Andrew Wireless Innovations Group IONEUAP ION-E User Manual User s Manual for ION E

Andrew Wireless Innovations Group ION-E User s Manual for ION E

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        ION®-E  Series          PRELIMINARY           User's Manual M0201A0A
DISCLAIMER: This  document has been developed  by  CommScope, and  is  intended  for the  use  of  its  customers  and  customer support personnel. The information in this document is subject to change without notice. While every effort has been made to  eliminate  errors,  CommScope disclaims  liability  for any  difficulties  arising  from the  interpretation of  the information  contained herein.  The  information  contained herein  does  not claim  to  cover  all  details  or  variations  in equipment, nor to  provide  for  every  possible  incident to be  met  in  connection  with  installation, operation, or maintenance. This document describes the performance of the product under the defined operational conditions and does  not  cover the  performance  under  adverse  or  disturbed  conditions.  Should  further  information be  desired, or should particular problems arise which are not covered sufficiently for the purchaser’s purposes, contact CommScope. CommScope reserves the right to change all hardware and software characteristics without notice. COPYRIGHT: © Copyright 2014 CommScope Inc. All Rights Reserved. This document is protected by copyright. No part of this document may be reproduced, stored in a retrieval system, or transmitted, in  any form  or by any means, electronic, mechanical photocopying, recording, or otherwise  without the prior written permission of CommScope. For patents see  www.cs-pat.com. TRADEMARKS All trademarks identified by ® or ™ are registered trademarks or trademarks, respectively, of CommScope. Names of products  mentioned  herein  are  used  for  identification  purposes  only  and  may  be  trademarks  and  /  or  registered trademarks of their respective companies.  Andrew Wireless Systems GmbH, 09-February-2015        1.   General  1.1.   DCCS Technical Support  For technical assistance and support, please contact the DCCS technical support team. Email: wisupport@commscope.com +1 888-297-6433 in North and South America and +49 9099-69-333 in Europe, Middle East and Asia  1.2.    Equipment Symbols Used / Compliance  Please observe the meanings of the following symbols used in this equipment:  Symbol  Compliance  Meaning     ---  FCC  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 an FCC Licensee to operate this device. Unauthorized use may result in significant forfeiture penalties, including penalties in excess of $100,000 for each continuing violation.  You MUST register Class B signal boosters (as defined in 47 CFR 90.219) online at www.fcc.gov/signal- boosters/registration.  Alert sign to R&TTE To be sold exclusively to mobile operators or authorized installers – no harmonised frequency bands, operation requires license CE  Intended use: EU and EFTA countries   Indicates conformity with the R&TTE directive 1999/5/EC certified by the notified body no. 0700. M0201A0A_uc   User’s Manual for ION®-E Page 2
1. General   1.3.  Health and Safety    1.  Warning: A High leakage current ground (earth) connection to the power supply subrack is essential before connecting the supply.   2.  Caution: Laser radiation. Risk of eye injury in operation. Do not stare into the beam; do not view it directly or with optical instruments.   3.  Caution:  High  frequency  radiation  in  operation.  Risk  of health hazards associated with radiation from the antenna(s) connected  to  the  unit.  Implement  prevention  measures  to avoid  the  possibility  of  close  proximity  to  the  antenna(s) while in operation.  1.4.  Property Damage Warnings  1.  Attention: Due to power dissipation, the power supply units may reach a very high temperature if not properly ventilated. Do  not  operate  this  equipment  on  or  close  to  flammable materials. 2.  Notice:   ESD   precautions   must   be   observed.   Before commencing maintenance work, use the available grounding (earthing) system to connect ESD protection measures. 3.  Notice:  Keep  operating  instructions  within easy  reach  and make them available to all users. 4.  Notice:  Only  license  holders  for  the  respective  frequency range are allowed to operate this unit. 5.  Notice:  Read  and  obey  all  the  warning  labels  attached  to the  unit.  Make  sure  that  all  warning  labels are  kept  in a legible condition. Replace any missing or damaged labels. 6.  Notice:  Make  sure  the  unit’s  settings  are  correct  for  the intended use (refer to the manufacturer product information) and  regulatory  requirements  are  met.  