FCC ID: PY313200227 R6300 Smart WiFi Router, AC1450 Smart WiFi Router

 

R6300v2 S m a r t WiFi Router U s e r M an u al 350 East Plumeria Drive San Jose, CA 95134 USA R6300 WiFi Router 802.11ac Dual Band Gigabit 2012 NETGEAR, Inc. All rights reserved. No part of this publication may be reproduced, transmitted, transcribed, stored in a retrieval system, or translated into any language in any form or by any means without the written permission of NETGEAR, Inc. Technical Support Thank you for choosing NETGEAR. To register your product, get the latest product updates, or get support online, visit us at http://support.netgear.com. Phone (US & Canada only): 1-888-NETGEAR Phone (Other Countries): See support information card. Trademarks NETGEAR, the NETGEAR logo, and Connect with Innovation are trademarks and/or registered trademarks of NETGEAR, Inc. and/or its subsidiaries in the United States and/or other countries. Information is subject to change without notice. Other brand and product names are registered trademarks or trademarks of their respective holders. 2012 NETGEAR, Inc. All rights reserved. Statement of Conditions To improve internal design, operational function, and/or reliability, NETGEAR reserves the right to make changes to the products described in this document without notice. NETGEAR does not assume any liability that may occur due to the use, or application of, the product(s) or circuit layout(s) described herein. 2 R6300 WiFi Router 802.11ac Dual Band Gigabit 3 1. Hardware Setup Ge t tin g t o kn o w y o ur r o u t e r 1 The NETGEAR R6300 WiFi Router delivers next-generation WiFi at gigabit speeds. It offers the ultimate mobility for WiFi devices with speeds up to three times faster than 802.11n. Compatible with next-generation WiFi devices, and backward compatible with 802.11 a/b/g and n devices, it enables HD streaming throughout your home. The R6300 with simultaneous dual-band WiFi technology offers speeds up to 4501 to 13002 Mbps and avoids interference, ensuring top WiFi speeds and reliable connections. This makes it ideal for larger homes with multiple devices. In addition, four Gigabit Ethernet ports offer ultra-fast wired connections. Wirelessly access and share a USB hard drive and USB printer using the two USB 2.0 ports. If you already set up your router, you can skip this chapter. If you have not done that yet, this chapter covers the hardware setup. Chapter 3, genie Basic Settings, explains how to set up your Internet connection. This chapter contains the following sections:

Unpack Your Router Position Your Router Hardware Features For information about ReadySHARE features in your product, see Chapter 5, USB Storage, and www.netgear.com/readyshare. The NETGEAR genie app provides easy installation from an iPad, tablet, computer, or smartphone. It includes a personal dashboard, allowing you to manage, monitor, and repair your home network. NETGEAR customers can download the app at www.netgear.com/genie or from the Google Play or App Store. For more information about the topics covered in this manual, visit the Support website at http://support.netgear.com. 1. Maximum wireless signal rate derived from IEEE standard 802.11 specifications. Actual data throughput and wireless coverage will vary. Network conditions and environmental factors, including volume of network traffic, building materials and construction, and network overhead, lower actual data throughput rate and wireless coverage. NETGEAR makes no express or implied representations or warranties about this products compatibility with any future standards. 802.11ac 1300 Mbps is approximately 3x faster than 802.11n 450 Mbps. 2. Up to 1300 Mbps wireless speeds achieved when connecting to other 802.11ac 1300 Mbps devices. 7 Unpack Your Router Open the box and remove the router, cables, and installation guide. Ethernet cable Dual Band WiFi Router Power adapter Power cord Figure 1. Check the package contents Your box contains the following items:

R6300 smart WiFi Router AC power adapter and power cord (plug varies by region) Category 5 (Cat 5) Ethernet cable Installation guide with cabling and router setup instructions If any parts are incorrect, missing, or damaged, contact your NETGEAR dealer. Keep the carton and original packing materials, in case you need to return the product for repair. Position Your Router The router lets you access your network from virtually anywhere within the operating range of your wireless network. However, the operating distance or range of your wireless connection can vary significantly depending on the physical placement of your router. For example, the thickness and number of walls the wireless signal passes through can limit the range. For best results, place your router:

Near the center of the area where your computers and other devices operate, and preferably within line of sight to your wireless devices. So it is accessible to an AC power outlet and near Ethernet cables for wired computers. Hardware Setup 8 In an elevated location such as a high shelf, keeping the number of walls and ceilings between the router and your other devices to a minimum. Away from electrical devices that are potential sources of interference. Equipment that might cause interference includes ceiling fans, home security systems, microwaves, computers, the base of a cordless phone, or 2.4 GHz cordless phone. Away from any large metal surfaces, such as a solid metal door or aluminum studs. Large expanses of other materials such as glass, insulated walls, fish tanks, mirrors, brick, and concrete can also affect your wireless signal. When you use multiple access points, it is better if adjacent access points use different radio frequency channels to reduce interference. The recommended channel spacing between adjacent access points is five channels (for example, use Channels 1 and 6, or 6 and 11). Hardware Features Before you cable your router, take a moment to become familiar with the front, side, and back panels and the label. Pay particular attention to the LEDs on the front panel. Front and Side Panel The router front panel has the status LEDs and icons shown in the following figure. LEDs Figure 2. Router, front and side view WiFi On/Off button WPS button USB port Hardware Setup 9 Table 1. Front panel LED descriptions LED Power Internet Wireless USB Description Solid amber. The router is starting up. Blinking amber. The firmware is upgrading, or the Reset button was pressed. Solid green. The router is ready. Blinking green. The firmware is corrupted. See www.netgear.com/support. Off. Power is not supplied to the router. Solid green. The Internet connection is ready. Solid amber. The Ethernet cable connection to the modem has been detected. Off. No Ethernet cable is connected to the modem. Solid blue. The wireless radio is operating in either 2.4 GHz or 5 GHz mode. Blinking: The router is in WPS mode. Off. The wireless radios are off for both 2.4 GHz and 5 GHz. Solid blue: The USB device has been accepted by the router and is ready to be used. Blinking blue: A second USB HDD is plugged in and is trying to connect. Off: No USB device is connected, someone clicked the Safely Remove Hardware button, and it is now safe to remove the attached USB device. The WiFi On/Off and WPS buttons toggle the WiFi and WPS functions on and off. WiFi On/Off button. Pressing and holding the WiFi On/Off button for 2 seconds turns the 2.4 GHz and 5 GHz wireless radios on and off. If the 2.4 GHz and 5 GHz LEDs are lit, then the wireless radio is on. If these LEDs are off, then the wireless radios are turned off and you cannot connect wirelessly to the router. WPS button. You can use this button to use WPS to add a wireless device or computer to your wireless network. The LED below the WPS button blinks green when the router is trying to add the wireless device or computer. The LED stays solid green when wireless security is enabled in the router. Back Panel The back panel has the connections shown in the following figure. Power connector Power On/Off Reset button USB Ethernet Internet port LAN ports 14 port Hardware Setup 10 Figure 3. Router, rear view See Factory Settings on page 115 for information about restoring factory settings. 2. Getting Started with NETGEAR genie C o nn ec tin g t o t h e r o u t e r 2 This chapter explains how to use NETGEAR genie to set up your router after you complete cabling as described in the installation guide and in the previous chapter. This chapter contains the following sections:

Router Setup Preparation Types of Logins and Access NETGEAR genie Setup Use NETGEAR genie after Installation Upgrade Router Firmware Router Dashboard (Basic Home Screen) Add Wireless Devices or Computers to Your Network NETGEAR genie App and Mobile genie App 12 R6300 WiFi Router 802.11ac Dual Band Gigabit Router Setup Preparation You can set up your router with the NETGEAR genie automatically, or you can use the genie menus and screens to set up your router manually. Before you start the setup process, get your ISP information, and make sure the computers and devices in the network have the settings described here. Use Standard TCP/IP Properties for DHCP If you set up your computer to use a static IP address, you need to change the settings so that it uses Dynamic Host Configuration Protocol (DHCP). Gather ISP Information If you have DSL broadband service, you might need the following information to set up your router and to check that your Internet configuration is correct. Your Internet service provider

(ISP) should have provided you with all of the information needed to connect to the Internet. If you cannot locate this information, ask your ISP to provide it. When your Internet connection is working, you no longer need to launch the ISPs login program on your computer to access the Internet. When you start an Internet application, your router automatically logs you in. The ISP configuration information for your DSL account ISP login name and password Fixed or static IP address settings (special deployment by ISP; this is rare) Wireless Devices and Security Settings Make sure that the wireless device or computer that you are using supports WPA or WPA2 wireless security, which is the wireless security supported by the router. Types of Logins and Access There are separate types of logins that have different purposes. It is important that you understand the difference so that you know which login to use when. Router login logs you in to the router interface from NETGEAR genie. See Use NETGEAR genie after Installation on page 15 for details about this login. ISP login logs you in to your Internet service. Your service provider has provided you with this login information in a letter or some other way. If you cannot find this login information, contact your service provider. Wireless network key or password. Your router is preset with a unique wireless network name (SSID) and password for wireless access. This information is on the label on the bottom of your router. Getting Started with NETGEAR genie 13 R6300 WiFi Router 802.11ac Dual Band Gigabit NETGEAR genie Setup NETGEAR genie runs on any device with a web browser. It is the easiest way to set up the router because it automates many of the steps and verifies that those steps have been successfully completed. It takes about 15 minutes to complete. To use NETGEAR genie to set up your router:

1. Turn the router on by pressing the On/Off button, if not done yet. 2. Make sure that your device is connected with an Ethernet cable (wired) or wirelessly (with the preset security settings listed on the bottom label) to your router. 3. Launch your Internet browser. The first time you are set up the Internet connection for your router, the browser goes to http://www.routerlogin.net, and the NETGEAR genie screen displays. If you already used the NETGEAR genie, type http://www.routerlogin.net in the address field of your browser to display the NETGEAR genie screen. See Use NETGEAR genie after Installation on page 15. 4. Follow the onscreen instructions to complete NETGEAR genie setup. NETGEAR genie guides you through connecting the router to the Internet. If the browser cannot display the web page:

Make sure that the computer is connected to one of the four LAN Ethernet ports, or wirelessly to the router. Make sure that the router has full power, and that its wireless LED is lit. Close and re-open the browser to make sure the browser does not cache the previous page. Browse to http://www.routerlogin.net. If the computer is set to a static or fixed IP address (this is uncommon), change it to obtain an IP address automatically from the router. If the router does not connect to the Internet:

1. Review your settings to be sure that you have selected the correct options and typed everything correctly. 2. Contact your ISP to verify that you have the correct configuration information. 3. Read Chapter 10, Troubleshooting. If problems persist, register your NETGEAR product and contact NETGEAR technical support. Getting Started with NETGEAR genie 14 R6300 WiFi Router 802.11ac Dual Band Gigabit Use NETGEAR genie after Installation When you first set up your router, NETGEAR genie automatically starts when you launch an Internet browser on a computer that is connected to the router. You can use NETGEAR genie again if you want to view or change settings for the router. 1. Launch your browser from a computer or wireless device that is connected to the router. 2. Type http://www.routerlogin.net or http://www.routerlogin.com. The login window displays:

admin

********

3. Enter admin for the router user name and password for the router password, both in lowercase letters. Note: The router user name and password are different from the user name and password for logging in to your Internet connection. See Types of Logins and Access on page 13 for more information. Upgrade Router Firmware When you set up your router and are connected to the Internet, the router automatically checks for you to see if newer firmware is available. If it is, a message is displayed on the top of the screen. See Upgrade the Router Firmware on page 71 for more information about upgrading firmware. Click the message when it shows up, and click Yes to upgrade the router with the latest firmware. After the upgrade, the router restarts. CAUTION:

Do not try to go online, turn off the router, shut down the computer, or do anything else to the router until the router finishes restarting and the Power LED has stopped blinking for several seconds. Getting Started with NETGEAR genie 15 R6300 WiFi Router 802.11ac Dual Band Gigabit Router Dashboard (Basic Home Screen) The router Basic Home screen has a dashboard that lets you see the status of your Internet connection and network at a glance. You can click any of the six sections of the dashboard to view more detailed information. The left column has the menus, and at the top there is an Advanced tab that is used to access additional menus and screens. Menus

(Click the Advanced tab to view more) Language Dashboard

(Click to view details) Help Figure 5. Router Basic Home screen with dashboard, language, and online help Home. This dashboard screen displays when you log in to the router. Internet. Set, update, and check the ISP settings of your router. Wireless. View or change the wireless settings for your router. Attached Devices. View the devices connected to your network. Parental Controls. Download and set up parental controls to prevent objectionable content from reaching your computers. ReadySHARE. If you connected a USB storage device to the router, then it is displayed here. Guest Network. Set up a guest network to allow visitors to use your routers Internet connection. Advanced tab. Set the router up for unique situations such as when remote access by IP or by domain name from the Internet is needed. See Chapter 9, Advanced Settings. Using this tab requires a solid understanding of networking concepts. Help & Support. Go to the NETGEAR support site to get information, help, and product documentation. These links work once you have an Internet connection. Getting Started with NETGEAR genie 16 R6300 WiFi Router 802.11ac Dual Band Gigabit Add Wireless Devices or Computers to Your Network Choose either the manual or the WPS method to add wireless devices and other equipment to your wireless network. See Guest Networks on page 28 for instructions on how to set up a guest network. Manual Method To connect manually:

1. Open the software that manages your wireless connections on the wireless device

(laptop computer, gaming device, iPhone) that you want to connect to your router. This software scans for all wireless networks in your area. 2. Look for your network and select it. If you did not change the name of your network during the setup process, look for the default Wi-Fi network name (SSID) and select it. The default SSID is printed on the label on the bottom of the router. 3. Enter the router password and click Connect. The default router passphrase is printed on the product label on the bottom of the router. 4. Repeat steps 13 to add other wireless devices. Wi-Fi Protected Setup (WPS) Method Wi-Fi Protected Setup (WPS) is a standard for easily adding computers and other devices to a home network while maintaining security. To use WPS, make sure that all wireless devices to be connected to the network are Wi-Fi certified and support WPS. During the connection process, the client gets the security settings from the router so that every device in the network has the same security settings. To use WPS to join the wireless network:

If your wireless device supports WPS (Push 'N' Connect), follow these steps:

1. Press the WPS button on the router front panel 2. Within 2 minutes, press the WPS button on your wireless device, or follow the WPS instructions that came with the device. The device is now connected to your router. 3. Repeat steps 12 to add other WPS wireless devices. Getting Started with NETGEAR genie 17 R6300 WiFi Router 802.11ac Dual Band Gigabit NETGEAR genie App and Mobile genie App The genie app is the easy dashboard for managing, monitoring, and repairing your home network. See the NETGEAR genie App User Manual for details about these products. Retrieve wireless password About genie Menu Language Dashboard

(Click to view details) Support Automatically repair common wireless network problems. Have easy access to router features like Live Parental Controls, guest access, broadband usage meter, speed test, and more. Use the genie mobile app on your iPhone, iPad, or Android phone:

Phone status Log in to the router Information about genie mobile app Search NETGEAR and the connected support router Getting Started with NETGEAR genie 18 R6300 WiFi Router 802.11ac Dual Band Gigabit Advanced Settings 19 10. Troubleshooting This chapter provides information to help you diagnose and solve problems you might have with your router. If you do not find the solution here, check the NETGEAR support site at http://support.netgear.com for product and contact information. This chapter contains the following sections:

Quick Tips Troubleshooting with the LEDs Cannot Log In to the Router Cannot Access the Internet Changes Not Saved Wireless Connectivity Restore the Factory Settings and Password Troubleshoot Your Network Using the Ping Utility 105 R6300 WiFi Router 802.11ac Dual Band Gigabit Quick Tips This section describes tips for troubleshooting some common problems Sequence to Restart Your Network Be sure to restart your network in this sequence:

1. Turn off and unplug the modem. 2. Turn off the router and computers. 3. Plug in the modem and turn it on. Wait 2 minutes. 4. Turn on the router and wait 2 minutes. 5. Turn on the computers. Check Ethernet Cable Connections Make sure that the Ethernet cables are securely plugged in. The Internet LED on the router is on if the Ethernet cable connecting the router and the modem is plugged in securely and the modem and router are turned on. For each powered-on computer connected to the router by an Ethernet cable, the corresponding numbered router LAN port LED is on. Wireless Settings Make sure that the wireless settings in the computer and router match exactly. For a wirelessly connected computer, the wireless network name (SSID) and wireless security settings of the router and wireless computer need to match exactly. If you set up an access list in the Advanced Wireless Settings screen, you have to add each wireless computers MAC address to the routers access list. Network Settings Make sure that the network settings of the computer are correct. Wired and wirelessly connected computers need to have network (IP) addresses on the same network as the router. The simplest way to do this is to configure each computer to obtain an IP address automatically using DHCP. Some cable modem service providers require you to use the MAC address of the computer initially registered on the account. You can view the MAC address in the Attached Devices screen. Troubleshooting 106 R6300 WiFi Router 802.11ac Dual Band Gigabit Troubleshooting with the LEDs After you turn on power to the router, the following sequence of events should occur:

1. When power is first applied, verify that the Power LED 2. Verify that the Power LED turns amber within a few seconds, indicating that the self-test is is on. running. 3. After approximately 30 seconds, verify the following:

The Power LED is solid green. The Internet LED is on. A numbered Ethernet port LED is on for any local port that is connected to a computer. This indicates that a link has been established to the connected device. The LEDs on the front panel of the router can be used for troubleshooting. Power LED Is Off or Blinking Make sure that the power cord is securely connected to your router and that the power adapter is securely connected to a functioning power outlet. Check that you are using the 12V DC, 5A power adapter that NETGEAR supplied for this product. If the Power LED blinks slowly and continuously, the router firmware is corrupted. This can happen if a firmware upgrade is interrupted, or if the router detects a problem with the firmware. If the error persists, you have a hardware problem. For recovery instructions, or help with a hardware problem, contact technical support at www.netgear.com/support. Power LED Stays Amber When the router is turned on, the Power LED turns amber for about 20 seconds and then turns green. If the LED does not turn green, the router has a problem. If the Power LED is still amber 1 minute after you turn on power to the router:

1. Turn the power off and back on to see if the router recovers. 2. Press and hold the Reset button to return the router to its factory settings. as explained in Restore the Factory Settings and Password on page 113. If the error persists, you might have a hardware problem and should contact technical support at www.netgear.com/support. Troubleshooting 107 R6300 WiFi Router 802.11ac Dual Band Gigabit LEDs Never Turn Off When the router is turned on, the LEDs turn on for about 10 seconds and then turn off. If all the LEDs stay on, there is a fault within the router. If all LEDs are still on 1 minute after power-up:

Cycle the power to see if the router recovers. Press and hold the Reset button to return the router to its factory settings as explained in Restore the Factory Settings and Password on page 113. If the error persists, you might have a hardware problem and should contact technical support at www.netgear.com/support. Internet or Ethernet Port LEDs Are Off If either the Ethernet port LEDs or the Internet LED does not light when the Ethernet connection is made, check the following:

Make sure that the Ethernet cable connections are secure at the router and at the modem or computer. Make sure that power is turned on to the connected modem or computer. Be sure that you are using the correct cable:

When connecting the routers Internet port to a cable or DSL modem, use the cable that was supplied with the cable or DSL modem. This cable could be a standard straight-through Ethernet cable or an Ethernet crossover cable. Wireless LEDs Are Off If the Wireless LEDs stay off, check to see if the Wi-Fi On/Off button on the router has been pressed. This button turns the wireless radios in the router on and off. The Wireless LEDs are lit when the wireless radio is turned on. The Push 'N' Connect (WPS) Button Blinks Amber If after using the WPS function the button blinks amber, check the following:

Make sure that you are using the button and not the routers built-in registrar. Check that PIN verification has succeeded for the wireless device you are adding to the wireless network. Make sure that you have not pressed the WPS button on the side of the router after disabling the WPS feature (you logged in to the router and disabled this previously). Check that the router is not in the temporary AP setup locked state (if you are using the wireless repeater function). Troubleshooting 108 R6300 WiFi Router 802.11ac Dual Band Gigabit Cannot Log In to the Router If you are unable to log in to the router from a computer on your local network, check the following:

If you are using an Ethernet-connected computer, check the Ethernet connection between the computer and the router as described in the previous section. Make sure that your computers IP address is on the same subnet as the router. If you are using the recommended addressing scheme, your computers address should be in the range of 192.168.1.2 to 192.168.1.254. If your computers IP address is shown as 169.254.x.x, recent versions of Windows and Mac OS generate and assign an IP address if the computer cannot reach a DHCP server. These auto-generated addresses are in the range of 169.254.x.x. If your IP address is in this range, check the connection from the computer to the router, and reboot your computer. If your routers IP address was changed and you do not know the current IP address, clear the routers configuration to factory defaults. This sets the routers IP address to 192.168.1.1. This procedure is explained in Factory Settings on page 115. Make sure that your browser has Java, JavaScript, or ActiveX enabled. If you are using Internet Explorer, click Refresh to be sure that the Java applet is loaded. Try quitting the browser and launching it again. Make sure that you are using the correct login information. The factory default login name is admin, and the password is password. Make sure that Caps Lock is off when you enter this information. If you are attempting to set up your NETGEAR router as an additional router behind an existing router in your network, consider replacing the existing router. NETGEAR does not support such a configuration. If you are attempting to set up your NETGEAR router as a replacement for an ADSL gateway in your network, the router cannot perform many gateway services. For example, the router cannot convert ADSL or cable data into Ethernet networking information. NETGEAR does not support such a configuration. Cannot Access the Internet If you can access your router but not the Internet, check to see if the router can obtain an IP address from your Internet service provider (ISP). Unless your ISP provides a fixed IP address, your router requests an IP address from the ISP. You can determine whether the request was successful using the Router Status screen. To check the WAN IP address:

1. Start your browser, and select an external site such as www.netgear.com. 2. Access the router interface at www.routerlogin.net. 3. Select Administration > Router Status. Troubleshooting 109 R6300 WiFi Router 802.11ac Dual Band Gigabit 4. Check that an IP address is shown for the Internet port. If 0.0.0.0 is shown, your router has not obtained an IP address from your ISP. If your router cannot obtain an IP address from the ISP, you might need to force your cable or DSL modem to recognize your new router by restarting your network, as described in Sequence to Restart Your Network on page 106. If your router is still unable to obtain an IP address from the ISP, the problem might be one of the following:

Your Internet service provider (ISP) might require a login program. Ask your ISP whether they require PPP over Ethernet (PPPoE) or some other type of login. If your ISP requires a login, the login name and password might be set incorrectly. Your ISP might check for your computers host name. Assign the computer host name of your ISP account as the account name in the Internet Setup screen. Your ISP allows only one Ethernet MAC address to connect to Internet and might check for your computers MAC address. In this case, do one of the following:

-

Inform your ISP that you have bought a new network device, and ask them to use the routers MAC address.

- Configure your router to clone your computers MAC address. If your router can obtain an IP address, but your computer is unable to load any web pages from the Internet:

Your computer might not recognize any DNS server addresses. A DNS server is a host on the Internet that translates Internet names (such as www addresses) to numeric IP addresses. Typically, your ISP provides the addresses of one or two DNS servers for your use. If you entered a DNS address during the routers configuration, reboot your computer, and verify the DNS address.You can configure your computer manually with DNS addresses, as explained in your operating system documentation. Your computer might not have the router configured as its TCP/IP gateway. If your computer obtains its information from the router by DHCP, reboot the computer, and verify the gateway address. You might be running login software that is no longer needed. If your ISP provided a program to log you in to the Internet (such as WinPoET), you no longer need to run that software after installing your router. You might need to go to Internet Explorer and select Tools > Internet Options, click the Connections tab, and select Never dial a connection. Troubleshooting 110 110 R6300 WiFi Router 802.11ac Dual Band Gigabit Troubleshoot PPPoE If you are using PPPoE, try troubleshooting your Internet connection. To troubleshoot a PPPoE connection:

1. Log in to the router. 2. Select Administration > Router Status. 3. Click Connection Status. If all of the steps indicate OK, then your PPPoE connection is up and working. If any of the steps indicate Failed, you can attempt to reconnect by clicking Connect. The router continues to attempt to connect indefinitely. If you cannot connect after several minutes, you might be using an incorrect service name, user name, or password. There also might be a provisioning problem with your ISP. Note: Unless you connect manually, the router does not authenticate using PPPoE until data is transmitted to the network. Troubleshooting Internet Browsing If your router can obtain an IP address but your computer is unable to load any web pages from the Internet, check the following:

Your computer might not recognize any DNS server addresses. A DNS server is a host on the Internet that translates Internet names (such as www addresses) to numeric IP addresses. Typically, your ISP provides the addresses of one or two DNS servers for your use. If you entered a DNS address during the routers configuration, restart your computer. Alternatively, you can configure your computer manually with a DNS address, as explained in the documentation for your computer. Your computer might not have the router configured as its default gateway. Reboot the computer and verify that the router address (www.routerlogin.net) is listed by your computer as the default gateway address. You might be running log in software that is no longer needed. If your ISP provided a program to log you in to the Internet (such as WinPoET), you no longer need to run that software after installing your router. You might need to go to Internet Explorer and select Tools > Internet Options, click the Connections tab, and select Never dial a connection. Troubleshooting 111 111 R6300 WiFi Router 802.11ac Dual Band Gigabit Changes Not Saved If the router does not save the changes you make in the router interface, check the following:

When entering configuration settings, always click the Apply button before moving to another screen or tab, or your changes are lost. Click the Refresh or Reload button in the web browser. The changes might have occurred, but the old settings might be in the web browsers cache. Wireless Connectivity If you are having trouble connecting wirelessly to the router, try to isolate the problem. Does the wireless device or computer that you are using find your wireless network?

If not, check the Wireless LEDs on the front of the router. It should be lit. If it is not, you can press the WiFi On/Off button on the back of the router to turn the routers wireless radio back on. If you disabled the routers SSID broadcast, then your wireless network is hidden and does not show up in your wireless clients scanning list. (By default, SSID broadcast is enabled.) Does your wireless device support the security that you are using for your wireless network (WPA or WPA2)?

If you want to view the wireless settings for the router, use an Ethernet cable to connect a computer to a LAN port on the router. Then log in to the router, and select Wireless (see

(Basic Wireless Settings on page 26). Note: Be sure to click Apply if you make changes. Wireless Signal Strength If your wireless device finds your network, but the signal strength is weak, check these conditions:

Is your router too far from your computer, or too close? Place your computer near the router, but at least 6 feet away, and see whether the signal strength improves. Is your wireless signal blocked by objects between the router and your computer?

