FCC ID: MCLT60H563 Bluetooth and 802.11b Combo Module

 

U S E R S M A N U A L T60H563 MiniPCI WLAN/Bluetooth Combo Module Ambit Microsystems Corporation 5F-1, 5 Hsin-An Rd., Hsinchu Science-Based Industrial Park, Hsinchu, Taiwan, R.O.C. TEL: 886-3-5784975, FAX: 886-3-5782924, Internet: http:\\www.ambit.com.tw\

1 Contents SECTION ONE:

INTRODUCTION............................................................................................ 1 FEATURES .............................................................................................................................. 1 1.1 1.1.1 WLAN HARDWARE SPECIFICATION ............................................................ 1 1.1.2 BLUETOOTH HARDWARE SPECIFICATIONS.......................................................................... 1 1.1.3 SOFTWARE SPECIFICATION................................................................................................... 2 PACKAGE CONTENTS.............................................................................................................. 2 1.2 SECTION TWO: BLUETOOTH INSTALLATION.......................................................................... 3 2.1 DRIVER INSTALLATION .......................................................................................................... 3 SECTION THREE: WIRELESS LAN INSTALLATION ............................................................. 8 3-1 SYSTEM REQUIREMENTS ................................................................................................................ 8 3-2 INSTALLATION AND UNINSTALL PROCESS...................................................................................... 8 SECTION 4 WIRELESS UTILITY AND CONFIGURATION ............................................... 14 4-1 WINDOWS 98/ME/2000 WIRELESS UTILITY ................................................................................ 14 4-2 WINDOWS XP WIRELESS UTILITY ............................................................................................... 17 APPENDIX A GLOSSARY ............................................................................................................... 24 The information contained in this manual has been verified at the time of this manual printing. The manufacturer reserves the right to make any changes and improvements in the product described in this manual at any time and without notice. All registered trademarks are the property of their respective owners. 2 Introduction Section One:

AMBIT MINIPCI 3B WLAN/Bluetooth Combo Module complied with IEEE 802.11b 11Mbps Standard. The WLAN/Bluetooth application is implemented via a Intersil Prism 2.5 RF circuit. This RF circuit is developed for Wireless LAN application complied with IEEE 802.11b 11Mbps standard in ISM band. It can be used to provide a variety of low-cost wireless network interfaces to build your wireless connection via simply SMT procedure to speed the time to market. Three Intersils chips are implemented including ISL3984, ISL3685, HFA3783. With Bluetooth technology, the Bluetooth part can achieve internet connection rates up to 721 kbits/s. The Notebook communicate with Bluetooth by MiniPCI Interface Reserve pin. The WLAN/Bluetooth combo card mechanical complies with MINIPCI 3B from factor. 1.1 Features 1.1.1 WLAN Hardware Specification Form Factor & Bus Interface MiniPCI Type IIIB, compliant to MiniPCI 1.0 Wireless LAN Compliance IEEE 802.11b Radio Technology Direct Sequence Spread Spectrum Operating Frequency 2.4 ~ 2.4835GHz ISM band Modulation Schemes DQPSK, DBPSK and CCK Channel Numbers IEEE 802.11b compliant WLAN Data Rate 11Mbps with fall back rates of 5.5, 2, and 1Mbps 1 ~ 11 channels for United States Spreading 11-chip Barker Sequence Media Access Protocol CSMA/CA with ACK Transmitter Output Power Typ. 15 dBm (ERP) Receiver Sensitivity Typ. 82 dBm for 11Mbps @ 8% PER Antenna Type Typ. 85 dBm for 1Mbps @ 8% PER Integrated diversity switch with Hirose compliant connectors(U-FL) for connecting dual diversity antennas 1.1.2 Bluetooth Hardware Specifications Bluetooth Module Chip Set CSR BlueCore 02 1 Supply Voltage Power Features Frequency Range Antenna Load Receive Sensitivity 2.7V to 3.3V Host wake-up on the module Detach the module from host 2.400-2.497 GHz 50 Ohm 80 dBm@0.1% BER Maximum Receiver Signal

-20 dBm TX Power (ERP) 4 dBm maximum (class 2 and class 3) RF Power Control Step Size 2 dB Range Radio Pico Net 10 meters at 0 dBm TX power (class 2) Compliant with Bluetooth standard version 1.1 1 master to 7 slaves Operating Channels 79 channels of 1 MHz BW Security Full support of Bluetooth security provisions including hardware support for full length 128 bit encryption keys. Host Interface (USB) USB specification 1.1 compliant 1.1.3 Software Specification OS Configuration

- Supports Windows 98SE, ME, 2000, XP

- User interface for configuration and status monitoring WLAN Standard Compliance

- 802.11b,- 802.1X for Windows XP Bluetooth Standard

- Bluetooth Specification 1.1 Site Survey

- Auto scan to find APs nearby and show signal strength for each channel (for WLAN only) 1.2 Package Contents Make sure you have received the following items in your package:

2 One Mini-PCI Type IIIB WLAN/Bluetooth Module One Phone Cable (Bluetooth) User Manual Section Two: Bluetooth Installation The following steps provide instructions for installing Bluetooth. 1. Make sure your MiniPCI WLAN/BT Combo card already insert into the slot. 2. Insert the connector of Antenna cable into the antenna connector of MiniPCI Module . The antenna connector assembly need to be performed by well trained engineer to cause antenna connector mismatch then degrade Bluetooth connection performance. Please find your vendor to help this connector assembly. 2.1 Driver Installation Your Bluetooth is using the Plug and Play (PnP) capabilities of you computer. PnP is a set of specifications that define the ability for the computer hardware and operating system to automatically configure all compliant devices that are installed, relieving the user of the need to determine which addresses and interrupts to user for each device. Proceed to the following section. Install Bluetooth (Windows 98/2K/ME/XP) 1Execute the program Setup.exe in the CD. Windows displays the dialog as below. Press Next button to continue. 2.Select the Device name and Device Type that you want to Install. 3 3.Wait for the install program to do the installation. 4. Select OK to avoid Microsoft Digital Signature message 4 5.Congratulations! Bluetooth has been installed successfully. Please click Finish to go to the next step. 6.Select the Application that you want to use. 5 6 Uninstall Bluetooth (Windows 98/2K/ME/XP) One can remove the Bluetooth via the Add/Remove Programs in the Control Panel. Select Bluetooth and click Add/Remove button, the dialog as below displays. 2.Wait for the un-installation to do its work. 3.Then Complete the un-Installation. 7 Section Three: Wireless Lan Installation 3-1 System Requirements In order to install Wireless LAN and use the Wireless LAN/Bluetooth combo card in your notebook computer. Your notebook system must meet the following requirements:

A Mini-PCI Type III Slot that already insert in WLAN/BT Combo module

Windows 98SE,2K,ME,XP Support 3-2 Installation and Uninstall Process Install Wireless LAN (Windows 98/2K/ME/XP) 1. Execute the program Setup.exe in the CD. Windows displays the dialog as below. Press Next button to continue. 8 2. It displays a License Agreement dialog. Press Next to continue. 3. Select the destination folder that you want to place the files. 9 4. Wait for the install program to do the installation. 5. Congratulations! Wireless LAN has been installed successfully. Please click Finish to go to the next step. 10 6. Please remove any disks from any drives before your click Finish. Then click Finish to complete setup. Uninstall Wireless LAN (Windows 98/2K/ME/XP) 1. One can remove the AMBIT Wireless LAN via the Add/Remove Programs in the Control Panel. Select AMBIT Wireless LAN and click Add/Remove button, the dialog as below displays. 11 2. Select Remove and then click the Next button to perform the un-installation. Click OK button if you really want to remove the AMBIT Wireless LAN. 12 3. Wait for the un-installation to do its work. 4. Click Finish to complete the un-Installation. 13 Section 4 Wireless Utility and Configuration The following sections describe the Wireless Network Configuration Utility. This utility provides quick access and friendly interface to configure the card setup. 4-1 Windows 98/ME/2000 Wireless Utility After installation is completed, a Wireless LAN Utility icon will appear in Desktop screen. Click it, then you will see the screen below. If you cannot find the icon, you can select Start ->Program->Wireless LAN Configuration Utility Icon. Card Status You can see the AP information that your card connected. In this page you also can find Firmware Version , MAC Address and Frequency Domain. ESSID: An acronym for Extended Service Set Identifier, ESSID is the unique name shared among all clients and Access Points in a wireless network. The ESSID must be 14 identical for all clients or Access Points participating in the same network. The ESSID is case sensitive and must not exceed 32 characters. Press Rescan it will scan the specific ESSID that your profile set. If your profile set the ESSID to be ANY, then while you press Rescan, it will scan AP in the nearby area and choose the stronger one. From Link Quality and Signal Strength, you can tell the wireless transmission quality. Profile There are two network types:

Ad-Hoc: This mode is used for a simple peer-to-peer network. It offers file sharing between wireless clients without a wireless Access Point (AP). Infrastructure: This mode allows a wireless LAN to be integrated into an existing wired network through an AP. Infrastructure type networks also permit roaming between Access Points while maintaining connection to all network resources. Infrastructure mode provides additional features, such as WEP security, power saving and extended range. ESSID: You can either choose specific AP or connect to any AP in the nearby area. 15 Power Save: enable it, so it will be triggered when your computer system is inactive. WEP Key: Wired Equivalent Privacy, WEP is an encryption scheme used to protect your wireless data communications. WEP uses a combination of 40-bit keys,128-bit keys to provide data encryption for your wireless network. AP and wireless card should use the same WEP key in order to communication. KEY Format: You can choose to enter ASCII Characters (0~9, a~z, A~Z) or Hexadecimal number (0~9, a~f, A~F) Default Key: The current KEY you choose. KEY1~4: If you choose 40-bit keys, then you must enter 5 ASCII Characters or 10 Hexadecimal numbers. If you choose 128-bit keys, then you must enter 13 ASCII Characters or 26 Hexadecimal numbers. Site Survey Use the Site Survey Tool. You can identify each channel transmission quality. 16 4-2 Windows XP Wireless Utility 1. To configure the wireless card setting, you can select Start\Settings\Network Connection in the Windows XP. Choose the wireless network connection, then you will see below screen. From this screen, you can see wireless connection status and wireless signal level. 2. Select Properties in the above screen. The following windows will show up. 17 In General page, Wireless LAN card information and networking protocol have been displayed. Extra networking protocol can be installed in this page. 18 3. Select Wireless Networks page, you can see available wireless networks in your nearby area. You can add your preferred wireless Access Point to your list, so your wireless card will search for specific wireless networks. Configure To connect to an existing access point (infrastructure) network, under Available networks, click the network name, and then click Configure to setup wireless security and data encryption. Reflesh To update the list of available networks that are within range of your computer, click Refresh. Add To connect to an access point (infrastructure) network that you know is available but that does not appear under Available networks, under Preferred networks, click Add. In Wireless Network Properties, specify the network name (Service Set Identifier). Remove To remove a wireless network from the list of preferred networks. 19 Advanced

*If your network are configuring to a computer-to-computer (ad hoc) network, select Computer-to-computer (ad hoc) network only.

