59
2.2.1.3
RF ports and LED .......................................................................................................................62
2.2.1.4
Debug Window .........................................................................................................................63
2.2.1.5
Alarms .......................................................................................................................................65
2.2.1.6
Grounding .................................................................................................................................65
2.2.2 PS700/800 RU for public safety 700/800 frequency band service (POD-R-P78-27-AC/DC) ...............66
2.2.2.1
Functions and features .............................................................................................................66
© KMW USA Inc.
1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
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
2.2.2.5
Battery Backup Port ..................................................................................................................69
2.2.2.6
Alarms .......................................................................................................................................70
2.2.2.7
Grounding .................................................................................................................................71
Equipment Installation ......................................................................................................................................72
3.1
Inspection before equipment installation .................................................................................................72
3.1.1 The Part list for each unit ...................................................................................................................72
3.2
3.1.1.1
Head-end Unit ..........................................................................................................................72
3.1.1.2
Remote Unit ..............................................................................................................................73
Head-end Unit Equipment Installation ......................................................................................................74
3.2.1 Installation Head-end Unit in a 19” rack ............................................................................................74
3.2.1.1
The sequence for mounting head-end unit ..............................................................................75
3.2.2 Grounding ...........................................................................................................................................76
3.2.3 Optic port Cleaning .............................................................................................................................76
3.3
Remote Unit ...............................................................................................................................................77
3.3.1 Wall Mount for 3/5/7 band RU and PS700/800 RU............................................................................77
3.3.2 Grounding ...........................................................................................................................................78
3.3.2.1
4.
3/5/7 band RU, PS700/800 RU .................................................................................................78
Cable Connection ..............................................................................................................................................79
4.1
Head-end Unit Cable Connection ..............................................................................................................79
4.1.1 Cable ...................................................................................................................................................79
4.1.2 Cable Connection Example for frequency bands with FDD type ........................................................80
4.1.3 Cable Connection for TDD 2.6G frequency band................................................................................82
4.1.4 Cable Connection Example for Public Safety 700/800 band ..............................................................84
4.1.5 Cable Connection Example for MIMO configuration .........................................................................85
4.1.6 Cable connection between multiple Racks ........................................................................................87
4.2
Remote Unit Cable Connection .................................................................................................................88
4.2.1 7/5/3 band & PS700/800 RU ..............................................................................................................88
5.
4.2.1.1
Cable .........................................................................................................................................88
4.2.1.2
Optic cable connection .............................................................................................................89
4.2.1.3
AC or DC power cable connection ............................................................................................90
4.2.1.4
Ethernet cable connection for connecting with Expansion RU ................................................91
Specification ......................................................................................................................................................92
5.1
Electrical Specifications (Low power HFM – Low power RU) ....................................................................92
5.2
Additional Model Names ...........................................................................................................................94
© KMW USA Inc.
1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
User Manual for POD Systems
Revision: 0.7
Figures
Figure 1-1
Figure 1-2
Figure 1-3
Figure 1-4
Figure 1-5
Figure 2-1
Figure 2-2
Figure 2-3
Figure 2-4
Figure 2-5
Figure 2-6
Figure 2-7
Figure 2-8
Figure 2-9
Figure 2-10
Figure 2-11
Figure 2-12
Figure 2-13
Figure 2-14
Figure 2-15
Figure 2-16
Figure 2-17
Figure 2-18
Figure 2-19
Figure 2-20
Figure 2-21
Figure 2-22
Figure 2-23
Figure 2-24
Figure 2-25
Figure 2-26
Figure 2-27
Figure 2-28
Figure 2-29
Figure 2-30
Figure 2-31
Figure 2-32
Figure 2-33
Figure 2-34
Figure 2-35
Figure 2-36
Figure 2-37
Figure 2-38
Figure 2-39
Figure 2-40
Figure 2-41
Figure 2-42
DAS Overall Block Diagram .................................................................................................................15
How it works .......................................................................................................................................16
SISO Configuration ..............................................................................................................................17
MIMO Configuration ...........................................................................................................................18
POD System Scalability .......................................................................................................................19
Head-end Unit Front View ..................................................................................................................21
Head-end Unit Rear View ...................................................................................................................21
POD-H-DMCU .....................................................................................................................................23
LED, LCD & Key PAD, Reset .................................................................................................................23
Ethernet Ports.....................................................................................................................................24
DC power input port & power switch .................................................................................................24
External Alarm Ports ...........................................................................................................................25
POD-H-SRU Front View .......................................................................................................................26
POD-H-SRU Rear View ........................................................................................................................26
DC input port & Fuse ..........................................................................................................................27
FAN port .............................................................................................................................................27
POD-H-SCM .........................................................................................................................................28
LED, LCD & Key PAD ............................................................................................................................28
Ethernet Port ......................................................................................................................................29
Communication Port...........................................................................................................................29
POD-H-MCM .......................................................................................................................................30
LED, LCD & Key PAD, Reset .................................................................................................................31
Ethernet ports.....................................................................................................................................31
External Alarm Ports ...........................................................................................................................32
Communication Port...........................................................................................................................32
POD-H-FEM-L-x Front & Rear View.....................................................................................................33
POD-H-FEM-L-x RF port and LED ........................................................................................................35
Communication Port...........................................................................................................................36
POD-H-FEM-H-x Front & Rear View ....................................................................................................37
POD-H-FEM-H-x RF port and LED........................................................................................................39
Communication Port...........................................................................................................................40
POD-H-COM-8.....................................................................................................................................41
POD-H-COM-8 RF port and LED ..........................................................................................................41
Communication Port...........................................................................................................................42
POD-H-COM-8.....................................................................................................................................43
POD-H-DTM-8x8 RF port and LED .......................................................................................................43
Communication Port...........................................................................................................................44
POD-H-HOM-L.....................................................................................................................................45
POD-H-HOM-L RF port and LED ..........................................................................................................45
optic port ............................................................................................................................................46
Communication Port...........................................................................................................................46
POD-H-HOM-H ....................................................................................................................................48
POD-H-HOM-H RF port and LED .........................................................................................................48
optic port ............................................................................................................................................49
Communication Port...........................................................................................................................49
POD-H-STM-8x4-DL ............................................................................................................................51
POD-H-STM-8x4-UL ............................................................................................................................51
© KMW USA Inc.
1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
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...........................................................................................................................53
Figure 2-46
POD-H-PSU-x.......................................................................................................................................54
Figure 2-47
POD-H-PSU-x LED ................................................................................................................................54
Figure 2-48
Ethernet Port ......................................................................................................................................54
Figure 2-49 AC input on/off Switch & DC output on/off switch ..................................................................................55
Figure 2-50
AC input port & DC output port ..........................................................................................................55
Figure 2-51
Rack ID ................................................................................................................................................55
Figure 2-52
POD-H-CDU .........................................................................................................................................57
Figure 2-53
POD-H-FAU .........................................................................................................................................57
Figure 2-54
Remote Unit – 7/5/3 band..................................................................................................................59
Figure 2-55
Remote Unit External Interfaces ........................................................................................................62
Figure 2-56
Debug Window ...................................................................................................................................63
Figure 2-57
Port name for each RU type ...............................................................................................................64
Figure 2-58
Remote Unit – PS700/800 ..................................................................................................................66
Figure 2-59
Remote Unit - PS700/800 External Interfaces ....................................................................................67
Figure 2-60
Debug Window ...................................................................................................................................68
Figure 2-61
Port name for each RU type ...............................................................................................................69
Figure 2-62
Battery backup port ............................................................................................................................70
Figure 3-1
Head-end Unit Rack Mount (Front & Rear view) ................................................................................74
Figure 3-2
Head-end Unit - Rack Mount Sequence .............................................................................................75
Figure 3-3
Optic Connector Cleaning (left) and Optic Port Cleaning (right) ........................................................76
Figure 3-4
LC/APC Optic Connector Dust Cap ......................................................................................................76
Figure 3-5
3/5/7 band RU, PS700/800 RU – wall mount bracket ........................................................................77
Figure 3-6
3/5/7 band RU, PS700/800 RU – Install RU into wall mount bracket .................................................77
Figure 3-7
3/5/7 band RU, PS700/800 RU – RU installed on the wall .................................................................78
Figure 3-8
3/5/7 band RU grounding ...................................................................................................................78
Figure 4-1
Head-end - cables ...............................................................................................................................79
Figure 4-2
Cable Connection Example for frequency bands with FDD type ........................................................80
Figure 4-3
Cable Connection Example #1 for TDD 2.6G frequency band ............................................................82
Figure 4-4
Cable Connection Example for Public Safety 700/800 band ..............................................................84
Figure 4-5
Cable Connection for FDD frequency band (MIMO) support .............................................................85
Figure 4-6
Connection Diagram for Rack Inter Connection .................................................................................87
© KMW USA Inc.
1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
User Manual for POD Systems
Revision: 0.7
Tables
Table 1-1
Table 2-1
Table 2-2
Table 2-3
Table 2-4
Table 2-5
Table 2-6
Table 2-7
Table 2-8
Table 2-9
Table 2-10
Table 2-11
Table 2-12
Table 2-13
Table 2-14
Table 2-15
Table 2-16
Table 2-17
Table 2-18
Table 2-19
Table 2-20
Table 2-21
Table 2-22
Table 2-23
Table 2-24
Table 2-25
Table 2-26
Table 2-27
Table 2-28
Table 2-29
Table 2-30
Table 2-31
Table 2-32
Table 2-33
Table 2-34
Table 2-35
Table 2-36
Table 2-37
Table 2-38
Table 2-39
Table 5-1
Table 5-2
Table 5-3
Table 5-4
POD System Scalability & Limitations .................................................................................................20
Size, weight, and power consumption (Head-end Unit) .....................................................................22
POD-H-DMCU LED Operation .............................................................................................................23
Pin map - External Alarm Port ............................................................................................................25
POD-H-DMCU - Alarms .......................................................................................................................25
POD-H-SCM LED Operation ................................................................................................................28
POD-H-SCM - Alarms ..........................................................................................................................29
POD-H-MCM LED Operation ...............................................................................................................31
POD-H-MCM - Alarms .........................................................................................................................32
POD-H-FEM-L-x frequency range ........................................................................................................34
POD-H-FEM-L-x Size, weight, and power consumption ......................................................................34
POD-H-FEM-L-x LED Operation ...........................................................................................................36
POD-H-FEM-L-x - Alarms .....................................................................................................................36
POD-H-FEM-H-x frequency range .......................................................................................................38
POD-H-FEM-H-x Size, weight, and power consumption .....................................................................38
POD-H-FEM-H-x LED Operation ..........................................................................................................40
POD-H-FEM-H-x - Alarms ....................................................................................................................40
POD-H-COM-8 LED Operation ............................................................................................................42
POD-H-COM-8 - Alarms ......................................................................................................................42
POD-H-DTM-8x8 LED Operation .........................................................................................................44
POD-H-DTM-8x8 - Alarms ...................................................................................................................44
POD-H-HOM-L LED Operation ............................................................................................................45
POD-H-HOM-L - Alarms ......................................................................................................................46
POD-H-HOM-L LED Operation ............................................................................................................49
POD-H-HOM-H - Alarms......................................................................................................................49
POD-H-STM-8x4 LED Operation..........................................................................................................53
POD-H-STM-8x8 - Alarms ....................................................................................................................53
POD-H-PSU-x LED Operation ..............................................................................................................54
Rack ID ................................................................................................................................................56
POD-H-PSU - Alarms ...........................................................................................................................56
POD-H-FAU - Alarms ...........................................................................................................................58
3/5/7 band RU - 700M, SMR800 + 850M Specifications ....................................................................60
3/5/7 band RU – PCS, AWS Specifications ..........................................................................................60
3/5/7 band RU – WCS, 2.6G Specifications ........................................................................................61
7/5/3 band RU LED Operation ............................................................................................................62
3/5/7 band RU – Alarms .....................................................................................................................65
PS700/800 RU - Specifications ............................................................................................................67
7/5/3 band RU LED Operation ............................................................................................................68
Pin map - Battery Backup Port ............................................................................................................70
PS700/800 band RU – Alarms .............................................................................................................70
POD DAS 2-Band RU Electrical Specifications (POD-R-P78-27-AC/DC) ...............................................92
POD DAS 7-Band RU Electrical Specifications (POD-R-7S8CPAWB-2730-AC/DC) ...............................93
Basic Model and Additional Models on 2-Band Remote Unit ............................................................94
Basic Model and Additional Models on 7-Band Remote Unit ............................................................94
© KMW USA Inc.
1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
10
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.
FCC REGULATION Use of unauthorized antennas, cables, and/or coupling devices not conforming with
ERP/EIRP and/or indoor‐only restrictions is prohibited.
Use of unauthorized antennas, cables, and/or coupling devices not conforming with ERP/EIRP and/or indoor‐
only restrictions is prohibited.

Use of unauthorized antennas, cables, and/or coupling devices not conforming with ERP/EIRP and/or
indoor‐only restrictions is prohibited.

FCC Part 15.19 Statements

FCC Part 15.105 statement

Any changes or modifications not expressly approved by the party responsible for compliance could void
the user's authority to operate this equipment.
RF Exposure Statement

This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant
to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful
interference when the equipment is operated in a commercial environment. 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. Operation of this
equipment in a residential area is likely to cause harmful interference in which case the user will be
required to correct the interference at his own expense.
FCC Part 15.21 statement

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.
The antenna(s) must be installed such that a minimum separation distance of at least 60 cm with 3dBi
antenna gain or 300 cm with 11dBi antenna gain or is maintained between the radiator (antenna) and
all persons at all times. This device must not be co-located or operating in conjunction with any other
antenna or transmitter.
FCC part 20 Industrial Booster statement (FCC ID: ZUQR7S8CPAWB-2730 & 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. Unauthorized use may result in significant forfeiture penalties, including penalties in excess
of $100,000 for each continuing violation.
© KMW USA Inc.
1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
11
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. Unauthorized use may result in significant forfeiture
penalties, including penalties in excess of $100,000 for each continuing violation.
FCC part 27.5 / SRSP 518 (FCC ID: ZUQR7S8CPAWB-2730)

Revision: 0.7
Antennas must be installed in accordance with FCC 27.50 and SRSP 518. With 11dBi gain antennas the
height of the antenna above average terrain (HAAT) must not exceed 4777m for IC. For different gain
antennas refer to the relevant rules.
FCC part 90.635 requirement (FCC ID: ZUQR-P78-27)
Antennas must be installed in accordance with FCC 90.635. With 11dBi gain antennas the height of the
antenna above average terrain (HAAT) is permitted over 1372m. For different gain antennas refer to the
relevant rules.
IC REGULATION

RSS-131 Section 5.3 – (The input and output impedances)

RSS-GEN, Sec. 7.1.2 – (transmitters)