Troubleshooting 112 112 R6300 WiFi Router 802.11ac Dual Band Gigabit Restore the Factory Settings and Password This section explains how to restore the factory settings, changing the routers administration password back to password. You can erase the current configuration and restore factory defaults in two ways:

Use the Erase function of the router (see Erase on page 78). Use the Reset button on the back of the router. See Factory Settings on page 115. If you restore the factory settings and the router fails to restart, or the green Power LED continues to blink, the unit might be defective. If the error persists, you might have a hardware problem and should contact technical support at http://www.netgear.com/support. Troubleshoot Your Network Using the Ping Utility Most network devices and routers contain a ping utility that sends an echo request packet to the designated device. The device then responds with an echo reply. You can easily troubleshooting a network by using the ping utility in your computer or workstation. Test the LAN Path to Your Router You can ping the router from your computer to verify that the LAN path to your router is set up correctly. To ping the router from a running Windows PC:

1. From the Windows toolbar, click Start, and then select Run. 2. In the field provided, type ping followed by the IP address of the router, as in this example:

ping www.routerlogin.net 3. Click OK. You should see a message like this one:

Pinging <IP address > with 32 bytes of data If the path is working, you see this message:

Reply from < IP address >: bytes=32 time=NN ms TTL=xxx If the path is not working, you see this message:

Request timed out If the path is not functioning correctly, you could have one of the following problems:

Wrong physical connections For a wired connection, make sure that the numbered LAN port LED is on for the port to which you are connected. Troubleshooting 113 113 R6300 WiFi Router 802.11ac Dual Band Gigabit Check that the appropriate LEDs are on for your network devices. If your router and computer are connected to a separate Ethernet switch, make sure that the link LEDs are on for the switch ports that are connected to your computer and router. Wrong network configuration Verify that the Ethernet card driver software and TCP/IP software are both installed and configured on your computer. Verify that the IP address for your router and your computer are correct and that the addresses are on the same subnet. Test the Path from Your Computer to a Remote Device After verifying that the LAN path works correctly, test the path from your computer to a remote device. 1. From the Windows toolbar, click the Start button, and then select Run. 2. In the Windows Run window, type:

ping -n 10 <IP address>

where <IP address> is the IP address of a remote device such as your ISPs DNS server. If the path is functioning correctly, replies like those shown in the previous section are displayed. If you do not receive replies:

Check that your computer has the IP address of your router listed as the default gateway. If the IP configuration of your computer is assigned by DHCP, this information is not visible in your computers Network Control Panel. Verify that the IP address of the router is listed as the default gateway. Check to see that the network address of your computer (the portion of the IP address specified by the subnet mask) is different from the network address of the remote device. Check that your cable or DSL modem is connected and functioning. If your ISP assigned a host name to your computer, enter that host name as the account name in the Internet Setup screen. Your ISP could be rejecting the Ethernet MAC addresses of all but one of your computers. Many broadband ISPs restrict access by allowing traffic only from the MAC address of your broadband modem. Some ISPs additionally restrict access to the MAC address of a single computer connected to that modem. If this is the case, configure your router to clone or spoof the MAC address from the authorized computer. Troubleshooting 114 114 A. Supplemental Information A This appendix provides factory default settings and technical specifications for the R6300 WiFi Router 802.11ac Dual Band Gigabit. Factory Settings You can return the router to its factory settings. Use the end of a paper clip or a similar object to press and hold the Reset button on the back of the router for at least 7 seconds. The router resets, and returns to the factory configuration settings shown in the following table. Table 4. Factory default settings Feature Router login Internet connection Local network

(LAN) User login URL User name (case-sensitive) Login password (case-sensitive) WAN MAC address WAN MTU size Port speed LAN IP address Subnet mask DHCP server DHCP range Time zone Time zone daylight savings time Allow a registrar to configure this router Default behavior www.routerlogin.com or www.routerlogin.net admin password Use default hardware address 1500 Autosensing 192.168.1.1 255.255.255.0 Enabled 192.168.1.2 to 192.168.1.254 Pacific time Disabled Enabled 115 115 R6300 WiFi Router 802.11ac Dual Band Gigabit Table 4. Factory default settings (Continued) Feature Local network

(LAN) continued Firewall Wireless Firewall DHCP starting IP address DHCP ending IP address DMZ Time zone Time zone adjusted for daylight savings time SNMP Inbound (communications coming in from the Internet) Outbound (communications going out to the Internet) Source MAC filtering Wireless communication SSID name Security Broadcast SSID Transmission speed Country/region RF channel Operating mode Inbound (communications coming in from the Internet) Outbound (communications going out to the Internet) Default behavior 192.168.1.2 192.168.1.254 Disabled GMT for WW except NA and GR, GMT+1 for GR, GMT-8 for NA Disabled Disabled Disabled (except traffic on port 80, the HTTP port) Enabled (all) Disabled Enabled See router label WPA2-PSK (AES) Enabled Auto*

United States in the US; otherwise varies by region 6 until region selected Up to 217 Mbps Disabled (bars all unsolicited requests) Enabled (all)

*. Maximum wireless signal rate derived from IEEE Standard 802.11 specifications. Actual throughput can . Network conditions and environmental factors, including volume of network traffic, building materials and construction, and network overhead, lower actual data throughput rate. Supplemental Information 116 116 R6300 WiFi Router 802.11ac Dual Band Gigabit Technical Specifications Table 5. R6300 Router specifications Feature Data and routing protocols Power adapter Dimensions Weight Operating temperature Operating humidity Electromagnetic Emissions LAN WAN Wireless Radio data rates Data encoding standards Maximum computers per wireless network Description TCP/IP, RIP-1, RIP-2, DHCP, PPPoE, PPTP, Bigpond, Dynamic DNS, UPnP, and SMB North America: 120V, 60 Hz, input UK, Australia: 240V, 50 Hz, input Europe: 230V, 50 Hz, input All regions (output): 12V DC @ 5A, output Dimensions: 205 x 255 x 77 mm (8.07 x 10.04 x 3.03 in) Weight: 654 g (1.44 lb) 0 to 40 C (32 to 104 F) 90% maximum relative humidity, noncondensing FCC Part 15 Class B VCCI Class B EN 55 022 (CISPR 22), Class B C-Tick N10947 10BASE-T or 100BASE-Tx or 1000BASE-T, RJ-45 10BASE-T or 100BASE-Tx or 1000BASE-T, RJ-45 Maximum wireless signal rate complies with the IEEE 802.11 standard. See the footnote for the previous table. Auto Rate Sensing IEEE 802.11ac draft 2.0 IEEE 802.11n version 2.0 IEEE 802.11n, IEEE 802.11g, IEEE 802.11b 2.4 GHz IEEE 802.11n, IEEE 802.11a 5.0 GHz Limited by the amount of wireless network traffic generated by each node

(typically 5070 nodes). Supplemental Information 117 117 R6300 WiFi Router 802.11ac Dual Band Gigabit Table 5. R6300 Router specifications (Continued) Feature Operating frequency range Description 2.4 GHz 2.4122.462 GHz (US) 2.4122.472 GHz (Japan) 2.4122.472 GHz (Europe ETSI) 5 GHz 5.185.24 + 5.7455.825 GHz (US) 5.185.24 GHz (Europe ETSI) 802.11 security WPA-PSK, WPA2-PSK, and WPA/WPA2 Supplemental Information 118 118 B. Notification of Compliance NE TGEAR Du al Ban d - W ir e l e ss B Regulatory Compliance Information This section includes user requirements for operating this product in accordance with National laws for usage of radio spectrum and operation of radio devices. Failure of the end-user to comply with the applicable requirements may result in unlawful operation and adverse action against the end-user by the applicable National regulatory authority. Note: Note: This product's firmware limits operation to only the channels allowed in a particular Region or Country. Therefore, all options described in this user's guide may not be available in your version of the product. Europe - EU Declaration of Conformity Marking by the above symbol indicates compliance with the Essential Requirements of the R&TTE Directive of the European Union (1999/5/EC). This equipment meets the following conformance standards:

EN300 328 (2.4Ghz), EN301 489-17, EN301 893 (5Ghz), EN60950-1 For complete DoC please visit the NETGEAR EU Declarations of Conformity website at:

http://support.netgear.com/app/answers/detail/a_id/11621/

EDOC in Languages of the European Community Language Cesky [Czech]

Dansk [Danish]

Deutsch

[German]

Eesti [Estonian]

English Statement NETGEAR Inc. tmto prohlauje, e tento Radiolan je ve shode se zkladnmi poadavky a dalmi prslunmi ustanovenmi smernice 1999/5/ES. Undertegnede NETGEAR Inc. erklrer herved, at flgende udstyr Radiolan overholder de vsentlige krav og vrige relevante krav i direktiv 1999/5/EF. Hiermit erklrt NETGEAR Inc., dass sich das Gert Radiolan in bereinstimmung mit den grundlegenden Anforderungen und den brigen einschlgigen Bestimmungen der Richtlinie 1999/5/EG befindet. Kesolevaga kinnitab NETGEAR Inc. seadme Radiolan vastavust direktiivi 1999/5/E phinuetele ja nimetatud direktiivist tulenevatele teistele asjakohastele stetele. Hereby, NETGEAR Inc., declares that this Radiolan is in compliance with the essential requirements and other relevant provisions of Directive 1999/5/EC. 119 119 R6300 WiFi Router 802.11ac Dual Band Gigabit Espaol

[Spanish]

[Greek]

Franais

[French]

Italiano [Italian]

Latviski

[Latvian]

Lietuvi

[Lithuanian]

Nederlands

[Dutch]

Malti [Maltese]

Magyar

[Hungarian]

Polski [Polish]

Portugus

[Portuguese]

Slovensko

[Slovenian]

Slovensky

[Slovak]

Suomi [Finnish]

Svenska

[Swedish]

Por medio de la presente NETGEAR Inc. declara que el Radiolan cumple con los requisitos esenciales y cualesquiera otras disposiciones aplicables o exigibles de la Directiva 1999/5/CE. NETGEAR Inc. Radiolan 1999/5/. Par la prsente NETGEAR Inc. dclare que l'appareil Radiolan est conforme aux exigences essentielles et aux autres dispositions pertinentes de la directive 1999/5/CE. Con la presente NETGEAR Inc. dichiara che questo Radiolan conforme ai requisiti essenziali ed alle altre disposizioni pertinenti stabilite dalla direttiva 1999/5/CE. Ar o NETGEAR Inc. deklar, ka Radiolan atbilst Direktvas 1999/5/EK btiskajm prasbm un citiem ar to saisttajiem noteikumiem. iuo NETGEAR Inc. deklaruoja, kad is Radiolan atitinka esminius reikalavimus ir kitas 1999/5/EB Direktyvos nuostatas. Hierbij verklaart NETGEAR Inc. dat het toestel Radiolan in overeenstemming is met de essentile eisen en de andere relevante bepalingen van richtlijn 1999/5/EG. Hawnhekk, NETGEAR Inc., jiddikjara li dan Radiolan jikkonforma mal-htigijiet essenzjali u ma provvedimenti ohrajn relevanti li hemm fid-Dirrettiva 1999/5/EC. Alulrott, NETGEAR Inc. nyilatkozom, hogy a Radiolan megfelel a vonatkoz alapvet kvetelmnyeknek s az 1999/5/EC irnyelv egyb elrsainak. Niniejszym NETGEAR Inc. owiadcza, e Radiolan jest zgodny z zasadniczymi wymogami oraz pozostaymi stosownymi postanowieniami Dyrektywy 1999/5/EC. NETGEAR Inc. declara que este Radiolan est conforme com os requisitos essenciais e outras disposies da Directiva 1999/5/CE. NETGEAR Inc. izjavlja, da je ta Radiolan v skladu z bistvenimi zahtevami in ostalimi relevantnimi doloili direktive 1999/5/ES. NETGEAR Inc. tmto vyhlasuje, e Radiolan spa zkladn poiadavky a vetky prslun ustanovenia Smernice 1999/5/ES. NETGEAR Inc. vakuuttaa tten ett Radiolan tyyppinen laite on direktiivin 1999/5/EY oleellisten vaatimusten ja sit koskevien direktiivin muiden ehtojen mukainen. Hrmed intygar NETGEAR Inc. att denna Radiolan str I verensstmmelse med de vsentliga egenskapskrav och vriga relevanta bestmmelser som framgr av direktiv 1999/5/EG. Notification of Compliance 120 R6300 WiFi Router 802.11ac Dual Band Gigabit slenska

[Icelandic]

Norsk

[Norwegian]

Hr me lsir NETGEAR Inc. yfir v a Radiolan er samrmi vi grunnkrfur og arar krfur, sem gerar eru tilskipun 1999/5/EC. NETGEAR Inc. erklrer herved at utstyret Radiolan er i samsvar med de grunnleggende krav og vrige relevante krav i direktiv 1999/5/EF. This device is a 2.4 GHz wideband transmission system (transceiver), intended for use in all EU member states and EFTA countries, except in France and Italy where restrictive use applies. In Italy the end-user should apply for a license at the national spectrum authorities in order to obtain authorization to use the device for setting up outdoor radio links and/or for supplying public access to telecommunications and/or network services. This device may not be used for setting up outdoor radio links in France and in some areas the RF output power may be limited to 10 mW EIRP in the frequency range of 2454 - 2483.5 MHz. For detailed information the end-user should contact the national spectrum authority in France. FCC Requirements for Operation in the United States FCC Information to User This product does not contain any user serviceable components and is to be used with approved antennas only. Any product changes or modifications will invalidate all applicable regulatory certifications and approvals. FCC Guidelines for Human Exposure This equipment complies with FCC radiation exposure limits set forth for an uncontrolled environment. This equipment should be installed and operated with minimum distance of 20 cm between the radiator and your body. This transmitter must not be co-located or operating in conjunction with any other antenna or transmitter. FCC Declaration of Conformity We, NETGEAR, Inc., 350 East Plumeria Drive, San Jose, CA 95134, declare under our sole responsibility that the R6300 WiFi Router 802.11ac Dual Band Gigabit complies with Part 15 Subpart B of FCC CFR47 Rules. Operation is subject to the following two conditions:

This device may not cause harmful interference, and This device must accept any interference received, including interference that may cause undesired operation. FCC Radio Frequency Interference Warnings & Instructions 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 residential installation. This equipment uses and can radiate radio frequency energy and, if not installed and used in accordance 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 try to correct the interference by one or more of the following methods:

Reorient or relocate the receiving antenna. Increase the separation between the equipment and the receiver. Connect the equipment into an electrical outlet on a circuit different from that which the radio receiver is Consult the dealer or an experienced radio/TV technician for help. connected. FCC Caution Any changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate this equipment. 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. Notification of Compliance 121 R6300 WiFi Router 802.11ac Dual Band Gigabit For product available in the US/Canada market, only channel 1~11 can be operated. Selection of other This device and its antenna(s) must not be co-located or operation in conjunction with any other antenna or channels is not possible. transmitter. Canadian Department of Communications Radio Interference Regulations This digital apparatus (R6300 WiFi Router 802.11ac Dual Band Gigabit) does not exceed the Class B limits for radio-noise emissions from digital apparatus as set out in the Radio Interference Regulations of the Canadian Department of Communications. This Class [B] digital apparatus complies with Canadian ICES-003. Cet appareil numrique de la classe [B] est conforme la norme NMB-003 du Canada Industry Canada This device complies with RSS-210 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. IMPORTANT NOTE: 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 20cm between the radiator & your body. Caution:

The device for the band 5150-5250 MHz is only for indoor usage to reduce po-tential for harmful interference to co-channel mobile satellite systems. Ce dispositif est conforme la norme CNR-210 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 prjudiciable, et (2) ce dispositif doit accepter tout brouillage reu, y compris un brouillage susceptible de provoquer un fonctionnement indsirable. NOTE IMPORTANTE: Dclaration d'exposition aux radiations:

Cet quipement est conforme aux limites d'exposition aux rayonnements IC tablies pour un environnement non contrl. Cet quipement doit tre install et utilis avec un minimum de 20 cm de distance entre la source de rayonnement et votre corps. Avertissement:

Le dispositif fonctionnant dans la bande 5150-5250 MHz est rserv uniquement pour une utili-sation l'intrieur afin de rduire les risques de brouillage prjudiciable aux systmes de satellites mobiles utilisant les mmes canaux. All cables used to connect peripherals must be shielded and grounded. Operation with cables connected to peripherals that are not shielded and grounded may result in interference to radio and television reception. GPL License Agreement GPL may be included in this product; to view the GPL license agreement go to ftp://downloads.netgear.com/files/GPLnotice.pdf. For GNU General Public License (GPL) related information, please visit http://support.netgear.com/app/answers/detail/a_id/2649 . Notification of Compliance 122 R6300 WiFi Router 802.11ac Dual Band Gigabit Interference Reduction Table The table below shows the Recommended Minimum Distance between NETGEAR equipment and household appliances to reduce interference (in feet and meters). Household Appliance Microwave ovens Baby Monitor - Analog Baby Monitor - Digital Cordless phone - Analog Cordless phone - Digital Bluetooth devices ZigBee Recommended Minimum Distance

(in feet and meters) 30 feet / 9 meters 20 feet / 6 meters 40 feet / 12 meters 20 feet / 6 meters 30 feet / 9 meters 20 feet / 6 meters 20 feet / 6 meters Notification of Compliance 123 R6300 WiFi Router 802.11ac Dual Band Gigabit 124

 

 

Photographs of EUT Report No.: 330853 SPORTON International Inc. TEL : 886-2-2696-2468 FAX : 886-2-2696-2255 PAGE NUMBER : 1 OF 10 ISSUED DATE

: Mar. 21, 2013 Report No.: 330853 SPORTON International Inc. TEL : 886-2-2696-2468 FAX : 886-2-2696-2255 PAGE NUMBER : 2 OF 10 ISSUED DATE

: Mar. 21, 2013 Report No.: 330853 SPORTON International Inc. TEL : 886-2-2696-2468 FAX : 886-2-2696-2255 PAGE NUMBER : 3 OF 10 ISSUED DATE

: Mar. 21, 2013 Report No.: 330853 SPORTON International Inc. TEL : 886-2-2696-2468 FAX : 886-2-2696-2255 PAGE NUMBER : 4 OF 10 ISSUED DATE

: Mar. 21, 2013 Report No.: 330853 SPORTON International Inc. TEL : 886-2-2696-2468 FAX : 886-2-2696-2255 PAGE NUMBER : 5 OF 10 ISSUED DATE

: Mar. 21, 2013 Report No.: 330853 SPORTON International Inc. TEL : 886-2-2696-2468 FAX : 886-2-2696-2255 PAGE NUMBER : 6 OF 10 ISSUED DATE

: Mar. 21, 2013 Report No.: 330853 SPORTON International Inc. TEL : 886-2-2696-2468 FAX : 886-2-2696-2255 PAGE NUMBER : 7 OF 10 ISSUED DATE

: Mar. 21, 2013 Report No.: 330853 SPORTON International Inc. TEL : 886-2-2696-2468 FAX : 886-2-2696-2255 PAGE NUMBER : 8 OF 10 ISSUED DATE

: Mar. 21, 2013 Report No.: 330853 SPORTON International Inc. TEL : 886-2-2696-2468 FAX : 886-2-2696-2255 PAGE NUMBER : 9 OF 10 ISSUED DATE

: Mar. 21, 2013 Report No.: 330853 SPORTON International Inc. TEL : 886-2-2696-2468 FAX : 886-2-2696-2255 PAGE NUMBER : 10 OF 10 ISSUED DATE

: Mar. 21, 2013

 

 

Photographs of EUT Report No.: 330853 SPORTON International Inc. TEL : 886-2-2696-2468 FAX : 886-2-2696-2255 PAGE NUMBER : 1 OF 6 ISSUED DATE

: Mar. 21, 2013 Report No.: 330853 SPORTON International Inc. TEL : 886-2-2696-2468 FAX : 886-2-2696-2255 PAGE NUMBER : 2 OF 6 ISSUED DATE

: Mar. 21, 2013 Report No.: 330853 Adapter 1 Brand Name: NETGEAR Model No.:

SAS030F1 NA 30.0W P/N: 332-10451-01 SPORTON International Inc. TEL : 886-2-2696-2468 FAX : 886-2-2696-2255 PAGE NUMBER : 3 OF 6 ISSUED DATE

: Mar. 21, 2013 Report No.: 330853 SPORTON International Inc. TEL : 886-2-2696-2468 FAX : 886-2-2696-2255 PAGE NUMBER : 4 OF 6 ISSUED DATE

: Mar. 21, 2013 Report No.: 330853 Adapter 2 Brand Name: NETGEAR Model No.:

P030WF120B 11200-6LF P/N: 332-10200-02 SPORTON International Inc. TEL : 886-2-2696-2468 FAX : 886-2-2696-2255 PAGE NUMBER : 5 OF 6 ISSUED DATE

: Mar. 21, 2013 Report No.: 330853 SPORTON International Inc. TEL : 886-2-2696-2468 FAX : 886-2-2696-2255 PAGE NUMBER : 6 OF 6 ISSUED DATE

: Mar. 21, 2013

 

 

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Netgear Incorporated 350 East Plumeria Drive, San Jose, California 95134, USA Tel: 4088903657 / Fax: 4089078097 Class II Change Letter Date: 2015/6/30 FEDERAL COMMUNICATIONS COMMISSION Authorization and Evaluation Division 7435 Oaklamd Mills Road Columbia, MD 21046 U.S.A. To whom it may concern, Request for Class II Permissive Change FCC ID: PY313200227 / Grant Date: 03/26/2013 Pursuant to CFR 2.1043, Netgear Incorporated hereby requests a Class II Permissive Change. The model name shall be same as before. Modification:

This product is an extension of original report under Sporton project number: 330853 Update 5 GHz Band 1 and Band 4 to FCC "New Rules" from "Old Rules". Sincerely, Applicants company name

: Netgear Incorporated Applicants company address

: 350 East Plumeria Drive, San Jose, California 95134, USA Signature

:

Name and Job Title

: David Kay / Regulatory Complinace Manager E-Mail Tel.

: david.kay@netgear.com

: 4088903657

 

 

Netgear Incorporated 350 East Plumeria Drive, San Jose, California 95134, USA Tel: 4088903657 / Fax: 4089078097 Confidential Letter Date: 2015/6/30 Federal Communications Commission Authorization and Evaluation Division FCC IDPY313200227 Confidentiality Request Pursuant to Sections 0.457 and 0.459 of the Commissions Rules, the Applicant Hereby requests confidential treatment of information accomparting this Application As outlined below:

Operational Description The above materials contain trade secrets and proprietary information not customarily released to the public. The public disclosure of these matters might be harmful to the Applicant and provide unjustified benefits to its competitors. The Applicant understands that pursuant to Rule 0.457, disclosure of this Application and all accompanying documentation will not be made before the date of the Grant for this application Sincerely, Applicants company name

: Netgear Incorporated Applicants company address

: 350 East Plumeria Drive, San Jose, California 95134, USA Signature

:

Name and Job Title

: David Kay / Regulatory Complinace Manager E-Mail Tel.

: david.kay@netgear.com

: 4088903657

 

 

Report No.: FA330853-05 Table of Contents 1.1. 1.2. 1.3. 1.4. 1. GENERAL DESCRIPTION.................................................................................................................................... 1 EUT General Information .....................................................................................................................................................................1 Table for Multiple Listing......................................................................................................................................................................1 Table for Class II Change ...................................................................................................................................................................1 Testing Location..................................................................................................................................................................................1 2. MAXIMUM PERMISSIBLE EXPOSURE.................................................................................................................... 2 Limit of Maximum Permissible Exposure ..............................................................................................................................................2 2.1. 2.2. MPE Calculation Method ....................................................................................................................................................................2 2.3. Calculated Result and Limit................................................................................................................................................................3 Report Format Version: 01 FCC ID : PY313200227 Page No. Issued Date

: i of ii

: Sep. 30, 2015 Report No.: FA330853-05 History of This Test Report REPORT NO. FA330853-05 VERSION Rev. 01 DESCRIPTION ISSUED DATE Initial issue of report Sep. 30, 2015 Report Format Version: 01 FCC ID : PY313200227 Page No. Issued Date

: ii of ii

: Sep. 30, 2015 1. GENERAL DESCRIPTION 1.1. EUT General Information Report No.: FA330853-05 RF General Information Evaluation Mode Frequency Range

(MHz) Operating Frequency

(MHz) 2.4GHz WLAN 2400-2483.5 2412-2462 5GHz WLAN 5150-5250 5725-5850 5180-5240 5745-5825 Modulation Type 802.11b: DSSS (DBPSK, DQPSK, CCK) 802.11g/n: OFDM (BPSK, QPSK, 16QAM, 64QAM) 802.11a/n: OFDM (BPSK, QPSK, 16QAM, 64QAM) 802.11ac: OFDM (BPSK, QPSK, 16QAM, 64QAM, 256QAM) 1.2. Table for Multiple Listing The product name and model names in the following table are all refer to the identical product. Product Name Model Name Description R6300 Smart WiFi Router AC1450 Smart WiFi Router 1.3. Table for Class II Change R6300v2 AC1450 All the models are identical, the different model names served as marketing strategy. This product is an extension of original one reported under Sporton project number: 330853 Below is the table for the change of the product with respect to the original one. Modifications Performance Checking 1. Changing 5GHz Band 1 to New Rules from Old Rules. After evaluating, it's not necessary to re-test all test items for 5GHz Band 1 updating to "New Rules" due to the same power as original filing. 2. Changing 5GHz Band 4 to New Rules from Old Rules. Maximum Permissible Exposure Note: There is no change in hardware or in existing RF relevant portion. 1.4. Testing Location HWA YA JHUBEI ADD TEL ADD TEL Report Format Version: 01 FCC ID : PY313200227 Testing Location

: No. 52, Hwa Ya 1st Rd., Kwei-Shan Hsiang, Tao Yuan Hsien, Taiwan, R.O.C.

: 886-3-327-3456

: 886-3-327-0973 FAX

: No.8, Lane 724, Bo-ai St., Jhubei City, HsinChu County 302, Taiwan, R.O.C.

: 886-3-656-9065

: 886-3-656-9085 FAX Page No. Issued Date

: 1 of 3

: Sep. 30, 2015 2. MAXIMUM PERMISSIBLE EXPOSURE 2.1. Limit of Maximum Permissible Exposure

(A) Limits for Occupational / Controlled Exposure Report No.: FA330853-05 Frequency Range

(MHz) Electric Field Strength (E) (V/m) Magnetic Field Strength (H) (A/m) Power Density (S)

(mW/ cm) Averaging Time

|E|,|H| or S

(minutes) 0.3-3.0 3.0-30 30-300 300-1500 1500-100,000 614 1842 / f 61.4 1.63 4.89 / f 0.163

(100)*

(900 / f)*

1.0 F/300 5 6 6 6 6 6

(B) Limits for General Population / Uncontrolled Exposure Frequency Range

(MHz) Electric Field Strength (E) (V/m) Magnetic Field Strength (H) (A/m) Power Density (S)

(mW/ cm) Averaging Time

|E|,|H| or S

(minutes) 0.3-1.34 1.34-30 30-300 300-1500 1500-100,000 614 824/f 27.5 1.63 2.19/f 0.073

(100)*

(180/f)*

0.2 F/1500 1.0 30 30 30 30 30 Note: f = frequency in MHz ; *Plane-wave equivalent power density 2.2. MPE Calculation Method The MPE was calculated at 20 cm to show compliance with the power density limit. The following formula was used to calculate the Power Density:

E (V/m) GP 30 d Power Density: Pd (W/m) 2E 377 E Electric field (V/m) P Peak RF output power (W) G EUT Antenna numeric gain (numeric) d Separation distance between radiator and human body (m) The formula can be changed to Pd 30 377 d GP 2 Report Format Version: 01 FCC ID : PY313200227 Page No. Issued Date

: 2 of 3

: Sep. 30, 2015 Report No.: FA330853-05 2.3. Calculated Result and Limit Exposure Environment: General Population / Uncontrolled Exposure For 5GHz Band:

Antenna Type : PCB Antenna Conducted Power for IEEE 802.11ac MCS0/Nss1 (VHT40): 22.74 dBm Distance

(cm) Test Freq.

