Cisco Systems 60041010 802.11 a/b/g/n/ac Wireless Access Point User Manual UDX 60041010 Setup Guide

Cisco Systems 802.11 a/b/g/n/ac Wireless Access Point UDX 60041010 Setup Guide

UDX-60041010_Setup Guide

Meraki MR52Hardware Installation Guide
TrademarksMeraki, Meraki MR52, Meraki Cloud Controller, and Meraki Mesh are trademarks of Cisco Systems, Inc.  Other brand and product names are registered trademarks or trademarks of their respective holders.  Statement of Conditions In the interest of improving internal design, operational function, and/or reliability, Cisco Systems reserves the right to make  changes to the products described in this document without notice. Cisco Systems does not assume any liability that may  occur due to the use or application of the product(s) or circult layout(s) described herein.WarrantyMeraki, Inc. provides a lifetime warranty on this product. Warranty details may be found at www.meraki.com/legal.
3Table of Contents 1   Scope of Document and Related Publications  4 2   MR52 Overview  5   2.1 Package Contents  5   2.2 Understanding the MR52  5  2.3 Security Features  7   2.4 Ethernet Ports  7  2.5 Power Source Options  7   2.6 Factory Reset Button  7   2.7 LED Indicators and Run Dark Mode  7 3   Pre-Install Preparation  8   3.1 Configure Your Network in Dashboard  8  3.2 Check and Upgrade Firmware  8   3.3 Check and Configure Firewall Settings  8  3.4 Assigning IP Addresses to MR52s  9    3.4.1 Dynamic Assignment  9    3.4.2 Static  Assignment  9     3.4.3 Static IP Assignment via DHCP Reservations  9  3.5 Collect Tools  10   3.6 Collect Additional Hardware for Installation  104   Installation Instructions  11   4.1 Choose Your Mounting Location  11   4.2 Install the MR52  11    4.2.1 Attach the Mount Plate  11       4.2.1.1 Wall or Solid Ceiling Mount Using Mount Plate  13       4.2.1.2 Drop Ceiling Mount Using Mount Plate  14       4.2.1.3 Electrical Junction Box Mount Using Mount Plate  18     4.2.2 Power the MR52  20      4.2.2.1 Powering the MR52 with Meraki AC Adapter  21      4.2.2.2 Powering the MR52 with Meraki 802.3af Power over Ethernet Injector  21       4.2.2.3 Powering the MR52 with an 802.3af Power over Ethernet Switch  22      4.2.3 Mount the MR52  22       4.2.3.1 Assemble Security Hasp to the MR52  22      4.2.3.2 Assemble MR52 to the Mount Plate  23       4.2.3.3 Desk or Shelf Mount  25    4.3 Secure the MR52  26      4.3.1 Security Screw   26      4.3.2 Kensington Lock   26  4.4 Verify Device Functionality and Test Network Coverage  27 5   Troubleshooting  27
41   Scope of Document and Related Publications  The MR52 Hardware Installation Guide describes the installation procedure for the MR52 indoor access point.     Additional reference documents are available online at www.meraki.com/library/product.
5MR52 access pointDrop ceiling mounting kit2   MR52 Overview  The Meraki MR52 is an enterprise-class, dual-concurrent 4x4 MIMO 802.11ac indoor access point designed for           high-density deployments in offices, schools, hospitals and hotels. When connected to the Meraki Cloud Control           ler, the MR52 enables the creation of ultra-high speed, reliable indoor wireless networks quickly, easily and cost-    effectively.2.1  Package Contents   The MR52 package contains the following: 2.2  Understanding the MR52 MR52 Operation Temperature:32 °  F to 104 ° F (0 ° C to 40 °  C)Your Meraki MR52 has the following features: Kensington lock hard point Security screwsWall screws  Mounting TemplateMounting plate
6Your MR52 mount plate has the following features: MR52 cable access bayMount plate attachment slots (2x)Access point mounting posts (2x)Desk mount feet (4x)Cable access bayAC Adapter plug (sold separately)Power supplied by adapter: 12Vdc, 2.5AEthernet 0 port (10/100/1000)Power supplied by PoE: 37-57 Vdc, 0.6AFactory Reset ButtonVarious mounting holes
72.3  Security Features  The MR52 features multiple options for physically securing the access point after installation:     1. Security screw – The accessory kit includes screws that can be used to secure the access point to      the mount plate. Engaging the security screw prevents accidental dislodging and theft.    2. Kensington lock – The access point contains a hard point that allows it to be secured to any nearby     permanent structure using a standard Kensington lock.2.4  Ethernet Ports  The MR52 features a Gigabit Ethernet RJ45 port that accepts 802.3at power (labeled  “PoE”).  This port should be used for uplink to your WAN connection.   2.5  Power Source Options  The MR52 access point can be powered using either the Meraki AC Adapter or 802.3at PoE Injector (both sold     separately) or a third-party 802.3at PoE switch.2.6  Factory Reset Button  If the button is pressed and held for at least five seconds and then released, the MR52 will reboot and be    restored to its original factory settings by deleting all configuration information stored on the unit.