The Manufacturer's rated output power of this equipment is for single carrier operation. For situations
when multiple carrier signals are present, the rating would have to be reduced by 3.5 dB, especially
where the output signal is re-radiated and can cause interference to adjacent band users. This power
reduction is to be by means of input power or gain reduction and not by an attenuator at the output of
the device.
Under Industry Canada regulations, this radio transmitter may only operate using an antenna of a type
and maximum (or lesser) gain approved for the transmitter by Industry Canada. To reduce potential radio
interference to other users, the antenna type and its gain should be so chosen that the equivalent
isotropically radiated power (e.i.r.p.) is not more than that necessary for successful communication.
Conformément à la réglementation d’Industrie Canada, le présent émetteur radio peut fonctionneravec
une antenne d’un type et d’un gain maximal (ou inférieur) approuvé pour l’émetteur par Industrie
Canada. Dans le but de réduire les risques de brouillage radioélectrique à l’intention desautres
utilisateurs, il faut choisir le type d’antenne et son gain de sorte que la puissance isotroperayonnée
quivalente (p.i.r.e.) ne dépassepas l’intensité nécessaire à l’établissement d’une communication
satisfaisante.
RSS-GEN, Sec. 7.1.2 – (detachable antennas)
This radio transmitter (identify the device by certification number, or model number if Category II)has
been approved by Industry Canada to operate with the antenna types listed below with the maximum
permissible gain and required antenna impedance for each antenna type indicated. Antenna types not
included in this list, having a gain greater than the maximum gain indicated for that type, are strictly
prohibited for use with this device.
Le présent émetteur radio (identifier le dispositif par son numéro de certification ou son numéro de
modèle s’il fait partie du matériel de catégorie I) a été approuvé par Industrie Canada pour fonctionner
avec les types d’antenne énumérés ci-dessous et ayant un gain admissible maximal et l’impédance
requise pour chaque type d’antenne. Les types d’antenne non inclus dans cette liste,ou dont le gain est
supérieur au gain maximal indiqué, sont strictement interdits pour l’exploitation de l’émetteur.
© KMW USA Inc.
1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
12
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. RF exposure will be
addressed at time of installation and the use of higher gain antennas require larger separation distances.
L’antenne (ou les antennes) doit être installée de façon à maintenir à tout instant une distance minimum
de au moins 60 cm avec le gain d'antenne 3dBi ou 300 cm avec 11dBi gain d'antenne entre la source de
radiation (l’antenne) et toute personne physique. Cet appareil ne doit pas être installé ou utilisé en
conjonction avec une autre antenne ou émetteur.
ELECTRIC SHOCK
The POD System uses the AC or DC power with high voltage level which could result in electric shock and may
cause severe injury.
LASER SAFETY
To avoid eye injury, do not look directly into the optical ports, patch cords or optical cables. Always assume
that optical output is on.
To avoid the potential of radiation exposure, do not leave optic connectors uncovered when not connected.
To check fiber cable connection, use an optical power meter and this should be performed by only technicians
familiar with fiber optic safety practices and procedures.
This equipment uses a Class 1 LASER according to FDA/CDRH Rules. This product conforms to all applicable
standards of 21 CFR Chapter 1, Subchapter J, Part 1040
SAFETY
The POD system should not be modified or used for any other purposes without authority’s permission in
any cases. This could cause fires, electric shock or other injuries.
Be careful not to touch the heat sink part to prevent any degree of burns from high temperature of the heat
sink.
Do not place the DAS equipments close to flammable materials which could reach high temperatures due to
heat dissipation of the DAS equipments.
While working with outdoor DAS equipment with door, make sure to securely fasten the door to prevent any
kinds of damages from slamming shut due to abrupt wind.
UL REGULATION
This equipment complies with UL Standard for safety.
© KMW USA Inc.
1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
13
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.
POD system supports effectively DAS Network Management system by using Ethernet communications
connected to between Head-end Unit and Remote Unit.
1.1

Features of POD System
A unified platform

ALL IP structure

All modules installed in H-SRU support hot swap function, so all the modules can be replaced without
powering down H-SRU.
Documentation

Ethernet port forward function
Input/output ports for external alarm monitoring
Hot Swap

Downlink spectrum monitoring which is built in H-FEM
SNMP/Remote monitoring & control
Uptime
Save log @H-DMCU, save alarm history @each module
Monitoring interface for other equipments connected to DAS

Auto system commissioning
DAS tree/Inter-connection diagram/rack diagram
System configuration backup/restore
Monitoring functions for DAS system

Web based GUI interface at head-end unit and Remote Unit.
Firmware download for all connected active modules at remote site and right at the head-end
Sectorization/commissioning at remote site and right at the head-end
Easy installation, commissioning and optimization

A DMCU supports up to 4 racks. (a rack can support up to 7 H-SRUs)
A DMCU supports up to 4 H-OIMs and 6 H-OEMs.
The User-friendly Web based GUI

All modules and units have its unique IP address which is assigned automatically when installed.
Supported capacity per a DMCU

A single head-end unit supports low & high power RU, indoor & outdoor RU.
A single head-end supports all commercial frequencies bands from 700M to 2.6G and public safety
frequencies bands including UHF/VHF, PS700 and PS800.
Auto BOM Generation
System Information Generation
Provide external memory for saving documents such as closeout package, user manual
SMB-L connector (SMB with lock)
SMB-L connector makes RF cable connections between RF ports easier, comparing to SMA connector.
© KMW USA Inc.
1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
14
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: 0.7
POD System Architecture
Figure 1-1 represents the overall DAS block diagram of KMW DAS system, POD.
POD consists of HEU (head-end Unit), and RU (Remote unit). HEU provides the interface between plurality of
BTS and plurality of RUs, and RUs are deployed over multiple shadow regions to provide wireless service coverage
to mobile users in shadow regions.
Remote Sites
Building #1
Building #2
MDF
IDF #1
Remote Site #1
Optic
Head-end
OEM-B
Remote
eNB
OEM-S
Optic(RF)
Optic
RU
COAX
OIM-B
OIM-S
COM-8
DTM 8x8
OPTIC
HOM
IDF #2
CPRI
Optic(CPRI)
FEM
eNB
Remote Site #2
RF
RU
Optic
IDF #1
FEM
HOM
RU
Air Interface
eNB
BDA
RF
FEM
COM-8
IDF #3
DTM 8x8
Optic
eNB
RF
FEM
IDF #2
IDF #4
HOM
eNB
Remote Site #3
RF
FEM
Optic
STM 8x4
Air Interface
eNB
BDA
RF
RU
RU
DTM 8x8
RU
IDF #3
FEM
RU
MDF: Main Distribution Frame
IDF: Intermediate Distribution Frame
Figure 1-1
DAS Overall Block Diagram
Figure 1-1 shows general signal flow and module composition of POD DAS system.
POD DAS System supports various methods to connect with BTS such as direct connection to BTS through RF
coaxial cable, connection to BTS via antenna through BDA, and connection to BTS by CPRI digital interface over optic.
If user wants air interface with BTS, it is necessary for user to select proper BDA product separately because POD
DAS system does not include any kinds of BDA.
H-FEM provides the interface between various base station having different frequency band/technology and
POD DAS system, and H-COM combines downlink signal received from H-FEM and distributes uplink signals received
from DTM to FEM. H-DTM combines downlink signals from H-COM and then distributes to H-HOM, also combines
uplink signals from several H-HOM and then distributes to H-COM. H-HOM converts downlink RF signal received
from H-DTM to optic signal and then transfers to RU, also converts uplink optic signal received from RU to RF signal
and then transfers to H-DTM. RU provides wireless service coverage to users by transmitting downlink signal received
from H-HOM through the antenna. Also, it transfers to HOM after converting uplink signal received from mobile
stations through the antenna to optic signal.
© KMW USA Inc.
1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
15
User Manual for POD Systems
Donor
Antenna
Revision: 0.7
BTS
Air Interface
BUILDING #1
BUILDING #2
Coa
Coa
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.
Especially, in case of buildings away from Head-end location which needs multiple remote units, it is composed
by the structure which distributes to multiple remote units after transmitting signal to other building through only
one optic line using H-OEM, not transmits the signal by individual optic line according to required the number of
remote units.
Also, it supports the connection between Head-end and base station through optic line using H-OIM when base
station is away from head-end location.
© KMW USA Inc.
1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
16
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
eNB
Main Controller
Power Supply Unit
700M
SMR800
850M
PCS
AWS
WCS
2.6G
Headend
RU
#1
KMW
700M
#2
#3
#4
Group Rack
DMCU
12 12
Power
Alarm
DMCU
HPSU
SMR800
#5
Run
ENT
Link
Up
DMCU
Alarm
Down
HE
Alarm
850M
#6
#7
#1
#8
#2
#3
KMW
KMW
Path A
DL MON
PCS
PWR
ALM
10
KMW
Path A
11
13
15
17
16
18
19
21
20
22
23
25
27
29
24
26
28
30
14
KMW
ALM
DL Out
DL Out
DL MON
DL Out
DL Out
UL MON
UL MON
DL Out
UL MON
UL MON
32
KMW
KMW
PWR
PWR
ALM
ALM
DL Out
UL MON
KMW
DL MON
PWR
DL Out
ALM
DL
COM
UL
COM
#1
#1
#2
#2
UL Out
#1
UL MON
DL
#1
UL In
UL In
UL In
UL In
UL In
AWS
UL
UL In
#2
DL
#3
#3
#4
#4
#5
#5
#6
#6
#7
#7
UL
#2
T-Sync
Run
Link
ENT
Up
ALM Reset
Down ESC
Path B
Path B
Path B
Path B
Path B
DL MON
DL MON
DL MON
DL MON
DL MON
#3
#3
Path B
DL
DL MON
UL
#4
DMCU
DL Out
DL Out
DL Out
UL MON
DL Out
DL Out
UL Mon
UL MON
UL MON
UL In
UL MON
UL MON
DLOut
DL
Web GUI
UL
#4
UL MON
#8
UL In
2.6G
31
Path A
DL MON
PWR
ALM
12
KMW
Path A
DL MON
PWR
ALM
KMW
PCS
DL MON
PWR
ALM
KMW
Path A
DL MON
PWR
ALM
Web GUI
Reset
KMW
PWR
Modem
ESC
RU
Alarm
KMW
Path A
WCS
#4
KMW
UL In
UL In
UL In
UL In
FEM-L-7
FEM-L-S8
FEM-L-C
FEM-L-P
Figure 1-3
© KMW USA Inc.
1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
FEM-L-A
FEM-L-W
#8
T_Sync
UL In
DL
SCM
DL In
FEM-L-B
BLANK
UL
COM-8
BLANK
HOM-L
SISO Configuration
17
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
Main Controller
Power Supply Unit
700M
SMR800
850M
PCS
AWS
WCS
2.6G
RU
eNB
700M
MIMO #1
700M
MIMO #2
Headend
MIMO #1
#1
KMW
850M
PCS
MIMO #1
AWS
MIMO #1
PCS
MIMO #2
AWS
MIMO #2
WCS
2.6G
MIMO #2
MIMO #2
#4
12 12
Alarm
DMCU
#5
#6
#7
#1
#8
#2
#3
#4
KMW
KMW
KMW
Run
ENT
Link
Up
DMCU
Alarm
Down
HE
Alarm
ESC
RU
Alarm
Reset
KMW
Modem
11
13
15
17
19
21
23
25
27
29
Web GUI
10
12
14
16
18
20
22
24
26
28
30
KMW
KMW
Path A
Path A
Path A
DL MON
DL MON
DL MON
PWR
PWR
ALM
PWR
ALM
PWR
ALM
KMW
KMW
PCS
PCS
KMW
Path A
DL MON
PWR
ALM
ALM
KMW
Path A
DL MON
PWR
PWR
ALM
KMW
Path A
DL MON
PWR
ALM
DL Out
DL Out
DL MON
DL MON
DL Out
DL Out
UL MON
UL MON
DL Out
DL Out
UL MON
UL MON
UL In
UL In
UL In
UL In
UL In
KMW
PWR
DL Out
ALM
ALM
UL
COM
DL
COM
UL
COM
#1
#1
#1
#2
#2
#2
#2
32
PWR
PWR
ALM
DL
COM
#1
31
KMW
KMW
PWR
ALM
ALM
DL Out
UL MON
UL Out
UL Out
#1
#1
UL MON
#1
DL
DL
UL
UL
UL In
DL
DL
#3
#3
#3
#3
#4
#4
#4
#4
UL
UL
Link
ENT
Up
ALM Reset
Down ESC
Path B
Path B
Path B
DL MON
DL MON
DL MON
DL Out
DL Out
DL Out
Path B
Path B
DL MON
DL MON
DL Out
DL Out
#3
Path B
DL MON
#2
#2
#2
T-Sync
Run
DL
DL
#5
#5
#5
#5
#6
#6
#6
#6
#3
#3
UL
UL
#4
#4
DMCU
UL MON
UL MON
DLOut
Web GUI
#4
UL Mon
2.6G
MIMO #1
#3
Group Rack
HPSU
SMR800
#2
DMCU
Power
UL In
UL MON
UL In
UL MON
UL In
UL In
UL In
UL MON
UL In
UL MON
UL In
UL MON
FEM-L-7
FEM-L-S8
FEM-L-C
FEM-L-P
Figure 1-4
© KMW USA Inc.
1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
FEM-L-P
FEM-L-A
FEM-L-W
DL
UL
UL
#7
#7
#7
#7
DL In
DL In
#8
#8
#8
#8
T_Sync
T_Sync
HOM-L
HOM-L
UL In
DL
SCM
DL
FEM-L-B
UL
COM-8
DL
UL
COM-8
MIMO Configuration
18
User Manual for POD Systems
1.4
Revision: 0.7
POD System Scalability & Limitation
Figure 1-5 shows maximum capacity of POD system composed by one DMCU
Rack #1
Rack #2
SD
Rack #3
SD
Rack #4
SD
SD
KMW
DMCU
Run
ENT
Link
Up
DMCU
Alarm
Down
HE
Alarm
ESC
RU
Alarm
Reset
Modem
11
13
15
17
19
21
23
25
27
29
31
Web GUI
10
12
14
16
18
20
22
24
26
28
30
32
PSU
#1
PSU
#2
PSU
#3
PSU
#4
SRU
#01
SRU
#08
SRU
#15
SRU
#21
SRU
#02
SRU
#09
SRU
#16
SRU
#22
SRU
#03
SRU
#10
SRU
#17
SRU
#23
SRU
#04
SRU
#11
SRU
#18
SRU
#24
SRU
#05
SRU
#12
SRU
#19
SRU
#25
SRU
#06
SRU
#13
SRU
#20
SRU
#26
SRU
#07
SRU
#14
Figure 1-5
© KMW USA Inc.
1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
POD System Scalability
19
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
RACK
H-PSU
12)
H-SRU
26
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
H-OEM-S
# of path/Module
29)
Table 1-1 shows hardware capacity of one POD system.
One H-PSU supports one rack with 7 H-SRU which is fully filled with modules.
The number of supported H-FEM/rack = 7 H-SRU x 12 H-FEM/H-SRU = 84
One H-SRU consists of 12 slots. So, it supports up to 12 modules with 1 slot size (H-FEM & H-COM-8) and 6
modules with 2 slot size (H-DTM 8x8).
The number of supported HOM/H-SRU is limited up to four (4).
The number of supported RU in POD system is limited up to 256.
The number of supported RU/rack = 7 SRU/rack x the number of supported RU/SRU = 224
The number of supported RU/H-SRU = 4 HOM/SRU x 4 path/HOM x 2 RU/path = 32
H-FEM-L-P (PCS) supports only one path.
© KMW USA Inc.
1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
20
User Manual for POD Systems
2.
2.1
Revision: 0.7
POD SYSTEM COMPONENTS
Head-end Unit
#1
KMW
H-PSU
#2
#3
#4
Group Rack
DMCU
12 12
Power
Alarm
DMCU
HPSU
#5
#6
#7
#1
#8
#2
#3
#4
KMW
DMCU
Run
ENT
Link
Up
DMCU
Alarm
Down
HE
Alarm
ESC
RU
Alarm
KMW
Web GUI
Reset
KMW
KMW
Path A
KMW
PS700
DL MON
ALM
KMW
11
10
12
KMW
PCS
14
16
17
19
18
20
KMW
23
22
24
25
27
29
31
26
28
30
32
12
11
10
KMW
Path A
KMW
KMW
Path A
DL MON
DL MON
PWR
ALM
PWR
PWR
DL Out
UL
COM
DL
COM
DL Out
PWR
ALM
ALM
ALM
DL Out
21
PWR
ALM
DL MON
15
KMW
Path A
PWR
ALM
DL Out
13
DL MON
PWR
ALM
DL Out
PWR
ALM
DL Out
DL MON
PWR
ALM
DL Out
Path A
DL MON
PWR
KMW
Path A
DL MON
PWR
KMW
Modem
ALM
DL
MON
VHF
UHF
UL
MON
VHF
UHF
UL Out
#1
IN
UL MON
UL MON
UL MON
UL MON
DL Out
UL MON
UL MON
UL MON
#1
#1
OUT IN
#1
#1
OUT
#1
#1
DL
#1
UL In
UL In
UL In
UL In
UL In
UL
UL In
UL In
#2
#2
#2
#2
#2
#2
#3
#3
#3
#3
#3
#3
#2
DL
H-SRU
UL
#2
T-Sync
Run
Link
ENT
Up
ALM Reset
Down ESC
Path B
PS800
Path B
Path B
Path B
Path B
DL MON
DL MON
DL MON
DL MON
DL MON
DL MON
#3
#4
#4
#4
#4
#4
#4
#5
#5
#5
#5
#5
#5
#6
#6
#6
#6
#6
#6
#7
#7
#7
#7
#7
#7
DL In
#8
#8
#8
#8
#8
T_Sync
Path B
#3
DL
DL MON
UL
#4
DMCU
DL Out
DL Out
DL Out
DL Out
UL MON
DL Out
DL Out
UL Mon
UL MON
UL MON
UL MON
UL In
UL MON
UL MON
UL MON
DLOut
UL In
UL In
UL In
UL In
UL In
UL In
UL In
DL
Web GUI
UL
#4
#8
DL
SCM
SCM
FEM-L-7
FEM-L-P7/P8
FEM-L-S8
FEM-L-C
#1
FEM-L-A
FEM-L-W
FEM-L-B
#2
] COM-8
UL
DTM-8x8
HOM-L
DTM-8x8
HOM
Head-end Unit Front View
#3
#4
#5
DMCU
#6
#7
#8
HSRU
Power SW
H-PSU
DL
COM-8
FEM
Figure 2-1
DMCU
FEM-L-P
UL
External Alarm
DMCU
HPSU
Input
Output
HPSU
BRS
WCS
┌ DL / UL (A)
AWS
PCS
850M
S8
P7/P8
700M
┌ DL / UL (A)
┌ DL / UL (A)
┌ DL / UL (A)
┌ DL / UL (A)
┌ DL / UL (A)
┌ DL / UL (A)
┌ DL / UL (A)
┌ UL Div (A)
┌ UL Div (A)
┌ UL Div (A)
┌ UL Div (A)
┌ UL Div (A)
┌ UL Div (A)
┌ UL Div (A)
- 30 -
FUSE
H-SRU
#12
#11
#10
#9
#8
#7
#6
#5
#4
#3
#2
#1
Spare Fuse
└ DL / UL (B)
HOM
DTM-8x8
COM-8 [
Figure 2-2
© KMW USA Inc.
1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
└ DL / UL (B)
└ DL / UL (B)
└ DL / UL (B)
└ DL / UL (B)
└ DL / UL (B)
└ DL / UL (B)
└ UL Div (B)
└ UL Div (B)
└ UL Div (B)
└ UL Div (B)
└ UL Div (B)
└ UL Div (B)
FEM
- 30 -
FAN
SCM
Head-end Unit Rear View
21
User Manual for POD Systems