Do  not  carry  out  any modifications  or  fit any  spare  parts,  which  are  not  sold or recommended by the manufacturer.  1.5.  Compliance  1.  Warning! This  is  class  A  equipment.  This equipment  can cause radio interference in domestic areas. In this case the          operator can be asked to start preventive action. 2.  Notice: For installations, which have to comply with FCC RF exposure   requirements,    the  antenna    selection   and installation   must   be   completed   in   a   way   to   ensure compliance with those FCC requirements. Depending on the RF  frequency,  rated  output  power,  antenna  gain,  and  the loss  between  the  repeater  and  antenna,  the  minimum distance  D  to  be maintained  between  the  antenna  location and human beings is calculated according to this formula: 3.  Notice:   For   installations   which   have   to   comply   with European EN50385 exposure compliance requirements,  the following  Power  Density  limits/guidelines  (W/M²)  according to ICNIRP are valid: a.     2 for frequencies from 10 MHz to 400 MHz b.  F (MHz) / 2000 for frequencies from 400 MHz to 2 GHz c.     10 for frequencies from 2 GHz to 300 GHz 4.  Notice: Notice: For installations which have to comply with FCC/Industry Canada requirements:  English  This device complies with FCC Part 15. Operation is subject to the following two conditions: (1) this device may not cause interference,   and   (2)    this    device  must    accept   any interference,  including    interference    that  may  cause undesired operation of the device.  This device  complies  with  Health  Canada’s  Safety  Code. The installer of this device should ensure that RF radiation is not  emitted  in  excess  of  the  Health  Canada’s requirement. Information can be obtained at http: //www.hc-sc.gc.ca/ewh-semt/pubs/radiation/radio_guide- lignes_direct-eng.php.  Changes  or  modifications  not  expressly approved  by  the party  responsible  for  compliance  could void  the  user’s authority to operate the equipment.  The antenna(s) used for this transmitter must be installed to provide  a  separation  distance  of  at  least  20  cm  from  all persons  and  must  not  be  co-located  or  operating  in conjunction with any other antenna or transmitter.  French  Cet  appareil est  conforme  à  FCC  Partie15.  Son  utilisation est   soumise  à  Les  deux   conditions   suivantes:  (1)   cet appareil  ne  peut  pas  provoquer  d’interférences  et  (2)  cet appareil doit  accepter  Toute  interférence,  y  compris  les interférences   qui   peuvent    causer  un  mauvais fonctionnement du dispositif.  Cet  appareil est  conforme  avec  Santé  Canada  Code  de sécurité  6.  Le  programme  d’installation  de  cet  appareil doit s’assurer  que les  rayonnements  RF  n’est  pas  émis  au-delà de  I’exigence  de  Santé  Canada.  Les  informations  peuvent être obtenues: http://www.hc-sc.gc.ca/ewh- semt/pubs/radiation/radio_guide-lignes_direct-fra.php  Les  changements  ou  modifications  non  expressément approuvés  par  la  partie  responsable   de  la   conformité D[ cm]  =  where P[ mW ] 4 ∗π ∗ PD  2 [ mW / cm   ] pourraient  annuler  l'autorité  de  l'utilisateur  à  utiliser  cet équipement.  La ou les antennes utilisées avec cet émetteur doivent être installées  avec  une  séparation  d’au  minimum  20cm  avec • P (mW) is  the radiated power at the antenna, i.e. the max.  rated  repeater  output  power  in addition  to  the antenna gain minus the loss between the repeater and the antenna. a.  PD  (mW/cm²)  is  the  allowed  Power  Density  limit  acc. to  47  CFR  1.1310  (B)  for  general  population / uncontrolled exposures which is o F (MHz) / 1500 for frequencies from 300MHz to 1500MHz o 1 for frequencies from 1500MHz to 100,000MHz RF exposure compliance may need to be addressed at the time of licensing, as required by the responsible FCC Bureau(s), including antenna co-location requirements of 1.1307(b)(3). toute  personne  et  ne  doivent  pas  être  co-localisées  ou utilisées avec toute autre antenne ou tout autre émetteur.  5.  Notice:  Corresponding  local  particularities  and  regulations must  be  observed.  For  national  deviations,  please  refer  to the respective documents included in the manual CD that is delivered with the unit.        M0201A0A_uc   User’s Manual for ION®-E  Page 3