83   Pre-Install Preparation  You should complete the following steps before going on-site to perform an installation. 3.1  Configure Your Network in Dashboard  The following is a brief overview only of the steps required to add an MR52 to your network. For detailed   instructions about creating, configuring and managing Meraki wireless networks, refer to the Meraki Cloud   Controller Manual (meraki.com/library/product).   1. Login to http://dashboard.meraki.com. If this is your first time, create a new account.   2. Find the network to which you plan to add your APs or create a new network.    3. Add your APs to your network. You will need your Meraki order number (found on your invoice if you      ordered directly from Meraki) or the serial number of each AP, which looks like Qxxx-xxxx-xxxx, and is      found on the bottom of the unit.  You will also need your Enterprise Cloud Controller license key, which you        should have received via email from shipping@meraki.com.   4. Go to the map / floor plan view and place each AP on the map by clicking and dragging it to the location        where you plan to mount it. 3.2  Check and Upgrade Firmware  To ensure your MR52 performs optimally immediately following installation, Meraki recommends that you   facilitate a firmware upgrade prior to mounting your MR52.   1. Attach your MR52 to power and a wired Internet connection. See p. 19 of this Hardware Installation     Guide for details.    2. The MR52 will turn on and the Power LED will glow solid orange. If the unit does not require a firmware     upgrade, the Power LED will turn white within thirty seconds.     *   If the unit requires an upgrade, the Power LED will begin blinking orange until the upgrade is complete,      at which point the Power LED will turn solid white. You should allow about an hour for the firmware      upgrade to complete, depending on the speed of your internet connection. 3.3  Check and Configure Firewall Settings  If a firewall is in place, it must allow outgoing connections on particular ports to particular IP addresses.     The most current list of outbound ports and IP addresses can be found here:  http://tinyurl.com/y79une3
9 3.4 Assigning IP Addresses to MR52s All gateway MR52s (MR52s with Ethernet connections to the LAN) must be assigned routable IP addresses.    These IP addresses can be dynamically assigned via DHCP or statically assigned. 3.4.1 Dynamic Assignment  When using DHCP, the DHCP server should be configured to assign a static IP address for each MAC address       belonging to a Meraki AP.  Other features of the wireless network such as 802.1x authentication, may rely on the    property that the APs have static IP addresses.  3.4.2 Static Assignment  Static IPs are assigned using the local web server on each AP.  The following procedure describes how to set    the static IP:  1. Using a client machine (e.g. a laptop), connect to the AP either wirelessly (by associating to any SSID      broadcast by the AP) or over a wired connection.     If using a wired connection, connect the client machine to the MR52 either through a PoE switch or a Meraki      PoE Injector.  If using a PoE switch, plug an Ethernet cable into the MR52’s Ethernet jack, and the other end      into a PoE switch.  Then connect the client machine over Ethernet cable to the PoE switch.  If using a Meraki      PoE Injector, connect the MR52 to the “PoE” port of the Injector, and the client machine to the “LAN” port.   2. Using a web browser on the client machine, access the AP’s built-in web server by browsing to    http://my.meraki.com.  Alternatively, browse to http://10.128.128.128. 3. Click on the “Static IP Configuration” tab.  Log in.  The default user name is “admin”.  The default password is      the AP’s serial number, with hyphens included  4. Configure the static IP address, net mask, gateway IP address and DNS servers that this AP will use on its      wired connection. 5. If necessary, reconnect the AP to the LAN.  3.4.3 Static IP via DHCP Reservations  Instead of associating to each Meraki AP individually to configure static IP addresses, an administrator can assign      static IP addresses on the upstream DHCP server.  Through “DHCP reservations”, IP addresses are “reserved” for the      MAC addresses of the Meraki APs.  Please consult the documentation for the DHCP server to configure DHCP  reservations.