Head-end Unit consists of

Revision: 0.7
H-DMCU (Head-end DAS Main Control Unit)
H-PSU(Head-end Power Supply Unit)
H-SRU(Head-end Subrack Unit)
H-SCM(Head-end Subrack Control Module)
H-FEM(Head-end Front End Module)
H-COM(Head-end Combing Module)
H-DTM(Head-end Distribution Module)
HOM(Head-end Optic Module)
H-STM(Head-end Sectorization Module)
H-OEM(Head-end Optic Expansion Module)
H-OIM(Head-end Optic Interface Module)
Specification
Size, weight, and power consumption
Table 2-1
Size, weight, and power consumption (Head-end Unit)
Size(H x W x D)
inch
POD-H-DMCU
2.1 x 19.0 x 19.7
POD-H-SRU
POD-H-SCM
POD-H-MCM
POD-H-FEM-L
POD-H-FEM-H
POD-H-COM-8
POD-H-DTM-8x8
POD-H-HOM-L
POD-H-HOM-H
POD-H-STM-DL-8x4
POD-H-STM-UL-8x4
POD-H-OEM-B
POD-H-OEM-S
POD-H-OIM-B
POD-H-OIM-S
POD-H-PSU
POD-H-PSM
7.0 x 19.0 x 19.7
7.0 x 1.8 x 17.8
7.0 x 3.1 x 17.8
7.0 x 1.3 x 17.8
7.0 x 2.5 x 17.8
7.0 x 1.3 x 17.8
7.0 x 1.3 x 17.8
7.0 x 2.5 x 17.8
7.0 x 2.5 x 17.8
7.0 x 1.3 x 17.8
7.0 x 1.3 x 17.8
7.0 x 1.3 x 17.8
7.0 x 1.3 x 17.8
1.7 x 19.0 x 19.7
7.0 x 2.5 x 17.8
POD-H-CDU
1.4 x 19.0 x 12.0
POD-H-FAU
1.4 x 17.3 x 10.6
Weight
mm
lb
52.4 x 482.6 x
6.6
499.5
177 x 482.6 x 499.5
16.3
177 x 46.5 x 452.5
2.9
177 x 79 x 452.5
Refer to Table 2-10
Refer to Table 2-14
177 x 31.8 x 452.5
5.5
177 x 64.1 x 452.5
11.5
177 x 31.8 x 452.5
5.5
177 x 31.8 x 452.5
177 x 64.1 x 452.5
11
177 x 64.1 x 452.5
11
177 x 31.8 x 452.5
5.3
177 x 31.8 x 452.5
5.5
177 x 31.8 x 452.5
5.3
177 x 31.8 x 452.5
5.5
44 x 482.6 x 499.5
13.9
177 x 64.1 x 452.5
35.2 x 482.6 x
2.4
304.2
36 x 440 x 270
3.5
Power consumption
Kg
(W)
3.0
28.5
7.4
1.3
2.5
5.2
2.5
4.1
2.4
2.5
2.4
2.5
6.3
16.2
24.0
4.8
12
30
30
30
30
30
30
85 @no load
1.1
1.6
12
Operating temperature: 14 ~ 122F (-10 ~ 50C)
Power input
 H-FEM,H-COM, H-STM, H-DTM, H-HOM, H-OIM, H-FAU: DC 24V
 POD-H-PSU-AC/POD-H-PSM-AC: AC 100~240V (47~63Hz)
 POD-H-PSU-DC/POD-H-PSM-DC: DC -48V
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1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
22
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
11
13
15
17
19
21
23
25
27
29
31
Web GUI
10
12
14
16
18
20
22
24
26
28
30
32
Power SW
External Alarm
DMCU
HPSU
Input
Output
Figure 2-3
POD-H-DMCU
2.1.1.1 Functions and features
Controls, monitors, and generates alarms for all connected modules and units in a POD DAS system
Supports up to 4 racks.
Supports up to 4 H-OIMs and up to 6 H-OEMs.
Provides web-based GUI interface to user
Provides the user interface to control and monitor using LCD window and key pad.
Send alarms to O&M system by SNMP.
Ethernet port forward function
Provides external input/output ports for external alarm monitoring
2.1.1.2 Specifications
Size, weight, and power consumption: refer to Table 2-1
2.1.1.3 LED, LCD & Key PAD, Reset
Figure 2-4

Link
Up
DMCU
Alarm
Down
HE
Alarm
ESC
RU
Alarm
Reset
LED, LCD & Key PAD, Reset
H-DMCU provides the user interface to control and monitor using LCD window and key pad.
Reset

ENT
LCD window and key pad

Run
Used for H-DMCU reset.
LED
Table 2-2
POD-H-DMCU LED Operation
Specifications
Run
Solid Green
OFF
Link
Solid Yellow
© KMW USA Inc.
1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
When power is on.
When power is off.
When H-DMCU cannot communicate with at least one module
among modules which are directly connected to H-DMCU such as HSCM or H-PSU.
23
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.
When at least one RU has minor alarm.
When at least one RU has major alarm.
When all RUs have no alarm.
2.1.1.4 Ethernet Ports
Figure 2-5

Modem port

Connected to wireless modem which provides connection with O&M center.
Web GUI port

Ethernet Ports
Used to access to web-based GUI using notebook or desktop PC.
1~32 Ethernet Port
Connected to H-SRU or H-PSU so that H-DMCU can monitor and control the connected H-PSUs and all
modules installed in H-SRU.
Connected to external device to provide port forwarding function.
2.1.1.5 DC power input port & power switch
24V DC power for DMCU is fed from POD-H-PSU and can be turned on or off by power switch.
Power SW
HPSU
Figure 2-6
DC power input port & power switch
2.1.1.6 External Alarm Port
H-DMCU provides 4 alarm inputs to get the alarm statuses of the connected any external devices. Then, the
input conditions are reported to the O&M system.
H-DMCU also provides 4 alarm outputs to control the external devices or to signal any alarm condition or status
information to the external devices.
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1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
24
User Manual for POD Systems
Revision: 0.7
External Alarm
Input
Figure 2-7
Table 2-3
Output
External Alarm Ports
Pin map - External Alarm Port
Pin Assign
Specifications
External Input #1
External Input #2
External Input #3
External Input #4
External Output #1
External Output #2
External Output #3
External Output #4
External Alarm input #1 pin
External Alarm input #2 pin
External Alarm input #3 pin
External Alarm input #4 pin
External Alarm output #1 pin
External Alarm output #2 pin
External Alarm output #3 pin
External Alarm output #4 pin
2.1.1.7 Ground port
Refer to section 3.2.2
2.1.1.8 Alarms
Table 2-4
Alarm Name
POD-H-DMCU - Alarms
Description
Remedy
Alarm
LED
Severity
color
Minor
Yellow
Minor
Yellow
High Temperature
Temperature high
Low Temperature
Temperature too low
Head-end Composite
Head-end composite alarms
Check Head-end unit
Major/Minor
RU Composite
RU composite alarms
Check RU
Major/Minor
External Input (1~4)
External input signal
Check connected external unit
Minor
Yellow
AC Fail
H-PSU AC Fail
Check H-PSU
Major
Red
DC Fail
H-PSU DC Fail
Check H-PSU
Major
Red
PSU Comm. Fail
H-PSU Communication Fail
Check UDP cable connection
Minor
Yellow
SCM Comm. Fail
H-SCM Communication Fail
Check UDP cable connection
Minor
Yellow
© KMW USA Inc.
1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
Check environment
Red/
Yellow
Red/
Yellow
25
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.
Supplies 24V DC power to H-FAU (Fan Unit) for dissipating heat comes from the modules installed in PODH-SRU.
Provides communication path between installed modules and SCM through backboard.
2.1.2.2 Specifications
Size, weight, and power consumption : refer to Table 2-1
2.1.2.3 DC input port & Fuse
© KMW USA Inc.
1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
26
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.
2.1.2.4 FAN port
FAN
Figure 2-11
FAN port
DC Power is supplied into the FAN Unit through this port.
FAN fail alarm is transferred to H-SCM through this port.
2.1.2.5 Ground port
Refer to section 3.2.2
© KMW USA Inc.
1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
27
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.
Periodically, gather the data from all modules in H-SRU and send it to H-DMCU through DMCU port.
Periodically, gather the data from RUs connected to H-HOM in H-SRU and send it to H-DMCU through DMCU
port.
2.1.3.2 Specifications
Size, weight, and power consumption : refer to Table 2-1
2.1.3.3 LED, LCD & Key PAD, Reset
Figure 2-13

Link
Up
ALM Reset
Down ESC
LED, LCD & Key PAD
LCD window and key pad

Run
ENT
H-SCM provides the user interface to control and monitor using LCD window and key pad.
Reset
Used for H-SCM reset.
Table 2-5
POD-H-SCM LED Operation
Specifications
RUN
Link
Alarm
Solid Green
OFF
Solid Yellow
OFF
Solid Red
© KMW USA Inc.
1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
When power is on.
When power is off.
When H-SCM cannot communicate with at least one module
among modules installed in H-SRU.
When H-SCM communicates with all modules installed in H-SRU.
When H-SCM has major alarm.
28
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.
2.1.3.5 Communication port
Figure 2-15
Communication Port
This port provides communication path between H-FEM-H-x, H-COM, H-DTM, H-STM, HOM-x or H-SCM
installed in H-SRU through backboard of H-SRU.
+24V DC is provided through this communication port from backboard of H-SRU.
H-SCM acquires ID information such as Rack ID, Sub rack ID and Slot ID through this communication port.
The IP address of H-SCM is assigned automatically using the acquired ID information.
2.1.3.6 Alarms
Table 2-6
Alarm Name
POD-H-SCM - Alarms
Description
Remedy
Alarm
LED
Severity
color
Minor
Yellow
Minor
Yellow
High Temperature
Temperature high
Low Temperature
Temperature too low
FAN
FAN Fail
Check FAN
Minor
Yellow
Module Comm. Fail
Module Communication Fail
Check Module connection
Minor
Yellow
© KMW USA Inc.
1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
Check environment
29
User Manual for POD Systems
2.1.4
Revision: 0.7
POD-H-MCM
External Alarm
Input
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.
Send alarms to O&M system by SNMP.
Input/output ports for external alarm monitoring
2.1.4.2 Specifications
Size, weight, and power consumption : refer to Table 2-1
2.1.4.3 LED, LCD & Key PAD, Reset
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1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
30
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.
When H-MCM cannot communicate with at least one module or
units connected to H-MCM.
When H-MCM communicates all modules and units connected to
H-MCM.
When H- MCM itself has minor alarm.
When H- MCM itself has no alarm.
When at least one module or unit connected to H-MCM has
minor alarm.
When at least one module or unit connected to H-MCM has
major alarm.
When all modules and units connected to H-MCM have no alarm.
When at least one RU connected to H-MCM has minor alarm.
When at least one RU connected to H-MCM has major alarm.
When all RUs connected to H-MCM have no alarm.
2.1.4.4 Ethernet Ports
Modem
Connected to wireless modem which provides connection with O&M center.
Web GUI port