*If you want to connect to a computer-to-computer and access point (infrastructure) networks are within range of your computer, click Access point

(infrastructure)network only.

*If you want to connect to a computer-to-computer (ad hoc) network and both computer-to-computer and access point (infrastructure) networks are within range of your computer, click Any available network (access point preferred). To automatically connect to available networks that do not appear in the Preferred networks list, click Advanced, and then select the Automatically connect to non-

preferred networks check box. 20 Define your network name (SSID) in the following windows, so your can join a specific wireless network. Check AP has WEP on or not. You wireless network will need to have same WEP setting with AP in order to communicate. If your wireless network dont have any AP, check the This is computer-to computer (ad-hoc) network; wireless access points are not used 21 This window provides authentication via 802.1X. 802.1X, an IEEE standard that provides an authentication framework for 802-based LANs. 802.1X takes advantage of an existing authentication protocol known as the Extensible Authentication Protocol. 802.1x, giving someone secure, encrypted, wireless access on a Microsoft network will be as easy as setting a flag on the users domain account. What does this mean for the Home Network user?

802.1x will ensure that if and when you make the change over to Wireless Ethernet, your neighbor will not be able to access your wireless LAN!

22 The Advanced window offers Firewall and Internet Connection Sharing functions. Depends on your networking environment, you can select below functions. 23 Appendix A Glossary Access Point - An internetworking device that seamlessly connects wired and wireless networks together. Ad-Hoc - Ad-Hoc is a peer- to-peer wireless network without Access Point. A group of wireless clients consistent an independent wireless LAN. Backbone - The core infrastructure of a network, the portion of the network that transports information from one central location to another central location. The information is then off-loaded onto a local system. BSS - Stands for Basic Service Set. An Access Point associated with several wireless stations. ESS - Stands for Extended Service Set. More than one BSS can be configured as an Extended Service Set. An ESS is basically a roaming domain. Ethernet - A popular local area data communications network, originally developed by Xerox Corp., which accepts transmission from computers and terminals. Ethernet operates on 10/100 Mbps transmission rate over shielded coaxial cable or over shielded twisted pair telephone wire. Infrastructure - An integrated wireless and wired LAN is called an Infrastructure configuration. MINI-PCI TYPE III - Personal Computer Memory Card International Association, which develops standards for PC cards, formerly known as MINI-PCI TYPE III cards, are available in three types which are about the same length and width as credit cards, but range in thickness from 3.3 mm (Type I) to 5.0 mm (Type II) to 10.5 mm

(Type III). These cards can be used for many functions, including memory storage, as landline Bluetooths and as wireless LAN. Roaming - A function that allows one to travel with a mobile end system (wireless LAN mobile station, for example) through the territory of a domain (an ESS, for example) while continuously connecting to the infrastructure. Throughput TX RX Link Quality Signal Strength Channel Quality 24

 

 

U S E R S M A N U A L T60H563 MiniPCI WLAN/Bluetooth Combo Module Ambit Microsystems Corporation 5F-1, 5 Hsin-An Rd., Hsinchu Science-Based Industrial Park, Hsinchu, Taiwan, R.O.C. TEL: 886-3-5784975, FAX: 886-3-5782924, Internet: http:\\www.ambit.com.tw\

1 Contents SECTION ONE:

INTRODUCTION................................................................................................. 1 1.1 FEATURES ..................................................................................................................................... 1 1.1.1 WIRELESS LAN FUNCTION ........................................................................................................ 1 1.1.2 BLUETOOTH FUNCTION...................................................... ERROR! BOOKMARK NOT DEFINED. 1.2 PACKAGE CONTENTS ..................................................................................................................... 3 SECTION TWO: BLUETOOTH INSTALLATION.......................................................................... 3 2.1: DRIVER INSTALLATION................................................................................................................. 3 2.2: AT COMMANDS .................................................................... ERROR! BOOKMARK NOT DEFINED. 2.3: S-REGISTERS ........................................................................ ERROR! BOOKMARK NOT DEFINED. 2.4: RESULT CODE SUMMARY ..................................................... ERROR! BOOKMARK NOT DEFINED. 2.5: FCC NOTICE......................................................................... ERROR! BOOKMARK NOT DEFINED. 2.5.1 FCC COMPLIANCE............................................................... ERROR! BOOKMARK NOT DEFINED. 2.5.2 FCC CLASS B STATEMENT ................................................. ERROR! BOOKMARK NOT DEFINED. SECTION THREE:.................................................................... WIRELESS LAN INSTALLATION 8 3-1 SYSTEM REQUIREMENTS ................................................................................................................ 8 3-2 INSERTING THE WIRELESS CARD............................................ ERROR! BOOKMARK NOT DEFINED. 3-3 INSTALLATION AND UNINSTALL PROCESS...................................................................................... 8 SECTION 4 WIRELESS UTILITY AND CONFIGURATION .................................................... 14 4-1 WINDOWS 98/ME/2000 WIRELESS UTILITY................................................................................. 14 4-2 WINDOWS XP WIRELESS UTILITY................................................................................................ 17 APPENDIX A GLOSSARY ............................................................................................................... 24 The information contained in this manual has been verified at the time of this manual printing. The manufacturer reserves the right to make any changes and improvements in the product described in this manual at any time and without notice. All registered trademarks are the property of their respective owners. 2 Introduction Section One:

AMBIT MINIPCI 3B WLAN/Bluetooth Combo Module complied with IEEE 802.11b 11Mbps Standard. The WLAN/Bluetooth application is implemented via a Intersil Prism 2.5 RF circuit. This RF circuit is developed for Wireless LAN application complied with IEEE 802.11b 11Mbps standard in ISM band. It can be used to provide a variety of low-cost wireless network interfaces to build your wireless connection via simply SMT procedure to speed the time to market. Three Intersils chips are implemented including ISL3984, ISL3685, HFA3783. With Bluetooth technology, the Bluetooth part can achieve internet connection rates up to 721 kbits/s. The Notebook communicate with Bluetooth by MiniPCI Interface Reserve pin. The WLAN/Bluetooth combo card mechanical complies with MINIPCI 3B form f

. o a c r t 1.1 Features 1.1.1 WLAN Hardware Specification Form Factor & Bus Interface MiniPCI Type IIIB, compliant to MiniPCI 1.0 Wireless LAN Compliance IEEE 802.11b Radio Technology Direct Sequence Spread Spectrum Operating Frequency 2.4 ~ 2.497GHz ISM band Modulation Schemes DQPSK, DBPSK and CCK Channel Numbers IEEE 802.11b compliant 1 ~ 11 channels for United States 1 ~ 13 channels for Europe 1 ~ 13 or 14 channels for Japan WLAN Data Rate 11Mbps with fall back rates of 5.5, 2, and 1Mbps Spreading 11-chip Barker Sequence Media Access Protocol CSMA/CA with ACK Transmitter Output Power Typ. 15 dBm Receiver Sensitivity Typ. 82 dBm for 11Mbps @ 8% PER Antenna Type Typ. 85 dBm for 1Mbps @ 8% PER Integrated diversity switch with Hirose compliant connectors(U-FL) for connecting dual diversity antennas 1 1.1.2 Bluetooth Hardware Specifications Bluetooth Module Chip Set CSR BlueCore 02 Supply Voltage Power Features Frequency Range Antenna Load Receive Sensitivity 2.7V to 3.3V Host wake-up on the module Detach the module from host 2.400-2.497 GHz 50 Ohm 80 dBm@0.1% BER Maximum Receiver Signal

-20 dBm TX Power 4 dBm maximum (class 2 and class 3) RF Power Control Step Size 2 dB Range Radio Pico Net 10 meters at 0 dBm TX power (class 2) Compliant with Bluetooth standard version 1.1 1 master to 7 slaves Operating Channels 79 channels of 1 MHz BW Security Full support of Bluetooth security provisions including hardware support for full length 128 bit encryption keys. Host Interface (USB) USB specification 1.1 compliant 1.1.3 Software Specification OS Configuration

- Supports Windows 98SE, ME, 2000, XP

- User interface for configuration and status monitoring WLAN Standard Compliance

- 802.11b,- 802.1X for Windows XP Bluetooth Standard

- Bluetooth Specification 1.1 Site Survey

- Auto scan to find APs nearby and show signal strength for each channel (for WLAN only) 2 1.2 Package Contents Make sure you have received the following items in your package:

One Mini-PCI Type IIIB WLAN/Bluetooth Module One Phone Cable (Bluetooth) User Manual Section Two: Bluetooth Installation The following steps provide instructions for installing Bluetooth. 1. Make sure your MiniPCI WLAN/BT Combo card already insert into the slot. 2. Insert the connector of Antenna cable into the antenna connector of MiniPCI Module . The antenna connector assembly need to be performed by well trained engineer to cause antenna connector mismatch then degrade Bluetooth connection performance. Please find your vendor to help this connector assembly. 2.1 Driver Installation Your Bluetooth is using the Plug and Play (PnP) capabilities of you computer. PnP is a set of specifications that define the ability for the computer hardware and operating system to automatically configure all compliant devices that are installed, relieving the user of the need to determine which addresses and interrupts to user for each device. Proceed to the following section. Install Bluetooth (Windows 98/2K/ME/XP) 1Execute the program Setup.exe in the CD. Windows displays the dialog as below. Press Next button to continue. 2.Select the Device name and Device Type that you want to Install. 3 3.Wait for the install program to do the installation. 4. Select OK to avoid Microsoft Digital Signature message 4 5.Congratulations! Bluetooth has been installed successfully. Please click Finish to go to the next step. 6.Select the Application that you want to use. 5 6 Uninstall Bluetooth (Windows 98/2K/ME/XP) One can remove the Bluetooth via the Add/Remove Programs in the Control Panel. Select Bluetooth and click Add/Remove button, the dialog as below displays. 2.Wait for the un-installation to do its work. 3.Then Complete the un-Installation. 7 Section Three: Wireless Lan Installation 3-1 System Requirements In order to install Wireless LAN and use the Wireless LAN/Bluetooth combo card in your notebook computer. Your notebook system must meet the following requirements:

A Mini-PCI Type III Slot that already insert in WLAN/BT Combo module

Windows 98SE,2K,ME,XP Support 3-2 Installation and Uninstall Process Install Wireless LAN (Windows 98/2K/ME/XP) 1. Execute the program Setup.exe in the CD. Windows displays the dialog as below. Press Next button to continue. 8 2. It displays a License Agreement dialog. Press Next to continue. 3. Select the destination folder that you want to place the files. 9 4. Wait for the install program to do the installation. 5. Congratulations! Wireless LAN has been installed successfully. Please click Finish to go to the next step. 10 6. Please remove any disks from any drives before your click Finish. Then click Finish to complete setup. Uninstall Wireless LAN (Windows 98/2K/ME/XP) 1. One can remove the AMBIT Wireless LAN via the Add/Remove Programs in the Control Panel. Select AMBIT Wireless LAN and click Add/Remove button, the dialog as below displays. 11 2. Select Remove and then click the Next button to perform the un-installation. Click OK button if you really want to remove the AMBIT Wireless LAN. 12 3. Wait for the un-installation to do its work. 4. Click Finish to complete the un-Installation. 13 Section 4 Wireless Utility and Configuration The following sections describe the Wireless Network Configuration Utility. This utility provides quick access and friendly interface to configure the card setup. 4-1 Windows 98/ME/2000 Wireless Utility After installation is completed, a Wireless LAN Utility icon will appear in Desktop screen. Click it, then you will see the screen below. If you cannot find the icon, you can select Start ->Program->Wireless LAN Configuration Utility Icon. Card Status You can see the AP information that your card connected. In this page you also can find Firmware Version , MAC Address and Frequency Domain. ESSID: An acronym for Extended Service Set Identifier, ESSID is the unique name shared among all clients and Access Points in a wireless network. The ESSID must be 14 identical for all clients or Access Points participating in the same network. The ESSID is case sensitive and must not exceed 32 characters. Press Rescan it will scan the specific ESSID that your profile set. If your profile set the ESSID to be ANY, then while you press Rescan, it will scan AP in the nearby area and choose the stronger one. From Link Quality and Signal Strength, you can tell the wireless transmission quality. Profile There are two network types:

Ad-Hoc: This mode is used for a simple peer-to-peer network. It offers file sharing between wireless clients without a wireless Access Point (AP). Infrastructure: This mode allows a wireless LAN to be integrated into an existing wired network through an AP. Infrastructure type networks also permit roaming between Access Points while maintaining connection to all network resources. Infrastructure mode provides additional features, such as WEP security, power saving and extended range. ESSID: You can either choose specific AP or connect to any AP in the nearby area. 15 Power Save: enable it, so it will be triggered when your computer system is inactive. WEP Key: Wired Equivalent Privacy, WEP is an encryption scheme used to protect your wireless data communications. WEP uses a combination of 40-bit keys,128-bit keys to provide data encryption for your wireless network. AP and wireless card should use the same WEP key in order to communication. KEY Format: You can choose to enter ASCII Characters (0~9, a~z, A~Z) or Hexadecimal number (0~9, a~f, A~F) Default Key: The current KEY you choose. KEY1~4: If you choose 40-bit keys, then you must enter 5 ASCII Characters or 10 Hexadecimal numbers. If you choose 128-bit keys, then you must enter 13 ASCII Characters or 26 Hexadecimal numbers. Site Survey Use the Site Survey Tool. You can identify each channel transmission quality. 16 4-2 Windows XP Wireless Utility 1. To configure the wireless card setting, you can select Start\Settings\Network Connection in the Windows XP. Choose the wireless network connection, then you will see below screen. From this screen, you can see wireless connection status and wireless signal level. 2. Select Properties in the above screen. The following windows will show up. 17 In General page, Wireless LAN card information and networking protocol have been displayed. Extra networking protocol can be installed in this page. 18 3. Select Wireless Networks page, you can see available wireless networks in your nearby area. You can add your preferred wireless Access Point to your list, so your wireless card will search for specific wireless networks. Configure To connect to an existing access point (infrastructure) network, under Available networks, click the network name, and then click Configure to setup wireless security and data encryption. Reflesh To update the list of available networks that are within range of your computer, click Refresh. Add To connect to an access point (infrastructure) network that you know is available but that does not appear under Available networks, under Preferred networks, click Add. In Wireless Network Properties, specify the network name (Service Set Identifier). Remove To remove a wireless network from the list of preferred networks. 19 Advanced

*If your network are configuring to a computer-to-computer (ad hoc) network, select Computer-to-computer (ad hoc) network only.

*If you want to connect to a computer-to-computer and access point (infrastructure) networks are within range of your computer, click Access point

(infrastructure)network only.

*If you want to connect to a computer-to-computer (ad hoc) network and both computer-to-computer and access point (infrastructure) networks are within range of your computer, click Any available network (access point preferred). To automatically connect to available networks that do not appear in the Preferred networks list, click Advanced, and then select the Automatically connect to non-

preferred networks check box. 20 Define your network name (SSID) in the following windows, so your can join a specific wireless network. Check AP has WEP on or not. You wireless network will need to have same WEP setting with AP in order to communicate. If your wireless network dont have any AP, check the This is computer-to computer (ad-hoc) network; wireless access points are not used 21 This window provides authentication via 802.1X. 802.1X, an IEEE standard that provides an authentication framework for 802-based LANs. 802.1X takes advantage of an existing authentication protocol known as the Extensible Authentication Protocol. 802.1x, giving someone secure, encrypted, wireless access on a Microsoft network will be as easy as setting a flag on the users domain account. What does this mean for the Home Network user?

802.1x will ensure that if and when you make the change over to Wireless Ethernet, your neighbor will not be able to access your wireless LAN!

22 The Advanced window offers Firewall and Internet Connection Sharing functions. Depends on your networking environment, you can select below functions. 23 Appendix A Glossary Access Point - An internetworking device that seamlessly connects wired and wireless networks together. Ad-Hoc - Ad-Hoc is a peer- to-peer wireless network without Access Point. A group of wireless clients consistent an independent wireless LAN. Backbone - The core infrastructure of a network, the portion of the network that transports information from one central location to another central location. The information is then off-loaded onto a local system. BSS - Stands for Basic Service Set. An Access Point associated with several wireless stations. ESS - Stands for Extended Service Set. More than one BSS can be configured as an Extended Service Set. An ESS is basically a roaming domain. Ethernet - A popular local area data communications network, originally developed by Xerox Corp., which accepts transmission from computers and terminals. Ethernet operates on 10/100 Mbps transmission rate over shielded coaxial cable or over shielded twisted pair telephone wire. Infrastructure - An integrated wireless and wired LAN is called an Infrastructure configuration. MINI-PCI TYPE III - Personal Computer Memory Card International Association, which develops standards for PC cards, formerly known as MINI-PCI TYPE III cards, are available in three types which are about the same length and width as credit cards, but range in thickness from 3.3 mm (Type I) to 5.0 mm (Type II) to 10.5 mm

(Type III). These cards can be used for many functions, including memory storage, as landline Bluetooths and as wireless LAN. Roaming - A function that allows one to travel with a mobile end system (wireless LAN mobile station, for example) through the territory of a domain (an ESS, for example) while continuously connecting to the infrastructure. Throughput TX RX Link Quality Signal Strength Channel Quality 24

 

 

AMBIT Microsystems Corporation FCC ID: MCLT60H563 EXHIBIT C - EUT PHOTOGRAPHS Top View Bottom View Report #Exhibit C Page 1 of 4 AMBIT Microsystems Corporation FCC ID: MCLT60H563 Cover Off View KT1 Antenna Left Side Report #Exhibit C Page 2 of 4 AMBIT Microsystems Corporation FCC ID: MCLT60H563 KT1 Antenna Right Side KT6 Antenna Left Side Report #Exhibit C Page 3 of 4 AMBIT Microsystems Corporation FCC ID: MCLT60H563 KT6 Antenna Right Side Report #Exhibit C Page 4 of 4

 

 

AMBIT Microsystems Corporation FCC ID: MCLT60H563 FCC ID: MCLT60H563 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. EXHIBIT A - FCC ID LABEL INFORMATION Proposed FCC ID Label 2.1875L x 1.0W Proposed Label Location on EUT Top Side of EUT/FCC ID Label Report #Exhibit A Page 1 of 1

 

 

Federal Communication Commission Authorization and Evaluation Division Confidentiality Request regarding application for certification of FCC ID: MCLT60H563 Pursuant to Sections 0.457 and 0.459 of the Commissions Rules, we hereby request confidential treatment of information accompanying this application as outlined below:

1. Circuit Diagram 2. Block Diagram 3. Operational Description The above materials contain trade secrets and proprietary information not customarily released to the public. The public disclosure of these materials may be harmful to the applicant and provide unjustified benefits to its competitors. The application understands that pursuant to Section 0.457 of the Rules, disclosure of this application and all accompanying documentation will not be made before the date of the Grant for this application. Sincerely,

 

 

 

 

 

 

CCBG-CABLE-ME Quanta KT1,5 Antenna Test Report Confidential 3/12/2002 Page:1 Sheng Tai Antenna Location CCBG-CABLE-ME Left Antenna Right Antenna Confidential 3/12/2002 Page:2 VSWR For Left 14 LCD 1. LCD Open 2. LCD Close CCBG-CABLE-ME Confidential 3/12/2002 Page:3 CCBG-CABLE-ME XY Plane Radiation Pattern For Left 14 LCD

(Open) HORIZONTAL POLARIZATION VERTICAL POLARIZATION Confidential 3/12/2002 Page:4 CCBG-CABLE-ME Average Gain For Left 14 LCD Antenna

(Open)

(dBi) XY-H XY--V Total Average Gain 2400 MHz 2450 MHz 2500 MHz

-10.51

-6.70

-5.19

-9.77

-6.16

-4.59

-9.98

-6.21

-4.69 PEAK GAIN

(dBi) XY-H XY--V 2400 MHz 2450 MHz 2500 MHz

-4.57

-1.23

-4.20

-0.95

-4.99

-6.00 Confidential 3/12/2002 Page:5 CCBG-CABLE-ME XY Plane Radiation Pattern For Left 14 LCD

(Close) HORIZONTAL POLARIZATION VERTICAL POLARIZATION Confidential 3/12/2002 Page:6 CCBG-CABLE-ME Average Gain For Left 14 LCD Antenna

(Close)

(dBi) XY-H XY--V Total Average Gain 2400 MHz 2450 MHz 2500 MHz

-8.34

-13.21

-7.11

-8.17

-11.87

-6.63

-8.10

-11.13

-6.35 PEAK GAIN

(dBi) XY-H XY--V 2400 MHz 2450 MHz 2500 MHz

-2.17

-7.90

-3.32

-6.54

-3.49

-6.48 Confidential 3/12/2002 Page:7 VSWR For Right 14 LCD 1. LCD Open 2. LCD Close CCBG-CABLE-ME Confidential 3/12/2002 Page:8 CCBG-CABLE-ME XY Plane Radiation Pattern For Right 14 LCD

(Open) HORIZONTAL POLARIZATION VERTICAL POLARIZATION Confidential 3/12/2002 Page:9 CCBG-CABLE-ME Average Gain For Right 14 LCD Antenna

(Open)