(MHz) Directional Gain (dBi) Antenna Gain

(numeric) 20 5755 5.56 3.5975 The maximum combined Average Output Power Power Density (S)

(mW/cm)

(dBm) 22.7437 188.0918 0.134685

(mW) Note:

Directiona l Gain 10 log Nss j 1 N N K ANT 1 g kj

, 2 ANT

= 5.56dBi. For 2.4GHz Band:

Antenna Type : PCB Antenna Max Conducted Power for IEEE 802.11b: 28.13 dBm Distance

(cm) Test Freq.

(MHz) Antenna Gain (dBi) Antenna Gain

(numeric) 20 2437 2.30 1.6982 The maximum combined Average Output Power Power Density (S)

(mW/cm)

(dBm) 28.1315 650.3469 0.219834

(mW) Limit of Power Density (S)

(mW/cm) Test Result 1 Complies Limit of Power Density (S)

(mW/cm) Test Result 1 Complies CONCULSION:

Both of the WLAN 2.4GHz Band and WLAN 5GHz Band can transmit simultaneously, the formula of calculatedthe MPE is:

CPD1 / LPD1 + CPD2 / LPD2 + etc. < 1 CPD = Calculation power density LPD = Limit of power density Therefore, the worst-case situation is 0.219834 / 1 +0.134685 / 1 = 0.354519, which isless than 1. This confirmed that the device comply with FCC 1.1310 MPE limit. Report Format Version: 01 FCC ID : PY313200227 Page No. Issued Date

: 3 of 3

: Sep. 30, 2015

 

 

Netgear Incorporated 350 East Plumeria Drive, San Jose, California 95134, USA Tel: 4088903657 / Fax: 4089078097 Power of Attorney Date: 2015/6/30 Dear Sir, I hereby have entrusted the following person to be a proxy regarding application for Type Certification. Sporton International Inc. Address Name Job Title e-mail

: No.8, Lane 724, Bo-ai St., Jhubei City, HsinChu County 302, Taiwan, R.O.C.

: Leo Huang

: Manager

: Leohuang@sporton.com.tw I am therefore responsible for the contents of the application. Brand name and model type of the specified radio equipment: NETGEAR / R6300v2, AC1450 FCC ID: PY313200227 Product name: R6300 Smart WiFi Router, AC1450 Smart WiFi Router FCC Grantee contact person information. Applicants company name

: Netgear Incorporated Applicants company address

: 350 East Plumeria Drive, San Jose, California 95134, USA Signature

:

Name and Job Title

: David Kay / Regulatory Complinace Manager E-Mail Tel.

: david.kay@netgear.com

: 4088903657

 

 

SPORTON International Inc. No. 52, Hwa Ya 1st Rd., Hwa Ya Technology Park, Kwei-Shan Hsiang, Tao Yuan Hsien, Taiwan, R.O.C. Ph: 886-3-327-3456 / FAX: 886-3-327-0973 / www.sporton.com.tw FCC RADIO TEST REPORT Applicants company NETGEAR, Inc. Applicant Address 350 East Plumeria Drive, San Jose, California 95134, USA FCC ID PY313200227 Product Name Brand Name Model No. Test Rule Part(s) Test Freq. Range Received Date Final Test Date Submission Type R6300 Smart WiFi Router, AC1450 Smart WiFi Router NETGEAR R6300v2, AC1450 47 CFR FCC Part 15 Subpart E 15.407 5150 ~ 5250 MHz / 5725 ~ 5850 MHz Jun. 29, 2015 Sep. 17, 2015 Original Equipment Statement Test result included is for the IEEE 802.11n and IEEE 802.11a/ac of the product. The test result in this report refers exclusively to the presented test model / sample. Without written approval of SPORTON International Inc., the test report shall not be reproduced except in full. The measurements and test results shown in this test report were made in accordance with the procedures and found in compliance with the limit given in ANSI C63.10-2013, 47 CFR FCC Part 15 Subpart E, KDB789033 D02 v01, KDB662911 D01 v02r01, KDB644545 D03 v01. The test equipment used to perform the test is calibrated and traceable to NML/ROC. Report Format Version: Rev. 01 Report No.: FR330853-05 Table of Contents 1. VERIFICATION OF COMPLIANCE....................................................................................................................... 1 2. SUMMARY OF THE TEST RESULT .......................................................................................................................... 2 3. GENERAL INFORMATION .................................................................................................................................. 3 Product Details....................................................................................................................................................................................3 3.1. Accessories.........................................................................................................................................................................................4 3.2. Table for Filed Antenna.......................................................................................................................................................................5 3.3. Table for Carrier Frequencies .............................................................................................................................................................6 3.4. Table for Test Modes...........................................................................................................................................................................7 3.5. Table for Testing Locations..................................................................................................................................................................9 3.6. Table for Multiple Listing....................................................................................................................................................................10 3.7. Table for Class II Change .................................................................................................................................................................10 3.8. 3.9. Table for Supporting Units .................................................................................................................................................................10 3.10. Table for Parameters of Test Software Setting ...................................................................................................................................11 3.11. EUT Operation during Test .................................................................................................................................................................12 3.12. Duty Cycle........................................................................................................................................................................................13 3.13. Test Configurations ...........................................................................................................................................................................14 4. TEST RESULT ................................................................................................................................................... 16 4.1. 26dB Bandwidth and 99% Occupied Bandwidth Measurement......................................................................................................16 4.2. 6dB Spectrum Bandwidth Measurement ..........................................................................................................................................27 4.3. Maximum Conducted Output Power Measurement.........................................................................................................................35 Power Spectral Density Measurement ..............................................................................................................................................39 4.4. Radiated Emissions Measurement ....................................................................................................................................................48 4.5. 4.6. Band Edge Emissions Measurement .................................................................................................................................................66 Frequency Stability Measurement ....................................................................................................................................................75 4.7. 4.8. Antenna Requirements .....................................................................................................................................................................79 5. LIST OF MEASURING EQUIPMENTS ................................................................................................................... 80 6. MEASUREMENT UNCERTAINTY.......................................................................................................................... 81 APPENDIX A. TEST PHOTOS ........................................................................................................................ A1 ~ A2 Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

: i of ii

:Sep. 30, 2015 Report No.: FR330853-05 History of This Test Report REPORT NO. VERSION DESCRIPTION ISSUED DATE FR330853-05 Rev. 01 Initial issue of report Sep. 30, 2015 36/52 4 5180 MHz 5260 MHz 42 50 42/50/58 5210 MHz 5250 MHz 42 5210 MHz 5.15~5.25 GHz 5.15-5.35 GHz 5.25-5.35 GHz 47 CFR FCC Part 15 Subpart E Ant. A + Ant. B Further, this requirement does not apply to intentional radiators that must be professionally installed. Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

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:Sep. 30, 2015 Report No.: FR330853-05 2. SUMMARY OF THE TEST RESULT Part Rule Section Description of Test Result Under Limit Applied Standard: 47 CFR FCC Part 15 Subpart E 4.1 15.407(a) 26dB Spectrum Bandwidth and 99% Occupied Bandwidth 4.2 15.407(e) 6dB Spectrum Bandwidth 15.407(a) 15.407(a) 15.407(b) 15.407(b) 15.407(g) Maximum Conducted Output Power Power Spectral Density Radiated Emissions Band Edge Emissions Frequency Stability 15.203 Antenna Requirements 4.3 4.4 4.5 4.6 4.7 4.8 Complies Complies

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Complies 6.84 dB Complies 23.72 dB Complies 10.79 dB Complies Complies Complies 0.03 dB

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Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

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: Sep. 30, 2015 3. GENERAL INFORMATION 3.1. Product Details Items Description Report No.: FR330853-05 Product Type Radio Type Power Type Modulation Data Modulation Data Rate (Mbps) Frequency Range Channel Number Channel Band Width (99%) Maximum Conducted Output Power Carrier Frequencies Antenna Report Format Version: Rev. 01 FCC ID: PY313200227 WLAN (3TX, 3RX) Intentional Transceiver From power adapter IEEE 802.11a: OFDM IEEE 802.11n/ac: see the below table IEEE 802.11a/n: OFDM (BPSK / QPSK / 16QAM / 64QAM) IEEE 802.11ac: OFDM (BPSK / QPSK / 16QAM / 64QAM / 256QAM) IEEE 802.11a: OFDM (6/9/12/18/24/36/48/54) IEEE 802.11n/ac: see the below table 5150 ~ 5250 MHz / 5725 ~ 5850 MHz 9 for 20MHz bandwidth ; 4 for 40MHz bandwidth 2 for 80MHz bandwidth

<For Non-Beamforming Mode>

IEEE 802.11a: 16.93 dBm IEEE 802.11ac MCS0/Nss1 (VHT20): 17.89 MHz IEEE 802.11ac MCS0/Nss1 (VHT40): 36.76 MHz IEEE 802.11ac MCS0/Nss1 (VHT80): 76.12 MHz

<For Beamforming Mode>

IEEE 802.11ac MCS0/Nss1 (VHT20): 17.80 MHz IEEE 802.11ac MCS0/Nss1 (VHT40): 36.76 MHz IEEE 802.11ac MCS0/Nss1 (VHT80): 76.12 MHz

<For Non-Beamforming Mode>

IEEE 802.11a: 21.62 dBm IEEE 802.11ac MCS0/Nss1 (VHT20): 22.70 dBm IEEE 802.11ac MCS0/Nss1 (VHT40): 23.16 dBm IEEE 802.11ac MCS0/Nss1 (VHT80): 21.67 dBm

<For Beamforming Mode>

IEEE 802.11ac MCS0/Nss1 (VHT20): 22.40 dBm IEEE 802.11ac MCS0/Nss1 (VHT40): 22.74 dBm IEEE 802.11ac MCS0/Nss1 (VHT80): 21.67 dBm Please refer to section 3.4 Please refer to section 3.3 Page No. Issued Date

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: Sep. 30, 2015 Report No.: FR330853-05 Items Communication Mode Beamforming Function Description IP Based (Load Based) Frame Based With beamforming for 802.11ac in 5GHz Without beamforming Operating Mode Outdoor access point Indoor access point Fixed point-to-point access points Mobile and portable client devices Antenna and Band width Antenna Band width Mode 20 MHz IEEE 802.11a IEEE 802.11n IEEE 802.11ac IEEE 11n/ac Spec. V V V Three (TX) 40 MHz X V V Protocol 802.11n (HT20) 802.11n (HT40) 802.11ac (VHT20) 802.11ac (VHT40) 802.11ac (VHT80) Number of Transmit Chains (NTX) 3 3 3 3 3 80 MHz X X V Data Rate / MCS MCS 0-23 MCS 0-23 MCS 0-9/Nss1-3 MCS 0-9/Nss1-3 MCS 0-9/Nss1-3 Note 1: IEEE Std. 802.11n modulation consists of HT20 and HT40 (HT: High Throughput). Then EUT supports HT20 and HT40. Note 2: IEEE Std. 802.11ac modulation consists of VHT20, VHT40, VHT80 and VHT160 (VHT: Very High Throughput). Then EUT supports VHT20, VHT40 and VHT80. Note 3: Modulation modes consist of below configuration:

HT20/HT40: IEEE 802.11n, VHT20/VHT40/VHT80: IEEE 802.11ac 3.2. Accessories Power Brand Model P/N Rating Adapter 1 NETGEAR Adapter 2 NETGEAR P030WF120B 11200-6LF SAS030F1 NA 30.0W 332-10200-02 332-10451-01 Others Input: 100-120VAC, 47/63Hz, 0.9A Output: 12VDC, 2.5A Input: 100-240VAC, 50/60Hz, 1.0A Output: 12VDC, 2.5A RJ-45 Cable*1, Shielded, 1.5m Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

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: Sep. 30, 2015 3.3. Table for Filed Antenna Report No.: FR330853-05 Ant. Brand P/N Antenna Type Connector 1 2 3 4 5 6 NETGEAR NETGEAR NETGEAR NETGEAR NETGEAR NETGEAR 401-10006-01 401-10006-01 401-10006-01 401-10007-01 401-10007-01 401-10007-01 PCB Antenna PCB Antenna PCB Antenna PCB Antenna PCB Antenna PCB Antenna I-PEX I-PEX I-PEX I-PEX I-PEX I-PEX Gain (dBi) 2.4GHz 5GHz 1.3 1.5 2.3

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3.0 2.1 2.5 Note: The EUT has six antennas

<For 2.4GHz Band:>

For IEEE 802.11b/g/n mode (3TX/3RX) Chain 1, Chain 2 and Chain 3 can be used as transmitting/receiving antenna. Chain 1, Chain 2 and Chain 3 could transmit/receive simultaneously.

<For 5GHz Band:>

For IEEE 802.11a/n/ac mode (3TX/3RX):

Chain 4, Chain 5 and Chain 6 can be used as transmitting/receiving antenna. Chain 4, Chain 5 and Chain 6 could transmit/receive simultaneously. Chain 1 (Ant. 1): TX/RX Chain 2 (Ant. 2): TX/RX Chain 3 (Ant. 3): TX/RX Chain 6 (Ant. 6): TX/RX Chain 5 (Ant. 5): TX/RX Chain 4 (Ant. 4): TX/RX Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

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: Sep. 30, 2015 3.4. Table for Carrier Frequencies Report No.: FR330853-05 There are three bandwidth systems. For 20MHz bandwidth systems, use Channel 36, 40, 44, 48, 149, 153, 157, 161, 165. For 40MHz bandwidth systems, use Channel 38, 46, 151, 159. For 80MHz bandwidth systems, use Channel 42, 155. Frequency Band Channel No. Frequency Channel No. Frequency 5150~5250 MHz Band 1 5725~5850 MHz Band 4 36 38 40 42 149 151 153 155 5180 MHz 5190 MHz 5200 MHz 5210 MHz 5745 MHz 5755 MHz 5765 MHz 5775 MHz 44 46 48

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157 159 161 165 5220 MHz 5230 MHz 5240 MHz

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5785 MHz 5795 MHz 5805 MHz 5825 MHz Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

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: Sep. 30, 2015 3.5. Table for Test Modes Report No.: FR330853-05 Preliminary tests were performed in different data rate to find the worst radiated emission. The data rate shown in the table below is the worst-case rate with respect to the specific test item. Investigation has been done on all the possible configurations for searching the worst cases. The following table is a list of the test modes shown in this test report. Test Items Mode Data Rate Channel Chain Max. Conducted Output Power

<For Non-Beamforming Mode>

11a/BPSK Band 4 6Mbps 149/157/165 11ac VHT20 Band 4 MCS0/Nss1 149/157/165 11ac VHT40 Band 4 MCS0/Nss1 151/159 11ac VHT80 Band 4 MCS0/Nss1 155

<For Beamforming Mode>

11ac VHT20 Band 4 MCS0/Nss1 149/157/165 11ac VHT40 Band 4 MCS0/Nss1 151/159 11ac VHT80 Band 4 MCS0/Nss1 155 Power Spectral Density

<For Non-Beamforming Mode>

26dB Spectrum Bandwidth &

99% Occupied Bandwidth Measurement 11a/BPSK Band 4 6Mbps 149/157/165 11ac VHT20 Band 4 MCS0/Nss1 149/157/165 11ac VHT40 Band 4 MCS0/Nss1 151/159 11ac VHT80 Band 4 MCS0/Nss1 155

<For Beamforming Mode>

11ac VHT20 Band 4 MCS0/Nss1 149/157/165 11ac VHT40 Band 4 MCS0/Nss1 151/159 11ac VHT80 Band 4 MCS0/Nss1 155

<For Non-Beamforming Mode>

11a/BPSK Band 4 6Mbps 149/157/165 11ac VHT20 Band 4 MCS0/Nss1 149/157/165 11ac VHT40 Band 4 MCS0/Nss1 151/159 11ac VHT80 Band 4 MCS0/Nss1 155

<For Beamforming Mode>

11ac VHT20 Band 4 MCS0/Nss1 149/157/165 11ac VHT40 Band 4 MCS0/Nss1 151/159 11ac VHT80 Band 4 MCS0/Nss1 155 4+5+6 4+5+6 4+5+6 4+5+6 4+5+6 4+5+6 4+5+6 4+5+6 4+5+6 4+5+6 4+5+6 4+5+6 4+5+6 4+5+6 4+5+6 4+5+6 4+5+6 4+5+6 4+5+6 4+5+6 4+5+6 Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

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: Sep. 30, 2015 Report No.: FR330853-05 6dB Spectrum Bandwidth Measurement

<For Non-Beamforming Mode>

11a/BPSK Band 4 6Mbps 149/157/165 11ac VHT20 Band 4 MCS0/Nss1 149/157/165 11ac VHT40 Band 4 MCS0/Nss1 151/159 11ac VHT80 Band 4 MCS0/Nss1 155

<For Beamforming Mode>

11ac VHT20 Band 4 MCS0/Nss1 149/157/165 11ac VHT40 Band 4 MCS0/Nss1 151/159 11ac VHT80 Band 4 MCS0/Nss1 155 Radiated Emission Above 1GHz

<For Non-Beamforming Mode>

11a/BPSK Band 4 6Mbps 149/157/165 11ac VHT20 Band 4 MCS0/Nss1 149/157/165 11ac VHT40 Band 4 MCS0/Nss1 151/159 11ac VHT80 Band 4 MCS0/Nss1 155

<For Beamforming Mode>

11ac VHT20 Band 4 MCS0/Nss1 149/157/165 11ac VHT40 Band 4 MCS0/Nss1 151/159 11ac VHT80 Band 4 MCS0/Nss1 155 Band Edge Emission

<For Non-Beamforming Mode>

11a/BPSK Band 4 6Mbps 149/157/165 11ac VHT20 Band 4 MCS0/Nss1 149/157/165 11ac VHT40 Band 4 MCS0/Nss1 151/159 11ac VHT80 Band 4 MCS0/Nss1 155

<For Beamforming Mode>

11ac VHT20 Band 4 MCS0/Nss1 149/157/165 11ac VHT40 Band 4 MCS0/Nss1 151/159 11ac VHT80 Band 4 MCS0/Nss1 20 MHz 40 MHz 80 MHz Band 4 Band 4 Band 4

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155 157 151 155 Frequency Stability 4+5+6 4+5+6 4+5+6 4+5+6 4+5+6 4+5+6 4+5+6 4+5+6 4+5+6 4+5+6 4+5+6 4+5+6 4+5+6 4+5+6 4+5+6 4+5+6 4+5+6 4+5+6 4+5+6 4+5+6 4+5+6 6 6 6 Note 1: VHT20/VHT40 covers HT20/HT40, due to same modulation. The power setting for 802.11n HT20 and HT40 are the same or lower than 802.11ac VHT20 and VHT40 Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

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: Sep. 30, 2015 Report No.: FR330853-05 Note 2: There are two modes of EUT, one is beamforming mode, and the other is non-beamforming mode for 802.11ac in 5GHz, Beamforming mode and non-beamforming mode has been test and record in this test report. Note 3: The polarity of Ant. 6 is different from Ant. 4 and Ant. 5.

(Ant. 6 is horizontal polarity, Ant. 4 and Ant. 5 are vertical polarity.) Therefore, it only uses Ant. 4 and Ant. 5 to evaluate directional gain. The following test modes were performed for all tests:

For Radiated Emission test Test Mode: EUT standing For Co-location MPE:

The EUT could be applied with 2.4GHz WLAN function and 5GHz WLAN function; therefore Co-location Maximum Permissible Exposure (Please refer to FA330853-05) test is added for simultaneously transmit between 2.4GHz WLAN function and 5GHz WLAN function. 3.6. Table for Testing Locations Address:

No.8, Lane 724, Bo-ai St., Jhubei City, Hsinchu County 302, Taiwan, R.O.C. Test Site Location TEL:

FAX:

886-3-656-9065 886-3-656-9085 Test Site No. Site Category 03CH01-CB SAC TH01-CB OVEN Room Location Hsin Chu Hsin Chu FCC Reg. No. IC File No. VCCI Reg. No 262045 IC 4086D

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Open Area Test Site (OATS); Semi Anechoic Chamber (SAC). Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

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: Sep. 30, 2015 3.7. Table for Multiple Listing Report No.: FR330853-05 The product name and model names in the following table are all refer to the identical product. Product Name Model Name Description R6300 Smart WiFi Router AC1450 Smart WiFi Router R6300v2 AC1450 All the models are identical, the different model names served as marketing strategy. 3.8. Table for Class II Change This product is an extension of original one reported under Sporton project number: FR330853 Below is the table for the change of the product with respect to the original one. Modifications Performance Checking 1. Changing 5GHz Band 1 to New Rules from Old Rules. 2. Changing 5GHz Band 4 to New Rules from Old Rules. After evaluating, it's not necessary to re-test all test items for 5GHz Band 1 updating to "New Rules" due to the same power as original filing. 1. 26dB Spectrum Bandwidth and 99% Occupied Bandwidth 2. 6dB Spectrum Bandwidth 3. Maximum Conducted Output Power 4. Power Spectral Density 5. Radiated Emissions(Above 1GHz) 6. Band Edge Emissions 7. Frequency Stability Note: There is no change in hardware or in existing RF relevant portion. 3.9. Table for Supporting Units For Test Site No: 03CH01-CB

<For Non-Beamforming Mode>

Support Unit Notebook

<For Beamforming Mode>

Support Unit Notebook Notebook WLAN ac Dongle For Test Site No: TH01-CB Support Unit Notebook Report Format Version: Rev. 01 FCC ID: PY313200227 Brand DELL Brand DELL DELL Netgear Brand DELL Model E4300 Model E4300 E4300 A6200 Model E4300 FCC ID DoC FCC ID DoC DoC PY31220200 FCC ID DoC Page No. Issued Date

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: Sep. 30, 2015 Report No.: FR330853-05 3.10. Table for Parameters of Test Software Setting During testing, Channel and Power Controlling Software provided by the customer was used to control the operating channel as well as the output power level. The RF output power selection is for the setting of RF output power expected by the customer and is going to be fixed on the firmware of the final end product.

<For Non-Beamforming Mode>

Test Software Version Mode 802.11a 802.11ac MCS0/Nss1 VHT20 Mode 802.11ac MCS0/Nss1 VHT40 Mode 802.11ac MCS0/Nss1 VHT80

<For Beamforming Mode>

Test Software Version 5745 MHz 59 64 5755 MHz 64 Mode 5745 MHz 802.11ac MCS0/Nss1 VHT20 63 Mode 5755 MHz 64 802.11ac MCS0/Nss1 VHT40 Mode 802.11ac MCS0/Nss1 VHT80 Mtool 2.0.0.7 Test Frequency (MHz) NCB: 20MHz 5785 MHz 60 63 NCB: 40MHz NCB: 80MHz 5775 MHz 61 Mtool 2.0.0.7 Test Frequency (MHz) NCB: 20MHz 5785 MHz 60 NCB: 40MHz NCB: 80MHz 5775 MHz 61 5825 MHz 57 60 5795 MHz 66 5825 MHz 56 5795 MHz 63 Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

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: Sep. 30, 2015 Report No.: FR330853-05 3.11. EUT Operation during Test

<For Non-Beamforming Mode>

The EUT was programmed to be in continuously transmitting mode.