Ethernet ports
Modem port

HSRU 1

HSRU 2
HSRU 3
Web GUI
Figure 2-18
Used to access to web-based GUI using notebook or desktop PC.
HSRU1~HSRU3 Ethernet Port
Connected to H-SRU so that H-MCM can monitor and control the connected all modules installed in H-SRU.
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1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
31
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
Output
Figure 2-19
External Alarm Ports
Figure 2-20
Communication Port
2.1.4.6 Communication port
This port provides communication path between H-FEM-H-x, H-COM, H-DTM, H-STM, HOM-x or H-SCM
installed in H-SRU through backboard of H-SRU.
+24V DC is provided through this communication port from backboard of H-SRU.
H-MCM acquires ID information such as Rack ID, Sub rack ID and Slot ID through this communication port.
The IP address of H-MCM is assigned automatically using the acquired ID information.
2.1.4.7 Alarms
Table 2-8
Alarm Name
POD-H-MCM - Alarms
Description
Remedy
Alarm
LED
Severity
color
Minor
Yellow
Minor
Yellow
High Temperature
Temperature high
Low Temperature
Temperature too low
Head-end Composite
Head-end composite alarms
Check Head-end unit
Major/Minor
Red/ Yellow
RU Composite
RU composite alarms
Check RU
Major/Minor
Red/ Yellow
External Input (1~2)
External input signal
Check connected External unit
Minor
Yellow
AC Fail
H-PSU AC Fail
Check H-PSU
Major
Red
DC Fail
H-PSU DC Fail
Check H-PSU
Major
Red
SCM Comm. Fail
H-SCM Communication Fail
Check UDP cable connection
Minor
Yellow
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1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
Check environment
32
User Manual for POD Systems
2.1.5
Revision: 0.7
POD-H-FEM-L-x
FEM-L-7
KMW
FEM-LP7/P8
KMW
FEM-L-S8
KMW
FEM-L-C
KMW
KMW
Path A
PS700
Path A
Path A
DL MON
DL MON
DL MON
DL MON
PWR
PWR
ALM
PWR
ALM
PWR
ALM
FEM-L-P
KMW
PCS
PWR
ALM
FEM-L-A
KMW
FEM-L-B
KMW
Path A
Path A
Path A
DL MON
DL MON
DL MON
PWR
ALM
FEM-L-W
PWR
ALM
PWR
ALM
ALM
DL Out
DL Out
DL Out
DL Out
DL MON
DL Out
DL Out
UL MON
UL MON
UL MON
UL MON
DL Out
UL MON
UL MON
DL Out
UL MON
#1
UL In
UL In
UL In
UL In
UL In
UL In
UL In
#2
T-Sync
Path B
PS800
Path B
Path B
Path B
Path B
DL MON
DL MON
DL MON
DL MON
DL MON
DL MON
DL Out
DL Out
DL Out
DL Out
DL Out
DL Out
UL MON
#3
Path B
DL MON
DLOut
#4
UL Mon
UL MON
UL MON
UL MON
UL In
UL In
UL In
UL In
FEM-L-7
700M
FEM-L-P7/P8
P7/P8
FEM-L-S8
S8
FEM-L-C
850M
UL In
FEM-L-P
PCS
UL MON
UL MON
UL MON
UL In
UL In
UL In
FEM-L-A
AWS
FEM-L-W
WCS
┌ DL / UL (A)
┌ DL / UL (A)
┌ DL / UL (A)
┌ DL / UL (A)
┌ DL / UL (A)
┌ DL / UL (A)
┌ DL / UL (A)
┌ UL Div (A)
┌ UL Div (A)
┌ UL Div (A)
┌ UL Div (A)
┌ UL Div (A)
┌ UL Div (A)
┌ UL Div (A)
└ DL / UL (B)
└ DL / UL (B)
└ DL / UL (B)
└ DL / UL (B)
└ DL / UL (B)
└ DL / UL (B)
└ UL Div (B)
└ UL Div (B)
└ UL Div (B)
└ UL Div (B)
└ UL Div (B)
└ UL Div (B)
Figure 2-21
© KMW USA Inc.
1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
FEM-L-B
BRS
┌ DL / UL (A)
└ DL / UL (B)
POD-H-FEM-L-x Front & Rear View
33
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)
2.1.5.2 Specifications
Frequency range
Table 2-9
POD-H-FEM-L-x frequency range
Downlink
Comments
698~716 MHz (Lower ABC)
777~787 MHz (Upper C)
758~775 MHz (PS700)
788~805 MHz (PS700)
851~869 MHz (PS800)
806~824 MHz (PS800)
851~869 MHz
806~824 MHz
869~894 MHz
824~849 MHz
1930~1995 MHz
1850~1915 MHz
2110~2180 MHz
1710~1780 MHz
2350~2360 MHz
2305~2315 MHz
2496~2690 MHz
POD-H-FEM-L-7
728~756 MHz
POD-H-FEM-L-P7P8
POD-H-FEM-L-S8
POD-H-FEM-L-C
POD-H-FEM-L-P
POD-H-FEM-L-A
POD-H-FEM-L-W
POD-H-FEM-L-B
Uplink
TDD
Input range
 -15~20dBm
Table 2-10
POD-H-FEM-L-x Size, weight, and power consumption
Size(H x W x D)
POD-H-FEM-L-7
POD-H-FEM-L-P7P8
POD-H-FEM-L-S8
POD-H-FEM-L-C
POD-H-FEM-L-P
POD-H-FEM-L-A
POD-H-FEM-L-W
POD-H-FEM-L-B
Weight
Power consumption
inch
mm
lb
Kg
(W)
7.0 x 1.3 x 17.8
7.0 x 1.3 x 17.8
7.0 x 1.3 x 17.8
7.0 x 1.3 x 17.8
7.0 x 1.3 x 17.8
7.0 x 1.3 x 17.8
7.0 x 1.3 x 17.8
7.0 x 1.3 x 17.8
177 x 31.8 x 452.5
177 x 31.8 x 452.5
177 x 31.8 x 452.5
177 x 31.8 x 452.5
177 x 31.8 x 452.5
177 x 31.8 x 452.5
177 x 31.8 x 452.5
177 x 31.8 x 452.5
4.9
4.9
4.9
4.9
4.9
4.9
4.9
4.9
2.2
2.2
2.2
2.2
2.2
2.2
2.2
2.2
22
16
16
15
12
12
13
© KMW USA Inc.
1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
34
User Manual for POD Systems
Revision: 0.7
2.1.5.3 RF Port and LED
H-FEM-L-7/P7P8/S8/C/A/W
H-FEM-L-P
H-FEM-L-B
Path A
Path A
DL MON
DL MON
PWR
PWR
PWR
ALM
ALM
DL MON
ALM
DL Out
DL Out
DL Out
UL MON
UL MON
#1
UL In
UL In
Front Panel
#2
T-Sync
Path B
#3
Path B
DL MON
DL MON
UL MON
DLOut
DL Out
UL In
#4
UL MON
UL MON
UL In
UL In
DL / UL (A)
DL / UL (A)
UL Div (A)
DL / UL (A)
Rear Panel
UL Div (A)
DL / UL (B)
DL / UL (B)
UL Div (B)
Figure 2-22

POD-H-FEM-L-x RF port and LED
RF Ports
DL/UL-A(B), UL-Div A(B)
 Linked to BTS RF ports
 When the RF port linked to BTS is duplex port, connect to DL/UL-A(B)
 When the RF ports linked to BTS are TX/RX port, connect DL/UL-A(B) to TX port and UL Div A(B) to RX
port.
 Connector Type: SMA Female
Connector Type: SMA DL MON-A(B), UL MON-A(B)
 Used to monitor DL input or UL output for path A or B
 Connector Type: SMB-L Female
DL OUT-A(B), UL IN-A(B)
 DL OUT- A(B): DL output port for path A or B, Linked to H-COM or H-DTM
 UL IN- A(B): UL input port for path A or B, Linked to H-COM or H-DTM
 Connector Type: SMB-L Female
© KMW USA Inc.
1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
35
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.
2.1.5.4 Communication port
Figure 2-23
Communication Port
This port provides communication path between H-FEM-L-x and H-SCM through backboard of H-SRU.
+24V DC is provided through this communication port from backboard of H-SRU.
H-FEM-L-x acquires ID information such as Rack ID, Sub rack ID and Slot ID through this communication port.
The IP address of H-FEM-L-x is assigned automatically using the acquired ID information.
2.1.5.5 Alarms
Table 2-12
Alarm Name
High Temperature
Description
POD-H-FEM-L-x - Alarms
Remedy
Temperature too high
Temperature high
Check environment
Alarm
LED
Severity
color
Major
Red
Minor
Yellow
Low Temperature
Temperature too low
Minor
Yellow
Downlink High Input
power
RF signal too high
Check H-FEM downlink input level/
attenuator configuration/ALC status
Major
Red
Major
Yellow
Uplink High Output
Power
RF signal too high
Check H-FEM uplink input level/ attenuator
configuration/ALC status
Major
Red
Major
Yellow
Minor
Yellow
Major
Yellow
Major
Red
Warning
Yellow
Major
Yellow
RF signal high
RF signal high
Downlink Low Input
Power
RF signal too low
Link
Communication fail
Freeze
The final stage of
Shutdown process
Downlink ALC
Activation
Sync fail
(H-FEM-L-B only)
ALC activation
No TDD sync signal is
acquired
© KMW USA Inc.
1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
Check H-FEM downlink input level/
attenuator configuration/RF cabling
Check pin of communication port/ assigned
IP address
Check if shutdown process is going again
after reset
Check H-FEM downlink input level/
attenuator configuration
Check H-FEM downlink signal input received
from BTS
36
User Manual for POD Systems
2.1.6
Revision: 0.7
POD-H-FEM-H-x
FEM-H-7
KMW
FEM-H-P7
FEM-HS8(P8)
KMW
700M
FEM-H-C
KMW
PS700
SMR800
FEM-H-P
KMW
850M
FEM-H-A
FEM-H-W
KMW
KMW
AWS
PCS
FEM-H-B
KMW
WCS
PWR
PWR
PWR
PWR
PWR
PWR
PWR
ALM
ALM
ALM
ALM
ALM
ALM
ALM
BRS
PWR
ALM
DL MON
DL MON
DL MON
DL MON
DL MON
DL MON
DL MON
DL Out
DL Out
DL Out
DL Out
DL Out
DL Out
DL Out
DL MON
DL Out
#1
#2
T-Sync
#3
UL MON
UL MON
UL MON
UL MON
UL MON
UL MON
UL MON
UL MON
#4
UL In
FEM-H-7
UL Div
UL In
FEM-H-P7
UL Div
UL In
FEM-H-S8
UL Div
Figure 2-24
© KMW USA Inc.
1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
UL In
FEM-H-C
UL Div
UL In
UL In
FEM-H-A
FEM-H-P
UL Div
UL Div
UL In
FEM-H-W
UL In
FEM-H-B
UL Div
POD-H-FEM-H-x Front & Rear View
37
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)
2.1.6.2 Specifications

Frequency range
Table 2-13
POD-H-FEM-H-x frequency range
Downlink
POD-H-FEM-L-7
POD-H-FEM-L-P7
POD-H-FEM-L-P8
POD-H-FEM-L-S8
POD-H-FEM-L-C
POD-H-FEM-L-P
POD-H-FEM-L-A
POD-H-FEM-L-W
POD-H-FEM-L-B

Uplink
Comments
698~716 MHz (Lower ABC)
777~787 MHz (Upper C)
758~775 MHz
788~805 MHz
851~869 MHz
806~824 MHz
851~869 MHz
806~824 MHz
869~894 MHz
824~849 MHz
1930~1995 MHz
1850~1915 MHz
2110~2180 MHz
1710~1780 MHz
2350~2360 MHz
2305~2315 MHz
2496~2690 MHz
728~756 MHz
TDD
Input range
15~46dBm
Table 2-14
POD-H-FEM-H-x Size, weight, and power consumption
Size(H x W x D)
POD-H-FEM-H-7
POD-H-FEM-H-P7
POD-H-FEM-H-P8(S8)
POD-H-FEM-H-C
POD-H-FEM-H-P
POD-H-FEM-H-A
POD-H-FEM-H-W
POD-H-FEM-H-B
POD-H-FEM-L-B
Weight
Power consumption
inch
mm
lb
Kg
(W)
7.0 x 1.3 x 17.8
7.0 x 1.3 x 17.8
7.0 x 1.3 x 17.8
7.0 x 1.3 x 17.8
7.0 x 2.5 x 17.8
7.0 x 1.3 x 17.8
7.0 x 1.3 x 17.8
7.0 x 1.3 x 17.8
7.0 x 1.3 x 17.8
177 x 31.8 x 452.5
177 x 31.8 x 452.5
177 x 31.8 x 452.5
177 x 31.8 x 452.5
177 x 63.8 x 452.5
177 x 31.8 x 452.5
177 x 31.8 x 452.5
177 x 31.8 x 452.5
177 x 31.8 x 452.5
5.7
5.7
5.7
5.7
5.7
7.7
5.7
5.7
5.7
2.6
2.6
2.6
2.6
2.6
3.5
2.6
2.6
2.6
11.5
9.5
7.5
© KMW USA Inc.
1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
38
User Manual for POD Systems
Revision: 0.7
2.1.6.3 RF port and LED
H-FEM-L-7/P7/P8/S8/C/P/A/W
H-FEM-L-B
PWR
PWR
ALM
ALM
DL MON
DL MON
DL Out
DL Out
#1
#2
Front Panel
T-Sync
#3
UL MON
UL MON
#4
UL In
UL In
DL/UL
DL/UL
Rear Panel
UL Div
Figure 2-25

POD-H-FEM-H-x RF port and LED
RF Ports
DL/UL, UL-Div
 Linked to BTS RF ports
 When the RF port linked to BTS is duplex port, connect to DL/UL
 When the RF ports linked to BTS are TX/RX port, connect DL/UL to TX port and UL Div to RX port.
 Connector Type
 Mini DIN Female for DL/UL port
 SMA Female for UL div port
Connector Type: SMA DL MON, UL MON
 Used to monitor DL input or UL output
 Connector Type: SMB-L Female
DL OUT, UL IN
 DL OUT: DL output port, Linked to H-COM or H-DTM
 UL IN: UL input port, Linked to H-COM or H-DTM
 Connector Type: SMB-L Female
© KMW USA Inc.
1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
39
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.
2.1.6.4 Communication port
Figure 2-26
Communication Port
This port provides communication path between H-FEM-H-x and H-SCM through backboard of H-SRU.
+24V DC is provided through this communication port from backboard of H-SRU.
H-FEM-H-x acquires ID information such as Rack ID, Sub rack ID and Slot ID through this communication
port. The IP address of H-FEM-H-x is assigned automatically using the acquired ID information.
2.1.6.5 Alarms
Table 2-16
Alarm Name
High Temperature
Description
POD-H-FEM-H-x - Alarms
Remedy
Temperature too high
Temperature high
Check environment
Alarm
LED
Severity
color
Major
Red
Minor
Yellow
Low Temperature
Temperature too low
Minor
Yellow
Downlink High Input
Power
RF signal too high
Check H-FEM downlink input level/
attenuator configuration/ALC status
Major
Red
Major
Yellow
Uplink High Output
Power
RF signal too high
Check H-FEM uplink input level/ attenuator
configuration/ALC status
Major
Red
Major
Yellow
Minor
Yellow
Major
Yellow
Major
Red
Warning
Yellow
Major
Yellow
RF signal high
RF signal high
Downlink Low Input
Power
RF signal too low
Link
Communication fail
Freeze
The final stage of
Shutdown process
Downlink ALC
Activation
Sync fail
(H-FEM-L-B only)
ALC activation
No TDD sync signal is
acquired
© KMW USA Inc.
1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
Check H-FEM downlink input level/
attenuator configuration/RF cabling
Check pin of communication port/ assigned
IP address
Check if shutdown process is going again
after reset
Check H-FEM downlink input level/
attenuator configuration
Check H-FEM downlink signal input received
from BTS
40
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
2.1.7.1 Functions and features
Combines DL output signals received from H-FEM and transfers to H-DTM, or H-HOM
Receives UL signal from H-DTM, or H-HOM and distributes to H-FEM
Control Power Ratio for multiple H-FEM with same frequency band to share DL output power at RU
ALC function for DL/UL Path
To minimize negative effects by unused input/output ports such as the degradation of VSWR or isolation
between ports, the unused ports can be switched into 50 ohm termination by user.
When any one sector or DAS system needs low power RU less than 4, H-COM can be connected to H-HOML directly without H-DTM.
 In this case, the attenuator in the common path of H-COM should add 15dB attenuation using web
based GUI to compensate the loss of H-DTM..
2.1.7.2 Specifications
Frequency range: 600~2700MHz
Maximum RF Power: -10dBm@DL, -25dBm@UL
Size, weight, and power consumption : refer to Table 2-1
2.1.7.3 RF port and LED
#1
DL
COM
#2
#1
UL
COM
PWR
#2
#3
ALM
#3
#4
#5

#4
#5
#6
#7
#6
#7
#8
UL
#8
DL
Figure 2-28
POD-H-COM-8 RF port and LED
RF Port
DL #1 ~ #8
 Receives downlink signal from up to 8 H-FEM
 Connected to DL output port of H-FEM
 Connector Type: SMB-L Female
DL COM
 Combines inputted downlink signals from DL #1 to DL #8 and outputs to H-DTM or H-HOM
 Connected to DL input port of H-DTM, or H-HOM
 Connector Type: SMB-L Female
UL COM
 Receives uplink signal from H-DTM or H-HOM
 Connected to UL output port of H-DTM, or H-HOM
 Connector Type: SMB-L Female
UL #1 ~ #8
 Divides inputted uplink signals from UL COM port and outputs to H-FEM
© KMW USA Inc.
1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
41
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.
At the cable connection guide, green led blinks to indicate which
RF ports should be connected to.
2.1.7.4 Communication port
Figure 2-29
Communication Port
This port provides communication path between H-COM-8 and H-SCM through backboard of H-SRU.
+24V DC is provided through this communication port from backboard of H-SRU.
H-COM-8 acquires ID information such as Rack ID, Sub rack ID and Slot ID through this communication port.
The IP address of H-COM-8 is assigned automatically using the acquired ID information.
2.1.7.5 Alarms
Table 2-18
Alarm Name
High Temperature
Description
Remedy
Temperature too high
Temperature high
Low Temperature
POD-H-COM-8 - Alarms
Check environment
Temperature too low
Link
Communication fail
Downlink ALC
Activation
ALC activation
© 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 H-COM-8 downlink input level/
attenuator configuration
Alarm
LED
Severity
color
Major
Red
Minor
Yellow
Minor
Yellow
Major
Yellow
Warning
Yellow
42
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. After then, it combines and distributes them to up to 8 H-COM.
Combines or distributes VHF, UHF signals
To minimize negative effects by unused input/output ports such as the degradation of VSWR or isolation
between ports, the unused ports can be switched into 50 ohm termination by user
Support Monitoring Port(DL path/UL Path)
When any one sector or DAS system needs low power RU less than 4, H-COM can be connected to H-HOML directly without H-DTM.
 In this case, the attenuator in the common path of H-COM should add 15dB attenuation using web
based GUI to compensate the loss of H-DTM.
2.1.8.2 Specifications
Frequency range: VHF, UHF, 600~2700MHz
Maximum RF Power: -25dBm@DL, -15dBm@UL
Size, weight, and power consumption : refer to Table 2-1
2.1.8.3 RF port and LED
IN
#1
VHF
UHF
#2
OUT IN
#1
DL
MON
#3
#2
#1
VHF
UHF
#4
#3
#2
OUT
#1
UL
MON
PWR
#2
#3
#4
UL