(dBi) XY-H XY--V Total Average Gain 2400 MHz 2450 MHz 2500 MHz

-10.91

-6.77

-5.35

-10.57

-6.33

-4.94

-11.13

-6.35

-5.10 PEAK GAIN

(dBi) XY-H XY--V 2400 MHz 2450 MHz 2500 MHz

-4.24

-2.27

-2.64

-1.86

-2.84

-1.51 Confidential 3/12/2002 Page:10 CCBG-CABLE-ME XY Plane Radiation Pattern For Right 14 LCD

(Close) HORIZONTAL POLARIZATION VERTICAL POLARIZATION Confidential 3/12/2002 Page:11 CCBG-CABLE-ME Average Gain For Right 14 LCD Antenna

(Close)

(dBi) XY-H XY--V Total Average Gain 2400 MHz 2450 MHz 2500 MHz

-12.35

-9.18

-7.47

-12.82

-8.29

-6.98

-13.86

-9.68

-8.28 PEAK GAIN

(dBi) XY-H XY--V 2400 MHz 2450 MHz 2500 MHz

-6.65

-4.84

-7.22

-3.91

-8.09

-6.17 Confidential 3/12/2002 Page:12 VSWR For Left 15 LCD 1. LCD Open 2. LCD Close CCBG-CABLE-ME Confidential 3/12/2002 Page:13 CCBG-CABLE-ME XY Plane Radiation Pattern For Left 15 LCD

(Open) HORIZONTAL POLARIZATION VERTICAL POLARIZATION Confidential 3/12/2002 Page:14 CCBG-CABLE-ME Average Gain For Left 15 LCD Antenna

(Open)

(dBi) XY-H XY--V Total Average Gain 2400 MHz 2450 MHz 2500 MHz

-11.26

-6.05

-4.91

-11.55

-5.93

-4.88

-12.90

-6.03

-5.22 PEAK GAIN

(dBi) XY-H XY--V 2400 MHz 2450 MHz 2500 MHz

-4.86

-2.10

-4.94

-1.57

-4.74

-0.65 Confidential 3/12/2002 Page:15 CCBG-CABLE-ME XY Plane Radiation Pattern For Left 15 LCD

(Close) HORIZONTAL POLARIZATION VERTICAL POLARIZATION Confidential 3/12/2002 Page:16 CCBG-CABLE-ME Average Gain For Left 15 LCD Antenna

(Close)

(dBi) XY-H XY--V Total Average Gain 2400 MHz 2450 MHz 2500 MHz

-8.35

-11.55

-6.65

-7.80

-10.86

-6.06

-7.23

-10.15

-5.44 PEAK GAIN

(dBi) XY-H XY--V 2400 MHz 2450 MHz 2500 MHz

-4.25

-4.27

-2.96

-3.93

-2.60

-6.22 Confidential 3/12/2002 Page:17 VSWR For Right 15 LCD 1. LCD Open 2. LCD Close CCBG-CABLE-ME Confidential 3/12/2002 Page:18 CCBG-CABLE-ME XY Plane Radiation Pattern For Right 15 LCD

(Open) HORIZONTAL POLARIZATION VERTICAL POLARIZATION Confidential 3/12/2002 Page:19 CCBG-CABLE-ME Average Gain For Right 15 LCD Antenna

(Open)

(dBi) XY-H XY--V Total Average Gain 2400 MHz 2450 MHz 2500 MHz

-9.92

-6.59

-4.93

-10.49

-6.26

-4.87

-11.83

-5.55

-4.63 PEAK GAIN

(dBi) XY-H XY--V 2400 MHz 2450 MHz 2500 MHz

-2.80

-1.73

-2.80

-1.97

-3.51

-1.89 Confidential 3/12/2002 Page:20 CCBG-CABLE-ME XY Plane Radiation Pattern For Right 15 LCD

(Close) HORIZONTAL POLARIZATION VERTICAL POLARIZATION Confidential 3/12/2002 Page:21 CCBG-CABLE-ME Average Gain For Right 15 LCD Antenna

(Close)

(dBi) XY-H XY--V Total Average Gain 2400 MHz 2450 MHz 2500 MHz

-12.99

-8.21

-6.96

-12.68

-8.15

-6.84

-12.15

-8.16

-6.70 PEAK GAIN

(dBi) XY-H XY--V 2400 MHz 2450 MHz 2500 MHz

-6.96

-3.44

-7.85

-2.98

-5.89

-2.58 Confidential 3/12/2002 Page:22 CCBG-CABLE-ME Summary Of Total Average Gain 14" LCD Open (Left) 15" LCD Open (Left)

(dBi) XY-H XY--V Total Average Gain 14" LCD Close (Left)

(dBi) XY-H XY--V Total Average Gain 14" LCD Open (Right)

(dBi) XY-H XY--V Total Average Gain 14" LCD Close (Right) 2400 MHz 2450 MHz 2500 MHz

-10.51

-6.70

-5.19

-9.77

-6.16

-4.59

-9.98

-6.21

-4.69 2400 MHz 2450 MHz 2500 MHz

-8.34

-13.21

-7.11

-8.17

-11.87

-6.63

-8.10

-11.13

-6.35 2400 MHz 2450 MHz 2500 MHz

-10.91

-6.77

-5.35

-10.57

-6.33

-4.94

-11.13

-6.35

-5.10

(dBi) XY-H XY--V Total Average Gain 15" LCD Close (Left)

(dBi) XY-H XY--V Total Average Gain 15" LCD Open (Right)

(dBi) XY-H XY--V Total Average Gain 15" LCD Close (Right) 2400 MHz 2450 MHz 2500 MHz

-11.26

-6.05

-4.91

-11.55

-5.93

-4.88

-12.90

-6.03

-5.22 2400 MHz 2450 MHz 2500 MHz

-8.35

-11.55

-6.65

-7.80

-10.86

-6.06

-7.23

-10.15

-5.44 2400 MHz 2450 MHz 2500 MHz

-9.92

-6.59

-4.93

-10.49

-6.26

-4.87

-11.83

-5.55

-4.63

(dBi) XY-H XY--V Total Average Gain 2400 MHz 2450 MHz 2500 MHz

-12.35

-9.18

-7.47

-12.82

-8.29

-6.98

-13.86

-9.68

-8.28

(dBi) XY-H XY--V Total Average Gain 2400 MHz 2450 MHz 2500 MHz

-12.99

-8.21

-6.96

-12.68

-8.15

-6.84

-12.15

-8.16

-6.70 Confidential 3/12/2002 Page:23 Summary Of Peak Gain CCBG-CABLE-ME 14" LCD Open (Left) 15" LCD Open (Left)

(dBi) XY-H XY--V 2400 MHz 2450 MHz 2500 MHz

-4.57

-1.23

-4.20

-0.95

-4.99

-6.00

(dBi) XY-H XY--V 2400 MHz 2450 MHz 2500 MHz

-4.86

-2.10

-4.94

-1.57

-4.74

-0.65 14" LCD Close (Left) 15" LCD Close (Left)

(dBi) XY-H XY--V 2400 MHz 2450 MHz 2500 MHz

-2.17

-7.90

-3.32

-6.54

-3.49

-6.48

(dBi) XY-H XY--V 2400 MHz 2450 MHz 2500 MHz

-4.25

-4.27

-2.96

-3.93

-2.60

-6.22 14" LCD Open (Right) 15" LCD Open (Right)

(dBi) XY-H XY--V 2400 MHz 2450 MHz 2500 MHz

-4.24

-2.27

-2.64

-1.86

-2.84

-1.51

(dBi) XY-H XY--V 2400 MHz 2450 MHz 2500 MHz

-2.80

-1.73

-2.80

-1.97

-3.51

-1.89 14" LCD Close (Right) 15" LCD Close (Right)

(dBi) XY-H XY--V 2400 MHz 2450 MHz 2500 MHz

-6.65

-4.84

-7.22

-3.91

-8.09

-6.17

(dBi) XY-H XY--V 2400 MHz 2450 MHz 2500 MHz

-6.96

-3.44

-7.85

-2.98

-5.89

-2.58 Confidential 3/12/2002 Page:24

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Bay Area Compliance Laboratory Corp. July 26, 2002 Federal Communication Commission Authorization and Evaluation Division New Operational Description for FCC ID: MCLT60H563 To Whom It May Concern:

Due to unclear thinking, one of two operational description exhibits submitted on July 18 was wrong. We found this mistake when we were doing quality control later. Please use the one uploaded on July 26 to replace the wrong one. The other one with the title Antenna Information is correct. Please keep it. We are very sorry for any possible confusion and inconvenience. Yours truly, John Chan Engineering Manager

 

 

FCC PART 15 SUBPART C EMI MEASUREMENT AND TEST REPORT AMBIT Microsystems Corporation 4-1, Ming Shen Street, Tu Chen Industrial District. Tu Chen, Taipei Hsien 236, Taiwan, R.O.C. For FCC ID: MCLT60H563 This Report Concerns:

Original Report July 9, 2002 Equipment Type:

Bluetooth and 802.11b Combo Module Test Engineer: Benjamin Jing Report No.: R0206174 Test Date:

June 24, 2002 Reviewed By:

Jeff Lee Prepared By: Bay Area Compliance Laboratory Corporation 230 Commercial Street Sunnyvale, CA 94085 Tel: (408) 732-9162 Fax: (408) 732 9164 Note: This test report is specially limited to the above client company and product model only. It may not be duplicated without prior written consent of Bay Area Compliance Laboratory Corporation. This report must not be used by the client to claim product endorsement by NVLAP or any agency of the U.S. Government. AMBIT Microsystems Corporation FCC ID: MCLT60H563 TABLE OF CONTENTS 1 - GENERAL INFORMATION..................................................................................................................................4 1.1 PRODUCT DESCRIPTION FOR EQUIPMENT UNDER TEST (EUT) ..............................................................................4 1.2 OBJECTIVE .............................................................................................................................................................5 1.3 RELATED SUBMITTAL(S)/GRANT(S).......................................................................................................................5 1.4 TEST METHODOLOGY ............................................................................................................................................5 1.5 TEST FACILITY.......................................................................................................................................................6 1.6 TEST EQUIPMENT LIST...........................................................................................................................................6 1.7 HOST SYSTEM CONFIGURATION LIST AND DETAILS ..............................................................................................7 1.8 SUPPORT EQUIPMENT LIST AND DETAILS ..............................................................................................................7 1.9 EXTERNAL I/O CABLING LIST AND DETAILS .........................................................................................................7 2 - SYSTEM TEST CONFIGURATION.....................................................................................................................8 2.1 JUSTIFICATION .......................................................................................................................................................8 2.2 EUT EXERCISE SOFTWARE....................................................................................................................................8 2.3 SPECIAL ACCESSORIES...........................................................................................................................................8 2.4 SCHEMATICS / BLOCK DIAGRAM ...........................................................................................................................8 2.5 EQUIPMENT MODIFICATIONS .................................................................................................................................8 2.6 CONFIGURATION OF TEST SYSTEM.........................................................................................................................9 2.7 TEST SETUP BLOCK DIAGRAM...............................................................................................................................9 3 - SUMMARY OF TEST RESULTS........................................................................................................................10 4 - MAXIMUM PEAK OUTPUT POWER...............................................................................................................11 4.1 STANDARD APPLICABLE ......................................................................................................................................11 4.2 MEASUREMENT PROCEDURE................................................................................................................................11 4.3 TEST EQUIPMENT.................................................................................................................................................11 4.4 MEASUREMENT RESULT ......................................................................................................................................11 4.5 PLOT OF MAXIMUM PEAK OUTPUT POWER..........................................................................................................11 5 - CHANNEL BANDWIDTH ...................................................................................................................................12 5.1 STANDARD APPLICABLE ......................................................................................................................................12 5.2 MEASUREMENT PROCEDURE................................................................................................................................12 5.3 MEASUREMENT RESULT ......................................................................................................................................12 5.4 PLOT OF CHANNEL BANDWIDTH ..........................................................................................................................12 6 - NUMBER OF HOPPING FREQUENCY USED ................................................................................................13 6.1 STANDARD APPLICABLE ......................................................................................................................................13 6.2 MEASUREMENT PROCEDURE................................................................................................................................13 6.3 MEASUREMENT PROCEDURE................................................................................................................................13 6.4 PLOTS OF NUMBER OF HOPPING FREQUENCY ......................................................................................................13 7 - HOPPING CHANNEL SEPARATION ...............................................................................................................14 7.1 STANDARD APPLICABLE ......................................................................................................................................14 7.2 MEASUREMENT PROCEDURE................................................................................................................................14 7.3 MEASUREMENT RESULTS.....................................................................................................................................14 7.4 PLOTS OF HOPPING CHANNEL SEPARATION .........................................................................................................14 8 - 100 KHZ BANDWIDTH OF BAND EDGES ......................................................................................................15 8.1 STANDARD APPLICABLE ......................................................................................................................................15 8.2 MEASUREMENT PROCEDURE................................................................................................................................15 8.3 MEASUREMENT RESULTS.....................................................................................................................................15 8.4 PLOTS OF 100KHZ BANDWIDTH OF BAND EDGE..................................................................................................15 9 - DWELL TIME .......................................................................................................................................................16 9.1 STANDARD APPLICABLE ......................................................................................................................................16 9.2 MEASUREMENT PROCEDURE................................................................................................................................16 9.3 MEASUREMENT RESULTS.....................................................................................................................................16 9.4 PLOTS OF DWELL TIME ........................................................................................................................................16 Report # R0206174 Page 2 of 41 FCC Part 15.247 Test Report AMBIT Microsystems Corporation FCC ID: MCLT60H563 10 - SPURIOUS EMISSION.......................................................................................................................................17 10.1 STANDARD APPLICABLE ....................................................................................................................................17 10.2 MEASUREMENT PROCEDURE..............................................................................................................................17 10.3 MEASUREMENT RESULTS...................................................................................................................................17 11 - PEAK POWER SPECTRAL DENSITY............................................................................................................18 11.1 STANDARD APPLICABLE ....................................................................................................................................18 11.2 MEASUREMENT PROCEDURE..............................................................................................................................18 11.3 MEASUREMENT RESULTS...................................................................................................................................18 12 - RADIATED EMISSION......................................................................................................................................19 12.1 MEASUREMENT UNCERTAINTY..........................................................................................................................19 12.2 TEST SETUP........................................................................................................................................................19 12.3 SPECTRUM ANALYZER SETUP ............................................................................................................................19 12.4 TEST PROCEDURE ..............................................................................................................................................20 12.5 CORRECTED AMPLITUDE & MARGIN CALCULATION .........................................................................................20 12.6 SUMMARY OF TEST RESULTS .............................................................................................................................21 12.7 RADIATED EMISSION TEST DATA.......................................................................................................................22 13 - CONDUCTED EMISSION .................................................................................................................................30 13.1 MEASUREMENT UNCERTAINTY..........................................................................................................................30 13.2 TEST SETUP........................................................................................................................................................30 13.3 SPECTRUM ANALYZER SETUP ............................................................................................................................30 13.4 TEST PROCEDURE ..............................................................................................................................................30 13.5 SUMMARY OF TEST RESULTS .............................................................................................................................31 13.6 CONDUCTED EMISSIONS TEST DATA .................................................................................................................31 13.7 PLOT OF CONDUCTED EMISSIONS TEST DATA ...................................................................................................31 14 - ANTENNA REQUIREMENT.............................................................................................................................32 15 - RF EXPOSURE....................................................................................................................................................33 EXHIBIT A - FCC ID LABEL INFORMATION ....................................................................................................34 EXHIBIT B - TEST SETUP PHOTOGRAPHS ......................................................................................................35 EXHIBIT C - EUT EXTERNAL PHOTOGRAPHS................................................................................................36 EXHIBIT D - EUT INTERNAL PHOTOGRAPHS................................................................................................37 EXHIBIT E - BLOCK DIAGRAM............................................................................................................................38 EXHIBIT F - SCHEMATICS.....................................................................................................................................39 EXHIBIT G - OPERATIONAL DESCRIPTION ....................................................................................................40 EXHIBIT H - USERS MANUAL...............................................................................................................................41 Report # R0206174 Page 3 of 41 FCC Part 15.247 Test Report AMBIT Microsystems Corporation FCC ID: MCLT60H563 1 - GENERAL INFORMATION 1.1 Product Description for Equipment Under Test (EUT) Applicant:

Product:

Model Name:

Dimension:

FCC ID:

Peak Output Power:

Frequency Range:

Power Supply:

Applicable Standard:

AMBIT Microsystems Corporation Bluetooth and 802.11b Combo Module T60H563 2.4L x 1.7 M MCLT60H563 Bluetooth: 3.33dBm (2.15mW) 802.11b: 12.14dBm (16.37mW) 2.4 ~2.483GHz Fed by Notebook FCC Part 15.247 KT1, KT3, KT5, KT6 and KT7 were the different laptop notebook used during the final testing. The detailed model names listed below:

KT1 (Tornado 3.0), HP Omnibook XE4000 Series, HP Pavilion ZE4000 Series, Pavilion XT Series, Regulatory model number: CRVSA-02T1-60

KT3 (Tornado 2.0), HP Omnibook XE4000 Series, HP Pavilion ZE4000 Series, Pavilion XT Series Regulatory model number: CRVSA-02T1-75

KT5 (Tornado 4.0), HP Omnibook XE4000 Series, HP Pavilion ZE4000 Series, Pavilion XT Series Regulatory model number: CRVSA-02T1-75

KT6 (Tornado 5.0), HP Omnibook XE4000 Series, HP Pavilion ZE5000 Series, Pavilion XT Series Regulatory model number: CRVSA-02T1-90

KT7, HP Omnibook XE4000 Series, HP Pavilion ZE4000, Pavilion XT Series Regulatory model number: CRVSA-02T1-75 In the report there will be separate test data for these two groups as applicable.

* The test data was good for test sample only. It may have deviation for other product samples. Report # R0206174 Page 4 of 41 FCC Part 15.247 Test Report AMBIT Microsystems Corporation FCC ID: MCLT60H563 1.2 Objective This type approval report is prepared on behalf of AMBIT Microsystems Corporation in accordance with Part 2, Subpart J, Part 15, Subparts A, B and C of the Federal Communication Commissions rules. The objective of the manufacturer is to demonstrate compliance with C108.8 & RSS-210 rules for the bluetooth transmitter:

20 dB Bandwidth Maximum Peak Output Power Hopping Channel Separation Number of Hopping Frequency Used Dwell Time on Each Channel Conducted Emission Spurious Emission Radiated Emission Antenna Requirement RF Exposure Limit 100 kHz Bandwidth of Band Edge 20 dB Bandwidth 100 kHz Bandwidth of Band Edge Maximum Peak Output Power Peak Power Density Conducted Emission Spurious Emission Radiated Emission Antenna Requirement RF Exposure Limit The objective of the manufacturer is to demonstrate compliance with C108.8 & RSS-210 rules for the 802.11b transmitter:

1.3 Related Submittal(s)/Grant(s) No Related Submittals. 1.4 Test Methodology All measurements contained in this report were conducted with ANSI C63.4-2000, American National Standard for Methods of Measurement of Radio-Noise Emissions from Low-Voltage Electrical and Electronic Equipment in the range of 9 kHz to 40 GHz. All radiated and conducted emissions measurement was performed at Bay Area Compliance Laboratory, Corp. The radiated testing was performed at an antenna-to-EUT distance of 3 meters. Report # R0206174 Page 5 of 41 FCC Part 15.247 Test Report AMBIT Microsystems Corporation FCC ID: MCLT60H563 1.5 Test Facility The Open Area Test site used by Bay Area Compliance Laboratory Corporation to collect radiated and conducted emission measurement data is located in the back parking lot of the building at 230 Commercial Street, Sunnyvale, California, USA. Test site at Bay Area Compliance Laboratory Corporation has been fully described in reports submitted to the Federal Communication Commission (FCC) and Voluntary Control Council for Interference (VCCI). The details of these reports has been found to be in compliance with the requirements of Section 2.948 of the FCC Rules on February 11 and December 10, 1997 and Article 8 of the VCCI regulations on December 25, 1997. The facility also complies with the radiated and AC line conducted test site criteria set forth in ANSI C63.4-2000. The Federal Communications Commission and Voluntary Control Council for Interference has the reports on file and is listed under FCC file 31040/SIT 1300F2 and VCCI Registration No.: C-1298 and R-1234. The test site has been approved by the FCC and VCCI for public use and is listed in the FCC Public Access Link (PAL) database. Additionally, Bay Area Compliance Laboratory Corporation is a National Institute of Standards and Technology (NIST) accredited laboratory, under the National Voluntary Laboratory Accredited Program

(NVLAP). The scope of the accreditation covers the FCC Method - 47 CFR Part 15 - Digital Devices, IEC/CISPR 22: 2002, and AS/NZS CISPR 22: 2002: Electromagnetic Interference - Limits and Methods of Measurement of Information Technology Equipment test methods under NVLAP Lab Code 200167-0. 1.6 Test Equipment List Manufacturer Description HP HP HP HP HP A.H. System Com-Power Com-Power Solar Electronics Com-Power Com-Power Spectrum Analyzer Spectrum Analyzer Amplifier Quasi-Peak Adapter Amplifier Horn Antenna Log Periodic Antenna Biconical Antenna LISN LISN LISN BACL Data Entry Software Model 8568B 8593B 8349B 85650A 8447E SAS0200/571 AL-100 AB-100 8012-50-R-24-BNC LI-200 LI-200 DES1 Serial Number Cal. Due Date 2610A02165 2919A00242 2644A02662 917059 1937A01046 12/6/02 12/20/02 12/20/02 12/6/02 12/6/02 12/27/02 11/2/02 11/2/02 12/28/02 12/20/02 12/20/02 12/20/02 261 16005 14012 968447 12208 12005 0001