<For Beamforming Mode>

For Conducted Mode:

The EUT was programmed to be in continuously transmitting mode. For Radiated Mode:

During the test, the following programs under WIN XP were executed. The program was executed as follows:

1. During the test, the EUT operation to normal function. 2. Executed command fixed test channel under DOS. 3. Executed "Lantest.exe " to link with the remote workstation to receive and transmit packet by WLAN ac Dongle and transmit duty cycle no less 98%

Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

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: Sep. 30, 2015 3.12. Duty Cycle

<For Non-Beamforming Mode>

Mode 802.11a 802.11ac MCS0/Nss1 VHT20 802.11ac MCS0/Nss1 VHT40 802.11ac MCS0/Nss1 VHT80

<For Beamforming Mode>

Mode 802.11ac MCS0/Nss1 VHT20 802.11ac MCS0/Nss1 VHT40 802.11ac MCS0/Nss1 VHT80 Report No.: FR330853-05 On Time On+Off Time Duty Cycle Duty Factor 1/T Minimum VBW

(ms) 2.056 1.920 0.936 0.459

(ms) 2.080 1.949 0.980 0.487

(%) 98.81%

98.51%

95.56%

94.34%

(dB) 0.05 0.07 0.20 0.25

(kHz) 0.01 0.01 1.07 2.18 On Time On+Off Time Duty Cycle Duty Factor 1/T Minimum VBW

(ms) 3.860 0.932 5.080

(ms) 3.960 1.040 5.420

(%) 97.47%

89.62%

93.73%

(dB) 0.11 0.48 0.28

(kHz) 0.26 1.07 0.20 Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

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: Sep. 30, 2015 3.13. Test Configurations 3.13.1. Radiation Emissions Test Configuration

<For Non-Beamforming Mode>

AC Main 1 EUT Report No.: FR330853-05 2 NB Item Connection Shielded Length(m) 1 2 Power cable RJ-45 cable No No 1.8m 10m Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

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: Sep. 30, 2015

<For Beamforming Mode>

Report No.: FR330853-05 AC MAIN 1 EUT NB NB WLAN ac Dongle Item Connection Shielded Length(m) 1 2 Power cable RJ-45 cable No No 1.8m 10m 2 Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

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: Sep. 30, 2015 4. TEST RESULT Report No.: FR330853-05 4.1. 26dB Bandwidth and 99% Occupied Bandwidth Measurement 4.1.1. Limit No restriction limits. 4.1.2. Measuring Instruments and Setting Please refer to section 5 of equipments list in this report. The following table is the setting of the spectrum analyzer. Spectrum Parameters Attenuation Span Frequency RBW VBW Detector Trace Sweep Time Spectrum Parameters Span RBW VBW Detector Trace 4.1.3. Test Procedures 26dB Bandwidth Setting Auto

> 26dB Bandwidth Approximately 1% of the emission bandwidth VBW > RBW Peak Max Hold Auto 99% Occupied Bandwidth Setting 1.5 times to 5.0 times the OBW 1 % to 5 % of the OBW 3 x RBW Peak Max Hold The transmitter was radiated to the spectrum analyzer in peak hold mode. For Radiated 26dB Bandwidth and 99% Occupied Bandwidth Measurement:

1. 2. Measure the maximum width of the emission that is 26 dB down from the peak of the emission. Compare this with the RBW setting of the analyzer. Readjust RBW and repeat measurement as needed until the RBW/EBW ratio is approximately 1%. 4.1.4. Test Setup Layout For Radiated 26dB Bandwidth and 99% Occupied Bandwidth Measurement:

This test setup layout is the same as that shown in section 4.5.4. 4.1.5. Test Deviation There is no deviation with the original standard. 4.1.6. EUT Operation during Test The EUT was programmed to be in continuously transmitting mode. Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

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: Sep. 30, 2015 Report No.: FR330853-05 4.1.7. Test Result of 26dB Bandwidth and 99% Occupied Bandwidth

<For Non-Beamforming Mode>

Temperature Test Engineer 25 Roki Liu Humidity 60%

Mode Frequency 26dB Bandwidth

(MHz) 99% Occupied Bandwidth

(MHz) 802.11a 802.11ac MCS0/Nss1 VHT20 802.11ac MCS0/Nss1 VHT40 802.11ac MCS0/Nss1 VHT80 5745 MHz 5785 MHz 5825 MHz 5745 MHz 5785 MHz 5825 MHz 5755 MHz 5795 MHz 5775 MHz 19.83 19.74 19.83 20.61 20.52 20.43 40.58 40.58 83.48 16.93 16.93 16.93 17.89 17.89 17.89 36.76 36.76 76.12 Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

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: Sep. 30, 2015 Report No.: FR330853-05 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE 802.11a / Chain 4 + Chain 5

+ Chain 6 / 5745 MHz 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE 802.11a / Chain 4 + Chain 5

+ Chain 6 / 5785 MHz Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

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: Sep. 30, 2015 Report No.: FR330853-05 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE 802.11a / Chain 4 + Chain 5

+ Chain 6 / 5825 MHz 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE 802.11ac MCS0/Nss1 VHT20 /

Chain 4 + Chain 5 + Chain 6 / 5745 MHz Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

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: Sep. 30, 2015 Report No.: FR330853-05 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE 802.11ac MCS0/Nss1 VHT20 /

Chain 4 + Chain 5 + Chain 6 / 5785 MHz 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE 802.11ac MCS0/Nss1 VHT20 /

Chain 4 + Chain 5 + Chain 6 / 5825 MHz Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

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: Sep. 30, 2015 Report No.: FR330853-05 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE 802.11ac MCS0/Nss1 VHT40 /

Chain 4 + Chain 5 + Chain 6 / 5755 MHz 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE 802.11ac MCS0/Nss1 VHT40 /

Chain 4 + Chain 5 + Chain 6 / 5795 MHz Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

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: Sep. 30, 2015 Report No.: FR330853-05 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE 802.11ac MCS0/Nss1 VHT80 /

Chain 4 + Chain 5 + Chain 6 / 5775 MHz Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

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: Sep. 30, 2015

<For Beamforming Mode>

25 Roki Liu Test Engineer Temperature Report No.: FR330853-05 Humidity 60%

Mode Frequency 26dB Bandwidth

(MHz) 99% Occupied Bandwidth

(MHz) 802.11ac MCS0/Nss1 VHT20 802.11ac MCS0/Nss1 VHT40 802.11ac MCS0/Nss1 VHT80 5745 MHz 5785 MHz 5825 MHz 5755 MHz 5795 MHz 5775 MHz 20.43 20.35 20.35 40.29 40.44 84.35 17.80 17.80 17.80 36.76 36.76 76.12 Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

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: Sep. 30, 2015 Report No.: FR330853-05 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE 802.11ac MCS0/Nss1 VHT20 /

Chain 4 + Chain 5 + Chain 6 / 5745 MHz 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE 802.11ac MCS0/Nss1 VHT20 /

Chain 4 + Chain 5 + Chain 6 / 5785 MHz Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

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: Sep. 30, 2015 Report No.: FR330853-05 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE 802.11ac MCS0/Nss1 VHT20 /

Chain 4 + Chain 5 + Chain 6 / 5825 MHz 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE 802.11ac MCS0/Nss1 VHT40 /

Chain 4 + Chain 5 + Chain 6 / 5755 MHz Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

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: Sep. 30, 2015 Report No.: FR330853-05 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE 802.11ac MCS0/Nss1 VHT40 /

Chain 4 + Chain 5 + Chain 6 / 5795 MHz 26dB Bandwidth and 99% Occupied Bandwidth Plot on Configuration IEEE 802.11ac MCS0/Nss1 VHT80 /

Chain 4 + Chain 5 + Chain 6 / 5775 MHz Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

: 26 of 81

: Sep. 30, 2015 Report No.: FR330853-05 4.2. 6dB Spectrum Bandwidth Measurement 4.2.1. Limit For digital modulation systems, the minimum 6dB bandwidth shall be at least 500 kHz. 4.2.2. Measuring Instruments and Setting Please refer to section 5 of equipments list in this report. The following table is the setting of spectrum analyzer. 6dB Spectrum Bandwidth Spectrum Parameters Attenuation Span Frequency RBW VBW Detector Trace Sweep Time 4.2.3. Test Procedures Setting Auto

> 6dB Bandwidth 100kHz 3 x RBW Peak Max Hold Auto For Radiated 6dB Bandwidth Measurement:

1. 2. The transmitter was radiated to the spectrum analyzer in peak hold mode. Test was performed in accordance with KDB789033 D02 v01 for Compliance Testing of Unlicensed National Information Infrastructure (U-NII) Devices - section (C) Emission Bandwidth. 3. Multiple antenna system was performed in accordance with KDB662911 D01 v02r01 Emissions Testing of Transmitters with Multiple Outputs in the Same Band. 4. Measured the spectrum width with power higher than 6dB below carrier. 4.2.4. Test Setup Layout For Radiated 6dB Bandwidth Measurement:

This test setup layout is the same as that shown in section 4.5.4. Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

: 27 of 81

: Sep. 30, 2015 Report No.: FR330853-05 4.2.5. Test Deviation There is no deviation with the original standard. 4.2.6. EUT Operation during Test The EUT was programmed to be in continuously transmitting mode. Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

: 28 of 81

: Sep. 30, 2015 Report No.: FR330853-05 4.2.7. Test Result of 6dB Spectrum Bandwidth

<For Non-Beamforming Mode>

Temperature Test Engineer 25 Roki Liu Humidity 60%

Mode Frequency 6dB Bandwidth (MHz) Min. Limit (kHz) Test Result 5745 MHz 5785 MHz 5825 MHz 5745 MHz 5785 MHz 5825 MHz 5755 MHz 5795 MHz 12.12 12.06 11.94 16.93 16.64 16.35 36.29 35.71 5775 MHz 75.36 802.11a 802.11ac MCS0/Nss1 VHT20 802.11ac MCS0/Nss1 VHT40 802.11ac MCS0/Nss1 VHT80 Note: All the test values were listed in the report. For plots, only the channel with worse result was shown. 500 500 500 500 500 500 500 500 500 Complies Complies Complies Complies Complies Complies Complies Complies Complies Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

: 29 of 81

: Sep. 30, 2015 Report No.: FR330853-05 6 dB Bandwidth Plot on Configuration IEEE 802.11a / Chain 4 + Chain 5 + Chain 6 / 5825 MHz 6 dB Bandwidth Plot on Configuration IEEE 802.11ac MCS0/Nss1 VHT20 / Chain 4 + Chain 5 + Chain 6 /

5825MHz Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

: 30 of 81

: Sep. 30, 2015 Report No.: FR330853-05 6 dB Bandwidth Plot on Configuration IEEE 802.11ac MCS0/Nss1 VHT40 / Chain 4 + Chain 5 + Chain 6 /

5795MHz 6 dB Bandwidth Plot on Configuration IEEE 802.11ac MCS0/Nss1 VHT80 / Chain 4 + Chain 5 + Chain 6 /

5775 MHz Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

: 31 of 81

: Sep. 30, 2015

<For Beamforming Mode>

25 Roki Liu Test Engineer Temperature Report No.: FR330853-05 Humidity 60%

Mode Frequency 6dB Bandwidth (MHz) Min. Limit (kHz) Test Result 802.11ac MCS0/Nss1 VHT20 802.11ac MCS0/Nss1 VHT40 802.11ac MCS0/Nss1 VHT80 5745 MHz 5785 MHz 5825 MHz 5755 MHz 5795 MHz 15.77 16.70 15.71 35.01 35.71 5775 MHz 71.59 Note: All the test values were listed in the report. For plots, only the channel with worse result was shown. 500 500 500 500 500 500 Complies Complies Complies Complies Complies Complies Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

: 32 of 81

: Sep. 30, 2015 Report No.: FR330853-05 6 dB Bandwidth Plot on Configuration IEEE 802.11ac MCS0/Nss1 VHT20 / Chain 4 + Chain 5 + Chain 6/

5825 MHz 6 dB Bandwidth Plot on Configuration IEEE 802.11ac MCS0/Nss1 VHT40 / Chain 4 + Chain 5 + Chain 6 /

5755MHz Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

: 33 of 81

: Sep. 30, 2015 Report No.: FR330853-05 6 dB Bandwidth Plot on Configuration IEEE 802.11ac MCS0/Nss1 VHT80 / Chain 4 + Chain 5 + Chain 6 /

5775 MHz Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

: 34 of 81

: Sep. 30, 2015 4.3. Maximum Conducted Output Power Measurement Report No.: FR330853-05 4.3.1. Limit Frequency Band 5.15~5.25 GHz Operating Mode Outdoor access point Indoor access point Fixed point-to-point access points Mobile and portable client devices Limit The maximum conducted output power over the frequency band of operation shall not exceed 1 W

(30dBm) provided the maximum antenna gain does not exceed 6 dBi. If transmitting antennas of directional gain greater than 6 dBi are used, both the maximum conducted output power and the maximum power spectral density shall be reduced by the amount in dB that the directional gain of the antenna exceeds 6 dBi. The maximum e.i.r.p. at any elevation angle above 30 degrees as measured from the horizon must not exceed 125 mW (21 dBm). The maximum conducted output power over the frequency band of operation shall not exceed 1 W

(30dBm) provided the maximum antenna gain does not exceed 6 dBi. If transmitting antennas of directional gain greater than 6 dBi are used, both the maximum conducted output power and the maximum power spectral density shall be reduced by the amount in dB that the directional gain of the antenna exceeds 6 dBi. The maximum conducted output power over the frequency band of operation shall not exceed 1 W

(30dBm). Fixed point-to-point U-NII devices may employ antennas with directional gain up to 23 dBi without any corresponding reduction in the maximum conducted output power or maximum power spectral density. For fixed point-to-point transmitters that employ a directional antenna gain greater than 23 dBi, a 1 dB reduction in maximum conducted output power and maximum power spectral density is required for each 1 dB of antenna gain in excess of 23 dBi. The maximum conducted output power over the frequency band of operation shall not exceed 250 mW

(24dBm) provided the maximum antenna gain does not exceed 6 dBi. If transmitting antennas of directional gain greater than 6 dBi are used, both the maximum conducted output power and the maximum power spectral density shall be reduced by the amount in dB that the directional gain of the antenna exceeds 6 dBi. Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

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: Sep. 30, 2015 5.725~5.85 GHz Report No.: FR330853-05 the The maximum conducted output power over frequency band of operation shall not exceed 1 W

(30dBm). If transmitting antennas of directional gain greater than 6 dBi are used, both the maximum conducted output power and the maximum power spectral density shall be reduced by the amount in dB that the directional gain of the antenna exceeds 6 dBi. However, fixed point-to-point U-NII devices operating in this band may employ transmitting antennas with than 6 dBi without any directional gain greater corresponding reduction in transmitter conducted power. 4.3.2. Measuring Instruments and Setting Please refer to section 5 of equipments list in this report. The following table is the setting of the power meter. Power Meter Parameter Setting Detector AVERAGE 4.3.3. Test Procedures 1. 2. The transmitter output (antenna port) was connected to the power meter. Test was performed in accordance with KDB789033 D02 v01 for Compliance Testing of Unlicensed National Information Infrastructure (U-NII) Devices - section (E) Maximum conducted output power

=>3. Measurement using a Power Meter (PM) =>b) Method PM-G (Measurement using a gated RF average power meter). 3. Multiple antenna systems was performed in accordance with KDB662911 D01 v02r01 Emissions Testing of Transmitters with Multiple Outputs in the Same Band. 4. When measuring maximum conducted output power with multiple antenna systems, add every result of the values by mathematic formula. 4.3.4. Test Setup Layout 4.3.5. Test Deviation There is no deviation with the original standard. 4.3.6. EUT Operation during Test The EUT was programmed to be in continuously transmitting mode. Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

: 36 of 81

: Sep. 30, 2015 Report No.: FR330853-05 4.3.7. Test Result of Maximum Conducted Output Power

<For Non-Beamforming Mode>

Temperature Test Engineer 25 Roki Liu Humidity Test Date 60%

Sep. 17, 2015 Mode Frequency 5745 MHz 802.11a 5785 MHz 5825 MHz 5745 MHz 5785 MHz 5825 MHz Conducted Power (dBm) Max. Limit Chain 4 Chain 5 Chain 6 Total 16.53 16.92 15.92 17.88 17.68 16.85 16.24 16.47 15.62 17.68 17.39 16.42 16.85 17.12 16.41 18.21 17.92 17.10 21.32 21.62 20.77 22.70 22.44 21.57

(dBm) 30.00 30.00 30.00 30.00 30.00 30.00 Result Complies Complies Complies Complies Complies Complies 5755 MHz 17.97 17.79 18.15 22.74 30.00 Complies 5795 MHz 18.31 18.15 18.69 23.16 30.00 Complies 5775 MHz 16.58 16.69 17.38 21.67 30.00 Complies 802.11ac MCS0/Nss1 VHT20 802.11ac MCS0/Nss1 VHT40 802.11ac MCS0/Nss1 VHT80 Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

: 37 of 81

: Sep. 30, 2015 Report No.: FR330853-05

<For Beamforming Mode>

25 Roki Liu Test Engineer Temperature Mode Frequency Humidity Test Date 60%

Sep. 17, 2015 Conducted Power (dBm) Max. Limit Chain 4 Chain 5 Chain 6 Total 5745 MHz 5785 MHz 5825 MHz 17.58 16.82 15.76 17.38 16.61 15.52 17.92 17.19 16.24 22.40 21.65 20.62

(dBm) 30.00 30.00 30.00 Result Complies Complies Complies 5755 MHz 17.97 17.79 18.15 22.74 30.00 Complies 5795 MHz 17.67 17.58 17.98 22.52 30.00 Complies 5775 MHz 16.58 16.69 17.38 21.67 30.00 Complies 802.11ac MCS0/Nss1 VHT20 802.11ac MCS0/Nss1 VHT40 802.11ac MCS0/Nss1 VHT80 Nss j 1 N N K ANT 1 g kj

, 2 ANT

=5.56dBi<6dBi, so the limit doesnt reduce. Note:

Directiona l Gain 10 log Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

: 38 of 81

: Sep. 30, 2015 Report No.: FR330853-05 4.4. Power Spectral Density Measurement 4.4.1. Limit The following table is power spectral density limits and decrease power density limit rule refer to section 4.3.1. Frequency Band Limit 5.15~5.25 GHz Operating Mode Outdoor access point Indoor access point 17 dBm/MHz 17 dBm/MHz Fixed point-to-point access points 17 dBm/MHz Mobile and portable client devices 11 dBm/MHz 5.725~5.85 GHz 30 dBm/500kHz 4.4.2. Measuring Instruments and Setting Please refer to section 5 of equipments list in this report. The following table is the setting of the spectrum analyzer. Spectrum Parameter Setting Attenuation Auto Span Frequency Encompass the entire emissions bandwidth (EBW) of the signal RBW VBW Detector Trace Sweep Time 1000 kHz 3000 kHz RMS AVERAGE Auto Trace Average Note: If measurement bandwidth of Maximum PSD is specified in 500 kHz, add 10log(500kHz/RBW) to 100 times the measured result, whereas RBW (< 500 kHz) is the reduced resolution bandwidth of the spectrum analyzer set during measurement. Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

: 39 of 81

: Sep. 30, 2015 4.4.3. Test Procedures Report No.: FR330853-05 1. 2. The transmitter output (antenna port) was connected RF switch to the spectrum analyzer. Test was performed in accordance with KDB789033 D02 v01 for Compliance Testing of Unlicensed National Information Infrastructure (U-NII) Devices - section (F) Maximum Power Spectral Density (PSD). 3. Multiple antenna systems was performed in accordance KDB662911 D01 v02r01 in-Band Power Spectral Density (PSD) Measurements (a) Measure and sum the spectra across the outputs. 4. When measuring first spectral bin of output 1 is summed with that in the first spectral bin of output 2 and that from the first spectral bin of output 3 and so on up to the Nth output to obtain the value for the first frequency bin of the summed spectrum. The summed spectrum value for each of the other frequency bins is computed in the same way. 5. For 5.725~5.85 GHz, the measured result of PSD level must add 10log(500kHz/RBW) and the final result should 30 dBm. 4.4.4. Test Setup Layout 4.4.5. Test Deviation There is no deviation with the original standard. 4.4.6. EUT Operation during Test The EUT was programmed to be in continuously transmitting mode. Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

: 40 of 81

: Sep. 30, 2015 4.4.7. Test Result of Power Spectral Density

<For Non-Beamforming Mode>

Temperature Test Engineer 25 Roki Liu Configuration IEEE 802.11a Report No.: FR330853-05 Humidity Test Data 60%

Sep. 17, 2015 Channel Frequency Power Density

(dBm/MHz) 10log(500kHz/RBW) Factor (dB) Power Density

(dBm/500kHz) Power Density Limit

(dBm/500kHz) 149 157 165 5745 MHz 5785 MHz 5825 MHz Note:

Directiona l Gain 10 log 8.17 8.37 7.44 Nss j 1 N

-3.01

-3.01

-3.01 5.16 5.36 4.43 30.00 30.00 30.00 N K ANT 1 g kj

, 2 ANT

=5.56dBi, so the limit doesnt reduce. Configuration 802.11ac MCS0/Nss1 VHT20 Channel Frequency Power Density

(dBm/MHz) 10log(500kHz/RBW) Factor (dB) Power Density

(dBm/500kHz) Power Density Limit

(dBm/500kHz) Result Complies Complies Complies Result 149 157 165 5745 MHz 5785 MHz 5825 MHz Note:

Directiona l Gain 10 log 9.22 8.95 8.21 Nss j 1 N

-3.01

-3.01

-3.01 6.21 5.94 5.20 30.00 30.00 30.00 Complies Complies Complies N K ANT 1 g kj

, 2 ANT

=5.56dBi, so the limit doesnt reduce. Configuration 802.11ac MCS0/Nss1 VHT40 Channel Frequency Power Density

(dBm/MHz) 10log(500kHz/RBW) Factor (dB) Power Density

(dBm/500kHz) Power Density

(dBm/500kHz) Limit Result 151 159 5755 MHz 5795 MHz Note:

Directiona l Gain 10 log 6.40 6.86 Nss j 1 N

-3.01

-3.01 3.39 3.85 30.00 30.00 Complies Complies N K ANT 1 g kj

, 2 ANT

=5.56dBi, so the limit doesnt reduce. Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

: 41 of 81

: Sep. 30, 2015 Report No.: FR330853-05 Configuration 802.11ac MCS0/Nss1 VHT80 Channel Frequency Power Density

(dBm/MHz) 10log(500kHz/RBW) Factor (dB) Power Density

(dBm/500kHz) Power Density

(dBm/500kHz) Limit Result 155 5775 MHz Note:

Directiona l Gain 10 log 2.25 Nss j 1 N

-3.01

-0.76 30.00 Complies N K ANT 1 g kj

, 2 ANT

=5.56dBi, so the limit doesnt reduce. Note: All the test values were listed in the report. For plots, only the channel with worse result was shown. Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

: 42 of 81

: Sep. 30, 2015 Report No.: FR330853-05 Power Density Plot on Configuration IEEE 802.11a / Chain 4 + Chain 5 + Chain 6 / 5785 MHz Power Density Plot on Configuration IEEE 802.11ac MCS0/Nss1 VHT20 / Chain 4 + Chain 5 + Chain 6 /

5745 MHz Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

: 43 of 81

: Sep. 30, 2015 Report No.: FR330853-05 Power Density Plot on Configuration IEEE 802.11ac MCS0/Nss1 VHT40 / Chain 4 + Chain 5 + Chain 6/

5795 MHz Power Density Plot on Configuration IEEE 802.11ac MCS0/Nss1 VHT80 / Chain 4 + Chain 5 + Chain 6 /

5775 MHz Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

: 44 of 81

: Sep. 30, 2015

<For Beamforming Mode>

25 Roki Liu Test Engineer Temperature Report No.: FR330853-05 Humidity Test Data 60%

Sep. 17, 2015 Configuration 802.11ac MCS0/Nss1 VHT20 Channel Frequency Power Density

(dBm/MHz) 10log(500kHz/RBW) Factor (dB) Power Density

(dBm/500kHz) Power Density Limit

(dBm/500kHz) 149 157 165 5745 MHz 5785 MHz 5825 MHz Note:

Directiona l Gain 10 log 9.29 8.43 7.46 Nss j 1 N

-3.01

-3.01

-3.01 6.28 5.42 4.45 30.00 30.00 30.00 N K ANT 1 g kj

, 2 ANT

=5.56dBi, so the limit doesnt reduce. Configuration 802.11ac MCS0/Nss1 VHT40 Channel Frequency Power Density

(dBm/MHz) 10log(500kHz/RBW) Factor (dB) Power Density

(dBm/500kHz) Power Density Limit

(dBm/500kHz) Result Complies Complies Complies Result 151 159 5755 MHz 5795 MHz Note:

Directiona l Gain 10 log 6.59 6.40 Nss j 1 N

-3.01

-3.01 3.58 3.39 30.00 30.00 Complies Complies N K ANT 1 g kj

, 2 ANT

=5.56dBi, so the limit doesnt reduce. Configuration 802.11ac MCS0/Nss1 VHT80 Channel Frequency Power Density

(dBm/MHz) 10log(500kHz/RBW) Factor (dB) Power Density

(dBm/500kHz) Power Density Limit Result

(dBm/500kHz) 155 5775 MHz Note:

Directiona l Gain 10 log 2.51 Nss j 1 N

-3.01

-0.50 30.00 Complies N K ANT 1 g kj

, 2 ANT

=5.56dBi, so the limit doesnt reduce. Note: All the test values were listed in the report. For plots, only the channel with worse result was shown. Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

: 45 of 81

: Sep. 30, 2015 Report No.: FR330853-05 Power Density Plot on Configuration IEEE 802.11ac MCS0/Nss1 VHT20 / Chain 4 + Chain 5 + Chain 6 /

5745 MHz Power Density Plot on Configuration IEEE 802.11ac MCS0/Nss1 VHT40 / Chain 4 + Chain 5 + Chain 6 /

5755 MHz Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

: 46 of 81

: Sep. 30, 2015 Report No.: FR330853-05 Power Density Plot on Configuration IEEE 802.11ac MCS0/Nss1 VHT80 / Chain 4 + Chain 5 + Chain 6 /

5775 MHz Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

: 47 of 81

: Sep. 30, 2015 4.5. Radiated Emissions Measurement 4.5.1. Limit Report No.: FR330853-05 For transmitters operating in the 5.725-5.85 GHz band: all emissions within the frequency range from the band edge to 10 MHz above or below the band edge shall not exceed an e.i.r.p. of 17 dBm/MHz; for frequencies 10 MHz or greater above or below the band edge, emissions shall not exceed an e.i.r.p. of 27 dBm/MHz. In addition, In case the emission fall within the restricted band specified on 15.205(a), then the 15.209(a) limit in the table below has to be followed. Frequencies

(MHz) 0.009~0.490 0.490~1.705 1.705~30.0 30~88 88~216 216~960 Above 960 Field Strength

(micorvolts/meter) 2400/F(kHz) 24000/F(kHz) 30 100 150 200 500 Measurement Distance

(meters) 300 30 30 3 3 3 3 4.5.2. Measuring Instruments and Setting Please refer to section 5 of equipments list in this report. The following table is the setting of spectrum analyzer and receiver. Spectrum Parameter Attenuation Start Frequency Stop Frequency RBW / VBW (Emission in restricted band) Setting Auto 1000 MHz 40 GHz 1MHz / 3MHz for Peak, 1MHz / 1/T for Average RBW / VBW (Emission in non-restricted band) 1MHz / 3MHz for peak Receiver Parameter Attenuation Start ~ Stop Frequency Start ~ Stop Frequency Start ~ Stop Frequency Setting Auto 9kHz~150kHz / RBW 200Hz for QP 150kHz~30MHz / RBW 9kHz for QP 30MHz~1000MHz / RBW 120kHz for QP Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

: 48 of 81

: Sep. 30, 2015 4.5.3. Test Procedures Report No.: FR330853-05 1. Configure the EUT according to ANSI C63.10. The EUT was placed on the top of the turntable 1.5 meter above ground. The phase center of the receiving antenna mounted on the top of a height-variable antenna tower was placed 1m & 3m far away from the turntable. 2. Power on the EUT and all the supporting units. The turntable was rotated by 360 degrees to 3. determine the position of the highest radiation. The height of the broadband receiving antenna was varied between one meter and four meters above ground to find the maximum emissions field strength of both horizontal and vertical polarization. 4. For each suspected emissions, the antenna tower was scan (from 1 M to 4 M) and then the turntable was rotated (from 0 degree to 360 degrees) to find the maximum reading. 5. Set the test-receiver system to Peak or CISPR quasi-peak Detect Function with specified bandwidth under Maximum Hold Mode. 6. For emissions above 1GHz, use 1MHz VBW and 3MHz RBW for peak reading. Then 1MHz RBW and 1/T 7. VBW for average reading in spectrum analyzer. If the emissions level of the EUT in peak mode was 3 dB lower than the average limit specified, then testing will be stopped and peak values of EUT will be reported, otherwise, the emissions which do not have 3 dB margin will be repeated one by one using the quasi-peak method for below 1GHz. 8. For testing above 1GHz, the emissions level of the EUT in peak mode was lower than average limit

(that means the emissions level in peak mode also complies with the limit in average mode), then testing will be stopped and peak values of EUT will be reported, otherwise, the emissions will be measured in average mode again and reported. In case the emission is lower than 30MHz, loop antenna has to be used for measurement and the recorded data should be QP measured by receiver. High Low scan is not required in this case. 9. Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

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: Sep. 30, 2015 4.5.4. Test Setup Layout Report No.: FR330853-05 4.5.5. Test Deviation There is no deviation with the original standard. 4.5.6. EUT Operation during Test For Non-beamforming mode:

The EUT was programmed to be in continuously transmitting mode. For beamforming mode:

The EUT was programmed to be in beamforming transmitting mode. Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

: 50 of 81

: Sep. 30, 2015 Report No.: FR330853-05 4.5.7. Results for Radiated Emissions (1GHz~40GHz)

<For Non-Beamforming Mode>

Temperature Test Engineer Test Date Horizontal 23.7 Gary Chu /

Akina Chiu Jul. 10, 2015 Humidity 68%

Configurations IEEE 802.11a CH 149 /

Chain 4 + Chain 5 + Chain 6 Vertical Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

: 51 of 81

: Sep. 30, 2015 Temperature Test Engineer Test Date Horizontal 23.7 Gary Chu /

Akina Chiu Jul. 10, 2015 Report No.: FR330853-05 Humidity 68%

Configurations IEEE 802.11a CH 157 /

Chain 4 + Chain 5 + Chain 6 Vertical Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

: 52 of 81

: Sep. 30, 2015 Report No.: FR330853-05 Humidity 68%

Configurations IEEE 802.11a CH 165 /

Chain 4 + Chain 5 + Chain 6 Temperature Test Engineer Test Date Horizontal 23.7 Gary Chu /

Akina Chiu Jul. 10, 2015 Vertical Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

: 53 of 81

: Sep. 30, 2015 Temperature Test Engineer Test Date Horizontal 23.7 Gary Chu /

Akina Chiu Jul. 10, 2015 Report No.: FR330853-05 Humidity 68%

Configurations IEEE 802.11ac MCS0/Nss1 VHT20 CH 149 /

Chain 4 + Chain 5 + Chain 6 Vertical Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