 2. ION-E System Overview    6.  Note: For a Class A digital device or peripheral: This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to EN55022 and 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. 7.  Note: This unit complies with European standard EN60950.  2.  ION-E System Overview The ION-E is  a unified  wireless infrastructure platform defined around IT based architecture. It brings together licensed wireless and power, plus Gigabit Ethernet for Wi-Fi into one wireless network that can scale to building size and is technology and spectrum agnostic and adaptive. • Central Area Node (CAN): Server-level control and primary signal distribution. 2U and 4U subrack options are available. • Transport Expansion Node (TEN): The secondary distribution point connected to a CAN using multimode or single mode fiber. • Universal Access Point (UAP): data and power through Category 6A twisted pair cabling. Supports gigabit Ethernet for WiFi, IP cameras, or other devices in addition to wireless over a common cable.                      2.1.    ION-E Components Overview    WCS-4   The WCS-4 is a 4U subrack. It is typically used as a CAN but can also serve as a TEN.    WCS-2  The WCS-2 is a 2U subrack. It is typically used as a TEN, but can also serve as a CAN.   SUI  The System User Interface card provides local and LAN Ethernet connections and a USB port.     RFD The RF Donor card is the interface for RF signals between the CAN and the BTS or eNode-B. Each of its four ports (QMA F) simultaneously transmits and receives signals.     OPT  The OPtical Transport card provides a 10 Gb fiber connection between a CAN and a TEN. Each card supports up to four SFP+ modules.     CAT  The Copper Transport card provides 10 Gb Cat6A connections between the CAN or TEN and the UAP. The cards also supply the PoE to the UAPs.    M0201A0A_uc   User’s Manual for ION®-E Page 4
 Metal Cabinet 2.  ION-E System Overview    AUT The Auxiliary Unit Transport card provides a 1 Gb pass-through connection between the CAN or TEN and the UAP for Wi-Fi, IP cameras, or other 1 Gb Ethernet devices.     BIT  The Baseband Interface Transceiver card provides the fiber interface to BBU ports. Up to six BBU port connections per card are supported.     Power Supply Subrack  The Power Supply subrack houses two 12 Vdc and two 57 Vdc modules to supply power to the WCS subracks, UAPs, and connected devices.   12 VDC  The 12 Vdc modules plug into the power supply subrack to provide 12 Vdc power to the WCS and e-POI subracks.    57 VDC  The 57 Vdc modules plug into the power supply subrack to provide 57 Vdc power for the UAP and other PoE devices connected to a WCS subrack.    UAP   The Universal Access Point broadcasts up to 300 MHz of RF spectrum in four bands. Plus it has a gigabit Ethernet port for ancillary devices.    FAN  The Fan tray and Filter modules cool the WCS and all of its cards. One fan tray is used for a WCS-2. Two trays are used for a WCS-4.    e-POI Subrack   The e-POI subrack supports up to 8 e-POI modules and an IFC module.    e-POI   The e-POI (Point of Interface) card is a low PIM attenuator.  It reduces high power RF signals from their source by 30 dB to interface to the RFD cards.     IFC  The IFC (Interface Card) is used to set the subrack number of the e-POI subrack. It also provides a status LED for each of the e-POI modules in the subrack.    2.2.    UAP Ceiling Mounting  The UAP is equipped with a grounding screw located in the center of the unit, however, grounding is not required as UAPs are classified  as  low-voltage  devices  and  do  not  have  internal  power  supplies.  CommScope  recommends  checking  your  local  and national electrical codes to determine if grounding is a requirement.     WiFi   3m min Install below ceiling grid only    2m min   Collocated UAPs (MIMO)   3m min M0201A0A_uc   User’s Manual for ION®-E Page 5
 Summary Alarm 2 A max 30 Vdc max 125 Vac max  3. ION-E Hardware  3.  ION-E Hardware  3.1.  WCS-2 and WCS-4 Subracks  Left Middle  Right L8 R8 L7 R7 L6 R6 L5 R5  L4 L3 L2 L1   1    2    3  4 M3  R4 M2  R3 R2 M1  5   6   7    8 1   2   3    4  R1      1    2    3  4    E A  B  C  D   F   WCS subrack rear connectors A RECTIFIER CONTROL: PSU communication D POWER 12 Vdc and 55 Vdc Inputs B POI: POI Communication E Grounding Bolts C POI POWER 12 Vdc to e-POI subrack F ALARMS:  Dry contact input and output   Alarms Connector • Four opto-isolated (chassis ground referenced) dry contact inputs to monitor external devices • One summary alarm relay that energizes when specific alarms are triggered ALARMS 1  2  3 4 5  6 Relay COM GND  Relay NC    IN1   IN2   IN3    IN4      Relay NO NC  COM  NO   WCS Fan Modules and Filters • Fan modules may be replaced without system interruption. • The fan modules must be installed for WCS operation! • Blank panels are required for all empty card slots to maximize airflow.    3.2.  System User Interface Card (SUI) – for external communications    Ports   Port LEDs Local: Local laptop - fixed IP address Off No link  LAN1: To collocated WCS subracks Green Link established - Activity (flashing) (Left LED) LAN2: LAN or modem - DHCP or specified fixed IP address Off 10 Mb connection established (Right LED) USB: USB 2.0 for transferring files Yellow 100 Mb connection established (Right LED) M0201A0A_uc   User’s Manual for ION®-E Page 6