* Statement of Traceability: Bay Area Compliance Laboratory Corp. certifies that all calibration has been performed using suitable standards traceable to the NATIONAL INSTITUTE of STANDARDS and TECHNOLOGY

(NIST). Report # R0206174 Page 6 of 41 FCC Part 15.247 Test Report AMBIT Microsystems Corporation FCC ID: MCLT60H563 1.7 Host System Configuration List and Details Manufacturer Intel Samsung SONY Liteon Toshiba QSI Description Motherboard LCD 3.5 Floppy Drive Power Supply Hard Drive CD-Rom Model None LIN141XF MPF920-F PA-1750-11 None SCR-242 Serial Number None None None 21104338CB None None FCC ID DoC DoC DoC DoC DoC DoC 1.8 Support Equipment List and Details Manufacturer HP Citizen EVERX Description Notebook PC Printer Modem Model KT1 LSP-10 EV-945 Serial Number ZE4000 Series 5047999-82 N/A FCC ID DOC DLK66TLSP-10 E3E5UVEV-945 1.9 External I/O Cabling List and Details Cable Description Length (M) Port/From Shielded Serial Cable Shielded Printer Cable 1.5 2.0 Serial Port/Laptop Parallel Port/Laptop To Modem Printer Report # R0206174 Page 7 of 41 FCC Part 15.247 Test Report AMBIT Microsystems Corporation FCC ID: MCLT60H563 2 - SYSTEM TEST CONFIGURATION 2.1 Justification The host system was configured for testing in a typical fashion (as a normally used by a typical user). The EUT was tested in the normal (native) operating mode to represent worst-case results during the final qualification test. 2.2 EUT Exercise Software The EUT exercising program used during radiated and conducted testing was designed to exercise the various system components in a manner similar to a typical use. The test software, terminal.exe, provided by the customer, is started the Windows 98 terminal program under the Windows 98 operating system. Once loaded, the program sequentially exercises each system component. The sequence used is as follows:

1. Lines of Hs scroll across the notebook monitor. 2. The modem(s) receives Hs. 3. The printer output Hs. This process is continuous throughout all tests. 2.3 Special Accessories As shown in section 2.5, all interface cables used for compliance testing are shielded as normally supplied by INMAC and their respective support equipment manufacturers. The host pc and other peripherals featured shielded metal connectors. 2.4 Schematics / Block Diagram Please refer to Exhibit D. 2.5 Equipment Modifications No modifications were made by BACL Corporation to ensure the EUT to comply with the applicable limits and requirements. Report # R0206174 Page 8 of 41 FCC Part 15.247 Test Report AMBIT Microsystems Corporation FCC ID: MCLT60H563 2.6 Configuration of Test System 2.7 Test Setup Block Diagram Report # R0206174 Page 9 of 41 FCC Part 15.247 Test Report AMBIT Microsystems Corporation FCC ID: MCLT60H563 3 - SUMMARY OF TEST RESULTS RESULT REFERENCE FCC RULES 2.1091 15.203 15.207 (a) 15.205 DESCRIPTION OF TEST General Requirements RF Safety Requirements Antenna Requirement Conducted Emission Bluetooth Transmitter Restricted Bands 15.247 (a) (1) (i) Number of Hopping Frequencies Used 15.209 (a) 15.209 (f) Radiated Emission Spurious Emission 15.247 (a) (1) Hopping Channel Separation Compliant Compliant Compliant Compliant Compliant Compliant Compliant Compliant 15.247 (a) (1) (i) Dwell Time of Each Frequency within a 10 Second Period Compliant 15.247 (a) (1) (ii) 20dB Bandwidth 15.247 (b) (2) 15.247 (c) 15.247 (g) Maximum Peak Output Power 100 kHz Bandwidth of Frequency Band Edge Full and complete compliance with applicable requirements for FHSS. Compliance with the definition of frequency hopping system, distribute transmission over minimum number of hopping channel Compliant Compliant Compliant Compliant 15.247 (h) Limitation on avoidance on hopping on occupied channel Compliant 15.209 (a) 15.209 (f) 15.247 (a) (2) 15.247 (b) (2) 15.247 (c) 15.247 (d) 802.11b Transmitter Radiated Emission Spurious Emission 6 dB Bandwidth Maximum Peak Output Power 100 kHz Bandwidth of Frequency Band Edge Peak Power Spectral Density Compliant Compliant Compliant Compliant Compliant Compliant Section 16 Exhibit H Section 14 Appendix I Section 13 Section 10 Section 6 Appendix C Section 12 Section 10 Appendix G Section 7 Appendix D Section 9 Appendix F Section 5 Appendix B Section 4 Appendix A Section 8 Appendix E Exhibit G Exhibit H Exhibit G Exhibit H Section 12 Section 10 Appendix G Section 5 Appendix B Section 4 Appendix A Section 8 Appendix E Section 11 Appendix H Report # R0206174 Page 10 of 41 FCC Part 15.247 Test Report AMBIT Microsystems Corporation FCC ID: MCLT60H563 4 - MAXIMUM PEAK OUTPUT POWER 4.1 Standard Applicable According to 15.247(b) (1), for frequency hopping systems in the 2400-2483.5MHz band employing at least 75 hopping channels, and all direct sequence systems, the maximum peak output power of the transmitter shall not exceed 1 Watt. 4.2 Measurement Procedure 1. Place the EUT on the turntable and set it in transmitting mode. 2. Remove the antenna from the EUT and then connect a low loss RF cable from the antenna port to the spectrum analyzer (power meter). 4.3 Test Equipment Manufacturer Agilent Agilent 4.4 Measurement Result Model No. E4419B E4412A Serial No. GB40202891 US38486529 Calibration Due Date 4/8/03 4/8/03 Antenna Frequency Output Power in dBm Output Power in mW Standard Result Master Master Master Accessory Accessory Accessory Left Left Left Right Right Right Low Middle High Low Middle High Bluetooth Transmitter 3.17 3.17 3.00 3.17 3.33 3.17 2.07 2.07 2.00 2.07 2.15 2.07 802.11b Transmitter Low Middle High Low Middle High 11.05 11.40 11.21 12.14 12.08 11.58 12.74 13.80 13.21 16.37 16.14 14.39 4.5 Plot of Maximum Peak Output Power Refer to Appendix A. 1W 1W 1W 1W 1W 1W 1W 1W 1W 1W 1W 1W Compliant Compliant Compliant Compliant Compliant Compliant Compliant Compliant Compliant Compliant Compliant Compliant Report # R0206174 Page 11 of 41 FCC Part 15.247 Test Report AMBIT Microsystems Corporation FCC ID: MCLT60H563 5 - CHANNEL BANDWIDTH 5.1 Standard Applicable According to 15.247(a)(l)(ii), the maximum 20dB bandwidth of the hopping channel is 1MHz. According to 15.247(a)(2), for direct sequence systems, the minimum 6dB bandwidth shall be at least 500 kHz. 5.2 Measurement Procedure 1. Check the calibration of the measuring instrument using either an internal calibrator or a known signal from an external generator. 2. Position the EUT without connection to measurement instrument. Turn on the EUT and connect it to measurement instrument. Then set it to any one convenient frequency within its operating range. Set a reference level on the measuring instrument equal to the highest peak value. 3. Measure the frequency difference of two frequencies that were attenuated 6 dB from the reference level. Record the frequency difference as the emission bandwidth. 4. Repeat above procedures until all frequencies measured were complete. 5.3 Measurement Result Antenna Master Master Master Accessory Accessory Accessory Left Left Left Right Right Right Frequency Measurement Standard 20 dB Bandwidth of Bluetooth Transmitter 1MHz 1MHz 1MHz 1MHz 1MHz 1MHz 658kHz 617kHz 658kHz 650kHz 642kHz 658kHz Low Middle High Low Middle High 6dB Bandwidth of 802.11b Transmitter Low Middle High Low Middle High 10.33MHz 10.42MHz 10.33MHz 10.17MHz 10.25MHz 10.08MHz 500kHz 500kHz 500kHz 500kHz 500kHz 500kHz 5.4 Plot of Channel Bandwidth Please refer to Appendix B. Result Compliant Compliant Compliant Compliant Compliant Compliant Compliant Compliant Compliant Compliant Compliant Compliant Report # R0206174 Page 12 of 41 FCC Part 15.247 Test Report AMBIT Microsystems Corporation FCC ID: MCLT60H563 6 - NUMBER OF HOPPING FREQUENCY USED 6.1 Standard Applicable According to 15.247(a)(1)(ii), frequency hopping systems operating in the 2400-2483.5Mhz band shall use at least 75 hopping frequencies. 6.2 Measurement Procedure 1. Check the calibration of the measuring instrument (SA) using either an internal calibrator or a known signal from an external generator. 2. Position the EUT as shown in figure 4 without connection to measurement instrument. Turn on the EUT and connect its antenna terminal to measurement instrument via a low loss cable. Then set it to any one measured frequency within its operating range, and make sure the instrument is operated in its linear range. 3. Set the SA on Max-Hold Mode, and then keep the EUT in hopping mode. Record all the signals from each channel until each one has been recorded. 4. Set the SA on View mode and then plot the result on SA screen. 5. Repeat above procedures until all frequencies measured were complete. 6.3 Measurement Procedure Antenna Master Accessory Measurement Standard 79 79 75 75 Result Compliant Compliant 6.4 Plots of Number of Hopping Frequency Please refer to the attached plots. Report # R0206174 Page 13 of 41 FCC Part 15.247 Test Report AMBIT Microsystems Corporation FCC ID: MCLT60H563 7 - HOPPING CHANNEL SEPARATION 7.1 Standard Applicable According to 15.247(a)(1), frequency hopping system shall have, hopping channel carrier frequencies separated by a minimum of 25 kHz or the 20 dB bandwidth of the hopping channel, whichever is greater. The system shall hop to channel frequencies that are selected at the system hopping rate from a pseudorandomly ordered list of hopping frequencies. 7.2 Measurement Procedure 1. Check the calibration of the measuring instrument (SA) using either an internal calibrator or a known signal from an external generator. 2. Position the EUT as shown in figure 4 without connection to measurement instrument Turn on the EUT and connect it to measurement instrument. Then set it to any one convenient frequency within its operating range. 3. By using the Max-Hold function record the separation of two adjacent channels. 4. Measure the frequency difference of these two adjacent channels by SA MARK function, and then plot the result on SA screen. 5. Repeat above procedures until all frequencies measured were complete. 7.3 Measurement Results Antenna Frequency Measurement (kHz) 20dB Bandwidth (kHz)*

Result Master Master Master Accessory Accessory Accessory Low Middle High Low Middle High Bluetooth Transmitter 673 680 677 670 680 673 658 617 658 650 642 658 Compliant Compliant Compliant Compliant Compliant Compliant