: 54 of 81

: Sep. 30, 2015 Temperature Test Engineer Test Date Horizontal 23.7 Gary Chu /

Akina Chiu Jul. 10, 2015 Report No.: FR330853-05 Humidity 68%

Configurations IEEE 802.11ac MCS0/Nss1 VHT20 CH 157 /

Chain 4 + Chain 5 + Chain 6 Vertical Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

: 55 of 81

: Sep. 30, 2015 Temperature Test Engineer Test Date Horizontal 23.7 Gary Chu /

Akina Chiu Jul. 10, 2015 Report No.: FR330853-05 Humidity 68%

Configurations IEEE 802.11ac MCS0/Nss1 VHT20 CH 165 /

Chain 4 + Chain 5 + Chain 6 Vertical Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

: 56 of 81

: Sep. 30, 2015 Report No.: FR330853-05 Humidity 68%

Configurations IEEE 802.11ac MCS0/Nss1 VHT40 CH 151 /

Chain 4 + Chain 5 + Chain 6 Temperature Test Engineer Test Date Horizontal 23.7 Gary Chu /

Akina Chiu Jul. 10, 2015 Vertical Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

: 57 of 81

: Sep. 30, 2015 Temperature Test Engineer Test Date Horizontal 23.7 Gary Chu /

Akina Chiu Jul. 10, 2015 Report No.: FR330853-05 Humidity 68%

Configurations IEEE 802.11ac MCS0/Nss1 VHT40 CH 159 /

Chain 4 + Chain 5 + Chain 6 Vertical Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

: 58 of 81

: Sep. 30, 2015 Report No.: FR330853-05 Humidity 68%

Configurations IEEE 802.11ac MCS0/Nss1 VHT80 CH 155 /

Chain 4 + Chain 5 + Chain 6 Temperature Test Engineer Test Date Horizontal 23.7 Gary Chu /

Akina Chiu Jul. 10, 2015 Vertical Note:

The amplitude of spurious emissions that are attenuated by more than 20dB below the permissible value has no need to be reported. Emission level (dBuV/m) = 20 log Emission level (uV/m). Corrected Reading: Antenna Factor + Cable Loss + Read Level - Preamp Factor = Level. Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

: 59 of 81

: Sep. 30, 2015 Temperature

<For Beamforming Mode>

23.7 Gary Chu /

Akina Chiu Test Engineer Test Date Horizontal Jul. 10, 2015 Vertical Report No.: FR330853-05 Humidity 68%

Configurations IEEE 802.11ac MCS0/Nss1 VHT20 CH 149 /

Chain 4 + Chain 5 + Chain 6 Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

: 60 of 81

: Sep. 30, 2015 Report No.: FR330853-05 Humidity 68%

Configurations IEEE 802.11ac MCS0/Nss1 VHT20 CH 157 /

Chain 4 + Chain 5 + Chain 6 Temperature Test Engineer Test Date Horizontal 23.7 Gary Chu /

Akina Chiu Jul. 10, 2015 Vertical Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

: 61 of 81

: Sep. 30, 2015 Temperature Test Engineer Test Date Horizontal 23.7 Gary Chu /

Akina Chiu Jul. 10, 2015 Report No.: FR330853-05 Humidity 68%

Configurations IEEE 802.11ac MCS0/Nss1 VHT20 CH 165 /

Chain 4 + Chain 5 + Chain 6 Vertical Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

: 62 of 81

: Sep. 30, 2015 Report No.: FR330853-05 Humidity 68%

Configurations IEEE 802.11ac MCS0/Nss1 VHT40 CH 151 /

Chain 4 + Chain 5 + Chain 6 Temperature Test Engineer Test Date Horizontal 23.7 Gary Chu /

Akina Chiu Jul. 10, 2015 Vertical Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

: 63 of 81

: Sep. 30, 2015 Temperature Test Engineer Test Date Horizontal 23.7 Gary Chu /

Akina Chiu Jul. 10, 2015 Report No.: FR330853-05 Humidity 68%

Configurations IEEE 802.11ac MCS0/Nss1 VHT40 CH 159 /

Chain 4 + Chain 5 + Chain 6 Vertical Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

: 64 of 81

: Sep. 30, 2015 Report No.: FR330853-05 Humidity 68%

Configurations IEEE 802.11ac MCS0/Nss1 VHT80 CH 155 /

Chain 4 + Chain 5 + Chain 6 Temperature Test Engineer Test Date Horizontal 23.7 Gary Chu /

Akina Chiu Jul. 10, 2015 Vertical Note:

The amplitude of spurious emissions that are attenuated by more than 20dB below the permissible value has no need to be reported. Emission level (dBuV/m) = 20 log Emission level (uV/m). Corrected Reading: Antenna Factor + Cable Loss + Read Level - Preamp Factor = Level. Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

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: Sep. 30, 2015 Report No.: FR330853-05 4.6. Band Edge Emissions Measurement 4.6.1. Limit For transmitters operating in the 5.725-5.85 GHz band: all emissions within the frequency range from the band edge to 10 MHz above or below the band edge shall not exceed an e.i.r.p. of 17 dBm/MHz; for frequencies 10 MHz or greater above or below the band edge, emissions shall not exceed an e.i.r.p. of 27 dBm/MHz. In addition, In case the emission fall within the restricted band specified on 15.205(a), then the 15.209(a) limit in the table below has to be followed. Frequencies

(MHz) 0.009~0.490 0.490~1.705 1.705~30.0 30~88 88~216 216~960 Above 960 Field Strength

(micorvolts/meter) 2400/F(kHz) 24000/F(kHz) 30 100 150 200 500 Measurement Distance

(meters) 300 30 30 3 3 3 3 4.6.2. Measuring Instruments and Setting Please refer to section 5 of equipments list in this report. The following table is the setting of the spectrum analyzer. Spectrum Parameter Attenuation Span Frequency RBW / VBW (Emission in restricted band) Setting Auto 100 MHz 1MHz / 3MHz for Peak, 1MHz / 1/T for Average RBW / VBW (Emission in non-restricted band) 1MHz / 3MHz for Peak 4.6.3. Test Procedures 1. The test procedure is the same as section 4.5.3. 4.6.4. Test Setup Layout This test setup layout is the same as that shown in section 4.5.4. 4.6.5. Test Deviation There is no deviation with the original standard. Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

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: Sep. 30, 2015 Report No.: FR330853-05 4.6.6. EUT Operation during Test For Non-beamforming mode:

The EUT was programmed to be in continuously transmitting mode. For beamforming mode:

The EUT was programmed to be in beamforming transmitting mode. Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

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: Sep. 30, 2015 Report No.: FR330853-05 4.6.7. Test Result of Band Edge and Fundamental Emissions

<For Non-Beamforming Mode>

Temperature Test Engineer 23.7 Gary Chu /

Akina Chiu Test Date Jul. 09, 2015 Channel 149 Humidity 68%

Configurations IEEE 802.11a CH 149, 157, 165 /

Chain 4 + Chain 5 + Chain 6 Item 3, 4 are the fundamental frequency at 5745 MHz. Channel 157 Item 3, 4 are the fundamental frequency at 5785 MHz. Channel 165 Item 3, 4 are the fundamental frequency at 5825 MHz. Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

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: Sep. 30, 2015 Temperature Test Engineer 23.7 Gary Chu /

Akina Chiu Test Date Jul. 10, 2015 Channel 149 Report No.: FR330853-05 Humidity 68%

Configurations IEEE 802.11ac MCS0/Nss1 VHT20 CH 149, 157, 165 / Chain 4 + Chain 5 + Chain 6 Item 3, 4 are the fundamental frequency at 5745 MHz. Channel 157 Item 3, 4 are the fundamental frequency at 5785 MHz. Channel 165 Item 3, 4 are the fundamental frequency at 5825 MHz. Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

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: Sep. 30, 2015 Temperature Test Engineer 23.7 Gary Chu /

Akina Chiu Test Date Jul. 10, 2015 Channel 151 Report No.: FR330853-05 Humidity 68%

Configurations IEEE 802.11ac MCS0/Nss1 VHT40 CH 151, 159 / Chain 4 + Chain 5 + Chain 6 Item 3, 4 are the fundamental frequency at 5755 MHz. Channel 159 Item 3, 4 are the fundamental frequency at 5795 MHz. Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

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: Sep. 30, 2015 Temperature Test Engineer 23.7 Gary Chu /

Akina Chiu Test Date Jul. 10, 2015 Channel 155 Report No.: FR330853-05 Humidity 68%

Configurations IEEE 802.11ac MCS0/Nss1 VHT80 CH 155 / Chain 4 + Chain 5 + Chain 6 Item 3, 4 are the fundamental frequency at 5775 MHz. Note:

Emission level (dBuV/m) = 20 log Emission level (uV/m) Corrected Reading: Antenna Factor + Cable Loss + Read Level - Preamp Factor = Level Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

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: Sep. 30, 2015 Report No.: FR330853-05 Temperature

<For Beamforming Mode>

23.7 Gary Chu /

Akina Chiu Test Engineer Humidity 68%

Configurations IEEE 802.11ac MCS0/Nss1 VHT20 CH 149, 157, 165 / Chain 4 + Chain 5 + Chain 6 Test Date Jul. 10, 2015 Channel 149 Item 3, 4 are the fundamental frequency at 5745 MHz. Channel 157 Item 3, 4 are the fundamental frequency at 5785 MHz. Channel 165 Item 3, 4 are the fundamental frequency at 5825 MHz. Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

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: Sep. 30, 2015 Temperature Test Engineer 23.7 Gary Chu /

Akina Chiu Test Date Jul. 10, 2015 Channel 151 Report No.: FR330853-05 Humidity 68%

Configurations IEEE 802.11ac MCS0/Nss1 VHT40 CH 151, 159 / Chain 4 + Chain 5 + Chain 6 Item 3, 4 are the fundamental frequency at 5755 MHz. Channel 159 Item 3, 4 are the fundamental frequency at 5795 MHz. Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

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: Sep. 30, 2015 Temperature Test Engineer 23.7 Gary Chu /

Akina Chiu Test Date Jul. 10, 2015 Channel 155 Report No.: FR330853-05 Humidity 68%

Configurations IEEE 802.11ac MCS0/Nss1 VHT80 CH 155 / Chain 4 + Chain 5 + Chain 6 Item 3, 4 are the fundamental frequency at 5775 MHz. Note:

Emission level (dBuV/m) = 20 log Emission level (uV/m) Corrected Reading: Antenna Factor + Cable Loss + Read Level - Preamp Factor = Level Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

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: Sep. 30, 2015 4.7. Frequency Stability Measurement 4.7.1. Limit Report No.: FR330853-05 In-band emission is maintained within the band of operation under all conditions of normal operation as specified in the users manual. The transmitter center frequency tolerance shall be 20 ppm maximum for the 5 GHz band (IEEE 802.11n specification). 4.7.2. Measuring Instruments and Setting Please refer to section 5 of equipments list in this report. The following table is the setting of the spectrum analyzer. Spectrum Parameter Attenuation Span Frequency RBW VBW Sweep Time 4.7.3. Test Procedures Setting Auto Entire absence of modulation emissions bandwidth 10 kHz 10 kHz Auto The transmitter output (antenna port) was connected to the spectrum analyzer. 1. 2. EUT have transmitted absence of modulation signal and fixed channelize. 3. Set the spectrum analyzer span to view the entire absence of modulation emissions bandwidth. 4. Set RBW = 10 kHz, VBW = 10 kHz with peak detector and maxhold settings. 5. fc is declaring of channel frequency. Then the frequency error formula is (fc-f)/fc 106 ppm and the limit is less than 20ppm (IEEE 802.11nspecification). 6. Allow sufficient time (approximately 30 min) for the temperature of the chamber to stabilize, turn the 7. EUT on and measure the operating frequency after 2, 5, and 10 minutes. The test extreme voltage is to change the primary supply voltage from 85 to 115 percent of the nominal value 8. Extreme temperature is -20C~50C. 4.7.4. Test Setup Layout Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

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: Sep. 30, 2015 4.7.5. Test Deviation Report No.: FR330853-05 There is no deviation with the original standard. 4.7.6. EUT Operation during Test The EUT was programmed to be in continuously un-modulation transmitting mode. 4.7.7. Test Result of Frequency Stability Temperature Test Engineer 25 Roki Liu Humidity Test Date 60%

Sep. 17, 2015 Mode: 20 MHz / Chain 6 Voltage vs. Frequency Stability Voltage

(V) 126.50 110.00 93.50 Max. Deviation (MHz) Max. Deviation (ppm) Result 0 Minute 5744.9345 5744.9353 5744.9362 0.0655 11.40 Temperature vs. Frequency Stability Measurement Frequency (MHz) 5785 MHz 2 Minute 5744.9343 5744.9357 5744.9364 0.0657 11.44 5 Minute 5744.9341 5744.9358 5744.9366 0.0659 11.47 Complies Temperature Measurement Frequency (MHz) 5785 MHz 0 Minute 5744.9365 5744.9362 5744.9358 5744.9355 5744.9353 5744.9351 5744.9349 5744.9347 0.0653 11.37 2 Minute 5744.9367 5744.9363 5744.9362 5744.9359 5744.9357 5744.9354 5744.9352 5744.9349 0.0651 11.33 5 Minute 5744.9369 5744.9365 5744.9363 5744.9360 5744.9358 5744.9356 5744.9354 5744.9352 0.0648 11.28 Complies

()

-20

-10 0 10 20 30 40 50 Max. Deviation (MHz) Max. Deviation (ppm) Result Report Format Version: Rev. 01 FCC ID: PY313200227 10 Minute 5744.9339 5744.9361 5744.9368 0.0661 11.51 10 Minute 5744.9371 5744.9369 5744.9367 5744.9364 5744.9361 5744.9358 5744.9356 5744.9355 0.0645 11.23 Page No. Issued Date

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: Sep. 30, 2015 Report No.: FR330853-05 Mode: 40 MHz / Chain 6 Voltage vs. Frequency Stability Voltage

(V) 126.50 110.00 93.50 Max. Deviation (MHz) Max. Deviation (ppm) Result 0 Minute 5794.9351 5794.9358 5794.9367 0.0649 11.20 Temperature vs. Frequency Stability Measurement Frequency (MHz) 5755 MHz 2 Minute 5794.9348 5794.9362 5794.9369 0.0652 11.25 5 Minute 5794.9346 5794.9363 5794.9374 0.0654 11.29 Complies Temperature Measurement Frequency (MHz)

()

-20

-10 0 10 20 30 40 50 Max. Deviation (MHz) Max. Deviation (ppm) Result 5755 MHz 0 Minute 5794.9368 5794.9365 5794.9361 5794.9358 5794.9356 5794.9354 5794.9353 5794.9351 0.0649 11.20 2 Minute 5794.9371 5794.9367 5794.9366 5794.9363 5794.9361 5794.9358 5794.9356 5794.9353 0.0647 11.16 5 Minute 5794.9373 5794.9369 5794.9368 5794.9365 5794.9363 5794.9361 5794.9358 5794.9355 0.0645 11.13 Complies 10 Minute 5794.9348 5794.9365 5794.9376 0.0652 11.25 10 Minute 5794.9375 5794.9372 5794.9370 5794.9368 5794.9366 5794.9363 5794.9360 5794.9358 0.0642 11.08 Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

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: Sep. 30, 2015 Report No.: FR330853-05 Mode: 80 MHz / Chain 6 Voltage vs. Frequency Stability Voltage

(V) 126.50 110.00 93.50 Max. Deviation (MHz) Max. Deviation (ppm) Result 0 Minute 5774.9352 5774.9359 5774.9368 0.0648 11.22 Temperature vs. Frequency Stability Measurement Frequency (MHz) 5775 MHz 2 Minute 5774.9349 5774.9363 5774.9371 0.0651 11.27 5 Minute 5774.9347 5774.9364 5774.9375 0.0653 11.31 Complies Temperature Measurement Frequency (MHz)

()

-20

-10 0 10 20 30 40 50 Max. Deviation (MHz) Max. Deviation (ppm) Result 5775 MHz 0 Minute 5774.9369 5774.9366 5774.9363 5774.9361 5774.9359 5774.9357 5774.9355 5774.9353 0.0647 11.20 2 Minute 5774.9373 5774.9369 5774.9368 5774.9365 5774.9363 5774.9360 5774.9358 5774.9356 0.0644 11.15 5 Minute 5774.9375 5774.9371 5774.9369 5774.9367 5774.9365 5774.9363 5774.9361 5774.9358 0.0642 11.12 Complies 10 Minute 5774.9349 5774.9366 5774.9377 0.0651 11.27 10 Minute 5774.9377 5774.9374 5774.9372 5774.9369 5774.9367 5774.9365 5774.9363 5774.9361 0.0639 11.06 Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

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: Sep. 30, 2015 4.8. Antenna Requirements 4.8.1. Limit Report No.: FR330853-05 Except for special regulations, the Low-power Radio-frequency Devices must not be equipped with any jacket for installing an antenna with extension cable. An intentional radiator shall be designed to ensure that no antenna other than that furnished by the responsible party shall be used with the device. The use of a permanently attached antenna or of an antenna that uses a unique coupling to the intentional radiator shall be considered sufficient to comply with the provisions of this Section. The manufacturer may design the unit so that the user can replace a broken antenna, but the use of a standard antenna jack or electrical connector is prohibited. Further, this requirement does not apply to intentional radiators that must be professionally installed. 4.8.2. Antenna Connector Construction Please refer to section 3.3 in this test report; antenna connector complied with the requirements. Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

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: Sep. 30, 2015 5. LIST OF MEASURING EQUIPMENTS Report No.: FR330853-05 Instrument Manufacturer Model No. Serial No. Characteristics Calibration Date Remark Horn Antenna EMCO 3115 00075790 750MHz ~ 18GHz Oct. 28, 2014 Horn Antenna Schwarzbeck BBHA 9170 BBHA9170252 15GHz ~ 40GHz Aug. 22, 2014 Pre-Amplifier Agilent 8449B 3008A02310 1GHz ~ 26.5GHz Jan. 12, 2015 Pre-Amplifier Spectrum Analyzer WM R&S TF-130N-R1 923365 26GHz ~ 40GHz Nov. 25, 2014 FSP40 100056 9kHz ~ 40GHz Nov. 06, 2014 RF Cable-high Woken High Cable-16 RF Cable-high Woken High Cable-17 RF Cable-high Woken High Cable-40G-1 RF Cable-high Woken High Cable-40G-2 N/A N/A N/A N/A 1 GHz ~ 18 GHz Nov. 15, 2014 1 GHz ~ 18 GHz Nov. 15, 2014 1 GHz ~ 40 GHz Nov. 15, 2014 1 GHz ~ 40 GHz Nov. 15, 2014 Spectrum analyzer R&S FSP40 100979 9kHz~40GHz Dec. 12, 2014 Temp. and Humidity Chamber RF Cable-high RF Cable-high RF Cable-high RF Cable-high RF Cable-high Ten Billion TTH-D3SP TBN-931011

-30~100 degree Jun. 02, 2015 Woken Woken Woken Woken Woken RG402 High Cable-7 1 GHz 26.5 GHz Nov. 15, 2014 RG402 High Cable-8 1 GHz 26.5 GHz Nov. 15, 2014 RG402 High Cable-9 1 GHz 26.5 GHz Nov. 15, 2014 RG402 High Cable-10 1 GHz 26.5 GHz Nov. 15, 2014 RG402 High Cable-6 1 GHz 26.5 GHz Nov. 15, 2014 Power Sensor Agilent U2021XA MY53410001 50MHz~18GHz Nov. 03, 2014 Radiation

(03CH01-CB) Radiation

(03CH01-CB) Radiation

(03CH01-CB) Radiation

(03CH01-CB) Radiation

(03CH01-CB) Radiation

(03CH01-CB) Radiation

(03CH01-CB) Radiation

(03CH01-CB) Radiation

(03CH01-CB) Conducted

(TH01-CB) Conducted

(TH01-CB) Conducted

(TH01-CB) Conducted

(TH01-CB) Conducted

(TH01-CB) Conducted

(TH01-CB) Conducted

(TH01-CB) Conducted

(TH01-CB) Note: Calibration Interval of instruments listed above is one year. Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

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: Sep. 30, 2015 6. MEASUREMENT UNCERTAINTY Test Items Radiated Emission (1GHz ~ 18GHz) Radiated Emission (18GHz ~ 40GHz) Conducted Emission Report No.: FR330853-05 Uncertainty 3.7 dB 3.5 dB 1.7 dB Remark Confidence levels of 95%

Confidence levels of 95%

Confidence levels of 95%

Report Format Version: Rev. 01 FCC ID: PY313200227 Page No. Issued Date

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: Sep. 30, 2015

 

 

Report No.: FR330853-05 Appendix A. Test Photos FCC ID: PY313200227 Page No.

: A1 of A2 Report No.: FR330853-05 1. Photographs of Radiated Emissions Test Configuration FRONT VIEW REAR VIEW FCC ID: PY313200227 Page No.

: A2 of A2

 

 

NETGEAR, Inc. 350 East Plumeria Drive, San Jose, California 95134, USA Tel: 408-890-3530 / Fax: 408-907-8097 Power of Attorney Date: 2013/3/21 Dear Sir, I hereby have entrusted the following person to be a proxy regarding application for Type Certification. Sporton International Inc. Address

: No.8, Lane 724, Bo-ai St., Jhubei City, HsinChu County 302, Taiwan, R.O.C. Name

: Leo Huang Job Title

: Manager e-mail

: Leohuang@sporton.com.tw I am therefore responsible for the contents of the application. Brand name and model type of the specified radio equipment: NETGEAR / R6300v2, AC1450 FCC ID: PY313200227 Product name: R6300 Smart WiFi Router, AC1450 Smart WiFi Router FCC Grantee contact person information. Applicants company name

: NETGEAR, Inc. Applicants company address

: 350 East Plumeria Drive, San Jose, California 95134, USA Signature

:

_____________________________ Job Title and Dept.

: M.Abrishamcar / Regulatory Complinace Manager E-Mail Tel.

: masood.abrishamcar@netgear.com

: 408-890-3530

 

 

Report No.: FR330853 Appendix C. Co-location FCC ID: PY313200227 Page No.

: C1 of C3 Report No.: FR330853 1. Results of Radiated Emissions for Co-located Temperature Test Engineer Horizontal 26 David Tseng Humidity Configurations 60%

EUT with Adapter 1 FCC ID: PY313200227 Page No.

: C2 of C3 Vertial FCC ID: PY313200227 Report No.: FR330853 Page No.

: C3 of C3

 

 

NETGEAR, Inc. 350 East Plumeria Drive, San Jose, California 95134, USA Tel: 408-890-3530 / Fax: 408-907-8097 Confidential Letter Date: 2013/3/21 Federal Communications Commission Office of Engineering and Technology Equipment Authorization Division 7345 Oakland Mills Road Columbia, Maryland 21046 Subject: Confidentiality Request for FCC IDPY313200227 Gentlemen:

The form 731 and application have been electronically submitted and any attachments will be up loaded to your web site to be used in obtaining a grant of certification. Short-term Pursuant to DA 04-1705 of the Commissions pubic notice, we request short-term confidential treatment for the following information until 180 days after the Grant Date of Equipment Authorization in order to ensure sensitive business information remains confidential until the actual marketing of the device:

1. External Photos 2. Internal Photos 3. Test Setup photos 4. Users Manual Permanent NETGEAR, Inc. requests that the material in the following files be withheld from public disclosure in accordance with Section 0.457 of the Commissions Rules, 47 C.F.R. 0.459, following grant of the application. 1. Block Diagram 2. Circuit Diagram 3. Operational Description Should you require any further information, please contact the undersigned. Thank you for your consideration in this matter. Sincerely, Applicants company name

: NETGEAR, Inc. Applicants company address

: 350 East Plumeria Drive, San Jose, California 95134, USA Signature

:

_____________________________ Job Title and Dept.

: M.Abrishamcar / Regulatory Complinace Manager E-Mail Tel.

: masood.abrishamcar@netgear.com

: 408-890-3530

 

 

NETGEAR, Inc. 350 East Plumeria Drive, San Jose, California 95134, USA Tel: 408-890-3530 / Fax: 408-907-8097 DoC Attestation Letter Date: 2013/3/21 We NETGEAR, Inc., as the grantee of this project (FCC ID: PY313200227 / Brand Name: NETGEAR /

Model No.: R6300v2, AC1450), would like to declare that the composite portion categorized as computer peripheral has been authorized under the Declaration of Conformity procedures (Sproton report No.: FD330853, FCC Test Firm Registration No.: 187376). The final product shall consequently comply with the FCC rule applied for DoC Procedure. Regards, FCC Grantee contact person information. Applicants company name

: NETGEAR, Inc. Applicants company address

: 350 East Plumeria Drive, San Jose, California 95134, USA Signature

:

_____________________________ Job Title and Dept.

: M.Abrishamcar / Regulatory Complinace Manager E-Mail Tel.

: masood.abrishamcar@netgear.com

: 408-890-3530

 

 

Report No.: FR330853 Appendix B. Maximum Permissible Exposure FCC ID: PY313200227 Page No.

: B1 of B3 1. Maximum Permissible Exposure 1.1. Applicable Standard Report No.: FR330853 Systems operating under the provisions of this section shall be operated in a manner that ensures that the public is not exposed to radio frequency energy levels in excess limit for maximum permissible exposure. In accordance with 47 CFR FCC Part 2 Subpart J, section 2.1091 this device has been defined as a mobile device whereby a distance of 0.2 m normally can be maintained between the user and the device.

(A) Limits for Occupational / Controlled Exposure Frequency Range Power Density (S) Magnetic Field Electric Field

(MHz) Strength (E) (V/m) Strength (H) (A/m)

(mW/ cm) Averaging Time

|E|,|H| or S

(minutes) 0.3-3.0 3.0-30 30-300 300-1500 1500-100,000 614 1842 / f 61.4 1.63 4.89 / f 0.163

(100)*

(900 / f)*

1.0 F/300 5 6 6 6 6 6

(B) Limits for General Population / Uncontrolled Exposure Frequency Range Electric Field Magnetic Field

(MHz) Strength (E) (V/m) Strength (H) (A/m) Power Density (S)

(mW/ cm) Averaging Time

|E|,|H| or S

(minutes) 0.3-1.34 1.34-30 30-300 300-1500 1500-100,000 614 824/f 27.5 1.63 2.19/f 0.073

(100)*

(180/f)*

0.2 F/1500 1.0 30 30 30 30 30 Note: f = frequency in MHz ; *Plane-wave equivalent power density 1.2. MPE Calculation Method E (V/m) GP 30 d Power Density: Pd (W/m) 2E 377 E Electric field (V/m) P Average RF output power (W) G EUT Antenna numeric gain (numeric) d Separation distance between radiator and human body (m) The formula can be changed to Pd 30 377 d GP 2 From the EUT RF output power, the minimum mobile separation distance, d=0.2m, as well as the gain of the used antenna, the RF power density can be obtained. FCC ID: PY313200227 Page No.