ALM
#3
#4
#6
#4
#6
#7
#5
#6
#7
#8
#5
#6
#7
#8
#5
#7
#8
#5
#8
DL
Figure 2-31
POD-H-DTM-8x8 RF port and LED
RF Port
DL IN #1 ~ #8
 Receives downlink signal from H-COM, H-STM or H-OIM.
 Connected to DL output port of H-COM, H-STM or H-OIM
 Connector Type: SMB-L Female
DL OUT #1 ~ #8
 Combines inputted downlink signals from DL IN #1 to DL IN #8 and outputs to H-HOM
© KMW USA Inc.
1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
43
User Manual for POD Systems

Revision: 0.7
 Connected to DL input port of H-HOM
 Connector Type: SMB-L Female
UL IN #1 ~ #8
 Receives uplink signal from up to 8 H-HOM
 Connected to UL output port of H-HOM
 Connector Type: SMB-L Female
UL OUT #1 ~ #8
 Combines inputted uplink signals from UL IN #1 to UL IN #8 and outputs to H-COM, H-STM or H-OIM
 Connected to UL input port of H-COM, H-STM or H-OIM
 Connector Type: SMB-L Female
LED
Table 2-19
POD-H-DTM-8x8 LED Operation
Specifications
PWR
ALM
DL IN #1 ~ #8
DL OUT #1 ~ #8
UL IN #1 ~ #8
UL OUT #1 ~ #8
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-DTM-8x8 has no alarms.
When POD-H-DTM-8x8 has minor alarm.
When POD-H-DTM-8x8 has major alarm.
At the cable connection guide, green led blinks to indicate which
RF ports should be connected to.
2.1.8.4 Communication port
Figure 2-32
Communication Port
This port provides communication path between H-DTM-8x8 and H-SCM through backboard of H-SRU.
+24V DC is provided through this communication port from backboard of H-SRU.
H-DTM-8x8 acquires ID information such as Rack ID, Sub rack ID and Slot ID through this communication
port. The IP address of H-DTM-8x8 is assigned automatically using the acquired ID information.
2.1.8.5 Alarms
Table 2-20
Alarm Name
High Temperature
Description
Remedy
Temperature too high
Temperature high
Low Temperature
POD-H-DTM-8x8 - Alarms
Check environment
Temperature too low
Link
Communication fail
Downlink ALC
Activation
ALC activation
© 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 H-DTM downlink input level/
attenuator configuration
Alarm
LED
Severity
color
Major
Red
Minor
Yellow
Minor
Yellow
Major
Yellow
Warning
Yellow
44
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 2.6G TDD operation, TDD synchronization signal received from H-FEM-B is transferred to low power
Remote unit via H-HOM-L.
Communicates with low power Remote unit by PLC modem.
2.1.9.2 Specifications
Frequency range: VHF, UHF, 600~2700MHz
Maximum RF Power: -9dBm@DL, 0dBm@UL
Size, weight, and power consumption : refer to Table 2-1
2.1.9.3 RF port and LED
PWR
ALM
UL
DL
UL
DL
UL Out
POD-H-HOM-L RF port and LED
RF Port

UL
DL In

DL
DL
UL
T_Sync
Figure 2-34
DL IN
 Receives downlink signal from H-COM, H-STM or H-DTM.
 Connected to DL output port of H-COM, H-STM or H- DTM.
 Connector Type: SMB-L Female
UL OUT
 Outputs uplink signal to H-COM, H-STM or H-DTM
 Connected to UL input port of H-COM, H-STM or H-DTM
 Connector Type: SMB-L Female
T-SYNC IN
 Receives TDD synchronization signal from H-FEM-B.
 Connected to T-SYNC of H-FEM-B.
 Connector Type: SMB-L Female
LED
Table 2-21
POD-H-HOM-L LED Operation
Specifications
PWR
ALM
Solid Green
Off
Off
Solid Yellow
Solid Red
© KMW USA Inc.
1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
When power is on.
When power is off.
When POD-H-HOM-L has no alarms.
When POD-H-HOM-L has minor alarm.
When POD-H-HOM-L has major alarm.
45
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.
Connector Type: LC APC Female
PD #1 ~ #4
Each optic port is connected to low power Remote Unit.
Receives Uplink optic signal from low power Remote Unit.
Connector Type: LC APC Female
2.1.9.5 Communication port
Figure 2-36
Communication Port
This port provides communication path between H-HOM-L and H-SCM through backboard of H-SRU.
+24V DC is provided through this communication port from backboard of H-SRU.
H-HOM-L acquires ID information such as Rack ID, Sub rack ID and Slot ID through this communication port.
The IP address of H-HOM-L is assigned automatically using the acquired ID information.
2.1.9.6 Alarms
Table 2-22
Alarm Name
High Temperature
Description
Remedy
Temperature too high
Temperature high
Low Temperature
POD-H-HOM-L - Alarms
Check environment
Temperature too low
Link
Communication fail
DL Optic Fail
Downlink LD fail
UL Optic Fail
Uplink PD fail
Check pin of communication port/
assigned IP address
Check if optic LD fail alarm occurs again
after reset.
Check optic cable connection with RU
UL Optic Loss
Exceed permitted optic
loss
Check optic cable connection with RU /
clean Optic connector and port
© KMW USA Inc.
1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
Alarm
LED
Severity
color
Major
Red
Minor
Yellow
Minor
Yellow
Major
Yellow
Major
Yellow
Major
Yellow
Minor
Yellow
46
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: 0.7
Alarm
LED
Severity
color
Minor
Yellow
47
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 2.6G TDD operation, TDD synchronization signal received from H-FEM-B is transferred to high power
Remote unit via H-HOM-L.
Communicates with high power Remote unit by PLC modem.
2.1.10.2 Specifications
Frequency range: VHF, UHF, 600~2700MHz
Maximum RF Power: -9dBm@DL, 0dBm@UL
Size, weight, and power consumption : refer to Table 2-1
2.1.10.3 RF port and LED
PWR
UL2
POD-H-HOM-H RF port and LED
RF Port

UL1
DL2

ALM
DL/UL
DL1
T_Sync
Figure 2-38
DL 1/DL 2
 Receives downlink signal from H-COM, H-STM or H-DTM.
 Connected to DL output port of H-COM, H-STM or H- DTM.
 Connector Type: SMB-L Female
UL 1/UL 2
 Outputs uplink signal to H-COM, H-STM or H-DTM
 Connected to UL input port of H-COM, H-STM or H-DTM
 Connector Type: SMB-L Female
T-SYNC IN
 Receives TDD synchronization signal from H-FEM-B.
 Connected to T-SYNC of H-FEM-B.
 Connector Type: SMB-L Female
LED
© KMW USA Inc.
1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
48
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.
2.1.10.4 Optic port
#1
Figure 2-39

LD

optic port
Connected to high power Remote Unit.
Transfers downlink optic signal to high power Remote Unit.
Connector Type: LC APC Female
PD
Connected to high power Remote Unit.
Receives Uplink optic signal from high power Remote Unit.
Connector Type: LC APC Female
2.1.10.5 Communication port
Figure 2-40
Communication Port
This port provides communication path between H-HOM-H and H-SCM through backboard of H-SRU.
+24V DC is provided through this communication port from backboard of H-SRU.
H-HOM-H acquires ID information such as Rack ID, Sub rack ID and Slot ID through this communication port.
The IP address of H-HOM-H is assigned automatically using the acquired ID information.
2.1.10.6 Alarms
Table 2-24
Alarm Name
High Temperature
Description
Remedy
Temperature too high
Temperature high
Low Temperature
POD-H-HOM-H - Alarms
Temperature too low
© KMW USA Inc.
1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
Check environment
Alarm
LED
Severity
color
Major
Red
Minor
Yellow
Minor
Yellow
49
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.
Check optic cable connection with RU
Check optic cable connection with RU /
clean Optic connector and port
Check optic cable connection
Revision: 0.7
Major
Yellow
Major
Yellow
Major
Yellow
Minor
Yellow
Minor
Yellow
50
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.
Based on programmed sector definition, DL output signals received from H-FEM are combined by each
sector and transferred to H-DTM, or H-HOM.
Based on programmed sector definition, received UL signals from H-DTM, or H-HOM are distributed and
transferred to H-FEM.
For each sector, controls Power Ratio for multiple H-FEM with same frequency band to share DL output
power at Remote Unit
ALC function for DL/UL Path
To minimize negative effects by unused input/output ports such as the degradation of VSWR or isolation
between ports, the unused ports can be switched into 50 ohm termination by user.
When any one sector consists of remote unit less than 4, H-STM-8x4 can be connected to H-HOM-L directly
without H-DTM.
 In this case, the attenuator in the common path of H-STM-8x8 should add 15dB attenuation using web
based GUI to compensate the loss of H-DTM.
2.1.11.2 Specifications
Frequency range: 600~2700MHz
Maximum RF Power: -10dBm@DL, 25dBm@UL
Size, weight, and power consumption : refer to Table 2-1
© KMW USA Inc.
1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
51
User Manual for POD Systems
Revision: 0.7
2.1.11.3 RF port and LED
ALM
ALM
PWR
#1
#2
PWR
#1
#2
#3
#4
#3
#4
POD-H-STM-8x4-DL RF port and LED
#1
#2
#3
#4
#1
#2
#3
#4
#5
#6
#7
#8
Figure 2-44

#5
#6
#7
#8
Figure 2-43
POD-H-STM-8x4-UL RF port and LED
RF port
POD-H-STM-8x4-DL
 DL IN #1 ~ #8
 Receives downlink signal from up to 8 H-FEM
 Connected to DL output port of H-FEM
 Connector Type: SMB-L Female
 DL OUT #1 ~ #4
 Combines inputted downlink signals and outputs to H-DTM or H-HOM by each sector
 Connected to DL input port of H-DTM, or H-HOM for each sector
 Connector Type: SMB-L Female
POD-H-STM-8x4-UL
 UL IN #1 ~ #8
 Receives uplink signals from H-DTM, or H-HOM for each sector
 Connected to UL output port of H-DTM, or H-HOM for each sector
 Connector Type: SMB-L Female
 UL OUT #1 ~ #4
 Distributes uplink signals inputted from UL IN #1~#8 port by each sector and outputs to HFEM
 Connected to UL input port of H-FEM
 Connector Type: SMB-L Female
© KMW USA Inc.
1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
52
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.
At the cable connection guide, green led blinks to indicate which
RF ports should be connected to.
2.1.11.4 Communication port
Figure 2-45
Communication Port
This port provides communication path between H-STM and H-SCM through backboard of H-SRU.
+24V DC is provided through this communication port from backboard of H-SRU.
H-STM acquires ID information such as Rack ID, Sub rack ID and Slot ID through this communication port.
The IP address of H-STM is assigned automatically using the acquired ID information.
2.1.11.5 Alarms
Table 2-26
Alarm Name
High Temperature
Description
POD-H-STM-8x8 - Alarms
Remedy
Temperature too high
Temperature high
Low Temperature
Temperature too low
Link
Communication fail
Downlink ALC
Activation
ALC activation
© KMW USA Inc.
1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
Check environment
Check pin of communication port/
assigned IP address
Check H-STM downlink input level/
attenuator configuration
Alarm
LED
Severity
color
Major
Red
Minor
Yellow
Minor
Yellow
Major
Yellow
Warning
Yellow
53
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
2.1.12.2 Specifications
AC input Range: AC 100~240V (47~63Hz)
Size, weight, and power consumption : refer to Table 2-1
2.1.12.3 LED
Power
Alarm
Figure 2-47
Table 2-27
POD-H-PSU-x LED
POD-H-PSU-x LED Operation
Specifications
PWR
ALM
Solid Green
Off
Off
Solid Yellow
Solid Red
When power is on.
When power is off.
When POD-H-PSU-x has no alarms.
When POD-H-PSU-x has minor alarm.
When POD-H-PSU-x has major alarm.
2.1.12.4 Ethernet Port
DMCU
Figure 2-48

Ethernet Port
DMCU port
Connected to H-DMCU so that H-DMCU can monitor and control H-PSU
2.1.12.5 AC input on/off Switch & DC output on/off switch
© KMW USA Inc.
1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
54
User Manual for POD Systems
HPSU
Revision: 0.7
#1
#2
#3
#4
#5
#6
#7
#8
Figure 2-49 AC input on/off Switch & DC output on/off switch

AC input on/off switch

Be able to turn AC input on (off) manually by using AC input on/off switch
DC output on/off switch
Be able to turn each DC output on (off) separately
Toggle type
 When you press DC output on/off switch, the LED light of DC output on/off switch and 24V DC output
turn on, and when you press it again, LED light and 24V DC output turn off.
DC output on/off switch can be turned on (off) in local and remote site
2.1.12.6 AC input port & DC output port
#1
#2
#3
#4
#5
DMCU
#8
AC input port & DC output port
AC input port

#7
HSRU
Figure 2-50

#6
Use 3 wire AC code (Line, Neutral, GND)
DC output port
One DC output port for H-DMCU
 DC output connector contains +24V DC, Rack ID, and insert pin.
Eight DC output port for H-SRU
 Each DC output connector contains +24V DC, Rack ID, and insert pin.
2.1.12.7 Rack ID
Group Rack
12 12
#1
#2
Figure 2-51

Group is not used

Rack ID
#3
#4
Rack ID
Rack ID can be set from 1 to 4.
One H-DMCU can support up to 4 racks, and one H-DMCU needs maximum 4 H-PSU because one H-PSU can
supply 24V DC power to only one rack that can be composed of up to 8 H-SRUs and one DMCU.
H-DMCU and each H-SCM in H-SRU can identify its own rack ID through the cable connection with H-PSU.
© KMW USA Inc.
1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
55
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
OFF
OFF
Rack ID #2
ON
OFF
Rack ID #3
OFF
ON
Rack ID #4
ON
ON
2.1.12.8 Ground port
Refer to section 3.2.2
2.1.12.9 Alarms
Table 2-29
Alarm Name
High Temperature
Description
POD-H-PSU - Alarms
Remedy
Temperature too high
Temperature high
Low Temperature
Temperature too low
Voltage
High Voltage
Current
High Current
Low Voltage
Low Voltage
© KMW USA Inc.
1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
Check environment
Check if High voltage alarm occurs again
after reset.
Check if current alarm occurs again after
reset.
Check if low voltage alarm occurs again
after reset.
Alarm
LED
Severity
color
Major
Red
Minor
Yellow
Minor
Yellow
Major
Red
Major
Red
Major
Yellow
56
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.
Good space efficiency since H-FAU can be installed behind H-CDU
DC Power is provided from FAN port located in the back side of H-SRU
FAN speed control and FAN on/off is controlled automatically by H-SCM based on the temperature of
modules installed in H-SRU.
FAN fail alarm is monitored by H-SCM.
2.1.14.2 The rules for installing FAN unit
When the number of module installed in a POD-H-SRU is less than 5, it doesn’t need the installation of HFAU.
When the number of module installed in a POD-H-SRU is more than 6, It needs the installation of POD-HFAU.
 We strongly recommend that each module should be installed every other slot in a POD-H-SRU.
When POD-H-SRUs more than 2 are stacked in one rack, one POD-H-FAU per 2 POD-H-SRU should be
installed regardless of the number of module installed in one POD-H-SRU.
 We strongly recommend that each module should be installed with sufficient gap as far as possible
when the modules in a POD-H-SRU are not fully installed.
2.1.14.3 Port
H-FAU must be connected with FAN port which is located in the back of H-SRU (refer to Figure 2-9) by
provided signal cable.
© KMW USA Inc.
1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
57
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.com
Remedy
Replace FAN
Alarm
LED
Severity
color
Minor
Yellow
58
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.
2.2.1
7/5/3 band RU for commercial band service (POD-R-7S8CPAWB-2730-AC/DC)
PS700/800 RU for public safety band service (POD-R-P78-27-AC/DC)
High power RU with 20/40W output power (POD-R-4346-AC/DC)
7/5/3 band RU for commercial band service (POD-R-7S8CPAWB-2730-AC/DC)
Figure 2-54
Remote Unit – 7/5/3 band
2.2.1.1 Functions and features
Supported frequency band
 3_band RU: SMR800, PCS, and 2.6G TDD
 5_band RU: 700M, 850M, PCS, AWS, and WCS
 7_band RU: 700M, SMR800+850M, PCS, AWS, WCS, and 2.6G TDD
VSWR measurement function for checking VSWR of the connected service antenna
Built-in Test tone generator in order to check uplink path verification
Increase scalability by supporting expansion RU
 Expansion RU is connected with main RU through AUX DL/UL port by using RF cable
 Expansion RU can be added, when it needs additional frequency band other than frequency bands
being used in main RU, or additional filter attenuation in the frequency band being used in main RU. In
the latter case, the frequency band which needs additional filter attenuation must be off in main RU
and replaced by the frequency band with strengthened filter attenuation in expansion RU.
2.2.1.2 Specifications