10Phillips screwdriverHammer Drill with 1/4” (6.3mm) bits3.6  Collect Additional Hardware for Installation802.3at PoE power source (either PoE  switch or Meraki 802.3at PoE Injector)Network cables with RJ45 connectors long enough for your particular mounting location3.5  Collect Tools         You will need the following tools to perform an installation:AC Adapteror
114   Installation Instructions4.1  Choose Your Mounting Location  A good mounting location is important to getting the best performance out of your MR52 access point.     Keep the following in mind:   1. The device should have unobstructed line of sight to most coverage areas. For example, if installing      in an office filled with workspaces divided by mid-height cubicle walls, installing on the ceiling or high      on a wall would be ideal.    2. Power over Ethernet supports a maximum cable length of 300 ft (100 m).    3. If being used in a mesh deployment, the MR52 should have line of sight to at least two other Meraki     devices. For more detailed instructions regarding access point location selection, reference the Meraki      Network Design Guide (meraki.com/library/product). 4.2  Install the MR52  For most mounting scenarios, the MR52 mount plate provides a quick, simple, and flexible means of mounting   your device. The installation should be done in two steps. First, install the mount plate to your selected location.      Then, attach the MR52 to the mount plate.  4.2.1 Attach the Mount Plate  The MR52 mount plate can be used to install your access point in a wide range of scenarios: wall or solid   ceiling, below a drop ceiling, on various electrical junction boxes, or above a drop ceiling (in the plenum).    The mount plate contains a variety of hole patterns that are customized for each installation scenario. The      mounting template (included inbox with mount plate) should be used to drill holes for wall mounts and also to      identify the correct hole patterns in the mount plate that should be used for each type of mount.    The following images also show the hole patterns that should be used for each type of mount:
124.2.1.1 Wall or Solid Ceiling Mount Using Mount PlateUsing included screws, attach the mount plate to your mounting wall or ceiling.It is recommended that the MR52 be mounted to a wall or solid ceiling using  the mount plate for physical security reasons.If mounting your MR52 to a wall, skip to “Power the MR52“ on P. 20
131. Attach the T-rail clips to the T-rail by rotating them and snapping them into place as shown.    The black foam pads should be compressed slightly after installation. 4.2.1.2 Drop Ceiling Mount Using Mount PlateTo mount your MR52 on a drop ceiling T-rail, use the included drop ceiling mounting accessory kit.  The accessory kit can be used to mount to most 9/16”, 15/16” or 1 ½” T-rails.  Dropped ceiling mounting clipswith set screws6-32x4 mm screws 6-32x7 mm screwsOnly used for recessed rail mount (uncommon)2 rubber spacers Only used for recessed rail mount (uncommon)The kit contains:
143. Tighten the set screws on the T-rail clips to secure the clips using a 5/64”(2 mm) hex key. 2. Using the dashed lines on the mount plate template as a guide, set the proper spacing of the    T-rail clips on the T-rail Set screws (x4)
154. Attach the mount plate to the T-rail clips using the mount plate holes (marked with a “T“).To select the correct set of mounting hardware to use, first determine whether you are mounting to a “flush” or “recessed“ rail. (See below images for clarification)Flush T-rail Recessed T-railT-rail flush with tiles T-rail recessed from tilesCeiling tilesT-rail
164.2.1.3 Electrical Junction Box Mount Using Mount PlateThe MR52 can be mounted to a 4” square cable junction box, a 3.5 or 4” round cable junction box, or  various U.S. and European outlet boxes (mounting screws are not included). Using appropriate mounting hardware for your specific type of junction box, attach the mount plate to  the junction box.
174.2.2 Power the MR52If mounting to an electrical junction box, feed the Ethernet cable through the cable access hole in the Mount Plate:If mounting to a wall or ceiling, the Ethernet cable will feed through the cable slot on bottom of the MR52.
184.2.2.1 Powering the MR52 with the Meraki AC Adapter (sold separately)1. Plug the power cord into the MR52 and the other end into a wall outlet. 2. Plug an Ethernet cable that is connected to an active Ethernet connection into the Eth0 port on the MR52.4.2.2.2 Powering the MR52 with the Meraki 802.3at Power over Ethernet Injector (sold separately)1. Plug the power cord into the PoE Injector and the other end into wall power. 2. Plug an Ethernet cable that is connected to an active Ethernet connection into the “IN“ port on the injector. 3. Route Ethernet cable from the “OUT“ port on the injector to the Eth0 port in the cable bay of the MR52.
194.2.3 Mount the MR524.2.2.3 Powering the MR52 with an 802.3at Power over Ethernet Switch Route Ethernet cable from a port on an active 802.3at PoE switch to the Eth0 port in the bay of the MR52.The MR52 is Gigabit Ethernet-capable. To maximize device performance, a Gigabit-capable switch should be used.
204.2.3.2 Assemble MR52 to the Mount Plate(This section applies to wall and/or solid ceiling, drop ceiling or electrical junction box mount  where you have already installed the mount plate.) Insert the top latch on the mount plate into the top mount plate attachment slots on the back of the device. Rotate the bottom of the unit into the bottom ount plate attachment slot. The unit will click into place.
214.2.3.3 Desk or Shelf MountThe MR52 can be placed on a desk or shelf resting on the non-scratch rubber feet. The mount plate is not necessary for a desk or shelf mounting.