* The measured 20dB bandwidth was greater than 25kHz. So it was used as the factor to evaluate hopping channel separation. 7.4 Plots of Hopping Channel Separation Please refer to Appendix D. Report # R0206174 Page 14 of 41 FCC Part 15.247 Test Report AMBIT Microsystems Corporation FCC ID: MCLT60H563 8 - 100 KHZ BANDWIDTH OF BAND EDGES 8.1 Standard Applicable According to 15.247(c), in any 100 kHz bandwidth outside the frequency band in which the spread spectrum intentional radiator is operating, the radio frequency power that is produced by the intentional radiator shall be at least 20 dB below that in the 100 kHz bandwidth within the band that contains the highest level of the desired power, based on either an RF conducted or a radiated measurement. Attenuation below the general limits specified in 15.209(a) is not required. 8.2 Measurement Procedure 1. Check the calibration of the measuring instrument using either an internal calibrator or a known signal from an external generator. 2. Position the EUT without connection to measurement instrument. Turn on the EUT and connect its antenna terminal to measurement instrument via a low loss cable. Then set it to any one measured frequency within its operating range, and make sure the instrument is operated in its linear range. 3. Set both RBW and VBW of spectrum analyzer to 300 kHz with a convenient frequency span including 100kHz bandwidth from band edge. 4. Measure the highest amplitude appearing on spectral display and set it as a reference level. Plot the graph with marking the highest point and edge frequency. 5. Repeat above procedures until all measured frequencies were complete. 8.3 Measurement Results Antenna Frequency Measurement Standard Master Master Accessory Accessory Low High Low High Left Left Right Right Low High Low High Bluetooth Transmitter 48.50 56.17 50.33 55.83 802.11b Transmitter 40.17 53.17 50.66 45.33 20dB 20dB 20dB 20dB 20dB 20dB 20dB 20dB 8.4 Plots of 100kHz Bandwidth of Band Edge Please refer to Appendix E. Result Compliant Compliant Compliant Compliant Compliant Compliant Compliant Compliant Report # R0206174 Page 15 of 41 FCC Part 15.247 Test Report AMBIT Microsystems Corporation FCC ID: MCLT60H563 9 - DWELL TIME 9.1 Standard Applicable According to 15.247 (a)(1)(ii), for frequency hopping system operating in the 2400-2483.5MHz band, the average time of occupancy on any frequency shall not be greater than 0.4 seconds within a 30 second period. 9.2 Measurement Procedure 1. Check the calibration of the measuring instrument using either an internal calibrator or a known signal from an external generator. 2. Position the EUT was set without connection to measurement instrument. Turn on the EUT and connect its antenna terminal to measurement instrument via a low loss cable. Then set it to any one measured frequency within its operating range, and make sure the instrument is operated in its linear range. 3. Adjust the center frequency of SA on any frequency be measured and set SA to zero span mode. And then, set RBW and VBW of spectrum analyzer to proper value. 4. Measure the time duration of one transmission on the measured frequency. And then plot the result with time difference of this time duration. 5. Repeat above procedures until all frequencies measured were complete. 9.3 Measurement Results Sample calculation: In normal operation, there are 5 transmissions per 500mS. Therefore, the dwell time for each channel is:

Low Channel: 5 x 0.425 x 0.06 = 0.1275 s < 0.4 s Antenna Frequency (MHz) Measurement Standard (seconds) Result Bluetooth Transmitter 0.128 0.125 0.120 0.125 0.030 0.120

< 0.4

< 0.4

< 0.4

< 0.4

< 0.4

< 0.4 Compliant Compliant Compliant Compliant Compliant Compliant Master Master Master Accessory Accessory Accessory Low Middle High Low Middle High 9.4 Plots of Dwell Time Please refer to Appendix F. Report # R0206174 Page 16 of 41 FCC Part 15.247 Test Report AMBIT Microsystems Corporation FCC ID: MCLT60H563 10 - SPURIOUS EMISSION 10.1 Standard Applicable According to 15.209 (f) and 15.33(a), in some cases the emissions from an intentional radiator must be measured to beyond the tenth harmonic of the highest fundamental frequency designed to be emitted by the intentional radiator because of the incorporation f a digital device. If measurements above the tenth harmonic are so required, the radiated emissions above the tenth harmonic shall comply with the general radiated emission limits applicable to the incorporated digital device, as shown in 15.109 and as based on the frequency of the emission being measured, or, except for emissions contained in the restricted frequency bands shown in 15.205, the limit on spurious emissions specified for the intentional radiator, whichever is the higher limit. 10.2 Measurement Procedure 1. Check the calibration of the measuring instrument (SA) using either an internal calibrator or a known signal from an external generator. 2. Position the EUT as shown in figure 4 without connection to measurement instrument. Turn on the EUT and connect its antenna terminal to measurement instrument via a low loss cable. Then set it to any one measured frequency within its operating range, and make sure the instrument is operated in its linear range. 3. Set the SA on Max-Hold Mode, and then keep the EUT in transmitting mode. Record all the signals from each channel until each one has been recorded. 4. Set the SA on View mode and then plot the result on SA screen. 5. Repeat above procedures until all frequencies measured were complete. 10.3 Measurement Results Please refer to Appendix G. Report # R0206174 Page 17 of 41 FCC Part 15.247 Test Report AMBIT Microsystems Corporation FCC ID: MCLT60H563 11 - PEAK POWER SPECTRAL DENSITY 11.1 Standard Applicable According to 15.247 (d), for direct sequence systems, the peak power spectral density conducted from the intentional radiator to the antenna shall not be greater than 8 dBm in any 3 kHz band during any time interval of continuous transmission. 11.2 Measurement Procedure 1. Check the calibration of the measuring instrument using either an internal calibrator or a known signal from an external generator. 2. Position the EUT was set without connection to measurement instrument. Turn on the EUT and connect its antenna terminal to measurement instrument via a low loss cable. Then set it to any one measured frequency within its operating range, and make sure the instrument is operated in its linear range. 3. Adjust the center frequency of SA on any frequency be measured and set SA to zero span mode. And then, set RBW and VBW of spectrum analyzer to proper value. 4. Repeat above procedures until all frequencies measured were complete. 11.3 Measurement Results Please refer to Appendix H. Report # R0206174 Page 18 of 41 FCC Part 15.247 Test Report AMBIT Microsystems Corporation FCC ID: MCLT60H563 12 - RADIATED EMISSION 12.1 Measurement Uncertainty All measurements involve certain levels of uncertainties, especially in field of EMC. The factors contributing to uncertainties are spectrum analyzer, cable loss, antenna factor calibration, antenna directivity, antenna factor variation with height, antenna phase center variation, antenna factor frequency interpolation, measurement distance variation, site imperfections, mismatch (average), and system repeatability. Based on NIS 81, The Treatment of Uncertainty in EMC Measurements, the best estimate of the uncertainty of a radiation emissions measurement at BACL is +4.0 dB. 12.2 Test Setup The radiated emission tests were performed in the open area 3-meter test site, using the setup in accordance with the ANSI C63.4-2000. The specification used was the FCC 15 Subpart C limits. The EUT was installed in the laptop. The laptop notebook was placed on the center of the back edge on the test table. The modem was placed on the one side of the laptop while the printer was on the other side. The rear of the laptop and peripherals were placed flushed with the rear of the tabletop. The spacing between the peripherals was 10 centimeters. External I/O cables were draped along the edge of the test table and bundle when necessary. The laptop was connected with 120Vac/60Hz power source. 12.3 Spectrum Analyzer Setup According to FCC Rules, 47 CFR 15.33 (a) (1), the system was tested to 25000 MHz. During the radiated emission test, the spectrum analyzer was set with the following configurations:

Start Frequency ........................................................... 30 MHz Stop Frequency ........................................................... 25000 MHz Sweep Speed ............................................................... Auto IF Bandwidth .............................................................. 1 MHz Video Bandwidth ........................................................ 1 MHz Quasi-Peak Adapter Bandwidth.................................. 120 kHz Quasi-Peak Adapter Mode.......................................... Normal Resolution Bandwidth................................................. 1MHz Report # R0206174 Page 19 of 41 FCC Part 15.247 Test Report AMBIT Microsystems Corporation FCC ID: MCLT60H563 12.4 Test Procedure For the radiated emissions test, both the laptop and all peripheral power cords were connected to the AC floor outlet since the power supply used in the laptop did not provide an accessory power outlet. Maximizing procedure was performed on the six (6) highest emissions to ensure EUT compliance is with all installation combinations. All data was recorded in the peak detection mode. Quasi-peak readings was performed only when an emission was found to be marginal (within -4 dBV of specification limits), and are distinguished with a

"Qp" in the data table. 12.5 Corrected Amplitude & Margin Calculation The Corrected Amplitude is calculated by adding the Antenna Factor and Cable Factor, and subtracting the Amplifier Gain from the Amplitude reading. The basic equation is as follows:

Corr. Ampl. = Indicated Reading + Antenna Factor + Cable Factor - Amplifier Gain The Margin column of the following data tables indicates the degree of compliance with the applicable limit. For example, a margin of -7dBV means the emission is 7dBV below the maximum limit for Class B. The equation for margin calculation is as follows:

Margin = Corr. Ampl. - Class B Limit Report # R0206174 Page 20 of 41 FCC Part 15.247 Test Report AMBIT Microsystems Corporation FCC ID: MCLT60H563 12.6 Summary of Test Results According to the data in section 11.7, the EUT complied with the FCC Title 47, Part 15, Subpart C, section 15.205, 15.207, and 15.247, and had the worst margin of:

Bluetooth Transmitter, KT1, Left Antenna, 30 to 25000MHz, 3 meters

-7.4 dBV at 4824.00 MHz (Avg.) in the Vertical polarization at Low Channel

-9.1 dBV at 4884 MHz (Avg.) in the Vertical polarization at Middle Channel

-11.0 dBV at 4944.00 MHz (Avg.) in the Vertical polarization at High Channel Bluetooth Transmitter, KT1, Right Antenna, 30 to 25000MHz, 3 meters

-7.4 dBV at 4824.00 MHz (Avg.) in the Vertical polarization at Low Channel

-7.0 dBV at 4884 MHz (Avg.) in the Vertical polarization at Middle Channel

-9.9 dBV at 4944.00 MHz (Avg.) in the Vertical polarization at High Channel Bluetooth, KT6, Left Antenna, 30 to 25000MHz, 3 meters

-7.4 dBV at 4824.00 MHz (Avg.) in the Vertical polarization at Low Channel

-9.1 dBV at 4884 MHz (Avg.) in the Vertical polarization at Middle Channel

-11.0 dBV at 4944.00 MHz (Avg.) in the Vertical polarization at High Channel Bluetooth Transmitter, KT6, Right Antenna, 30 to 25000MHz, 3 meters

-7.2 dBV at 4824.00 MHz (Avg.) in the Vertical polarization at Low Channel

-6.9 dBV at 4884 MHz (Avg.) in the Vertical polarization at Middle Channel

-9.8 dBV at 4944.00 MHz (Avg.) in the Vertical polarization at High Channel 802.11b Transmitter, KT1, Left Antenna, 30 to 25000MHz, 3 meters