Common Specifications
Operating Temperature: -40~55C
© KMW USA Inc.
1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
59
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
18.0 MHz
10.0 MHz
32 MHz
36 ± 1.0 dB
37 ± 1.0 dB
36 ± 1.0 dB
37±1.0 dB
Downlink
42 dB
Uplink
Downlink
37 dB
Uplink
Maximum downlink output power
Uplink Noise Figure @center freq.
VSWR
Delay
EVM
Operating band unwanted emissions
Out of band emission

Upper C
Downlink
Uplink
SMR800+850M
Lower ABC
37 ± 1.0 dB
2.5 dB
2.0 dB
4.0 dB @Full band
2.5dB@ 777~786M
2.5 dB
2.0 dB
27 dBm
4.00 dB
27 dBm
4.00 dB
4.00 dB
< 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.
PCS, AWS
Table 2-32
Frequency Band
PCS
AWS
Downlink
Uplink
1930.0M - 1995.0M
1850.0M-1915.0M
65.0 MHz
2110.0M - 2180.0M
1710.0M-1780.0M
70.0 MHz
Downlink
39 ± 1.0 dB
40 ± 1.0 dB
39 ± 1.0 dB
40 ± 1.0 dB
Bandwidth
Mean Gain
Maximum Gain
3/5/7 band RU – PCS, AWS Specifications
Uplink
Downlink
45 dB
Uplink
40 dB
Maximum downlink output power
3.5 dB@ Full band
2.5dB (excluding band edge)
3.5 dB
2.5dB (excluding band edge)
30 dBm
30 dBm
Uplink Noise Figure @center freq.
4.00 dB
4.00 dB
Downlink
Ripple(p-p)
Uplink
© KMW USA Inc.
1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
2.0 dB
2.0 dB
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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 ± 1.0 dB
Bandwidth
Mean Gain
Maximum Gain
3/5/7 band RU – WCS, 2.6G Specifications
Uplink
Downlink
Uplink
Downlink
Ripple(p-p)
Uplink
Maximum downlink output power
Uplink Noise Figure @center freq.
VSWR
Delay
EVM
Operating band unwanted emissions
Out of band emission
© KMW USA Inc.
1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
45 dB
40 dB
2.5 dB
1.75 dB
30 dBm
3.5 dB
3.5 dB
30 dBm
5.00 dB
4.00 dB
< 1:1.7
< 5.00 us
< 2.00 us
< 5.0 % @E-TM 3.1
Meet FCC, 3GPP WCDMA/LTE Repeater Spec.
Meet FCC, 3GPP WCDMA/LTE Repeater Spec.
61
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Revision: 0.7
2.2.1.3 RF ports and LED
CPL Port ANT Port
AUX DL
AUX UL Port
Port
Figure 2-55

ALM
LED
Remote Unit External Interfaces
RF port

TDD Sync
Port
PWR
LED
ANT port
 Connected to Service antenna
 Mini DIN, female type
CPL port
 Can be connected to spectrum analyzer to monitor downlink spectrum without interrupting wireless
service
 SMA female type
AUX UL & DL
 Connected to expansion remote unit
 QMA female type
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 2-34
7/5/3 band RU LED Operation
Specifications
PWR
ALM
Solid Green
Off
Off
Solid Yellow
Solid Red
© KMW USA Inc.
1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
When power is on.
When power is off.
When 7/5/3 band RU has no alarms.
When 7/5/3 band RU has minor alarm.
When 7/5/3 band RU has major alarm.
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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. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
RTN
UL DL
(OPTIC)
-48V
DEBUG
DEBUG
DC
GUI / EXT
! CAUTION
DC ONLY
Main RU - DC type
63
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.
LC/APC Female type
Wavelength: 1310nm for downlink, 1550nm for uplink

Serial port (DEBUG): Used for internal debug

AC or DC power input port
AC or DC power source is provided into Remote unit through this port.
 110V AC, 50~60Hz or DC -48V
CAUTION
Make sure whether remote unit is AC or DC type before connecting input power to AC or DC input port
Because AC and DC input port uses same connector, user might be confused, so that the wrong
connection of input power might cause severe damage of remote unit.
User can check easily whether remote unit is AC or DC type by checking the picture of sticker attached
to the debug window cover when you open it. (refer to Figure 2-57)

Ethernet Port
Ethernet Port #1
 Used as GUI Port to access web-based GUI when expansion RU is not connected
 Used for connecting to expansion RU when expansion RU is connected to main RU.
 Use GUI port in expansion RU to access web-based GUI when expansion RU is connected
Ethernet Port #2
 Used as GUI Port to access web-based GUI for only expansion RU
© KMW USA Inc.
1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
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64
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Revision: 0.7
2.2.1.5 Alarms
Table 2-35
Alarm Name
High Temperature
Low Temperature
Downlink High
Output Power
Uplink High Input
Power
Downlink Low
Output Power
Link
Description
Remedy
Temperature too high
Temperature high
Check environment
Temperature too low
RF signal too high
RF signal high
RF signal too high
RF signal high
RF signal too low
Communication fail
The final stage of
Shutdown process
Freeze
3/5/7 band RU – Alarms
Downlink ALC
Activation
ALC activation
Uplink PLL Unlock
Uplink PLL unlock
VSWR
Bad RF cable/mismatched
service antenna
Optic LD Fail
Uplink LD fail
Optic PD Fail
Downlink PD fail
Optic Loss
Excess permitted optic loss
High current
Power supply load too high
Sync fail
No TDD sync signal is
acquired
Check Head-end downlink input level/
attenuator configuration/ALC status
Check RU uplink input level/ attenuator
configuration/ ALC status
Check Head-end downlink input level/
attenuator configuration/ RF cabling
Check cable connection
Check if shutdown process is going again
after reset
Check Head-end downlink input level/
attenuator configuration
Check if uplink PLL is still in unlocked
status after resetting PLL frequency
Check cable between RU and service
antenna, VSWR of service antenna
Check if optic LD fail alarm occurs again
after reset.
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.
Check optic cable connection with HHOM and 2.6G downlink input signal
Alarm
LED
Severity
color
Major
Red
Minor
Yellow
Minor
Yellow
Major
Red
Major
Yellow
Major
Red
Major
Yellow
Minor
Yellow
Major
Yellow
Major
Red
Warning
Yellow
Minor
Yellow
Major
Yellow
Major
Yellow
Major
Yellow
Minor
Yellow
Major
Red
Major
Yellow
2.2.1.6 Grounding
Refer to section 3.3.2
© KMW USA Inc.
1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
65
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
2.2.2.1 Functions and features
Supported frequency band: Public Safety 700M & 800M
VSWR measurement function for checking VSWR of the connected service antenna
Built-in Test tone generator in order to check uplink path verification
Increase scalability by supporting expansion RU
 Connected between expansion RU and main RU through AUX DL/UL port by using RF cable
 Expansion RU can be added, when it needs additional frequency band other than frequency bands
being used in main RU, or additional filter attenuation in the frequency band being used in main RU. In
the latter case, the frequency band which needs additional filter attenuation must be off in main RU
and replaced by the frequency band with strengthened filter attenuation in expansion RU.
2.2.2.2 Specifications
Operating Temperature: -40~55C
Input Power
 AC type: 110V, 50-60 Hz
 DC Type: -48V
Power Consumption: <55W
IP rating: IP65
Cooling method: convection cooling
Dimension: (WxHxD) 13 x 12.2 x 3.9 in (330 x 310 x 100mm)
Weight: 22.5 lbs (10.2kg)
© KMW USA Inc.
1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
66
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
4.00 dB
Downlink
Ripple(p-p)
Uplink
Maximum downlink output power
Uplink Noise Figure @center freq.
VSWR
Delay
EVM
Operating band unwanted emissions
Out of band emission
3.5 dB @Full band
2.0 dB @852~869M
5.3 dB @Full band
2.0 dB @807~824M
27 dBm
4.00 dB
< 1:1.7
< 5.00 us
< 5.0 % @E-TM 3.1
Meet FCC, LTE Repeater Spec.
Meet FCC, LTE Repeater Spec.
2.2.2.3 RF ports and LED
ANT Port
CPL Port
AUX UL AUX DL
Port
Port
Figure 2-59

PWR ALM
LED LED
BATT
Port
Remote Unit - PS700/800 External Interfaces
RF port
ANT port
 Connected to Service antenna
 Mini DIN, female type
CPL port
 Can be connected to spectrum analyzer to monitor downlink spectrum without interrupting wireless
service
 SMA female type
AUX UL & DL
 Connected to expansion remote unit
 QMA female type
© KMW USA Inc.
1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
67
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.
2.2.2.4 Debug Window
AC or DC Power
input Port
Optic Port
Serial Port
Ethernet Port #1
Ethernet Port #2
Figure 2-60
Debug Window
User can know the name for each port of RU by the sticker attached 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. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
RTN
UL DL
(OPTIC)
-48V
DEBUG
DEBUG
DC
GUI / EXT
! CAUTION
DC ONLY
Main RU - DC type
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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.
LC/APC Female type
Wavelength: 1310nm for downlink, 1550nm for uplink

Serial port (DEBUG): Used for internal debug

AC or DC power input port
AC or DC power source is provided into Remote unit through this port.
 110V AC, 50~60Hz or DC -48V
CAUTION
Must verify whether remote unit is AC or DC type before connecting input power to AC or DC input port
because AC and DC power input port has same form factor.
It might cause severe damage of remote unit when user connects AC input to DC power input port of DC
type RU or DC input to AC power input port of AC type RU in the wrong way.
User can verify easily whether remote unit is AC or DC type by checking the picture of sticker attached
to the debug window cover when you open it. (refer to Figure 2-61)