: B2 of B3 1.3. Calculated Result and Limit For 5GHz UNII Band: Antenna Type : PCB Antenna Max Conducted Power for IEEE 802.11ac MCS0 VHT 40MHz: 16.73 dBm Directional Gain (dBi) Antenna Gain Output Power Output Power

(numeric) Average Average

(S) Power Density

(dBm) 16.7320

(mW) 47.1197

(mW/cm) 0.033733 5.56 3.5967 Report No.: FR330853 Limit of Power Density (S)

(mW/cm) Test Result 1 Complies Note: Directional gain=GANT+10log(NANT/Nss) =5.56dBi <6dBi, so the limit doesnt reduce. For 5GHz ISM Band:

Antenna Type : PCB Antenna Max Conducted Power for IEEE 802.11ac MCS0 VHT 80MHz: 29.83 dBm Directional Gain (dBi) Antenna Gain Output Power Output Power

(numeric) Average Average

(S) Power Density

(dBm) 29.8290

(mW) 961.3827

(mW/cm) 0.688248 5.56 3.5967 Limit of Power Density (S)

(mW/cm) Test Result 1 Complies Note: Directional gain=GANT+10log(NANT/Nss) =5.56dBi <6dBi, so the limit doesnt reduce. For 2.4GHz Band:

Antenna Type : PCB Antenna Max Conducted Power for IEEE 802.11b: 28.13 dBm Antenna Gain (dBi) Antenna Gain

(numeric) 2.30 1.6982 Average Average Power Density Output Power Output Power

(S)

(dBm) 28.1315

(mW) 650.3469

(mW/cm) 0.219834 Limit of Power Density (S)

(mW/cm) Test Result 1 Complies CONCULSION:

Both of the WLAN 2.4GHz Band and WLAN 5GHz Band can transmit simultaneously, the formula of calculatedthe MPE is:

CPD1 / LPD1 + CPD2 / LPD2 + etc. < 1 CPD = Calculation power density LPD = Limit of power density Therefore, the worst-case situation is 0.219834 / 1 + 0.688248 / 1 = 0.908082, which isless than 1. This confirmed that the device comply with FCC 1.1310 MPE limit. FCC ID: PY313200227 Page No.

: B3 of B3

 

 

SPORTON International Inc. No. 52, Hwa Ya 1st Rd., Kwei-Shan Hsiang, TaoYuan Hsien, Taiwan, R.O.C. Ph: 886-3-327-3456 / FAX: 886-3-327-0973 / www.sporton.com.tw FCC RADIO TEST REPORT Applicants company Applicant Address FCC ID Manufacturers company Manufacturer Address NETGEAR, Inc. 350 East Plumeria Drive, San Jose, California 95134, USA PY313200227 Ambit Microsystems (Shanghai) Ltd. No. 1925, Nanle Road, Songjiang Export Processing Zone, Shanghai, China Product Name Brand Name Model Name Test Rule Part(s) Test Freq. Range Received Date Final Test Date Submission Type R6300 Smart WiFi Router, AC1450 Smart WiFi Router NETGEAR R6300v2, AC1450 47 CFR FCC Part 15 Subpart C 15.247 2400 ~ 2483.5MHz / 5725 ~ 5850MHz Jan. 06, 2013 Mar. 09, 2013 Original Equipment Statement Test result included is only for the IEEE 802.11n, IEEE 802.11b/g part and IEEE 802.11a/ac (5725 ~

5850MHz) of the product. The test result in this report refers exclusively to the presented test model / sample. Without written approval of SPORTON International Inc., the test report shall not be reproduced except in full. The measurements and test results shown in this test report were made in accordance with the procedures and found in compliance with the limit given in ANSI C63.10-2009, 47 CFR FCC Part 15 Subpart C, KDB 558074 D01 v02 and KDB 662911 D01 v01r02. The test equipment used to perform the test is calibrated and traceable to NML/ROC. Report Format Version: 01 Report No.: FR330853AB Table of Contents 1. CERTIFICATE OF COMPLIANCE........................................................................................................................... 1 2. SUMMARY OF THE TEST RESULT............................................................................................................................ 2 3. GENERAL INFORMATION..................................................................................................................................... 3 3.1. Product Details ...........................................................................................................................................................................................3 3.2. Accessories .................................................................................................................................................................................................6 Table for Filed Antenna.............................................................................................................................................................................7 3.3. 3.4. Table for Carrier Frequencies ...................................................................................................................................................................8 Table for Test Modes ..................................................................................................................................................................................9 3.5. Table for Testing Locations......................................................................................................................................................................11 3.6. Table for Multiple Listing ..........................................................................................................................................................................11 3.7. 3.8. Table for Supporting Units .......................................................................................................................................................................11 3.9. Table for Parameters of Test Software Setting .....................................................................................................................................12 3.10. EUT Operation during Test.......................................................................................................................................................................13 3.11. Duty Cycle.................................................................................................................................................................................................14 3.12. Test Configurations...................................................................................................................................................................................19 4. TEST RESULT......................................................................................................................................................... 23 4.1. AC Power Line Conducted Emissions Measurement .........................................................................................................................23 4.2. Maximum Conducted Output Power Measurement.........................................................................................................................27 4.3. Power Spectral Density Measurement..................................................................................................................................................31 6dB Spectrum Bandwidth Measurement .............................................................................................................................................40 4.4. Radiated Emissions Measurement.........................................................................................................................................................48 4.5. 4.6. Emissions Measurement...........................................................................................................................................................................75 4.7. Antenna Requirements ...........................................................................................................................................................................96 5. LIST OF MEASURING EQUIPMENTS .................................................................................................................... 97 6. TEST LOCATION.................................................................................................................................................. 99 APPENDIX A. TEST PHOTOS...........................................................................................................................A1 ~ A5 APPENDIX B. MAXIMUM PERMISSIBLE EXPOSURE ........................................................................................ B1 ~ B3 APPENDIX C. CO-LOCATION REPORT .........................................................................................................C1 ~ C3 Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

: i of ii

:Mar. 25, 2013 Report No.: FR330853AB History of This Test Report REPORT NO. VERSION DESCRIPTION ISSUED DATE FR330853AB Rev. 01 Initial issue of report Mar. 25, 2013 47 CFR FCC Part 15 Subpart C o 6 2437 MHz Further, this requirement does not apply to intentional radiators that must be professionally installed. Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

: ii of ii

:Mar. 25, 2013 Report No.: FR330853AB 2. SUMMARY OF THE TEST RESULT Applied Standard: 47 CFR FCC Part 15 Subpart C Part 4.1 4.2 4.3 4.4 4.5 4.6 4.7 Description of Test Rule Section AC Power Line Conducted Emissions 15.207 15.247(b)(3) Maximum Conducted Output Power 15.247(e) 15.247(a)(2) 15.247(d) 15.247(d) 15.203 Power Spectral Density 6dB Spectrum Bandwidth Radiated Emissions Band Edge Emissions Antenna Requirements Result Under Limit Complies Complies Complies Complies Complies Complies Complies 7.60 dB 0.17 dB 2.22 dB

-

0.21 dB 0.01 dB

-

Test Items AC Power Line Conducted Emissions Maximum Conducted Output Power Power Spectral Density 6dB Spectrum Bandwidth Radiated Emissions (9kHz~30MHz) Radiated Emissions (30MHz~1GHz) Radiated / Band Edge Emissions (1GHz~18GHz) Radiated Emissions (18GHz~40GHz) Temperature Humidity DC / AC Power Source Uncertainty 2.3dB 0.8dB 0.5dB 8.510-8 0.8dB 1.9dB 1.9dB 1.9dB 0.7 3.2%

1.4%

Remark Confidence levels of 95%

Confidence levels of 95%

Confidence levels of 95%

Confidence levels of 95%

Confidence levels of 95%

Confidence levels of 95%

Confidence levels of 95%

Confidence levels of 95%

Confidence levels of 95%

Confidence levels of 95%

Confidence levels of 95%

Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

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: Mar. 25, 2013 3. GENERAL INFORMATION 3.1. Product Details IEEE 802.11n/ac Items Product Type Radio Type Power Type Modulation Data Modulation Data Rate (Mbps) Frequency Range Channel Number Channel Band Width (99%) Maximum Conducted Output Power Report No.: FR330853AB Description WLAN (3TX, 3RX) Intentional Transceiver From Power Adapter see the below table for IEEE 802.11n/ac For 802.11n: OFDM (BPSK / QPSK / 16QAM / 64QAM) For 802.11ac: OFDM (BPSK / QPSK / 16QAM / 64QAM / 256QAM) see the below table for IEEE 802.11n see the below table for IEEE 802.11ac 2400 ~ 2483.5MHz / 5725 ~ 5850MHz For 2.4GHz Band:

11 for 20MHz bandwidth ; 7 for 40MHz bandwidth For 5GHz Band:

5 for 20MHz bandwidth ; 2 for 40MHz bandwidth ;

1 for 80MHz bandwidth For 2.4GHz Band:

MCS0 (HT-20): 17.76 MHz ; MCS0 (HT-40): 36.16 MHz For 5GHz Band:

MCS0 (VHT-20): 20.40 MHz ; MCS0 (VHT-40): 40.00 MHz ;

MCS0 (VHT-80): 76.80 MHz For 2.4GHz Band:

MCS0 (HT-20): 26.65 dBm ; MCS0 (HT-40): 20.52 dBm For 5GHz Band:

IEEE 802.11ac:

MCS0 (VHT-20): 29.79 dBm ; MCS0 (VHT-40): 29.79 dBm ;

MCS0 (VHT-80): 29.83 dBm Please refer to section 3.4 Please refer to section 3.3 Carrier Frequencies Antenna The EUT supports beamforming mode for 802.11ac 20/40/80MHz. Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

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: Mar. 25, 2013 IEEE 802.11a/b/g Items Product Type Radio Type Power Type Modulation Data Modulation Data Rate (Mbps) Frequency Range Channel Number Channel Band Width (99%) Maximum Conducted Output Power Carrier Frequencies Antenna Antenna & Band width Antenna Report No.: FR330853AB Description WLAN (3TX, 3RX) Intentional Transceiver From Power Adapter DSSS for IEEE 802.11b ; OFDM for IEEE 802.11a/g DSSS (BPSK / QPSK / CCK) ; OFDM (BPSK / QPSK / 16QAM / 64QAM) DSSS (1/ 2/ 5.5/11) ; OFDM (6/9/12/18/24/36/48/54) 2400 ~ 2483.5MHz / 5725 ~ 5850MHz 11b/g: 11 ; 11a: 5 11b: 11.20 MHz ; 11g: 19.20 MHz ; 11a: 19.12 MHz 11b: 28.13 dBm ; 11g: 27.29 dBm ; 11a: 29.79 dBm Please refer to section 3.4 Please refer to section 3.3 Band width Mode 20 MHz IEEE 802.11a IEEE 802.11b IEEE 802.11g IEEE 802.11n IEEE 802.11ac V V V V V Three (TX) 40 MHz X X X V V 80 MHz X X X X V Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

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: Mar. 25, 2013 Report No.: FR330853AB IEEE 802.11n spec MCS Spatial Modulation Coding Data rate (Mbit/s) Index Streams Type Rate 20 MHz channel 40 MHz channel 800 ns GI 400 ns GI 800 ns GI 400 ns GI 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 1 1 1 1 1 1 1 1 2 2 2 2 2 2 2 2 3 3 3 3 3 3 3 3 BPSK QPSK QPSK 16-QAM 16-QAM 64-QAM 64-QAM 64-QAM BPSK QPSK QPSK 16-QAM 16-QAM 64-QAM 64-QAM 64-QAM BPSK QPSK QPSK 16-QAM 16-QAM 64-QAM 64-QAM 64-QAM 1/2 1/2 3/4 1/2 3/4 2/3 3/4 5/6 1/2 1/2 3/4 1/2 3/4 2/3 3/4 5/6 1/2 1/2 3/4 1/2 3/4 2/3 3/4 5/6 6.5 13 19.5 26 39 52 58.5 65 13 26 39 52 78 104 117 130 19.5 39 58.5 78 117 156 175.5 195 7.2 14.4 21.7 28.9 43.3 57.8 65 72.2 14.4 28.9 43.3 57.8 86.7 115.6 130 144.4 21.7 43.3 65 86.7 130 173.3 195 216.7 13.5 27 40.5 54 81 108 121.5 135 27 54 81 108 162 216 243 270 40.5 81 121.5 162 243 324 364.5 405 15 30 45 60 90 120 135 150 30 60 90 120 180 240 270 300 45 90 135 180 270 360 405 450 Symbol NSS R NBPSC NCBPS NDBPS GI Explanation Number of spatial streams Code rate Number of coded bits per single carrier Number of coded bits per symbol Number of data bits per symbol guard interval Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

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: Mar. 25, 2013 Report No.: FR330853AB IEEE 802. 11a, 11n and 11ac Spec. Worst Modulation Used for Conformance Testing Number of Protocol Transmit Chains Data Rate / MCS

(NTX) Worst Data Rate /

Worst Modulation MCS Mode 3 3 3 3 802.11a 6-54 Mbps 6Mbps 11A5.8G-20M 11AC5.8G-20M 11AC5.8G-40M 11AC5.8G-80M MCS 0-Nss1 MCS 0-Nss1 MCS 0-Nss1 MCS 0-9, Nss1-3 MCS 0-9, Nss1-3 MCS 0-9, Nss1-3 802.11ac 20MHz 802.11ac 40MHz 802.11ac 80MHz Note 1: IEEE 802.11 modulation consists of IEEE 802.11a. Note 2: IEEE 802.11n modulation consists of HT20 and HT40 (HT: High Throughput). Note 3: IEEE 802.11ac modulation consists of VHT20, VHT40 and VHT80. The lowest data rate

(MCS0) of VHT20 and VHT40 are same as HT20 and HT40. Note 4: Modulation modes consist of 11A5.8G-20M, 11N5.8G-20M, 11N5.8G-40M, 11AC5.8G-20M, 11AC5.8G-40M, 11AC5.8G-80M Note 5: 11A: IEEE 802.11a, 11N: IEEE 802.11n, 11AC: IEEE 802.11ac. 5.8G: 5.725-5.850GHz band Note 6: 20M/40M/80M: Channel Bandwidth 20MHz/40MHz/80MHz 3.2. Accessories Power Brand Model P/N Rating Adapter 1 NETGEAR Adapter 2 NETGEAR P030WF120B 11200-6LF SAS030F1 NA 30.0W 332-10200-02 332-10451-01 Others Input: 100-120VAC, 47/63Hz, 0.9A Output: 12VDC, 2.5A Input: 100-240VAC, 50/60Hz, 1.0A Output: 12VDC, 2.5A RJ-45 Cable*1, Shielded, 1.5m Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

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: Mar. 25, 2013 3.3. Table for Filed Antenna Report No.: FR330853AB Gain (dBi) 2.4GHz 5GHz 1.3 1.5 2.3

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3.0 2.1 2.5 Ant. Brand P/N Antenna Type Connector 1 2 3 4 5 6 NETGEAR NETGEAR NETGEAR NETGEAR NETGEAR NETGEAR 401-10006-01 401-10006-01 401-10006-01 401-10007-01 401-10007-01 401-10007-01 PCB Antenna PCB Antenna PCB Antenna PCB Antenna PCB Antenna PCB Antenna I-PEX I-PEX I-PEX I-PEX I-PEX I-PEX Note: The EUT has six antennas

<For 2.4GHz Band:>

For IEEE 802.11b/g/n mode (3TX/3RX) Chain 1, Chain 2 and Chain 3 could transmit/receive simultaneously.

<For 5GHz Band:>

For IEEE 802.11a/n/ac mode (3TX/3RX):

Chain 4, Chain 5 and Chain 6 could transmit/receive simultaneously. Chain 1 (Ant. 1): TX/RX Chain 2 (Ant. 2): TX/RX Chain 3 (Ant. 3): TX/RX Chain 6 (Ant. 6): TX/RX Chain 5 (Ant. 5): TX/RX Chain 4 (Ant. 4): TX/RX Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

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: Mar. 25, 2013 Report No.: FR330853AB 3.4. Table for Carrier Frequencies For 2.4GHz Band:

There are two bandwidth systems. For both 20MHz bandwidth systems, use Channel 1~Channel 11. For both 40MHz bandwidth systems, use Channel 3~Channel 9. Frequency Band Channel No. 2400~2483.5MHz 1 2 3 4 5 6 Frequency 2412 MHz 2417 MHz 2422 MHz 2427 MHz 2432 MHz 2437 MHz Channel No. 7 8 9 10 11

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Frequency 2442 MHz 2447 MHz 2452 MHz 2457 MHz 2462 MHz

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For 5GHz Band:

There are three bandwidth systems. For 20MHz bandwidth systems, use Channel 149, 153, 157, 161, 165. For 40MHz bandwidth systems, use Channel 151, 159. For 80MHz bandwidth systems, use Channel 155. Frequency Band Channel No. 5725~5850 MHz Band 4 149 151 153 155 Frequency 5745 MHz 5755 MHz 5765 MHz 5775 MHz Channel No. 157 159 161 165 Frequency 5785 MHz 5795 MHz 5805 MHz 5825 MHz Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

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: Mar. 25, 2013 3.5. Table for Test Modes Report No.: FR330853AB Preliminary tests were performed in different data rate to find the worst radiated emission. The data rate shown in the table below is the worst-case rate with respect to the specific test item. Investigation has been done on all the possible configurations for searching the worst cases. The following table is a list of the test modes shown in this test report. For 2.4GHz Band:

Test Items AC Power Line Conducted Emissions Maximum Conducted Output Power Power Spectral Density 6dB Spectrum Bandwidth Radiated Emissions Below 1GHz Radiated Emissions Above 1GHz Band Edge Emissions Mode Normal Link 11n 20MHz 11n 40MHz 11b/CCK 11g/BPSK 11n 20MHz 11n 40MHz 11b/CCK 11g/BPSK 11n 20MHz 11n 40MHz 11b/CCK 11g/BPSK Normal Link 11n 20MHz 11n 40MHz 11b/CCK 11g/BPSK 11n 20MHz 11n 40MHz 11b/CCK 11g/BPSK Data Rate Auto MCS0 MCS0 1 Mbps 6 Mbps MCS0 MCS0 1 Mbps 6 Mbps MCS0 MCS0 1 Mbps 6 Mbps Auto MCS0 MCS0 1 Mbps 6 Mbps MCS0 MCS0 1 Mbps 6 Mbps Channel

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1/6/11 3/6/9 1/6/11 1/6/11 1/6/11 3/6/9 1/6/11 1/6/11 1/6/11 3/6/9 1/6/11 1/6/11

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1/6/11 3/6/9 1/6/11 1/6/11 1/6/11 3/6/9 1/6/11 1/6/11 Chain

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1+2+3 1+2+3 1+2+3 1+2+3 1+2+3 1+2+3 1+2+3 1+2+3 1+2+3 1+2+3 1+2+3 1+2+3

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1+2+3 1+2+3 1+2+3 1+2+3 1+2+3 1+2+3 1+2+3 1+2+3 Note: The polarity of Ant. 1 is different from Ant. 2 and Ant. 3.

(Ant. 1 is horizontal polarity, Ant. 2 and Ant. 3 are vertical polarity.) Therefore, it only uses Ant. 2 and Ant. 3 to evaluate directional gain. Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

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: Mar. 25, 2013 For 5GHz Band:

Test Items Mode AC Power Line Conducted Emissions Maximum Conducted Output Power Power Spectral Density 6dB Spectrum Bandwidth Radiated Emissions Below 1GHz Radiated Emissions Above 1GHz Band Edge Emissions Data Rate Auto 6 Mbps 6 Mbps Normal Link 11ac 20MHz MCS0/NSS1 11ac 40MHz MCS0/NSS1 11ac 80MHz MCS0/NSS1 11a/BPSK 11ac 20MHz MCS0/NSS1 11ac 40MHz MCS0/NSS1 11ac 80MHz MCS0/NSS1 11a/BPSK 11ac 20MHz MCS0/NSS1 11ac 40MHz MCS0/NSS1 11ac 80MHz MCS0/NSS1 11a/BPSK Normal Link 11ac 20MHz MCS0/NSS1 11ac 40MHz MCS0/NSS1 11ac 80MHz MCS0/NSS1 11a/BPSK 11ac 20MHz MCS0/NSS1 11ac 40MHz MCS0/NSS1 11ac 80MHz MCS0/NSS1 11a/BPSK 6 Mbps Auto 6 Mbps 6 Mbps Report No.: FR330853AB Channel

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149/157/165 151/159 155 149/157/165 149/157/165 151/159 155 149/157/165 149/157/165 151/159 155 149/157/165

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149/157/165 151/159 155 149/157/165 149/157/165 151/159 155 149/157/165 Chain

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4+5+6 4+5+6 4+5+6 4+5+6 4+5+6 4+5+6 4+5+6 4+5+6 4+5+6 4+5+6 4+5+6 4+5+6

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4+5+6 4+5+6 4+5+6 4+5+6 4+5+6 4+5+6 4+5+6 4+5+6 Note 1: The test result of beam-forming mode is worse case than non beam-forming mode, so it is recorded in the test report. Note 2: The polarity of Ant. 6 is different from Ant. 4 and Ant. 5.

(Ant. 6 is horizontal polarity, Ant. 4 and Ant. 5 are vertical polarity.) Therefore, it only uses Ant. 4 and Ant. 5 to evaluate directional gain. The following test modes were performed for all tests:

Mode 1. EUT with Adapter 1 Mode 2. EUT with Adapter 2 For Conducted Emission test and Radiated Emission:

Mode 1 generated the worst test result, so it was recorded in this report.

<For MPE and Co-location Test>:

The EUT could be applied with 2.4GHz WLAN function and 5GHz WLAN function; therefore Maximum Permissible Exposure (Please refer to Appendix B) and Co-location (please refer to Appendix C) tests are added for simultaneously transmit between 2.4GHz WLAN function and 5GHz WLAN function. Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

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: Mar. 25, 2013 3.6. Table for Testing Locations Report No.: FR330853AB Test Site No. 03CH01-CB CO01-CB TH01-CB Site Category SAC Conduction OVEN Room Location Hsin Chu Hsin Chu Hsin Chu FCC Reg. No. 262045 262045

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IC File No. IC 4086D IC 4086D

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Open Area Test Site (OATS); Semi Anechoic Chamber (SAC). Please refer section 6 for Test Site Address. 3.7. Table for Multiple Listing The product name and model names in the following table are all refer to the identical product. Product Name Model Name Description R6300 Smart WiFi Router AC1450 Smart WiFi Router R6300v2 AC1450 All the models are identical, the different model names served as marketing strategy. 3.8. Table for Supporting Units Support Unit Flash Disk Flash Disk PC Notebook Notebook Notebook Notebook Wifi Dongle Brand Silicon Silicon hp compaq DELL DELL DELL DELL Netgear Model D33B01 D33B02 GC758AV E6220 E6430 E6430 M1330 A6200 FCC ID DoC DoC DoC E2KWM3945ABG E2K4965AGNM E2K4965AGNM E2KWM3945ABG PY312200200 Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

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: Mar. 25, 2013 Report No.: FR330853AB 3.9. Table for Parameters of Test Software Setting During testing, Channel & Power Controlling Software provided by the customer was used to control the operating channel as well as the output power level. The RF output power selection is for the setting of RF output power expected by the customer and is going to be fixed on the firmware of the final end product. For 2.4GHz Band:

For non beamforming mode:

Power Parameters of IEEE 802.11n MCS0 20MHz / Chain 1 + Chain 2 + Chain 3 Test Software Version Frequency MCS0 20MHz 2412 MHz 57 Mtool v2.0.0.7 2437 MHz 88 Power Parameters of IEEE 802.11n MCS0 40MHz / Chain 1 + Chain 2 + Chain 3 Test Software Version Frequency MCS0 40MHz 2422 MHz 41 Mtool v2.0.0.7 2437 MHz 64 Power Parameters of IEEE 802.11b / Chain 1 + Chain 2 + Chain 3 Test Software Version Frequency IEEE 802.11b IEEE 802.11g 2412 MHz 87 68 Mtool v2.0.0.7 2437 MHz 96 90 2462 MHz 47 2452 MHz 38 2462 MHz 83 58 Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

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: Mar. 25, 2013 Report No.: FR330853AB For 5GHz Band:

For beamforming mode:

Power Parameters of IEEE 802.11ac MCS0 NSS1 20MHz / Chain 4 + Chain 5 + Chain 6 Test Software Version Frequency MCS0 20MHz 5745 MHz 98 Mtool v2.0.0.7 5785 MHz 98 5825 MHz 98 Power Parameters of IEEE 802.11ac MCS0 NSS1 40MHz / Chain 4 + Chain 5 + Chain 6 Test Software Version Frequency MCS0 40MHz Mtool v2.0.0.7 5755 MHz 98 5795 MHz 98 Power Parameters of IEEE 802.11ac MCS0 NSS1 80MHz / Chain 4 + Chain 5 + Chain 6 Test Software Version Frequency MCS0 80MHz Mtool v2.0.0.7 5775 MHz 100 For non beamforming mode:

Power Parameters of IEEE 802.11a / Chain 4 + Chain 5 + Chain 6 Test Software Version Frequency IEEE 802.11a 5745 MHz 98 Mtool v2.0.0.7 5785 MHz 98 5825 MHz 98 3.10. EUT Operation during Test For non beamforming mode:

The EUT was programmed to be in continuously transmitting mode. For beamforming mode:

For Conducted Mode:

The EUT was programmed to be in continuously transmitting mode. For Radiated Mode:

During the test, the following programs under WIN XP were executed. The program was executed as follows:

1. During the test, the EUT operation to normal function. 2. Executed command fixed test channel under DOS. 3. Executed "Lan test.exe " to link with the remote workstation to receive and transmit packet by Wireless AP and transmit duty cycle no less 98%. Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

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: Mar. 25, 2013 3.11. Duty Cycle For non beamforming mode For 802.11n 20MHz mode Report No.: FR330853AB For 802.11n 40MHz mode Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

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: Mar. 25, 2013 For 802.11b mode For 802.11g mode Report No.: FR330853AB Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

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: Mar. 25, 2013 For non beamforming mode For 802.11a 20MHz mode Report No.: FR330853AB Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

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: Mar. 25, 2013 For beamforming mode For 802.11ac 20MHz mode For 802.11ac 40MHz mode Report No.: FR330853AB Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

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: Mar. 25, 2013 For 802.11ac 80MHz mode Report No.: FR330853AB Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

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: Mar. 25, 2013 3.12. Test Configurations 3.12.1. Radiation Emissions Test Configuration Test Configuration: 30MHz~1GHz / Test Mode: Mode 1 AC MAIN Report No.: FR330853AB 2 1 Lond 5 l F a s h D s k i Flash Disk EUT 4 C o n n e c t o r 3 Item 1 2 3 4 5 WAN NB 2.4G NB 5G NB LAN NB Connection Power cable RJ-45 cable RJ-45 cable RJ-45 cable RJ-45 cable*3 Shield No Yes Yes No No Length 1.8m 1.5m 10m 10m 1.5m Remark

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Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

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: Mar. 25, 2013 Report No.: FR330853AB For non beamforming mode:

Test Configuration: above 1GHz / Test Mode: Mode 1 AC MAIN 2 1 EUT D C R S 2 3 2 V G A L P T U S B R J

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4 5 U S B Nootbook Item Connection 1 2 RJ-45 Power cable Shield No No Length 10m 1.8m Remark

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Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

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: Mar. 25, 2013 Report No.: FR330853AB For beamforming mode:

Test Configuration: above 1GHz / Test Mode: Mode 1 2 AC MAIN 1 EUT D C U S B V G A L P T R J

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4 5 R J

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1 1 U S B Nootbook D o n g l e D C U S B V G A L P T R J

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4 5 R J

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1 1 U S B Nootbook Item Connection 1 2 AC Power cable RJ-45 Shield No No Length 1.8m 10m Remark

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Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

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: Mar. 25, 2013 3.12.2. AC Power Line Conduction Emissions Test Configuration Test Mode: Mode 1 AC MAIN Report No.: FR330853AB Lond 5 1 2 l F a s h D s k i Flash Disk EUT 4 PC 2.4G NB 5G NB LAN NB Connection Power cable RJ-45 cable RJ-45 cable RJ-45 cable RJ-45 cable*3 Shield No Yes Yes No No Length 1.8m 1.5m 10m 10m 1.5m Remark

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C o n n e c t o r 3 Item 1 2 3 4 5 Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

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: Mar. 25, 2013 Report No.: FR330853AB 4. TEST RESULT 4.1. AC Power Line Conducted Emissions Measurement 4.1.1. Limit For this product which is designed to be connected to the AC power line, the radio frequency voltage that is conducted back onto the AC power line on any frequency or frequencies within the band 150 kHz to 30 MHz shall not exceed below limits table. Frequency (MHz) QP Limit (dBuV) AV Limit (dBuV) 0.15~0.5 0.5~5 5~30 66~56 56 60 56~46 46 50 4.1.2. Measuring Instruments and Setting Please refer to section 5 of equipments list in this report. The following table is the setting of the receiver. Receiver Parameters Attenuation Start Frequency Stop Frequency IF Bandwidth Setting 10 dB 0.15 MHz 30 MHz 9 KHz 4.1.3. Test Procedures 1. Configure the EUT according to ANSI C63.10. The EUT or host of EUT has to be placed 0.4 meter far from the conducting wall of the shielding room and at least 80 centimeters from any other grounded conducting surface. 2. Connect EUT or host of EUT to the power mains through a line impedance stabilization network

(LISN). 3. All the support units are connected to the other LISNs. The LISN should provide 50uH/50ohms coupling impedance. The frequency range from 150 KHz to 30 MHz was searched. 4. 5. Set the test-receiver system to Peak Detect Function and Specified Bandwidth with Maximum Hold Mode. The measurement has to be done between each power line and ground at the power terminal. 6. Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

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: Mar. 25, 2013 4.1.4. Test Setup Layout Report No.: FR330853AB LEGEND:

(1) Interconnecting cables that hang closer than 40 cm to the ground plane shall be folded back and forth in the center forming a bundle 30 to 40 cm long.