 3.  ION-E Hardware  3.3. RF Donor Card (RFD) – RF Signals to/from eNodeB / BTS    Ports 1-4 LCD Display Connector type: QMA female RF Paths: Simultaneous transmit and receive Protection: Relays with adjustable trip threshold Frequency: 380 – 2700 MHz •  Push the Display button to turn on the display’s backlight. •  Push the button repeatedly to cycle through the four ports. •  The first line of the display shows the port number and band. •  The second line of the display shows the service provider or “multiple” if multiple providers are connected to the port.  3.4. Optical Transport Card (OPT) – Fiber Connection between CAN and TEN    Ports 1-4 Port LEDs Slots: Accept SFP+ plug-in modules Off No power or card is plugged into wrong slot in a TEN. Type: 10 Gbps single mode or multimode Green Optical link is established. Purpose: High speed fiber connections between CAN and TEN. OPT may be installed in slots L1-L8 in a CAN but the OPT must be installed in slot R1 in a TEN.   Yellow Card is powered and initialized but link is not established. When installed in a TEN, only port 1 LED is functional.  3.5.  Copper Transport Card (CAT) – Signals and PoE to UAPs    Ports 1 - 4:  RJ45 CAT6A Port LEDs 1 - 4 PoE LED Off No Link Off Card is unplugged Off No PoE supplied to UAPs Green 10G link Red Fault Green PoE supplied to one or more UAPs Yellow 1G link      3.6.  Auxiliary Unit Transport Card (AUT) – 1G pass through  1G pass-through for IP devices     CAT card  ports  are mapped  one-to-one to AUT ports.   3.7. Baseband Interface Transceiver Card (BIT) – Fiber to the BBU    Ports 1-6   Port LEDs Slots: Accept SFP+ plug-in modules Off No power  Type: Single mode or multimode Green Optical link is established Purpose: Fiber connections to BBU using CPRI protocols Yellow Card is powered but link is not established M0201A0A_uc   User’s Manual for ION®-E Page 7
 LED Color  Status   Blue  Transmitting – no alarms   Blue  Unit Identifier (flashing)   Yellow  Alarm  4. Installation  3.8.  Power Supply Subrack  12 Vdc modules  57 Vdc modules  A    B  C  D  E    F     Power supply subrack rear connectors and terminals A (+) 57 Vdc Output – Positive (Red Wire) D Rectifier control connector (24 pin) to WCS B (–) 57 Vdc Output – RTN Negative (Black Wire) E (+) 12 Vdc Output – Positive (Red Wire) C AC Input (IEC 60320 C19) F (–)12 Vdc Output – RTN Negative (Black Wire)   3.9.  Universal Access Point (UAP)  The UAP is intended for indoor use only.  MAIN Port (RJ45) Provides data and PoE to UAP over CAT6A  AUX Port (RJ45) Provides data and PoE to 2nd  UAP or 1G devices  Power Switch Prior to disconnecting the Cat6A cables, the red button must be pressed to shut down the unit. It may also be shut down via software.   Specifications Nominal passband gain: Le gain nominal en bande passante  20 dB   MHz  MHz Nominal bandwidth (MHz) La largeur de bande nominale 728 746 18 Rated mean output power La puissance moyenne de sortie  +18 dBm 746 756 10 869 894 25 1930 1995 65 Input / Output Impedance Les impédances d’entrée et de srtie, et  50 Ohms 2110 2155 45 2620 2690 70  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. La puissance de sortie nominale indiquée par le fabricant pour cet appareil concerne son fonctionnement avec porteuse unique. Pour des appareils avec porteuses multiples, on doit réduire la valeur nominale de 3,5 dB, surtout si le signal de sortie est retransmis et qu'il peut causer du brouillage aux utilisateurs de bandes adjacentes. Une telle réduction doit porter sur la puissance d'entrée ou sur le gain, et ne doit pas se faire au moyen d'un atténuateur raccordé à la sortie du dispositif.   4.   Installation 4.1.  Mechanical Installation of WCS and e-POI Rack Mounting – Support Rails Requirements  WCS Subrack       Support rails not required If used, support rails may not block airflow.  PSU Subrack      Support rails required Rails must not contact DC terminals or cable lugs.  e-POI Subrack        Support rails required M0201A0A_uc   User’s Manual for ION®-E Page 8