224.3  Secure the MR52  Depending on your mounting environment, you may want to secure the MR52 to its mount location. Your MR52        can be secured in several ways. If the MR52 has been installed using the mount plate, it can be secured via security    screw (Torx and phillips head security screws are included; choose one), and/or Kensington lock. If the mount      plate was not used, the MR52 can still be secured using a Kensington lock. 4.3.1 Security Screw Install the security screw in the lower mount plate tab. 4.3.2 Kensington LockAttach a Kensington lock cable to the access point at the hard point on the side of the device.Attach the other end of the cable to a secure location, such as a pipe or building fixture.
234.4  Verify Device Functionality and Test Network Coverage   1. Check LEDs    The  LED should be solid white. If it is flashing orange, the firmware is automatically upgrading and the                   LED should turn green when the upgrade is completed (normally in under thirty minutes).     Note: Your MR52 must have an active route to the Internet to check and upgrade its firmware.    2. Verify access point connectivity     Use any 802.11 client device to connect to the MR52 and verify proper connectivity using the client’s web browser.   3. Check network coverage     Confirm that you have good signal strength throughout your coverage area. You can use the signal strength meter      on a laptop, smart phone, or other wireless device.5 Troubleshooting  Reference the Meraki knowledge base at http://meraki.com/support/knowledge_base for additional information and    troubleshooting tips.6 Regulatory  FCC Compliance Statement  This device complies with part 15 of the FCC rules. Operation is subject to the following two conditions: (1) This de-vice   may not cause harmful interference, and (2) this device must accept any interference received, including interference    that may cause undesired operation.  FCC Interference Statement  This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of    the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residen-tial     installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in   ac cordance with the instructions, may cause harmful interference to radio communications. However, there is no  guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference    to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged    to correct the interference by one of the following measures:      • Reorient or relocate the receiving antenna.      • Increase the separation between the equipment and receiver.      • Connect the equipment into an outlet on a circuit different from which the receiver is connected.      • Consult the dealer or an experienced radio/TV technician for  help.  FCC Caution  Any changes or modifications no expressly approved by Meraki could void the user’s authority to operate this   equipment. This Transmitter must not be co-located or operation in conjunction with any other antenna or transmitter.  FCC Radiation Exposure Statement  This equipment complies with FCC radiation exposure limits set forth for an uncontrolled environment. This equipment    should be installed and operated with minimum distance 24 cm between the radiator and your body. This transmitter    must not be co-located or operating in conjunction with any other antenna or transmitter.  IEEE 802.11b or 802.11g operation of this product in the USA is firmware-limited to channels 1 through 11.
24Copyright © 2016 Cisco Systems, Inc. All rights reserved. Trademarks Cisco Systems® is a registered trademark of Cisco Systems, Inc.    If the device is going to be operated in the 5.15 - 5.25 frequency range, then it is restricted to indoor environment only.    This device meets all other requirements specified in Part 15E, Section 15.407 of the FCC Rules.  Industry Canada Statement  This device complies with RSS-247 of the Industry Canada 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.  Ce dispositif est conforme à la norme CNR-247 d’Industrie Canada applicable aux appareils radio exempts de licence.    Son fonctionnement est sujet aux deux conditions suivantes: (1) le dispositif ne doit pas produire de brouillage  préjudiciable, et (2) ce dispositif doit accepter tout brouillage reçu, y compris un brouillage susceptible de provoquer un    fonctionnement indésirable.   Industry Canada Caution  (i) the device for operation in the band 5150-5250 MHz is only for indoor use to reduce the potential for harmful  interference to co-channel mobile satellite systems;  (ii) high-power radars are allocated as primary users (i.e. priority users) of the bands 5250-5350 MHz and 5650-5850 MHz    and that these radars could cause interference and/or damage to LE-LAN devices. Avertissement:  (i) les dispositifs fonctionnant dans la bande 5 150-5 250 MHz sont réservés uniquement pour une utilisation à l’intérieur   afin de réduire les risques de brouillage préjudiciable aux systèmes de satellites mobiles utilisant les mêmes canaux;  (ii) De plus, les utilisateurs devraient aussi être avisés que les utilisateurs de radars de haute puissance sont désignés    utilisateurs principaux (c.-à-d., qu’ils ont la priorité) pour les bandes 5 250-5 350 MHz et 5 650-5 850 MHz et que ces      radars pourraient causer du brouillage et/ou des dommages aux dispositifs LAN-EL.   Industry Canada Radiation Exposure Statement  This equipment complies with IC radiation exposure limits set forth for an uncontrolled environment. This equipment    should be installed and operated with minimum distance 24 cm between the radiator & your body.   Déclaration d’exposition aux radiations  Cet équipement est conforme aux limites d’exposition aux rayonnements IC établies pour un environnement non con   trôlé. Cet équipement doit être installé et utilisé avec un minimum de 24 cm de distance entre la source de rayonnement    et votre corps.
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