(2) I/O cables that are not connected to a peripheral shall be bundled in the center. The end of the cable may be terminated, if required, using the correct terminating impedance. The overall length shall not exceed 1 m.

(3) EUT connected to one LISN. Unused LISN measuring port connectors shall be terminated in 50 . LISN can be placed on top of, or immediately beneath, reference ground plane.

(3.1) All other equipment powered from additional LISN(s).

(3.2) Multiple outlet strip can be used for multiple power cords of non-EUT equipment.

(3.3) LISN at least 80 cm from nearest part of EUT chassis.

(4) Cables of hand-operated devices, such as keyboards, mice, etc., shall be placed as for normal use.

(5) Non-EUT components of EUT system being tested.

(6) Rear of EUT, including peripherals, shall all be aligned and flush with rear of tabletop.

(7) Rear of tabletop shall be 40 cm removed from a vertical conducting plane that is bonded to the ground plane. 4.1.5. Test Deviation There is no deviation with the original standard. 4.1.6. EUT Operation during Test The EUT was placed on the test table and programmed in normal function. Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

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: Mar. 25, 2013 Report No.: FR330853AB 4.1.7. Results of AC Power Line Conducted Emissions Measurement Temperature Test Engineer Configuration 25 Justin Chiu Normal Link Humidity Phase Test Mode 54%

Line Mode 1. EUT with Adapter 1 Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

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: Mar. 25, 2013 Report No.: FR330853AB Temperature Test Engineer Configuration 25 Justin Chiu Normal Link Humidity Phase Test Mode 54%

Neutral Mode 1. EUT with Adapter 1 Note:

Level = Read Level + LISN Factor + Cable Loss Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

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: Mar. 25, 2013 Report No.: FR330853AB 4.2. Maximum Conducted Output Power Measurement 4.2.1. Limit For systems using digital modulation in the 2400-2483.5MHz, the limit for output power is 30dBm. The limited has to be reduced by the amount in dB that the gain of the antenna exceed 6dBi. In case of point-to-point operation, the limit has to be reduced by 1dB for every 3dB that the directional gain of the antenna exceeds 6dBi. Systems operating in the 5725-5850 MHz band that are used exclusively for fixed, point-to-point operations may employ transmitting antennas with directional gain greater than 6 dBi without any corresponding reduction in transmitter output power. 4.2.2. Measuring Instruments and Setting Please refer to section 5 of equipments list in this report. The following table is the setting of the power meter. Power Meter Parameter Detector Setting Average 4.2.3. Test Procedures 1. Test procedures refer KDB558074 v01 r02 section 8.2.3 option 3. 2. This procedure provides an alternative for determining the RMS output power using a broadband RF average power meter with a thermocouple detector. 4.2.4. Test Setup Layout 4.2.5. Test Deviation There is no deviation with the original standard. 4.2.6. EUT Operation during Test The EUT was programmed to be in continuously transmitting mode. Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

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: Mar. 25, 2013 4.2.7. Test Result of Maximum Conducted Output Power Report No.: FR330853AB 26 Temperature Test Engineer Magic Lai Test Date Mar. 09, 2013 Humidity Configurations Test Mode 60%

IEEE 802.11n (2.4GHz band) Non beamforming mode Configuration IEEE 802.11n MCS0 20MHz / Chain 1 + Chain 2 + Chain 3 Channel Frequency 1 6 11 2412 MHz 2437 MHz 2462 MHz Conducted Power (dBm) Chain 1 Chain 2 Chain 3 14.15 13.60 21.60 21.80 11.70 11.35 14.10 22.20 12.00 Total Conducted Power (dBm) Max. Limit

(dBm) 18.73 26.65 16.46 30.00 30.00 30.00 Result Complies Complies Complies Configuration IEEE 802.11n MCS0 40MHz / Chain 1 + Chain 2 + Chain 3 Channel Frequency 3 6 9 2422 MHz 2437 MHz 2452 MHz Conducted Power (dBm) Chain 1 Chain 2 Chain 3 10.35 11.15 15.80 15.30 9.70 10.50 10.75 16.10 10.00 Total Conducted Power (dBm) Max. Limit

(dBm) 15.53 20.52 14.85 30.00 30.00 30.00 Result Complies Complies Complies Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

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: Mar. 25, 2013 Report No.: FR330853AB Temperature Test Engineer Test Date 26 Magic Lai Mar. 09, 2013 Humidity Configurations Test Mode 60%

IEEE 802.11ac Beamforming mode Configuration IEEE 802.11ac MCS0 NSS1 20MHz / Chain 4 + Chain 5 + Chain 6 Channel Frequency 149 157 165 5745 MHz 5785 MHz 5825 MHz Conducted Power (dBm) Chain 4 Chain 5 Chain 6 25.15 24.94 24.79 25.13 25.02 24.84 24.96 24.84 25.04 Total Conducted Power (dBm) Max. Limit

(dBm) 29.79 29.69 29.74 30.00 30.00 30.00 Result Complies Complies Complies Note: Directional gain=GANT+10log(NANT/Nss) =5.56dBi <6dBi, so the limit doesnt reduce. Configuration IEEE 802.11ac MCS0 NSS1 40MHz / Chain 4 + Chain 5 + Chain 6 Channel Frequency 151 159 5755 MHz 5795 MHz Conducted Power (dBm) Chain 4 Chain 5 Chain 6 25.01 24.96 24.76 25.15 25.08 24.94 Total Conducted Power (dBm) 29.79 29.72 Max. Limit

(dBm) Result 30.00 30.00 Complies Complies Note: Directional gain=GANT+10log(NANT/Nss) =5.56dBi <6dBi, so the limit doesnt reduce. Configuration IEEE 802.11ac MCS0 NSS1 80MHz / Chain 4 + Chain 5 + Chain 6 Channel Frequency 155 5775 MHz Conducted Power (dBm) Chain 4 Chain 5 Chain 6 24.63 25.38 25.13 Total Conducted Power (dBm) Max. Limit

(dBm) Result 29.83 30.00 Complies Note: Directional gain=GANT+10log(NANT/Nss) =5.56dBi <6dBi, so the limit doesnt reduce. Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

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: Mar. 25, 2013 Report No.: FR330853AB Temperature Test Engineer Test Date 26 Magic Lai Mar. 09, 2013 Humidity Configurations Test Mode 60%

IEEE 802.11a/b/g Non beamforming mode Configuration IEEE 802.11b / Chain 1 + Chain 2 + Chain 3 Channel Frequency 1 6 11 2412 MHz 2437 MHz 2462 MHz Conducted Power (dBm) Chain 1 Chain 2 Chain 3 21.00 20.90 22.90 23.10 19.60 19.50 21.60 24.00 20.35 Total Conducted Power (dBm) Max. Limit

(dBm) 25.95 28.13 24.60 30.00 30.00 30.00 Result Complies Complies Complies Configuration IEEE 802.11g / Chain 1 + Chain 2 + Chain 3 Channel Frequency 1 6 11 2412 MHz 2437 MHz 2462 MHz Conducted Power (dBm) Chain 1 Chain 2 Chain 3 16.25 16.25 22.30 22.10 13.80 14.00 16.76 23.10 14.25 Total Conducted Power (dBm) Max. Limit

(dBm) 21.20 27.29 18.79 30.00 30.00 30.00 Result Complies Complies Complies Configuration IEEE 802.11a / Chain 4 + Chain 5 + Chain 6 Channel Frequency 149 157 165 5745 MHz 5785 MHz 5825 MHz Conducted Power (dBm) Chain 4 Chain 5 Chain 6 25.10 24.81 24.76 25.23 25.22 24.84 25.11 25.03 24.98 Total Conducted Power (dBm) Max. Limit

(dBm) 29.78 29.78 29.79 30.00 30.00 30.00 Result Complies Complies Complies Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

: 30 of 99

: Mar. 25, 2013 Report No.: FR330853AB 4.3. Power Spectral Density Measurement 4.3.1. Limit For digitally modulated systems, the power spectral density conducted from the intentional radiator to the antenna shall not be greater than 8dBm in any 3 kHz band during any time interval of continuous transmission. 4.3.2. Measuring Instruments and Setting Please refer to section 5 of equipments list in this report. The following table is the setting of the spectrum analyzer. Spectrum Parameter Attenuation Span Frequency RB VB Detector Trace Sweep Time Setting Auto Set the span to 1.5 times the DTS channel bandwidth. 3 kHz 3 x RBW Peak Max Hold Auto couple 4.3.3. Test Procedures 1. Test procedures refer KDB558074 v01 r02 section 9.1 option 1 & KDB 662911 D01 Multiple Transmitter Output v01r02 section In-Band Power Spectral Density (PSD) Measurements option

(2) Measure and add 10 log(NANT) dB 2. Use this procedure when the maximum conducted output power in the fundamental emission is used to demonstrate compliance. The EUT must be configured to transmit continuously at full power over the measurement duration. Ensure that the number of measurement points in the sweep 2 x span/RBW (use of a greater number of measurement points than this minimum requirement is recommended). 3. 4. Use the peak marker function to determine the maximum level in any 100 kHz band segment within the fundamental EBW. The resulting PSD level must be 8 dBm. 5. 6. When measuring power spectral density with multiple antenna systems, add every result of the values by mathematic formula. Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

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: Mar. 25, 2013 4.3.4. Test Setup Layout Report No.: FR330853AB 4.3.5. Test Deviation There is no deviation with the original standard. 4.3.6. EUT Operation during Test The EUT was programmed to be in continuously transmitting mode. Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

: 32 of 99

: Mar. 25, 2013 Report No.: FR330853AB 4.3.7. Test Result of Power Spectral Density Temperature Test Engineer Test Mode 26 Magic Lai Non beamforming mode Humidity Configurations 60%

IEEE 802.11n (2.4GHz band) Configuration IEEE 802.11n MCS0 20MHz / Chain 1 + Chain 2 + Chain 3 Channel Frequency 1 6 11 2412 MHz 2437 MHz 2462 MHz Power Density (dBm/3kHz) Single Port Chain 1

-12.69

-5.77

-15.97 Chain 2

-11.19

-4.27

-13.28 Chain 3

-12.48

-5.83

-15.14 Limit 3.23 3.23 3.23 Result Complies Complies Complies Note: Limit = 8dBm/3KHz -(10log(3))=8dBm/3KHz -4.77dB=3.23dBm/3KHz. Configuration IEEE 802.11n MCS0 40MHz / Chain 1 + Chain 2 + Chain 3 Channel Frequency 3 6 9 2422 MHz 2437 MHz 2452 MHz Power Density (dBm/3kHz) Single Port Chain 1

-18.74

-13.48

-18.79 Chain 2

-17.29

-13.82

-18.37 Chain 3

-17.34

-12.64

-18.73 Limit 3.23 3.23 3.23 Result Complies Complies Complies Note: Limit = 8dBm/3KHz -(10log(3))=8dBm/3KHz -4.77dB=3.23dBm/3KHz. Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

: 33 of 99

: Mar. 25, 2013 Report No.: FR330853AB Temperature Test Engineer Test Mode 26 Magic Lai Beamforming mode Humidity Configurations 60%

IEEE 802.11ac Configuration IEEE 802.11ac MCS0 NSS1 20MHz / Chain 4 + Chain 5 + Chain 6 Channel Frequency 149 157 165 5745 MHz 5785 MHz 5825 MHz Power Density (dBm/3kHz) Single Port Chain 4

-0.41

-0.41

-0.69 Chain 5

-0.77

-0.24 1.01 Chain 6

-1.04 0.10 0.72 Limit 3.23 3.23 3.23 Result Complies Complies Complies Note: Limit = 8dBm/3KHz -(10log(3))=8dBm/3KHz -4.77dB=3.23dBm/3KHz. Directional gain=GANT+10log(NANT/Nss) =5.56dBi <6dBi, so the limit doesnt reduce. Configuration IEEE 802.11ac MCS0 NSS1 40MHz / Chain 4 + Chain 5 + Chain 6 Channel Frequency 151 159 5755 MHz 5795 MHz Power Density (dBm/3kHz) Single Port Chain 4

-3.58

-3.02 Chain 5

-2.90

-3.50 Chain 6

-2.72

-2.87 Limit 3.23 3.23 Result Complies Complies Note: Limit = 8dBm/3KHz -(10log(3))=8dBm/3KHz -4.77dB=3.23dBm/3KHz. Directional gain=GANT+10log(NANT/Nss) =5.56dBi <6dBi, so the limit doesnt reduce. Configuration IEEE 802.11ac MCS0 NSS1 80MHz / Chain 4 + Chain 5 + Chain 6 Channel Frequency 155 5775 MHz Power Density (dBm/3kHz) Single Port Chain 4

-6.20 Chain 5

-6.15 Chain 6

-5.59 Limit 3.23 Result Complies Note: Limit = 8dBm/3KHz -(10log(3))=8dBm/3KHz -4.77dB=3.23dBm/3KHz. Directional gain=GANT+10log(NANT/Nss) =5.56dBi <6dBi, so the limit doesnt reduce. Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

: 34 of 99

: Mar. 25, 2013 Report No.: FR330853AB Temperature Test Engineer Test Mode 26 Magic Lai Non beamforming mode Humidity Configurations 60%

IEEE 802.11a/b/g Configuration IEEE 802.11b / Chain 1 + Chain 2 + Chain 3 Channel Frequency 1 6 11 2412 MHz 2437 MHz 2462 MHz Power Density (dBm/3kHz) Single Port Chain 1

-4.82

-1.96

-6.21 Chain 2

-2.04

-0.97

-4.21 Chain 3

-2.87

-0.72

-5.50 Limit 3.23 3.23 3.23 Result Complies Complies Complies Note: Limit = 8dBm/3KHz -(10log(3))=8dBm/3KHz -4.77dB=3.23dBm/3KHz. Configuration IEEE 802.11g / Chain 1 + Chain 2 + Chain 3 Channel Frequency 1 6 11 2412 MHz 2437 MHz 2462 MHz Power Density (dBm/3kHz) Single Port Chain 1

-10.65

-5.21

-12.98 Chain 2

-9.40

-4.29

-12.26 Chain 3

-10.52

-4.94

-13.66 Limit 3.23 3.23 3.23 Result Complies Complies Complies Note: Limit = 8dBm/3KHz -(10log(3))=8dBm/3KHz -4.77dB=3.23dBm/3KHz. Configuration IEEE 802.11a / Chain 4 + Chain 5 + Chain 6 Channel Frequency 149 157 165 5745 MHz 5785 MHz 5825 MHz Power Density (dBm/3kHz) Single Port Chain 4

-0.33 0.57

-0.02 Chain 5 0.00 0.39

-0.16 Chain 6 0.58

-0.09 0.91 Limit 3.23 3.23 3.23 Result Complies Complies Complies Note: Limit = 8dBm/3KHz -(10log(3))=8dBm/3KHz -4.77dB=3.23dBm/3KHz. Note: All the test values were listed in the report. For plots, only the channel with maximum results was shown. Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

: 35 of 99

: Mar. 25, 2013 Report No.: FR330853AB Power Density Plot on Configuration IEEE 802.11n MCS0 20MHz / Chain 2 / 2437 MHz Power Density Plot on Configuration IEEE 802.11n MCS0 40MHz / Chain 3 / 2437 MHz Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

: 36 of 99

: Mar. 25, 2013 Report No.: FR330853AB Power Density Plot on Configuration IEEE 802.11ac MCS0 NSS1 20MHz / Chain 5 / 5825 MHz Power Density Plot on Configuration IEEE 802.11ac MCS0 NSS1 40MHz / Chain 6 / 5755 MHz Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

: 37 of 99

: Mar. 25, 2013 Report No.: FR330853AB Power Density Plot on Configuration IEEE 802.11ac MCS0 NSS1 80MHz / Chain 6 / 5775 MHz Power Density Plot on Configuration IEEE 802.11b / Chain 3 / 2437 MHz Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

: 38 of 99

: Mar. 25, 2013 Power Density Plot on Configuration IEEE 802.11g / Chain 2 / 2437 MHz Report No.: FR330853AB Power Density Plot on Configuration IEEE 802.11a / Chain 6 / 5825 MHz Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

: 39 of 99

: Mar. 25, 2013 Report No.: FR330853AB 4.4. 6dB Spectrum Bandwidth Measurement 4.4.1. Limit For digital modulation systems, the minimum 6dB bandwidth shall be at least 500 kHz. 4.4.2. Measuring Instruments and Setting Please refer to section 5 of equipments list in this report. The following table is the setting of spectrum analyzer. Spectrum Parameters Attenuation Span Frequency RB VB Detector Trace Sweep Time Setting Auto

> 6dB Bandwidth 1-5 % or DTS BW, not exceed 100KHz 3 x RBW Peak Max Hold Auto 4.4.3. Test Procedures 1. 2. The transmitter output (antenna port) was connected to the spectrum analyzer in peak hold mode. Test was performed in accordance with KDB 558074 Guidance for Performing Compliance Measurements on Digital Transmission Systems (DTS) Operating Under 15.247 section 5.1.1 EBW Measurement Procedure 3. Multiple antenna system was performed in accordance with KDB 662911 Emissions Testing of Transmitters with Multiple Outputs in the Same Band. 4. Measured the spectrum width with power higher than 6dB below carrier. 4.4.4. Test Setup Layout 4.4.5. Test Deviation There is no deviation with the original standard. 4.4.6. EUT Operation during Test The EUT was programmed to be in continuously transmitting mode. Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

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: Mar. 25, 2013 Report No.: FR330853AB 4.4.7. Test Result of 6dB Spectrum Bandwidth Temperature Test Engineer Test Mode 26 Magic Lai Non beamforming mode Humidity Configurations 60%

IEEE 802.11n (2.4GHz band) Configuration IEEE 802.11n MCS0 20MHz / Chain 1 + Chain 2 + Chain 3 Channel Frequency 6dB Bandwidth

(MHz) 99% Occupied Bandwidth

(MHz) 1 6 11 2412 MHz 2437 MHz 2462 MHz 15.04 15.20 15.44 17.36 17.76 17.60 Min. Limit

(kHz) 500 500 500 Configuration IEEE 802.11n MCS0 40MHz / Chain 1 + Chain 2 + Chain 3 Channel Frequency 6dB Bandwidth

(MHz) 99% Occupied Bandwidth

(MHz) 3 6 9 2422 MHz 2437 MHz 2452 MHz 34.24 30.56 33.92 36.00 35.52 36.16 Min. Limit

(kHz) 500 500 500 Test Result Complies Complies Complies Test Result Complies Complies Complies Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

: 41 of 99

: Mar. 25, 2013 Report No.: FR330853AB Temperature Test Engineer Test Mode 26 Magic Lai Beamforming mode Humidity Configurations 60%

IEEE 802.11ac Configuration IEEE 802.11ac MCS0 NSS1 20MHz / Chain 4 + Chain 5 + Chain 6 Channel Frequency 6dB Bandwidth

(MHz) 99% Occupied Bandwidth

(MHz) 149 157 165 5745 MHz 5785 MHz 5825 MHz 17.60 17.68 17.68 20.40 18.32 18.32 Min. Limit

(kHz) 500 500 500 Configuration IEEE 802.11ac MCS0 NSS1 40MHz / Chain 4 + Chain 5 + Chain 6 Channel Frequency 6dB Bandwidth

(MHz) 99% Occupied Bandwidth

(MHz) Min. Limit

(kHz) 151 159 5755 MHz 5795 MHz 35.68 35.68 40.00 38.72 500 500 Configuration IEEE 802.11ac MCS0 NSS1 80MHz / Chain 4 + Chain 5 + Chain 6 Test Result Complies Complies Complies Test Result Complies Complies Channel Frequency 6dB Bandwidth

(MHz) 99% Occupied Bandwidth

(MHz) Min. Limit

(kHz) Test Result 155 5775 MHz 71.68 76.80 500 Complies Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

: 42 of 99

: Mar. 25, 2013 26 Temperature Test Engineer Magic Lai Test Mode Non beamforming mode Report No.: FR330853AB Humidity Configurations 60%

IEEE 802.11a/b/g Configuration IEEE 802.11b / Chain 1 + Chain 2 + Chain 3 Channel Frequency 6dB Bandwidth

(MHz) 99% Occupied Bandwidth

(MHz) 1 6 11 2412 MHz 2437 MHz 2462 MHz 8.48 8.16 8.16 10.16 11.20 10.08 Configuration IEEE 802.11g / Chain 1 + Chain 2 + Chain 3 Channel Frequency 6dB Bandwidth

(MHz) 99% Occupied Bandwidth

(MHz) 1 6 11 2412 MHz 2437 MHz 2462 MHz 10.48 14.56 15.12 16.64 19.20 16.64 Configuration IEEE 802.11a / Chain 4 + Chain 5 + Chain 6 Channel Frequency 6dB Bandwidth

(MHz) 99% Occupied Bandwidth

(MHz) 149 157 165 5745 MHz 5785 MHz 5825 MHz 16.48 16.48 15.76 19.12 18.80 19.12 Note: All the test values were listed in the report. For plots, only the channel with maximum results was shown. Min. Limit

(kHz) 500 500 500 Min. Limit

(kHz) 500 500 500 Min. Limit

(kHz) 500 500 500 Test Result Complies Complies Complies Test Result Complies Complies Complies Test Result Complies Complies Complies Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

: 43 of 99

: Mar. 25, 2013 Report No.: FR330853AB 6 dB Bandwidth Plot on Configuration IEEE 802.11n MCS0 20MHz / Chain 1 + Chain 2 + Chain 3 /

2412 MHz 6 dB Bandwidth Plot on Configuration IEEE 802.11n MCS0 40MHz / Chain 1 + Chain 2 + Chain 3 /

2437 MHz Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

: 44 of 99

: Mar. 25, 2013 Report No.: FR330853AB 6 dB Bandwidth Plot on Configuration IEEE 802.11ac MCS0 NSS1 20MHz /

Chain 4 + Chain 5 + Chain 6 / 5745 MHz 6 dB Bandwidth Plot on Configuration IEEE 802.11ac MCS0 NSS1 40MHz /

Chain 4 + Chain 5 + Chain 6 / 5755MHz Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

: 45 of 99

: Mar. 25, 2013 6 dB Bandwidth Plot on Configuration IEEE 802.11ac MCS0 NSS1 80MHz /

Chain 4 + Chain 5 + Chain 6 / 5775 MHz Report No.: FR330853AB 6 dB Bandwidth Plot on Configuration IEEE 802.11b / Chain 1 + Chain 2 + Chain 3 / 2437 MHz Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

: 46 of 99

: Mar. 25, 2013 Report No.: FR330853AB 6 dB Bandwidth Plot on Configuration IEEE 802.11g / Chain 1 + Chain 2 + Chain 3 / 2412 MHz 6 dB Bandwidth Plot on Configuration IEEE 802.11a / Chain 4 + Chain 5 + Chain 6 / 5825 MHz Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

: 47 of 99

: Mar. 25, 2013 Report No.: FR330853AB 4.5. Radiated Emissions Measurement 4.5.1. Limit 30dBc in any 100 kHz bandwidth outside the operating frequency band. In case the emission fall within the restricted band specified on 15.205(a), then the 15.209(a) limit in the table below has to be followed. Frequencies

(MHz) 0.009~0.490 0.490~1.705 1.705~30.0 30~88 88~216 216~960 Above 960 Field Strength

(micorvolts/meter) 2400/F(KHz) 24000/F(KHz) 30 100 150 200 500 Measurement Distance

(meters) 300 30 30 3 3 3 3 4.5.2. Measuring Instruments and Setting Please refer to section 5 of equipments list in this report. The following table is the setting of spectrum analyzer and receiver. Spectrum Parameter Attenuation Start Frequency Stop Frequency RB / VB (Emission in restricted band) RB / VB (Emission in non-restricted band) Setting Auto 1GHz 10th carrier harmonic 1MHz / 3MHz for Peak, 1MHz / 10Hz for Average 100kHz / 300kHz for peak Receiver Parameter Attenuation Start ~ Stop Frequency Start ~ Stop Frequency Start ~ Stop Frequency Setting Auto 9kHz~150kHz / RB 200Hz for QP 150kHz~30MHz / RB 9kHz for QP 30MHz~1GHz / RB 120kHz for QP Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

: 48 of 99

: Mar. 25, 2013 4.5.3. Test Procedures Report No.: FR330853AB 1. Configure the EUT according to ANSI C63.10. The EUT was placed on the top of the turntable 0.8 meter above ground. The phase center of the receiving antenna mounted on the top of a height-variable antenna tower was placed 3 meters far away from the turntable. 2. Power on the EUT and all the supporting units. The turntable was rotated by 360 degrees to 3. determine the position of the highest radiation. The height of the broadband receiving antenna was varied between one meter and four meters above ground to find the maximum emissions field strength of both horizontal and vertical polarization. 4. For each suspected emissions, the antenna tower was scan (from 1 M to 4 M) and then the turntable was rotated (from 0 degree to 360 degrees) to find the maximum reading. 5. Set the test-receiver system to Peak or CISPR quasi-peak Detect Function with specified bandwidth under Maximum Hold Mode. 6. For emissions above 1GHz, use 1MHz VBW and 3MHz RBW for peak reading. Then 1MHz RBW and 10Hz VBW for average reading in spectrum analyzer. 7. When the radiated emissions limits are expressed in terms of the average value of the emissions, and pulsed operation is employed, the measurement field strength shall be determined by averaging over one complete pulse train, including blanking intervals, as long as the pulse train does not exceed 0.1 seconds. As an alternative (provided the transmitter operates for longer than 0.1 seconds) or in cases where the pulse train exceeds 0.1 seconds, the measured field strength shall be determined from the average absolute voltage during a 0.1 second interval during which the field strength is at its maximum value. If the emissions level of the EUT in peak mode was 3 dB lower than the average limit specified, then testing will be stopped and peak values of EUT will be reported, otherwise, the emissions which do not have 3 dB margin will be repeated one by one using the quasi-peak method for below 1GHz. 8. 9. For testing above 1GHz, the emissions level of the EUT in peak mode was lower than average limit (that means the emissions level in peak mode also complies with the limit in average mode), then testing will be stopped and peak values of EUT will be reported, otherwise, the emissions will be measured in average mode again and reported. 10. In case the emission is lower than 30MHz, loop antenna has to be used for measurement and the recorded data should be QP measured by receiver. High Low scan is not required in this case. Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

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: Mar. 25, 2013 4.5.4. Test Setup Layout For radiated emissions below 1GHz Report No.: FR330853AB For radiated emissions above 1GHz 4.5.5. Test Deviation There is no deviation with the original standard. 4.5.6. EUT Operation during Test The EUT was programmed to be in continuously transmitting mode. Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

: 50 of 99

: Mar. 25, 2013 Report No.: FR330853AB 4.5.7. Results of Radiated Emissions (9kHz~30MHz) Temperature Test Engineer Test Date 26 David Tseng Jan. 08, 2013 Humidity Configurations 60%

Normal Link Freq.