 4.  Installation  Mounting Order and Spacing    One RU  (rack  unit)  of  air space  must be  reserved above  the  power  supply subrack at all times.  One RU vent panel above PSU   One RU vent panel above PSU      TEN Card Placement  • OPT in bottom right side slot (R1) -  Use port R1.1 for the connection (to CAN) • CAT in left side bottom four slots (L1-L4) • RFD in all other right side slots (R2-R4) if required • SUI in slot M3 • AUT in slots M1 and M2  Install SFP+ Modules in OPT and BIT Cards       R1.1 Port – Fiber to CAN    Plug SFP+ modules into an available socket. To remove, pull module out of slot with extraction lever.    4.2. Back of Rack – Power and Communication Cabling  Connect rear panel power, communications, and control cables as shown below:      e-POI Subrack ground (required)     To/from eNodeB e-POI communications  e-POI power   WCS Subrack ground (required)  WCS DC power cable    PSU  Rectifier control    85 to 264 Vac      85 to 264 Vac   Subrack ground (required) M0201A0A_uc   User’s Manual for ION®-E Page 9
5. ION-E Software   5.  ION-E Software  5.1. Login Page  1.  Default username “ion-e” 2.  Default password: “EZ4Users” The password is case-sensitive. 3.  Default Local IP Address:  http://172.16.0.1    5.2.  Software Update  The software update will automatically update the firmware of every component in the system that requires an update. It will not update components with current firmware.  1.  Under the System Configuration tab | System Settings tab, click the Software Update link located in the System Settings column.    2.  Use the Browse and Upload buttons to upload a software update file. 3.  Click the Update Software Now button to start the update immediately. This will take the system offline and discontinue cellular communication while the update is in progress. 4.  Click the Create Update Schedule to set a time for the update when there is less cellular traffic.  5.3.  Important Setup Tasks  Set region of operation  The ION-E measurement receiver will operate more efficiently once the region of operation is specified because this limits the initial frequency scans to those bands supported in the particular region.  1.  Under the System Configuration tab | System Settings tab, click the Global Region link located on the left side of the page to open the Global Settings tab. 2.  Select the Region and Country from the associated drop-down lists. M0201A0A_uc   User’s Manual for ION®-E Page 10
5.  ION-E Software     3.  Click the Save button.  Set Time and Date  The time and date should be entered to ensure that alarms and log files have accurate time stamps based on the local time. 1.  Under the System Configuration tab | System Settings tab, click the Time and Date link located in the System Settings box.   2.  Enter the Time and Date in the appropriate fields or by clicking on the time and date buttons. 3.  Click the Save button.  Enter or Change System, CAN, TEN, and UAP names  Entering meaningful names helps  you identify and  locate systems and components. To  enter or change the name (location) for the System or a CAN, TEN, or UAP: 1.   Click in the System Name field at the top left of any page, type the name, and click the Save button.    2.   Click in the Name (location) field adjacent to a CAN, TEN, or UAP, type the name, and click the Save button.  5.4.    Channel Detection  Detect Channels – Manual Scan  ION-E requires detection of all signals that will be distributed. This ensures that the user will always know what signals are being distributed by the system. The measurement receiver automatically scans and detects available channels. However, to  optimize system efficiency, running user-defined manual scans  for each connected RF port  is  strongly recommended. Specifying the band for a port will reduce the required scan time. To run a manual channel scan: M0201A0A_uc   User’s Manual for ION®-E Page 11
5. ION-E Software   1.  Under the System Configuration tab | Equipment Settings tab, click a CAN link located in the Device Configuration box. 2.  Click on the Subrack, Cards and PSU link to view the WCS subrack of the CAN. 3.  Click on an RFD card to select it, which opens its General Properties page.    4.  Click on an available Port link to open its Edit General Properties page. 5.  Click to select the Manual Port Detection radio button.    6.  Select a band from the Frequency Band drop-down list. 7.  Click the Save button to save the scan settings. 8.  Click the Start Band Scan button to start the scan. If a scan is already in progress, a popup window will appear. Click the Add to Queue button in that window to place the scan task into the queue.  Measurement Receiver  The scan tasks results are available on the measurement receiver pages, which provide the detailed information about the detected channels. To view ION-E measurement receiver status, scan results, and scan history: 1.  Under the System Operation tab click the Scan Status link located in the System Operation and Performance box to view the Current Status of the measurement receiver. The Scan History is also accessible from this page. M0201A0A_uc   User’s Manual for ION®-E Page 12