Ethernet Port
Ethernet Port #1
 Used as GUI Port to access web-based GUI when expansion RU is not connected
 Used for connecting to expansion RU when expansion RU is connected to main RU.
 Use GUI port in expansion RU to access web-based GUI when expansion RU is connected
Ethernet Port #2
 Used as GUI Port to access web-based GUI for only expansion RU
2.2.2.5 Battery Backup Port
© KMW USA Inc.
1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
69
User Manual for POD Systems
Revision: 0.7
Figure 2-62
Battery backup port
Connected to rechargeable battery
Table 2-38
Pin map - Battery Backup Port
Pin Assign
Specifications
DC
DC
GND
GND
26V
26V
GND
GND
2.2.2.6 Alarms
Table 2-39
Alarm Name
High Temperature
Low Temperature
Downlink High
Output Power
Uplink High Input
Power
Downlink Low
Output Power
Link
Freeze
Description
PS700/800 band RU – Alarms
Remedy
Temperature too high
Temperature high
Check environment
Temperature too low
RF signal too high
RF signal high
RF signal too high
RF signal high
RF signal too low
Communication fail
The final stage of
Shutdown process
Check Head-end downlink input level/
attenuator configuration/ ALC status
Check RU uplink input level/ attenuator
configuration/ ALC status
Check Head-end downlink input level/
attenuator configuration/ RF cabling
Check cable connection
Check if shutdown process is going again
after reset
Check Head-end downlink input level/
attenuator configuration
Check if uplink PLL is still in unlocked
status after resetting PLL frequency
Alarm
LED
Severity
color
Major
Red
Minor
Yellow
Minor
Yellow
Major
Red
Major
Yellow
Major
Red
Major
Yellow
Minor
Yellow
Major
Yellow
Major
Red
Warning
Yellow
Minor
Yellow
Downlink ALC
Activation
ALC activation
Uplink PLL Unlock
Uplink PLL unlock
VSWR
Bad RF cable/mismatched
service antenna
Check cable between RU and service
antenna, VSWR of service antenna
Major
Yellow
Optic LD Fail
Uplink LD fail
Check if optic LD fail alarm occurs again
after reset.
Major
Yellow
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1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
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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
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1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
71
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
3.1.1.1 Head-end Unit
3.1.1.1.1 POD-H-DMCU
Q’ty
H-DMCU
H-CDU
Quick Installation Guide
Rack mount bracket
Power & signal cable between H-DMCU and H-PSU
Ethernet Cable for Web GUI or modem connection
GND Cable
Length
30cm
2m
1m
Q’ty
Length
2m
2m
1m
2m
Q’ty
Length
Comments
Cable Duct Unit
Refer to section 4.1.1
3.1.1.1.2 POD-H-PSU
H-PSU
Quick Installation Guide
Rack mount bracket
Power & signal cable between H-DMCU and H-PSU
Ethernet Cable between H-DMCU and H-PSU
GND Cable
AC Cable (H-SPU-AC only)
Comments
Refer to section 4.1.1
3.1.1.1.3 POD-H-SRU
H-SRU
H-FAU
Quick Installation Guide
Rack mount bracket
Power & signal cable between H-PSU and H-SRU
Power & signal cable between H-SRU and H-FAU
GND Cable
2m
2m
1m
Q’ty
Length
Comments
FAN Unit
Refer to section 4.1.1
3.1.1.1.4 POD-H-SCM
H-SCM
Ethernet Cable between H-DMCU and H-SCM, or
between H-MCM and H-SCM
Comments
2m
Q’ty
Length
2m
Refer to section 4.1.1
3.1.1.1.5 POD-H-MCM
H-MCM
Ethernet Cable between H-DMCU and H-MCM
© KMW USA Inc.
1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
Comments
Refer to section 4.1.1
72
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
2m
2m
2m
Comments
Refer to section 4.2.1.1
73
User Manual for POD Systems
3.2
3.2.1
Revision: 0.7
Head-end Unit Equipment Installation
Installation Head-end Unit in a 19” rack
KMW
#1
#2
#5
#6
#3
#4
#7
#8
Group Rack
DMCU
12 12
Power
#1
Alarm
#2
#3
#4
#5
#6
#7
#8
DMCU
HPSU
#1
#2
#3
#4
DMCU
HSRU
KMW
Run
ENT
Modem
11
13
15
17
19
21
23
25
27
29
31
Power SW
Link
Up
DMCU
Alarm
Down
HE
Alarm
ESC
RU
Alarm
Reset
KMW
Web GUI
KMW
10
ALM
ALM
18
20
22
24
26
28
10
KMW
30
KMW
KMW
KMW
PWR
PWR
PWR
ALM
PWR
ALM
ALM
ALM
DL Out
DL Out
DL MON
DL MON
DL Out
DL Out
UL MON
UL MON
DL Out
DL Out
UL MON
UL MON
UL In
UL In
UL In
UL In
ALM
DL
COM
UL
COM
#1
#1
#1
OUT IN
#1
#1
OUT
#1
#2
#2
#2
#2
#2
#2
#3
#3
#3
#3
#3
#3
#4
#4
#4
#4
#4
#4
#5
#5
#5
#5
#6
#6
#6
#6
#7
#7
#7
#7
#8
#8
#8
#8
VHF
UHF
DL MON
ALM
VHF
UHF
UL MON
Up
ALM Reset
Down ESC
Path B
Path B
DL MON
DL MON
Path B
Path B
DL MON
DL MON
DL Out
UL MON
UL MON
DL Out
DL Out
UL MON
UL In
UL In
UL MON
UL MON
UL In
UL In
UL In
UL In
#6
#5
KMW
KMW
KMW
KMW
HFM-L-W
HCM-8
KMW
DL
10
850M
11
12
HPSU
700M
┌ DL / UL (A)
┌ DL / UL (A)
┌ DL / UL (A)
┌ DL / UL (A)
┌ DL / UL (A)
┌ DL / UL (A)
┌ UL Div (A)
┌ UL Div (A)
┌ UL Div (A)
┌ UL Div (A)
┌ UL Div (A)
┌ UL Div (A)
FUSE
#2
#12
#11
#10
#9
#8
#7
#6
#5
#4
#3
#2
#1
#3
DL
UL
UL
#4
DL
#4
DL
UL
UL
#7
DL In
DL In
#8
T_Sync
T_Sync
T_Sync
HOM-L
HOM-L
HOM-L
DL In
10
11
└ DL / UL (B)
└ DL / UL (B)
└ DL / UL (B)
└ DL / UL (B)
└ DL / UL (B)
└ UL Div (B)
└ UL Div (B)
└ UL Div (B)
└ UL Div (B)
└ UL Div (B)
Spare Fuse
UL
DTM-8X8
KMW
KMW
PCS
UL
#3
DL
UL
AWS
WCS
- 30 UL
HFM-L-A
#6
UL
HFM-L-P
Output
#1
DL
UL
DL
#7
#8
HFM-L-P
UL
#2
DL
DL
#5
DL
HFM-L-C
DL
UL
#3
#4
DL Out
UL Mon
HFM-L-7
UL Out
#1
DL
#2
Web GUI
SCM
- 30 -
UL Out
#1
UL
Link
ALM
UL Out
DL
DL
DMCU
WCS
PWR
UL
Run
12
Path A
PWR
IN
ENT
32
11
DL MON
PWR
ALM
16
KMW
Path A
DL MON
PWR
14
KMW
PCS
PWR
12
KMW
PCS
DL MON
PWR
ALM
KMW
Path A
KMW
Path A
DL MON
PWR
Input
KMW
External Alarm
DMCU
HPSU
KMW
KMW
KMW
FAN
12
KMW
KMW
HPSU
PWR
PWR
PWR
ALM
ALM
PWR
ALM
DL
COM
UL
COM
#1
#1
#1
OUT IN
#1
#1
OUT
#1
#2
#2
#2
#2
#2
#2
#3
#3
#3
#3
#3
#3
VHF
UHF
DL MON
#4
Link
ENT
Up
#4
#4
#4
#4
UL Out
Down ESC
#5
DL
UL
UL
#5
#5
#6
#6
#7
#7
#8
#8
#5
#5
#6
#6
#7
#7
#8
#8
#2
#2
#2
DL
DL
DL
DL
DL
DL
DL
UL
UL
UL
UL
UL
UL
UL
UL
#3
UL
#4
UL
UL
UL
UL
DL
UL
DL In
#8
#7
#6
#5
#4
#3
#2
#1
#4
DL
UL
DL In
#9
UL
#4
DL
UL
DL In
#10
#3
UL
DL In
DL In
T_Sync
T_Sync
T_Sync
T_Sync
T_Sync
T_Sync
T_Sync
T_Sync
T_Sync
HOM-L
HOM-L
HOM-L
HOM-L
HOM-L
HOM-L
HOM-L
HOM-L
HOM-L
10
11
#8
#11
DL
#4
DL
UL
DL In
DL In
#12
#3
DL
#4
DL
UL
UL
DL In
DL
#4
DL
DL
UL
#3
DL
#4
#4
DL
#3
DL
UL
UL
#4
DL In
#3
DL
#6
#7
#3
#3
DL
FUSE
UL
#2
DL
UL
DL
- 30 #1
DL
#2
DL
UL
#5
#2
#2
UL Out
#1
DL
UL
UL
#8
ALM
UL Out
#1
DL
UL
#2
PWR
ALM
UL Out
#1
DL
UL
DL
#7
PWR
ALM
UL Out
#1
DL
UL
#3
Web GUI
PWR
ALM
UL Out
#1
#1
DL
UL
DL
#6
DMCU
PWR
ALM
UL Out
UL Out
#1
DL
UL
#4
ALM Reset
PWR
ALM
ALM
UL Out
DL
#2
Run
PWR
PWR
ALM
VHF
UHF
UL MON
#1
IN
Spare Fuse
- 30 -
DL
SCM
UL
DL
HCM-8
UL
DTM-8X8
FAN
12
KMW
KMW
KMW
KMW
Path A
KMW
Path A
DL MON
KMW
PCS
PCS
PWR
ALM
PWR
ALM
PWR
ALM
KMW
KMW
KMW
KMW
KMW
PWR
PWR
PWR
ALM
ALM
ALM
PWR
PWR
ALM
ALM
ALM
DL Out
DL Out
DL MON
DL MON
DL Out
DL Out
UL MON
UL MON
DL Out
DL Out
UL MON
UL MON
DL
COM
UL
COM
#1
#1
#1
OUT IN
#1
#1
OUT
#1
#2
#2
#2
#2
#2
#2
#3
#3
#3
#3
#3
#3
#4
#4
#4
#4
#4
#4
#5
#5
#5
#5
#5
#5
#6
#6
#6
#6
#7
#7
#7
#7
#8
#8
#8
#8
VHF
UHF
DL MON
VHF
UHF
UL MON
UL Out
DL
UL In
UL In
UL In
Path B
Path B
Path B
Path B
DL MON
DL MON
DL MON
DL MON
DL Out
UL MON
UL MON
DL Out
#6
DL Out
UL In
UL In
UL MON
11
UL In
WCS
AWS
PCS
850M
12
HPSU
700M
┌ DL / UL (A)
┌ DL / UL (A)
┌ DL / UL (A)
┌ DL / UL (A)
┌ DL / UL (A)
┌ DL / UL (A)
┌ UL Div (A)
┌ UL Div (A)
┌ UL Div (A)
┌ UL Div (A)
┌ UL Div (A)
┌ UL Div (A)
FUSE
#2
#12
#11
#10
#9
#8
#7
#6
#5
#4
#3
#2
#1
#3
DL
UL
UL
DL
#7
UL MON
#8
UL In
10
- 30 #1
UL
#3
DL
UL
#4
DL
UL
UL MON
UL In
#4
#6
Web GUI
UL Mon
UL Out
DL
UL
#3
DL
#4
DL Out
DMCU
UL
#2
DL
UL
ALM Reset
Down ESC
DL
UL
#2
DL
Up
#1
DL
UL
Link
WCS
UL Out
#1
IN
UL In
Run
ENT
DL MON
PWR
ALM
Path A
DL MON
PWR
ALM
KMW
Path A
DL MON
PWR
#7
DL
UL
DL In
#8
UL
DL In
DL In
T_Sync
T_Sync
T_Sync
HOM-L
HOM-L
HOM-L
10
11
UL In
└ DL / UL (B)
└ DL / UL (B)
└ DL / UL (B)
└ DL / UL (B)
└ DL / UL (B)
└ UL Div (B)
└ UL Div (B)
└ UL Div (B)
└ UL Div (B)
└ UL Div (B)
Spare Fuse
- 30 -
DL
SCM
HFM-L-7
HFM-L-C
KMW
HFM-L-P
KMW
HFM-L-P
HFM-L-W
HCM-8
KMW
UL
HFM-L-A
KMW
DL
UL
DTM-8X8
KMW
KMW
KMW
FAN
12
KMW
KMW
HPSU
PWR
PWR
PWR
ALM
ALM
DL
COM
UL
COM
#1
#1
PWR
ALM
VHF
UHF
DL MON
PWR
ALM
VHF
UHF
UL MON
#2
OUT IN
#1
#1
#2
#2
#2
OUT
#1
#1
#2
Up
#3
#3
#3
#3
#3
#3
#4
#4
#4
#4
#4
#4
#5
#5
#5
#5
#5
#5
#6
#6
#6
#6
#7
#7
#7
#7
#8
#8
#8
#8
UL
#2
FUSE
#1
DL
UL
#2
DL
UL
#2
DL
UL
DL
UL
#3
UL
#3
#2
#3
#10
#9
#8
#7
#6
#5
#4
#3
#2
#1
#3
DL
DL
DL
DL
DL
UL
UL
UL
UL
UL
#4
#11
UL
#3
UL
#4
#12
DL
DL
#4
#4
#4
#6
DL
DL
UL
#8
#2
DL
#3
Web GUI
#7
UL Out
#1
DL
UL
#4
#6
DMCU
- 30 -
UL Out
#1
DL
UL
#2
ALM Reset
Down ESC
ALM
UL Out
#1
DL
UL
UL
Link
PWR
ALM
UL Out
#1
DL
UL
#2
Run
PWR
ALM
UL Out
DL
DL
ENT
PWR
ALM
UL Out
#1
IN
#7
DL
UL
DL In
#8
DL
UL
DL
UL
DL In
DL In
DL
UL
DL In
UL
DL In
DL In
Spare Fuse
T_Sync
T_Sync
T_Sync
T_Sync
T_Sync
T_Sync
HOM-L
HOM-L
HOM-L
HOM-L
HOM-L
HOM-L
- 30 DL
SCM
UL
DL
HCM-8
KMW
KMW
UL
DTM-8X8
KMW
Path A
KMW
KMW
PCS
PCS
ALM
PWR
ALM
KMW
11
PWR
KMW
KMW
KMW
PWR
PWR
PWR
ALM
PWR
ALM
ALM
ALM
DL Out
DL Out
DL MON
DL MON
DL Out
DL Out
UL MON
DL Out
DL Out
UL MON
UL MON
ALM
DL
COM
UL
COM
#1
#1
#1
OUT IN
#1
#1
OUT
#1
#2
#2
#2
#2
#2
#2
#3
#3
#3
#3
#3
#3
#4
#4
#4
#4
#4
#4
#5
#5
#5
#5
#6
#6
#6
#6
#7
#7
#7
#7
#8
#8
#8
#8
VHF
UHF
DL MON
UL Out
UL In
UL In
UL In
ENT
Up
Down ESC
DL MON
DL MON
Path B
Path B
DL MON
DL MON
DL Out
DL Out
UL MON
UL MON
DL Out
DL Out
UL Mon
UL MON
UL In
UL In
UL MON
UL MON
UL In
UL In
UL In
UL In
#6
#5
KMW
HFM-L-P
HFM-L-P
KMW
10
11
HFM-L-W
HCM-8
KMW
WCS
AWS
PCS
850M
700M
┌ DL / UL (A)
┌ DL / UL (A)
┌ DL / UL (A)
┌ DL / UL (A)
┌ DL / UL (A)
┌ DL / UL (A)
12
┌ UL Div (A)
┌ UL Div (A)
┌ UL Div (A)
┌ UL Div (A)
┌ UL Div (A)
┌ UL Div (A)
HPSU
- 30 -
FUSE
#2
#12
#11
#10
#9
#8
#7
#6
#5
#4
#3
#2
#1
#3
UL
UL
#4
#4
DL
DL
UL
UL
#7
DL In
DL In
DL In
#8
T_Sync
T_Sync
T_Sync
HOM-L
HOM-L
HOM-L
10
11
└ DL / UL (B)
└ DL / UL (B)
└ DL / UL (B)
└ DL / UL (B)
└ DL / UL (B)
└ UL Div (B)
└ UL Div (B)
└ UL Div (B)
└ UL Div (B)
└ UL Div (B)
Spare Fuse
- 30 -
UL
HFM-L-A
DL
DL
UL
UL
#8
HFM-L-C
UL
#3
#6
DL
#7
DL
HFM-L-7
#1
DL
UL
DL
#5
Web GUI
SCM
UL
#2
DL
#3
#4
DMCU
DL
UL
UL
Path B
#1
DL
#2
DL
Path B
UL Out
UL Out
DL
UL
ALM Reset
ALM
ALM
VHF
UHF
UL MON
#1
IN
Link
WCS
PWR
UL MON
UL In
Run
FAN
12
DL MON
PWR
ALM
KMW
10
Path A
DL MON
PWR
KMW
Path A
DL MON
PWR
ALM
KMW
Path A
DL MON
PWR
DL
UL
DTM-8X8
KMW
KMW
FAN
12
KMW
HPSU
PWR
PWR
PWR
ALM
ALM
PWR
ALM
DL
COM
UL
COM
#1
#1
#1
OUT IN
#1
#1
OUT
#1
#2
#2
#2
#2
#2
#2
VHF
UHF
DL MON
PWR
ALM
VHF
UHF
UL MON
ALM
UL Out
#4
Run
Link
ENT
Up
#3
#4
#3
#4
#4
#3
DL
UL
UL
#2
DL
DL
UL
UL
UL
#4
#3
#4
#5
#5
#5
#6
#6
#7
#7
#8
#8
#5
#5
#6
#6
#7
#7
#8
#8
#10
#9
#8
#7
#6
#5
#4
#3
#2
#1
DL
UL
UL
#4
#4
#4
#6
DL
DL
UL
#8
#11
#3
DL
UL
#5
Web GUI
#7
#12
#3
DL
Down ESC
#2
DL
#3
ALM Reset
#6
DMCU
FUSE
#1
DL
#2
#3
UL Out
#1
DL
UL
#3
- 30 -
UL Out
#1
IN
#7
DL
UL
DL In
#8
UL
DL In
DL In
T_Sync
T_Sync
T_Sync
HOM-L
HOM-L
HOM-L
Spare Fuse
- 30 -
DL
SCM
KMW
UL
DL
HCM-8
KMW
UL
DTM-8X8
KMW
KMW
KMW
KMW
10
FAN
11
KMW
12
10
11
12
KMW
Path A
DL MON
PWR
700M
PWR
PWR
DL Out
PWR
ALM
ALM
ALM
PWR
ALM
DL
COM
UL
COM
#1
#1
#1
OUT IN
#1
#1
OUT
#1
#2
#2
#2
#2
#2
#2
#3
#3
#3
#3
#3
#3
VHF
UHF
DL MON
PWR
ALM
VHF
UHF
UL MON
T-Sync
Run
Link
Up
ALM Reset
#3
Down ESC
#4
#4
#4
#4
#4
#4
#5
#5
#5
#5
#5
#5
#6
#6
#6
#6
#7
#7
#7
#7
#8
#8
#8
#8
Path B
DL MON
#6
#2
#12
DL
UL
#11
#10
#9
#8
#7
#6
#5
#4
#3
#2
#1
UL
#3
#3
#3
DL
DL
DL
DL
UL
UL
UL
UL
#4
DLOut
DMCU
FUSE
UL
#2
DL
UL
┌ UL Div (A)
#1
DL
UL
#2
DL
#3
- 30 -
UL Out
#1
DL
UL
UL
ENT
UL Out
#1
DL
#2
DL
┌ DL / UL (A)
ALM
UL Out
DL
UL
UL In
#2
PWR
ALM
UL Out
#1
IN
UL MON
#1
HPSU
#4
#4
#4
#6
DL
Web GUI
DL
UL
DL
UL
DL
UL
UL
#4
UL MON
#7
#8
#7
DL In
#8
DL In
DL In
DL In
T_Sync
T_Sync
T_Sync
T_Sync
HOM-L
HOM-L
HOM-L
HOM-L
└ DL / UL (B)
UL In
HFM-L-B
Spare Fuse
- 30 -
DL
SCM
UL
DL
HCM-8
└ UL Div (B)
UL
DTM-8X8
Figure 3-1
© KMW USA Inc.
1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
10
11
FAN
12
Head-end Unit Rack Mount (Front & Rear view)
74
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.
(1)H-PSU → (2)H-DMCU →(3-1)H-CDU #1 →(4-1)H-SRU #1 … (3-7)H-CDU #7 →(4-7)H-SRU #7 →(5)H-FAU
 H-PSU must be installed at the top of the rack.
 H-DMCU must be installed right below H-PSU on the rack.
 H-SRU must be installed below H-DMCU with skip 1U gap
 H-CDU must be installed between H-DMCU and H-SRU.
 H-FAU (FAN Unit) will be installed in the empty space from rear side of H-CDU (Cable duck Unit).
Regarding FAN installation, refer to section -.
#1
KMW
#2
#3
#4
Group Rack
DMCU
12 12
Power
Alarm
DMCU
HPSU
#5
#6
#7
#1
#8
#2
#3
#4
KMW
Run
ENT
Link
Up
DMCU
Alarm
Down
HE
Alarm
ESC
RU
Alarm
Web GUI
Reset
11
10
12
13
15
14
16
17
19
18
20
21
23
22
24
25
27
29
31
26
28
30
32
12
11
10
KMW
Modem
3-1
KMW
KMW
KMW
Path A
KMW
Path A
DL MON
KMW
Path A
DL MON
KMW
PCS
KMW
Path A
DL MON
KMW
KMW
KMW
Path A
DL MON
KMW
KMW
Path A
DL MON
DL MON
PWR
PWR
PWR
PWR
PWR
PWR
PWR
PWR
ALM
ALM
ALM
ALM
ALM
ALM
ALM
ALM
DL Out
DL Out
DL Out
DL MON
DL Out
DL Out
DL Out
UL MON
UL MON
UL MON
DL Out
UL MON
UL MON
UL MON
PWR
ALM
DL
COM
UL
COM
#1
#1
UL Out
#1
DL
#1
UL In
UL In
UL In
UL In
UL
UL In
UL In
#2
#2
#3
#3
#4
#4
#5
#5
#6
#6
#7
#7
#2
DL
4-1
UL
#2
T-Sync
Run
Link
ENT
Up
ALM Reset
Down ESC
Path B
Path B
Path B
Path B
Path B
DL MON
DL MON
DL MON
DL MON
DL MON
#3
Path B
#3
DL
DL MON
UL
#4
DMCU
DL Out
DL Out
DL Out
UL MON
DL Out
DL Out
UL Mon
UL MON
UL MON
UL In
UL MON
UL MON
DLOut
DL
Web GUI
UL
#4
UL MON
#8
UL In
UL In
UL In
UL In
UL In
#8
FEM-L-7
#1
FEM-L-S8
#2
FEM-L-C
FEM-L-P
#3
FEM-L-A
#4
#5
DMCU
FEM-L-W
T_Sync
UL In
DL
SCM
DL In
FEM-L-B
#6
#7
UL
COM-8
BLANK
HOM-L
BLANK
#8
HSRU
Power SW
External Alarm
DMCU
HPSU
Input
Output
HPSU
BRS
┌ DL / UL (A)
WCS
AWS
PCS
850M
S8
P7/P8
700M
┌ DL / UL (A)
┌ DL / UL (A)
┌ DL / UL (A)
┌ DL / UL (A)
┌ DL / UL (A)
┌ DL / UL (A)
┌ DL / UL (A)
┌ UL Div (A)
┌ UL Div (A)
┌ UL Div (A)
┌ UL Div (A)
┌ UL Div (A)
┌ UL Div (A)
┌ UL Div (A)
- 30 -
FUSE
4-1
#12
#11
#10
#9
#8
#7
#6
#5
#4
#3
#2
#1
Spare Fuse
└ DL / UL (B)
Figure 3-2
© KMW USA Inc.
1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
└ DL / UL (B)
└ DL / UL (B)
└ DL / UL (B)
└ DL / UL (B)
└ DL / UL (B)
└ DL / UL (B)
└ UL Div (B)
└ UL Div (B)
└ UL Div (B)
└ UL Div (B)
└ UL Div (B)
└ UL Div (B)
- 30 -
FAN
Head-end Unit - Rack Mount Sequence
75
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 1.5dB higher than the loss
reported in the Web-GUI, the optic loss should be minimized through cleaning optic connectors.(Figure 3-3)