(MHz)

-

Level

(dBuV)

-

Over Limit

(dB)

-

Limit Line

(dBuV)

-

Remark See Note Note:

The amplitude of spurious emissions that are attenuated by more than 20 dB below the permissible value has no need to be reported. Distance extrapolation factor = 40 log (specific distance / test distance) (dB);

Limit line = specific limits (dBuV) + distance extrapolation factor. Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

: 51 of 99

: Mar. 25, 2013 Report No.: FR330853AB 4.5.8. Results of Radiated Emissions (30MHz~1GHz) Temperature Test Engineer Test Mode Horizontal 26 David Tseng Mode 1. EUT with Adapter 1 Humidity Configurations 60%

Normal Link Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

: 52 of 99

: Mar. 25, 2013 Vertical Report No.: FR330853AB Note:

The amplitude of spurious emissions that are attenuated by more than 20dB below the permissible value has no need to be reported. Emission level (dBuV/m) = 20 log Emission level (uV/m). Corrected Reading: Antenna Factor + Cable Loss + Read Level - Preamp Factor = Level. Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

: 53 of 99

: Mar. 25, 2013 Report No.: FR330853AB 4.5.9. Results for Radiated Emissions (1GHz~10th Harmonic) Temperature 26 Humidity Test Engineer David Tseng Configurations Test Date Horizontal Feb. 28, 2013 Test Mode 60%

IEEE 802.11n MCS0 20MHz Ch 1 /

Chain 1 + Chain 2 + Chain 3 Non beamforming mode Vertical Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

: 54 of 99

: Mar. 25, 2013 Report No.: FR330853AB Temperature 26 Humidity Test Engineer David Tseng Configurations Test Date Horizontal Feb. 27, 2013 Test Mode 60%

IEEE 802.11n MCS0 20MHz Ch 6 /

Chain 1 + Chain 2 + Chain 3 Non beamforming mode Vertical Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

: 55 of 99

: Mar. 25, 2013 Report No.: FR330853AB Temperature 26 Humidity Test Engineer David Tseng Configurations Test Date Horizontal Feb. 28, 2013 Test Mode 60%

IEEE 802.11n MCS0 20MHz Ch 11 /

Chain 1 + Chain 2 + Chain 3 Non beamforming mode Vertical Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

: 56 of 99

: Mar. 25, 2013 Report No.: FR330853AB Temperature 26 Humidity Test Engineer David Tseng Configurations Test Date Horizontal Feb. 28, 2013 Test Mode 60%

IEEE 802.11n MCS0 40MHz Ch 3 /

Chain 1 + Chain 2 + Chain 3 Non beamforming mode Vertical Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

: 57 of 99

: Mar. 25, 2013 Report No.: FR330853AB Temperature 26 Humidity Test Engineer David Tseng Configurations Test Date Horizontal Feb. 28, 2013 Test Mode 60%

IEEE 802.11n MCS0 40MHz Ch 6 /

Chain 1 + Chain 2 + Chain 3 Non beamforming mode Vertical Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

: 58 of 99

: Mar. 25, 2013 Report No.: FR330853AB Temperature 26 Humidity Test Engineer David Tseng Configurations Test Date Horizontal Feb. 28, 2013 Test Mode 60%

IEEE 802.11n MCS0 40MHz Ch 9 /

Chain 1 + Chain 2 + Chain 3 Non beamforming mode Vertical Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

: 59 of 99

: Mar. 25, 2013 Report No.: FR330853AB Temperature 26 Humidity Test Engineer David Tseng Configurations Test Date Horizontal Jan. 24, 2013 Test Mode 60%

IEEE 802.11ac MCS0 NSS1 20MHz Ch 149 / Chain 4 + Chain 5 + Chain 6 Beamforming mode Vertical Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

: 60 of 99

: Mar. 25, 2013 Report No.: FR330853AB Temperature 26 Humidity Test Engineer David Tseng Configurations Test Date Horizontal Jan. 24, 2013 Test Mode 60%

IEEE 802.11ac MCS0 NSS1 20MHz Ch 157 / Chain 4 + Chain 5 + Chain 6 Beamforming mode Vertical Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

: 61 of 99

: Mar. 25, 2013 Report No.: FR330853AB Temperature 26 Humidity Test Engineer David Tseng Configurations Test Date Horizontal Jan. 24, 2013 Test Mode 56%

IEEE 802.11ac MCS0 NSS1 20MHz Ch 165 / Chain 4 + Chain 5 + Chain 6 Beamforming mode Vertical Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

: 62 of 99

: Mar. 25, 2013 Report No.: FR330853AB Temperature 26 Humidity Test Engineer David Tseng Configurations Test Date Horizontal Jan. 24, 2013 Test Mode 60%

IEEE 802.11ac MCS0 NSS1 40MHz Ch 151 / Chain 4 + Chain 5 + Chain 6 Beamforming mode Vertical Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

: 63 of 99

: Mar. 25, 2013 Report No.: FR330853AB Temperature 26 Humidity Test Engineer David Tseng Configurations Test Date Horizontal Jan. 24, 2013 Test Mode 60%

IEEE 802.11ac MCS0 NSS1 40MHz Ch 159 / Chain 4 + Chain 5 + Chain 6 Beamforming mode Vertical Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

: 64 of 99

: Mar. 25, 2013 Report No.: FR330853AB Temperature 26 Humidity Test Engineer David Tseng Configurations Test Date Horizontal Jan. 24, 2013 Test Mode 60%

IEEE 802.11ac MCS0 NSS1 80MHz Ch 155 / Chain 4 + Chain 5 + Chain 6 Beamforming mode Vertical Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

: 65 of 99

: Mar. 25, 2013 Report No.: FR330853AB Temperature 26 Humidity Test Engineer David Tseng Configurations Test Date Horizontal Feb. 28, 2013 Test Mode 60%

IEEE 802.11b Ch 1 /

Chain 1 + Chain 2 + Chain 3 Non beamforming mode Vertical Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

: 66 of 99

: Mar. 25, 2013 Report No.: FR330853AB Temperature 26 Humidity Test Engineer David Tseng Configurations Test Date Horizontal Feb. 27, 2013 Test Mode 60%

IEEE 802.11b Ch 6 /

Chain 1 + Chain 2 + Chain 3 Non beamforming mode Vertical Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

: 67 of 99

: Mar. 25, 2013 Report No.: FR330853AB Temperature 26 Humidity Test Engineer David Tseng Configurations Test Date Horizontal Feb. 28, 2013 Test Mode 60%

IEEE 802.11b Ch 11 /

Chain 1 + Chain 2 + Chain 3 Non beamforming mode Vertical Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

: 68 of 99

: Mar. 25, 2013 Report No.: FR330853AB Temperature 26 Humidity Test Engineer David Tseng Configurations Test Date Horizontal Feb. 28, 2013 Test Mode 60%

IEEE 802.11g Ch 1 /

Chain 1 + Chain 2 + Chain 3 Non beamforming mode Vertical Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

: 69 of 99

: Mar. 25, 2013 Report No.: FR330853AB Temperature 26 Humidity Test Engineer David Tseng Configurations Test Date Horizontal Feb. 27, 2013 Test Mode 60%

IEEE 802.11g Ch 6 /

Chain 1 + Chain 2 + Chain 3 Non beamforming mode Vertical Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

: 70 of 99

: Mar. 25, 2013 Report No.: FR330853AB Temperature 26 Humidity Test Engineer David Tseng Configurations Test Date Horizontal Feb. 28, 2013 Test Mode 60%

IEEE 802.11g Ch 11 /

Chain 1 + Chain 2 + Chain 3 Non beamforming mode Vertical Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

: 71 of 99

: Mar. 25, 2013 Report No.: FR330853AB Temperature 26 Humidity Test Engineer David Tseng Configurations Test Date Horizontal Jan. 24, 2013 Test Mode 60%

IEEE 802.11a Ch 149 /

Chain 4 + Chain 5 + Chain 6 Non beamforming mode Vertical Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

: 72 of 99

: Mar. 25, 2013 Report No.: FR330853AB Temperature 26 Humidity Test Engineer David Tseng Configurations Test Date Horizontal Jan. 24, 2013 Test Mode 60%

IEEE 802.11a Ch 157 /

Chain 4 + Chain 5 + Chain 6 Non beamforming mode Vertical Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

: 73 of 99

: Mar. 25, 2013 Temperature 26 Humidity Test Engineer David Tseng Configurations Jan. 24, 2013 Test Mode Test Date Horizontal Vertical Report No.: FR330853AB 60%

IEEE 802.11a Ch 165 /

Chain 4 + Chain 5 + Chain 6 Non beamforming mode Note:

The amplitude of spurious emissions that are attenuated by more than 20dB below the permissible value has no need to be reported. Emission level (dBuV/m) = 20 log Emission level (uV/m). Corrected Reading: Antenna Factor + Cable Loss + Read Level - Preamp Factor = Level. Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

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: Mar. 25, 2013 4.6. Emissions Measurement 4.6.1. Limit Report No.: FR330853AB 30dBc in any 100 kHz bandwidth outside the operating frequency band. In case the emission fall within the restricted band specified on 15.205(a), then the 15.209(a) limit in the table below has to be followed. Frequencies

(MHz) 0.009~0.490 0.490~1.705 1.705~30.0 30~88 88~216 216~960 Above 960 Field Strength

(micorvolts/meter) 2400/F(KHz) 24000/F(KHz) 30 100 150 200 500 Measurement Distance

(meters) 300 30 30 3 3 3 3 4.6.2. Measuring Instruments and Setting Please refer to section 5 of equipments list in this report. The following table is the setting of the spectrum analyzer. Spectrum Parameter Attenuation Span Frequency RB / VB (Emission in restricted band) RB / VB (Emission in non-restricted band) Setting Auto 100 MHz 1MHz / 3MHz for Peak, 1 MHz / 10Hz for Average 100 kHz / 300 kHz for Peak 4.6.3. Test Procedures For Radiated band edges Measurement:

1. The test procedure is the same as section 4.5.3, only the frequency range investigated is limited to 100MHz around band edges. For Conducted Out of Band Emission Measurement:

1. Test was performed in accordance with KDB 558074 v02 Guidance for Performing Compliance Measurements on Digital Transmission Systems (DTS) Operating Under 15.247 section 10.1 Unwanted Emissions into Non-Restricted Frequency Bands Measurement Procedure 2. The conducted emission test is performed on each TX port of operating mode without summing or adding 10log (N) since the limit is relative emission limit. Only worst data of each operating mode is presented. Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

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: Mar. 25, 2013 Report No.: FR330853AB 4.6.4. Test Setup Layout For Radiated band edges Measurement:

This test setup layout is the same as that shown in section 4.5.4. For Conducted Out of Band Emission Measurement:

This test setup layout is the same as that shown in section 4.4.4. 4.6.5. Test Deviation There is no deviation with the original standard. 4.6.6. EUT Operation during Test The EUT was programmed to be in continuously transmitting mode. Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

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: Mar. 25, 2013 Report No.: FR330853AB 4.6.7. Test Result of Band Edge and Fundamental Emissions Temperature 26 Humidity Test Engineer David Tseng Configurations 60%

IEEE 802.11n MCS0 20MHz Ch 1, 6, 11

/ Chain 1 + Chain 2 + Chain 3 Test Mode Test Date Channel 1 Non beamforming mode Feb. 27, 2013 ~ Feb. 28, 2013 Item 3, 4 are the fundamental frequency at 2412 MHz. Channel 6 Item 3, 4 are the fundamental frequency at 2437MHz. Channel 11 Item 1, 2 are the fundamental frequency at 2462 MHz. Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

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: Mar. 25, 2013 Report No.: FR330853AB Temperature 26 Humidity Test Engineer David Tseng Configurations 60%

IEEE 802.11n MCS0 40MHz Ch 3, 6, 9

/ Chain 1 + Chain 2 + Chain 3 Test Mode Test Date Channel 3 Non beamforming mode Feb. 27, 2013 ~ Feb. 28, 2013 Item 3, 4 are the fundamental frequency at 2422 MHz. Channel 6 Item 3, 4 are the fundamental frequency at 2437MHz. Channel 9 Item 1, 2 are the fundamental frequency at 2452 MHz. Note:

Emission level (dBuV/m) = 20 log Emission level (uV/m). Corrected Reading: Antenna Factor + Cable Loss + Read Level - Preamp Factor = Level. Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

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: Mar. 25, 2013 Report No.: FR330853AB Temperature 26 Humidity Test Engineer David Tseng Configurations 60%

IEEE 802.11b Ch 1, 6, 11 /

Chain 1 + Chain 2 + Chain 3 Test Mode Test Date Channel 1 Non beamforming mode Feb. 27, 2013 ~ Feb. 28, 2013 Item 3, 4 are the fundamental frequency at 2412 MHz. Channel 6 Item 3, 4 are the fundamental frequency at 2437 MHz. Channel 11 Item 1, 2 are the fundamental frequency at 2462 MHz. Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

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: Mar. 25, 2013 Report No.: FR330853AB Temperature 26 Humidity Test Engineer David Tseng Configurations 60%

IEEE 802.11g Ch 1, 6, 11 /

Chain 1 + Chain 2 + Chain 3 Test Mode Test Date Channel 1 Non beamforming mode Feb. 27, 2013 ~ Feb. 28, 2013 Item 3, 4 are the fundamental frequency at 2412 MHz. Channel 6 Item 3, 4 are the fundamental frequency at 2437 MHz. Channel 11 Item 1, 2 are the fundamental frequency at 2462 MHz. Note:

Emission level (dBuV/m) = 20 log Emission level (uV/m). Corrected Reading: Antenna Factor + Cable Loss + Read Level - Preamp Factor = Level. Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

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: Mar. 25, 2013 Report No.: FR330853AB For Emission not in Restricted Band Plot on Configuration IEEE 802.11n MCS0 20MHz / Reference Level Plot on Configuration IEEE 802.11n MCS0 20MHz / CH 1 (down 30dBc) Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

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: Mar. 25, 2013 Report No.: FR330853AB Plot on Configuration IEEE 802.11n MCS0 20MHz / CH 6 (down 30dBc) Plot on Configuration IEEE 802.11n MCS0 20MHz / CH 11 (down 30dBc) Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

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: Mar. 25, 2013 Report No.: FR330853AB Plot on Configuration IEEE 802.11n MCS0 40MHz / Reference Level Plot on Configuration IEEE 802.11n MCS0 40MHz / CH 3 (down 30dBc) Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

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: Mar. 25, 2013 Report No.: FR330853AB Plot on Configuration IEEE 802.11n MCS0 40MHz / CH 6 (down 30dBc) Plot on Configuration IEEE 802.11n MCS0 40MHz / CH 9 (down 30dBc) Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

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: Mar. 25, 2013 Report No.: FR330853AB Plot on Configuration IEEE 802.11ac MCS0 NSS1 20MHz / Reference Level Plot on Configuration IEEE 802.11ac MCS0 NSS1 20MHz / CH 149 (down 30dBc) Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

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: Mar. 25, 2013 Report No.: FR330853AB Plot on Configuration IEEE 802.11ac MCS0 NSS1 20MHz / CH 157 (down 30dBc) Plot on Configuration IEEE 802.11ac MCS0 NSS1 20MHz / CH 165 (down 30dBc) Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

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: Mar. 25, 2013 Report No.: FR330853AB Plot on Configuration IEEE 802.11ac MCS0 NSS1 40MHz / Reference Level Plot on Configuration IEEE 802.11ac MCS0 NSS1 40MHz / CH 151 (down 30dBc) Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

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: Mar. 25, 2013 Report No.: FR330853AB Plot on Configuration IEEE 802.11ac MCS0 NSS1 40MHz / CH 159 (down 30dBc) Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

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: Mar. 25, 2013 Report No.: FR330853AB Plot on Configuration IEEE 802.11ac MCS0 NSS1 80MHz / Reference Level Plot on Configuration IEEE 802.11ac MCS0 NSS1 80MHz / CH 155 (down 30dBc) Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

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: Mar. 25, 2013 Plot on Configuration IEEE 802.11b / Reference Level Report No.: FR330853AB Plot on Configuration IEEE 802.11b / CH 1 (down 30dBc) Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

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: Mar. 25, 2013 Plot on Configuration IEEE 802.11b / CH 6 (down 30dBc) Report No.: FR330853AB Plot on Configuration IEEE 802.11b / CH 11 (down 30dBc) Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

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: Mar. 25, 2013 Plot on Configuration IEEE 802.11g / Reference Level Report No.: FR330853AB Plot on Configuration IEEE 802.11g / CH 1 (down 30dBc) Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

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: Mar. 25, 2013 Plot on Configuration IEEE 802.11g / CH 6 (down 30dBc) Report No.: FR330853AB Plot on Configuration IEEE 802.11g / CH 11 (down 30dBc) Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

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: Mar. 25, 2013 Plot on Configuration IEEE 802.11a / Reference Level Report No.: FR330853AB Plot on Configuration IEEE 802.11a / CH 149 (down 30dBc) Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

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: Mar. 25, 2013 Plot on Configuration IEEE 802.11a / CH 157 (down 30dBc) Report No.: FR330853AB Plot on Configuration IEEE 802.11a / CH 165 (down 30dBc) Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

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: Mar. 25, 2013 4.7. Antenna Requirements 4.7.1. Limit Report No.: FR330853AB Except for special regulations, the Low-power Radio-frequency Devices must not be equipped with any jacket for installing an antenna with extension cable. An intentional radiator shall be designed to ensure that no antenna other than that furnished by the responsible party shall be used with the device. The use of a permanently attached antenna or of an antenna that uses a unique coupling to the intentional radiator shall be considered sufficient to comply with the provisions of this Section. The manufacturer may design the unit so that the user can replace a broken antenna, but the use of a standard antenna jack or electrical connector is prohibited. Further, this requirement does not apply to intentional radiators that must be professionally installed. 4.7.2. Antenna Connector Construction Please refer to section 3.3 in this test report; antenna connector complied with the requirements. Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

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: Mar. 25, 2013 5. LIST OF MEASURING EQUIPMENTS Report No.: FR330853AB Instrument Manufacturer Model No. Serial No. Characteristics Calibration Date EMI Test Receiver R&S ESCS 30 100377 9kHz ~ 2.75GHz Oct. 23, 2012 LISN F.C.C. FCC-LISN-50-16-2 04083 150kHz ~ 100MHz Nov. 26, 2012 V- LISN Schwarzbeck NSLK 8127 8127-478 9kHz ~ 30MHz Jun. 22, 2012 Impulsbegrenzer Pulse Limiter Rohde&Schwarz ESH3-Z2 100430 9kHz~30MHz Feb. 21, 2012 COND Cable Woken Software Audix Cable E3 BILOG ANTENNA Schaffner CBL6112D BILOG ANTENNA Schaffner CBL6112D 01 0.15MHz~30MHz Dec. 04, 2012 5.410e 22021 22021

-

-

20MHz ~ 2GHz Jan. 11, 2012 20MHz ~ 2GHz Jan. 11, 2013 Loop Antenna Horn Antenna Teseq EMCO HLA 6120 24155 9 kHz - 30 MHz Nov. 05, 2012*

3115 00075790 750MHz~18GHz Nov. 27, 2012 Horn Antenna SCHWARZBEAK BBHA 9170 BBHA9170252 15GHz ~ 40GHz Nov. 23, 2012 Pre-Amplifier Pre-Amplifier Pre-Amplifier Spectrum analyzer EMI Test Receiver Agilent Agilent WM R&S R&S 8447D 2944A10991 0.1MHz ~ 1.3GHz Nov. 27, 2012 8449B 3008A02310 1GHz ~ 26.5GHz Nov. 23, 2012 TF-130N-R1 923365 26.5GHz ~ 40GHz Jul. 31, 2012 FSP40 100056 9KHz~40GHz Nov. 16, 2012 ESCS 30 100355 9KHz ~ 2.75GHz Mar. 20, 2012 Turn Table INN CO CO 2000 Antenna Mast INN CO CO2000 RF Cable-low RF Cable-high RF Cable-high RF Cable-high RF Cable-high Woken Woken Woken Woken Woken Low Cable-1 High Cable-1 High Cable-2 High Cable-3 High Cable-4 N/A N/A N/A N/A N/A N/A N/A 0 360 degree 1 m - 4 m N.C.R N.C.R 30 MHz - 1 GHz Nov. 18, 2012 1 GHz 26.5 GHz Nov. 18, 2012 1 GHz 26.5 GHz Nov. 18, 2012 1 GHz - 40 GHz Nov. 18, 2012 1 GHz - 40 GHz Nov. 18, 2012 Signal analyzer R&S FSV40 100979 9KHz~40GHz Oct. 08, 2012 Temp. and Humidity Chamber Ten Billion TTH-D3SP TBN-931011

-30~100 degree Jun. 05, 2012 RF Cable-high Woken High Cable-7

-

1 GHz 26.5 GHz Nov. 19, 2012 Remark Conduction

(CO01-CB) Conduction

(CO01-CB) Conduction

(CO01-CB) Conduction

(CO01-CB) Conduction

(CO01-CB) Conduction

(CO01-CB) Radiation

(03CH01-CB) Radiation

(03CH01-CB) Radiation

(03CH01-CB) Radiation

(03CH01-CB) Radiation

(03CH01-CB) Radiation

(03CH01-CB) Radiation

(03CH01-CB) Radiation

(03CH01-CB) Radiation

(03CH01-CB) Radiation

(03CH01-CB) Radiation

(03CH01-CB) Radiation

(03CH01-CB) Radiation

(03CH01-CB) Radiation

(03CH01-CB) Radiation

(03CH01-CB) Radiation

(03CH01-CB) Radiation

(03CH01-CB) Conducted

(TH01-CB) Conducted

(TH01-CB) Conducted

(TH01-CB) Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

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: Mar. 25, 2013 Report No.: FR330853AB Instrument Manufacturer Model No. Serial No. Characteristics Calibration Date RF Cable-high RF Cable-high RF Cable-high RF Cable-high Power Sensor Power Meter Woken Woken Woken Woken Anritsu Anritsu High Cable-8 High Cable-9 High Cable-10 High Cable-11

-

-

-

-

1 GHz 26.5 GHz Nov. 19, 2012 1 GHz 26.5 GHz Nov. 19, 2012 1 GHz 26.5 GHz Nov. 19, 2012 1 GHz 26.5 GHz Nov. 19, 2012 MA2411B 0917223 300MHz~40GHz Nov. 28, 2012 ML2495A 1035008 300MHz~40GHz Nov. 27, 2012 Remark Conducted

(TH01-CB) Conducted

(TH01-CB) Conducted

(TH01-CB) Conducted

(TH01-CB) Conducted

(TH01-CB) Conducted

(TH01-CB) Note: Calibration Interval of instruments listed above is one year.

* Calibration Interval of instruments listed above is two years. N.C.R. means Non-Calibration required. Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

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: Mar. 25, 2013 6. TEST LOCATION Report No.: FR330853AB SHIJR HWA YA LINKOU ADD TEL FAX ADD TEL FAX ADD TEL FAX DUNGHU ADD JUNGHE NEIHU JHUBEI TEL FAX ADD TEL FAX ADD TEL FAX ADD TEL FAX

: 6Fl., No. 106, Sec. 1, Shintai 5th Rd., Shijr City, Taipei, Taiwan 221, R.O.C.

: 886-2-2696-2468

: 886-2-2696-2255

: No. 52, Hwa Ya 1st Rd., Kwei-Shan Hsiang, Tao Yuan Hsien, Taiwan, R.O.C.

: 886-3-327-3456

: 886-3-318-0055

: No. 30-2, Dingfu Tsuen, Linkou Shiang, Taipei, Taiwan 244, R.O.C

: 886-2-2601-1640

: 886-2-2601-1695

: No. 3, Lane 238, Kangle St., Neihu Chiu, Taipei, Taiwan 114, R.O.C.

: 886-2-2631-4739

: 886-2-2631-9740

: 7Fl., No. 758, Jungjeng Rd., Junghe City, Taipei, Taiwan 235, R.O.C.

: 886-2-8227-2020

: 886-2-8227-2626

: 4Fl., No. 339, Hsin Hu 2nd Rd., Taipei 114, Taiwan, R.O.C.

: 886-2-2794-8886

: 886-2-2794-9777

: No.8, Lane 724, Bo-ai St., Jhubei City, HsinChu County 302, Taiwan, R.O.C.

: 886-3-656-9065

: 886-3-656-9085 Report Format Version: 01 FCC ID: PY313200227 Page No. Issued Date

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: Mar. 25, 2013

 

 

Report No.: FR330853 Appendix A. Test Photos FCC ID: PY313200227 Page No.

: A1 of A5 Report No.: FR330853 1. Photographs of Conducted Emissions Test Configuration Test Mode: Mode 1. FRONT VIEW REAR VIEW FCC ID: PY313200227 Page No.

: A2 of A5 Report No.: FR330853 2. Photographs of Radiated Emissions Test Configuration Test Configuration: 9kHz ~30MHz FRONT VIEW REAR VIEW FCC ID: PY313200227 Page No.

: A3 of A5 Test Configuration: 30 MHz ~ 1 GHz / Test Mode: Mode 1 Report No.: FR330853 FRONT VIEW REAR VIEW FCC ID: PY313200227 Page No.

: A4 of A5 Test Configuration: Above 1 GHz / Test Mode: Mode 1 Report No.: FR330853 FRONT VIEW REAR VIEW FCC ID: PY313200227 Page No.

: A5 of A5