5.  ION-E Software     2.  Under the System Operations tab, click the Scan Results link located in the System Operation and Performance box to view the Current Status of the measurement receiver.    5.5.    Signal Distribution  The  ION-E  uses  signal  sets to  group  the  detected  signals  to  simplify  signal  routing  to  the  radiating  elements throughout the system. First the user must create and define the signal sets by assigning channels to the sets. The signal sets are then assigned as needed using drag and drop functionality to route the signals to the TENs and UAPs.  Create and Edit Signal Sets  1.  Click on the Signal Distribution tab to open the page. 2.  Select a set from the Signal Sets list and click the Edit button to edit an existing set. 3.  Click on the Add a New Signal Set link to open the Add Signal Set page to create a new set.    4.  Enter a Name for the signal set in the Signal Set Name field. 5.  Click to select a channel from the Available Channels list or shift click to select multiple channels and drag them onto the Assigned Channels list. M0201A0A_uc   User’s Manual for ION®-E Page 13
5. ION-E Software    6.  Click the Save button to save the Signal Set.  Assign Signal Sets (Direct signal traffic to TENs and UAPs)  Signal Sets, which are a user-defined set of channels, can be quickly assigned to CANs and all UAPs assigned to them, TENs and all UAPs assigned to them, or to individual UAPs on the Signal Distribution page. 1.  Click on the Signal Distribution tab to open the page. 2.  Assign a signal set by: o  Clicking on a signal set and dragging it onto the a TEN or UAP (set icons adjacent to the device name indicate the sets assigned to a TEN or UAP) o  Clicking on a signal set to select it  (green highlight) and then clicking on each TEN or  UAP to which you  wish to assign the signal set.     Signal  sets assigned to UAP           3.  Click the Save button after you’ve assigned each signal set  5.6.   Disable Modules and Ports  ION-E  modules and/or ports  can be quickly enabled or  disabled. You  should always disable a  CAT  card  or  its ports before disconnecting a CAT6A cable supplying power to a UAP to prevent damage to the connector. You  may also  wish  to  disable a  card in  the  system that  is  not  being used to  reduce power consumption and  heat dissipation. To disable a module or one of its ports:  1.  Under  the  System  Configuration  tab  |  Equipment  Settings  tab,  click  a  CAN link  or  TEN  link  located  in  the  Device Configuration box. 2.  Click on the Subrack, Cards and PSU link to view the WCS subrack of the CAN or TEN. 3.  Click on a card to select it and open its General Properties page. M0201A0A_uc   User’s Manual for ION®-E Page 14
5.  ION-E Software     4.  Click on the Enabled /Disabled  button to toggle state of the module or its ports.  5.7.  Flash UAP LED  To place the UAP LED into blue flashing mode to verify the identity and location of a UAP:  1.  Under the System Configuration tab | Equipment Settings tab, click a CAN link under Device Configuration. 2.  Click on the UAPs Connected to CAN link or click on a TEN link and then click on the UAPs Connected to TEN link. 3.  Click on a UAP link to open its properties page. 4.  Select an Auto stop time from the drop-down list and click the Flash LED button.    5.8.  Change WCS Subrack Function  WCS  4U and WCS 2U  subracks  are  both  capable  of  functioning as  CANs or  TENs.  By  default  the  WCS  4U  is designated as a CAN and the WCS 2U is designated as a TEN. To change the function of a WCS subrack:  1.  Under the System Configuration tab | Equipment Settings tab, click a CAN link located in the Device Configuration box. 2.  Click on the Subrack, Cards and PSU link to view the WCS subrack of the CAN. Or click on a TEN link and then click on the Subrack, Cards and PSU link for that TEN to view the WCS subrack of the TEN.   3.  Click the Edit General Properties button to open the General Properties page. M0201A0A_uc   User’s Manual for ION®-E Page 15
5. ION-E Software     4.  Click  in  the  CAN or  TEN  checkbox to  assign  the  function  of  the  subrack.  If CAN is  checked,  click  in  the  Primary or Secondary checkbox and select a CAN Name from the drop-down list. 5.  Enter a location name for the subrack in the Location field. 6.  Click the Save button to save the subrack function assignment. A popup window will appear to notify the user that the system will reboot. M0201A0A_uc   User’s Manual for ION®-E Page 16

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