The unused optic ports are should be covered with a protective dust cap. (Figure 3-4)
Figure 3-3
Optic Connector Cleaning (left) and Optic Port Cleaning (right)
Figure 3-4
© KMW USA Inc.
1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
www.kmwcomm.com
LC/APC Optic Connector Dust Cap
76
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.
 ** The M10 screw anchors are not included as part of the RU delivery because the suitable type
depends on the on-site conditions such as wall structure and materials. Therefore, use screw anchors
that are appropriate for the mounting surface.
Install the Remote Unit on the wall-mounting bracket by lifting the RU into place and lowering it down onto
the bracket. The M6 pins must align with the slots in the bracket to support the RU.
Figure 3-6
3/5/7 band RU, PS700/800 RU – wall mount bracket
3/5/7 band RU, PS700/800 RU – Install RU into wall mount bracket
Fasten the lower section of the Remote Unit to the bracket using a washer and 2 x M6 screws (on both
sides). Slide a washer over each screw and then insert the screw and tighten it securely.
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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. Do not use earth-bonding cable to connect other external devices.
 loosen the two hex bolts attached to remote unit as illustrated in Figure 3-8, Step A
 Connect the earth-bonding cable to remote unit as illustrated in Figure 3-8, Step B
 Then, fasten all parts again by tightening the hex bolts as illustrated in Figure 3-8, Step C
Connect the other end of the ground wire to a suitable permanent ground following local electrical code
practices.
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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.
Ethernet cable

Cable
RF Cable

Revision: 0.7
Between H-DMCU and H-PSU
 Length: 30cm
Between H-SRU and H-PSU
 Length: 2m
Between H-SRU and H-FAU
 Length: 40cm
AC Power Cable
 Length: 2m
GND Cable
H-DMCU, H-PSU, H-SRU
 Length: 1m
Ethernet
Cable
H-DMCU~
H-PSU
Downlink
RF cable
H-SRU~
H-PSU
Uplink
RF cable
Figure 4-1
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Head-end - cables
79
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
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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: 0.7
From
To
H-DMCU
H-DMCU
H-SCM
H-PSU
Comments
Power & signal cable connection
Power & Signal cable
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From
To
H-PSU
H-PSU
H-SRU
H-DMCU
H-SRU
H-FAU
Comments
81
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. H-FEM-L-B has 4 TDD sync output port and each TDD sync
port is connected to TS sync port of H-HOM-L to transfer TDD signal over optic cable.
Figure 4-3
Cable Connection Example #1 for TDD 2.6G frequency band
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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.
Ethernet cable connection
Ethernet cable

To
From
To
H-DMCU
H-DMCU
H-SCM
H-PSU
From
To
H-PSU
H-PSU
H-SRU
H-DMCU
H-SRU
H-FAU
Comments
Power & signal cable connection
Power & Signal cable
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Tel. +1 (714) 515-1100
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Comments
83
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.
All RF ports for the connection between modules installed in H-SRU are located in the front of H-SRU.
Optic cable connection

Cable Connection Example for Public Safety 700/800 band
The optic ports for the connection with Remote units are located in the front panel of H-HOM-L.
Power & signal cable connection
Power & Signal cable
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www.kmwcomm.com
From
To
H-PSM
H-SRU
H-SRU
H-FAU
Comments
84
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. 2 H-FEM-L-P are needed to support MIMO
configuration for PCS frequency band.
H-COM: 1ea
H-DTM: 1ea
H-HOM-L: 3ea
Figure 4-5 shows cable connection example for MIMO configuration.

MIMO #1

H-FEM-L-x in H-SRU #1
H-COM, H-DTM, and H-HOM-L in H-SRU #1
MIMO #2
H-FEM-L-x in H-SRU #1
H-COM, H-DTM, and H-HOM-L in H-SRU #2
H-SRU #1
H-SRU #2
Figure 4-5
Cable Connection for FDD frequency band (MIMO) support
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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.
RF cable connection For MIMO #1
 H-FEM-L-x in H-SRU #1H-COM in H-SRU #1 H-DTM in H-SRU #1H-HOM-L in H-SRU #1
RF cable connection For MIMO #2
 H-FEM-L-x in H-SRU #1H-COM in H-SRU #2 H-DTM in H-SRU #2H-HOM-L in H-SRU #2
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: 0.7
From
To
H-DMCU
H-DMCU
H-DMCU
H-SCM in H-SRU #1
H-SCM in H-SRU #2
H-PSU
From
To
H-PSU
H-PSU
H-PSU
H-SRU
H-DMCU
H-SRU #1
H-SRU #2
H-FAU in H-SRU #1
Comments
Power & signal cable connection
Power & Signal cable
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1818 E. Orangethrope Ave, Fullerton, CA 92831
Tel. +1 (714) 515-1100
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Comments
86
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 2.1.12.7 to figure out how to set Rack ID.
It might need longer RF cable than RF cable with 35”length included in the packaged box for the connection
between racks. In this case, user needs to buy extra cable with longer length in advance. For your information,
RF cable with 60”, and 90” length can be provided by user’s special order.
Rack ID : #1
Rack ID : #2
Rack ID : #3
Rack ID : #4
Sub-Rack
#1
Sub-Rack
#2
Sub-Rack
#3
Sub-Rack
#4
Sub-Rack
#5
Sub-Rack
#6
Sub-Rack
#7
Figure 4-6
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Tel. +1 (714) 515-1100
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Connection Diagram for Rack Inter Connection
87
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
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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.
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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.
If there is no expansion RU connected main RU, close/fasten the door for debug window and front door by
using SECURITY SCREWS (M4) and allowed Torque: 12.0 Kgfcm.
If there is an expansion RU connected main RU, continue in section 4.2.1.4.
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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.
Close/fasten the door for debug window and front door by using SECURITY SCREWS (M4) and allowed
Torque: 12.0 Kgfcm.
Connect the other side of Ethernet cable to EXT pot of expansion RU based on section 4.2.1.4.
CAUTION) The location of EXT pot in expansion RU is different from the location of EXT port in main RU. Make
sure where the location of EXT port in expansion RU is (refer to Figure 2-57) before connecting Ethernet cable to
expansion RU.
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User Manual for POD Systems
5.
Revision: 0.7
SPECIFICATION
5.1
Electrical Specifications (Low power HFM – Low power RU)
Table 5-1
POD DAS 2-Band RU Electrical Specifications (POD-R-P78-27-AC/DC)
Parameter
Specifications
DL
UL
DL
Input
UL
DL
Maximum
Output
UL
DL
Gain Range
UL
Noise Figure @Max Gain
Input/output Impedance
VSWR
System Delay
Permitted optic loss
Frequency Error & EVM (LTE)
Frequency Error & Rho (CDMA)
Frequency
Out of Band Emission
Operating Band
Unwanted
Emissions
CDMA
WCDMA/LTE
2 tone CW Test
Head-end
Operating
Temperature
RU
Operating Humidity
RU Enclosure
Remark
PS 700
PS 800
758 - 775M
788 - 805M
851 - 869M
806 - 824M
-40 ~ 20dBm
-42dBm
27dBm
-5dBm
7dB to 67dB
-8dB to 37dB
< 6 dB
50 ohm
< 1:1.7
< 2us @2.6G, < 5us @other bands
HOM-L: ~7.5dBo, HOM-H/OEM/OIM: ~10.5dBo
Frequency Error: <±0.01ppm, EVM: < 5%
Frequency Error: <±0.05ppm, Rho: >0.912
-13dBm/1KHz @9KHz – 150KHz
-13dBm/10KHz @150KHz – 30MHz
-13dBm/100KHz @30MHz – 1GHz
-13dBm/1MHz @1GHz – 12.75GHz
-45dBc/30KHz @±885KHz, -45dBc/30KHz @±1.125MHz
-50dBc/30KHz @±1.98MHz,
<-13dBm/30KHz @±2.25MHz, <-13dBm/1MHz @±4.0MHz
Meet 3GPP WCDMA/LTE Repeater Spec.
Downlink: > 40dBc, Uplink: > 50dBc @two CW tone 1MHz separation
-10 ~ +50°C
-40 ~ +55°C
≤ 95%, non-condensing
Meet IP65, NEMA4X
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www.kmwcomm.com
-42dBm
@all temperature range
@all temperature range
@1 RU, optic loss: 0dB
92
User Manual for POD Systems
Table 5-2
Revision: 0.7
POD DAS 7-Band RU Electrical Specifications (POD-R-7S8CPAWB-2730-AC/DC)
Parameter
700M
DL
Frequency
UL
728-756M
698-716M
777-787M
DL
UL
DL
Maximum
Output
UL
DL
Gain Range
UL
Noise Figure @Max Gain
Input/output Impedance
VSWR
System Delay
Permitted optic loss
Frequency Error & EVM (LTE)
Frequency Error & Rho (CDMA)
Input
Out of Band Emission
Operating Band
Unwanted Emissions
CDMA
WCDMA/LTE
2 tone CW Test
Head-end
Operating
Temperature
RU
Operating Humidity
RU Enclosure
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Tel. +1 (714) 515-1100
www.kmwcomm.com
PCS
Specifications
AWS
SMR 800 +
850M
862 - 894M
1930-1995M
817 - 849M
1850-1915M
Remark
WCS
2.5G
2110-2180M
2350-2360M
2496-2690M
1710-1780M
2305-2315M
2496-2690M
-15 ~ 20dBm
-42dBm
27dBm
-45dBm
30dBm
@all temperature range
@all temperature range
-5dBm
7dB to 42dB
-8dB to 37dB
10dB to 45dB
-5dB to 40dB
< 6 dB
50 ohm
< 1:1.7
< 2us @2.6G, < 5us @other bands
HOM-L: ~7.5dBo, HOM-H/OEM/OIM: ~10.5dBo
Frequency Error: <±0.01ppm, EVM: < 5%
Frequency Error: <±0.05ppm, Rho: >0.912
-13dBm/1KHz @9KHz – 150KHz
-13dBm/10KHz @150KHz – 30MHz
-13dBm/100KHz @30MHz – 1GHz
-13dBm/1MHz @1GHz – 12.75GHz
-45dBc/30KHz @±885KHz, -45dBc/30KHz @±1.125MHz, -50dBc/30KHz @±1.98MHz
<-13dBm/30KHz @±2.25MHz, <-13dBm/1MHz @±4.0MHz
Meet 3GPP WCDMA/LTE Repeater Spec.
Downlink: > 40dBc, Uplink: > 50dBc @two CW tone 1MHz separation
-10 ~ +50°C
-40 ~ +55°C
≤ 95%, non-condensing
Meet IP65, NEMA4X
93
@1 RU, optic loss: 0dB
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).
The table shown in below shows the basic model and additional models which are derived from the basic model.
Table 5-3
Basic Model and Additional Models on 2-Band Remote Unit
Basic Model
Additional Model
Activated RF Band
Blocked RF band
POD-R-P78-27-AC
POD-R-P7-27-AC
POD-R-P8-27-AC
PS 700M, PS 800M
PS 700M
PS 800M
N/A
PS 800M
PS 700M
Table 5-4
Basic Model and Additional Models on 7-Band Remote Unit
Basic Model
Additional Model
Activated RF Band
Blocked RF band
POD-R-7S8CPAWB-2730-AC
LTE 700M, SMR 800M, Cellular 850M, PCS 1.9G,
AWS 2.1G, WCS 2.3G, BRS 2.5G
LTE 700M, SMR 800M, Cellular 850M, PCS 1.9G,
AWS 2.1G, WCS 2.3G
LTE 700M, Cellular 850M, PCS 1.9G, AWS 2.1G,
WCS 2.3G, BRS 2.5G
LTE 700M, Cellular 850M, PCS 1.9G, AWS 2.1G,
WCS 2.3G
LTE 700M, Cellular 850M, PCS 1.9G, AWS 2.1G,
LTE 700M, PCS 1.9G, AWS 2.1G
Cellular 850M, PCS 1.9G, AWS 2.1G
LTE 700M, Cellular 850M, PCS 1.9G
SMR 800M, PCS 1.9G, BRS 2.5G
N/A
POD-R-7S8CPAW-2730-AC
POD-R-7CPAWB-2730-AC
POD-R-7CPAW-2730-AC
POD-R-7CPA-2730-AC
POD-R-7PA-2730-AC
POD-R-CPA-2730-AC
POD-R-7CP-2730-AC
POD-R-S8PB-2730-AC
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BRS 2.5G
SMR 800M
SMR 800M, BRS 2.5G
SMR 800M, WCS 2.3G, BRS 2.5G
SMR 800M, Cellular 850M, WCS 2.3G, BRS 2.5G
LTE 700M, SMR 800M, WCS 2.3G, BRS 2.5G
SMR 800M, AWS 2.1G, WCS 2.3G, BRS 2.5G
LTE 700M, Cellular 850M, AWS 2.1G, WCS 2.3G,
94

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Title                           : PDO User Manual
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