-7.2 dBV at 4824.00 MHz (Avg.) in the Vertical polarization at Low Channel

-7.5 dBV at 4884 MHz (Avg.) in the Vertical polarization at Middle Channel

-10.1 dBV at 4944.00 MHz (Avg.) in the Vertical polarization at High Channel 802.11b Transmitter, KT1, Right Antenna, 30 to 25000MHz, 3 meters

-5.1 dBV at 4824.00 MHz (Avg.) in the Vertical polarization at Low Channel

-5.4 dBV at 4884 MHz (Avg.) in the Vertical polarization at Middle Channel

-7.4 dBV at 4944.00 MHz (Avg.) in the Vertical polarization at High Channel 802.11b Transmitter, KT6, Left Antenna, 30 to 25000MHz, 3 meters

-7.4 dBV at 4824.00 MHz (Avg.) in the Vertical polarization at Low Channel

-7.0 dBV at 4884 MHz (Avg.) in the Vertical polarization at Middle Channel

-10.2 dBV at 4944.00 MHz (Avg.) in the Vertical polarization at High Channel 802.11b Transmitter, KT6, Right Antenna, 30 to 25000MHz, 3 meters

-5.0 dBV at 4824.00 MHz (Avg.) in the Vertical polarization at Low Channel

-6.2 dBV at 4884 MHz (Avg.) in the Vertical polarization at Middle Channel

-7.5 dBV at 4944.00 MHz (Avg.) in the Vertical polarization at High Channel Report # R0206174 Page 21 of 41 FCC Part 15.247 Test Report AMBIT Microsystems Corporation FCC ID: MCLT60H563 12.7 Radiated Emission Test Data Bluetooth Transmitter, KT1 Notebook, Left Antenna Indicated Ampl. dBV/m Direction Degree Table Height Meter Antenna Polar H/V Antenna dBV/m Cable Loss dBV/m Correction Factor Corr. Ampl. dBV/m 39.2 33.7 32.5 28.4 32.4 31.1 31.6 30.3 37.5 36.0 31.8 27.2 31.5 33.1 32.4 30.6 35.6 30.9 33.4 28.70 32.5 30.40 31.2 29.3 110 260 120 290 220 210 45 0 45 0 220 250 60 150 180 80 0 270 45 310 170 150 200 210 1.0 1.5 1.2 1.5 1.2 1.5 1.5 1.2 1.2 1.5 1.2 1.0 1.2 1.2 1.0 1.0 1.2 1.2 1.0 1.5 1.2 1.5 1.0 1.2 V V H H V H V H V H V H V V H H V V H H V H V H Low Channel 32.5 4.9 35.1 5.6 32.5 4.9 35.1 5.6 13.1 3.0 13.1 3.0 12.6 2.3 12.6 2.3 Middle Channel 4.9 32.5 32.5 4.9 5.6 35.1 5.6 35.1 4.3 15.5 12.1 3.9 3.9 12.1 4.3 15.5 High Channel 32.5 4.9 5.6 35.1 4.9 32.5 5.6 35.1 12.5 4.7 4.7 12.5 2.6 15.0 15.0 2.6 FCC 15 Subpart C Limit dBV/m Margin Mode dB 54 54 54 54 46 46 46 46 54 54 54 54 46 46 46 46 54 54 54 54 43.5 43.5 46 46

-7.4

-9.6

-14.1

-14.9

-22.5

-23.8

-24.5

-25.8

-9.1

-10.6

-11.5

-16.1

-19.7

-21.9

-22.6

-25.6

-11.0

-12.4

-13.2

-14.6

-18.8

-20.9

-22.2

-24.1 AVG AVG AVG AVG

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46.6 44.4 39.9 39.1 23.5 22.2 21.5 20.2 44.9 43.4 42.5 37.9 26.3 24.1 23.4 20.4 43.0 41.6 40.8 39.4 24.7 22.6 23.8 21.9 Amp. dB 30.0 30.0 30.0 30.0 25.0 25.0 25.0 25.0 30.0 30.0 30.0 30.0 25.0 25.0 25.0 30.0 30.0 30.0 30.0 30.0 25.0 25.0 25.0 25.0 Freqency MHz 4824.00 7236.00 4824.00 7236.00 257.03 257.03 245.35 245.35 4884.00 4884.00 7326.00 7326.00 351.17 226.54 226.54 351.17 4944.00 7416.00 4944.00 7416.00 213.62 213.62 332.57 332.57 Report # R0206174 Page 22 of 41 FCC Part 15.247 Test Report AMBIT Microsystems Corporation FCC ID: MCLT60H563 Bluetooth, KT1 Notebook, Right Antenna Indicated Ampl. dBV/m Direction Degree Table Height Meter Antenna Polar H/V Antenna dBV/m Cable Loss dBV/m Correction Factor Corr. Ampl. dBV/m 39.2 35.5 31.2 27.9 33.1 32.7 31.4 30.6 39.6 36.2 29.4 27.1 31.7 33.2 32.7 30.4 36.7 35.4 31.5 28.4 32.6 31.30 30.4 29.7 90 110 180 160 270 230 0 30 0 30 0 45 90 150 170 60 45 45 150 270 60 90 170 210 1.0 1.2 1.0 1.5 1.2 1.5 1.5 1.2 1.2 1.5 1.5 1.5 1.2 1.5 1.2 1.0 1.2 1.5 1.2 1.2 1.0 1.2 1.0 1.2 V H V H V H V H V H V H V V H H V H V H V H V H Low Channel 4.9 32.5 4.9 32.5 5.6 35.1 5.6 35.1 3.0 13.1 3.0 13.1 2.3 12.6 12.6 2.3 Middle Channel 4.9 32.5 4.9 32.5 5.6 35.1 35.1 5.6 4.3 15.5 3.9 12.1 12.1 3.9 15.5 4.3 High Channel 4.9 32.5 32.5 4.9 5.6 35.1 5.6 35.1 4.7 12.5 12.5 4.7 2.6 15.0 15.0 2.6 FCC 15 Subpart C Limit dBV/m Margin Mode dB 54 54 54 54 46 46 46 46 54 54 54 54 46 46 46 46 54 54 54 54 43.5 43.5 46 46

-7.4

-11.1

-13.1

-17.4

-21.8

-22.2

-24.7

-25.5

-7.0

-10.4

-14.9

-18.2

-19.5

-21.8

-22.3

-25.8

-9.9

-11.2

-12.8

-16.9

-18.7

-20.0

-23.0

-23.7 AVG AVG AVG AVG

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46.6 42.9 40.9 36.6 24.2 23.8 21.3 20.5 47.0 43.6 39.1 35.8 26.5 24.2 23.7 20.2 44.1 42.8 41.2 37.1 24.8 23.5 23.0 22.3 Amp. dB 30.0 30.0 31.0 32.0 25.0 25.0 25.0 25.0 30.0 30.0 31.0 32.0 25.0 25.0 25.0 30.0 30.0 30.0 31.0 32.0 25.0 25.0 25.0 25.0 Freqency MHz 4824.00 4824.00 7236.00 7236.00 257.03 257.03 245.35 245.35 4884.00 4884.00 7326.00 7326.00 351.17 226.54 226.54 351.17 4944.00 4944.00 7416.00 7416.00 213.62 213.62 332.57 332.57 Report # R0206174 Page 23 of 41 FCC Part 15.247 Test Report AMBIT Microsystems Corporation FCC ID: MCLT60H563 Bluetooth, KT6 Notebook, Left Antenna Freqency MHz 4824.00 7236.00 4824.00 7236.00 257.03 257.03 245.35 245.35 4884.00 4884.00 7326.00 7326.00 351.17 226.54 226.54 351.17 39.2 33.7 32.5 28.4 32.4 31.1 31.6 30.3 37.5 36.0 31.8 27.2 31.5 33.1 32.4 30.6 4944.00 7416.00 4944.00 7416 213.62 213.62 332.57 332.57 35.6 30.9 33.4 28.70 32.5 30.40 31.2 29.3 Indicated Ampl. dBV/m Direction Degree Table Height Meter Antenna Polar H/V Antenna dBV/m Cable Loss dBV/m Correction Factor Corr. Ampl. dBV/m 110 260 120 290 220 210 45 0 45 0 220 250 60 150 180 80 0 270 45 310 170 150 200 210 1.0 1.5 1.2 1.5 1.2 1.5 1.5 1.2 1.2 1.5 1.2 1.0 1.2 1.2 1.0 1.0 1.2 1.2 1.0 1.5 1.2 1.5 1.0 1.2 V V H H V H V H V H V H V V H H V V H H V H V H Low Channel 4.9 32.5 5.6 35.1 4.9 32.5 5.6 35.1 3.0 13.1 3.0 13.1 2.3 12.6 12.6 2.3 Middle Channel 4.9 32.5 4.9 32.5 5.6 35.1 35.1 5.6 4.3 15.5 3.9 12.1 12.1 3.9 15.5 4.3 High Channel 4.9 32.5 35.1 5.6 4.9 32.5 5.6 35.1 4.7 12.5 12.5 4.7 2.6 15.0 15.0 2.6 FCC 15 Subpart C Limit dBV/m Margin Mode dB 54 54 54 54 46 46 46 46 54 54 54 54 46 46 46 46 54 54 54 54 43.5 43.5 46 46

-7.4

-9.6

-14.1

-14.9

-22.5

-23.8

-24.5

-25.8

-9.1

-10.6

-11.5

-16.1

-19.7

-21.9

-22.6

-25.6

-11.0

-12.4

-13.2

-14.6

-18.8

-20.9

-22.2

-24.1 AVG AVG AVG AVG

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46.6 44.4 39.9 39.1 23.5 22.2 21.5 20.2 44.9 43.4 42.5 37.9 26.3 24.1 23.4 20.4 43.0 41.6 40.8 39.4 24.7 22.6 23.8 21.9 Amp. dB 30.0 30.0 30.0 30.0 25.0 25.0 25.0 25.0 30.0 30.0 30.0 30.0 25.0 25.0 25.0 30.0 30.0 30.0 30.0 30.0 25.0 25.0 25.0 25.0 Report # R0206174 Page 24 of 41 FCC Part 15.247 Test Report AMBIT Microsystems Corporation FCC ID: MCLT60H563 Bluetooth, KT6 Notebook, Right Antenna Indicated Ampl. dBV/m Direction Degree Table Height Meter Antenna Polar H/V Antenna dBV/m Cable Loss dBV/m Correction Factor Corr. Ampl. dBV/m 39.4 32.6 35.4 29.2 33.4 32.8 31.7 30.5 39.7 33.1 36.4 28.9 31.2 33.1 32.8 30.5 36.8 35.5 30.7 28.50 32.9 31.40 30.6 29.5 90 180 110 210 270 230 0 30 0 45 30 60 90 150 170 60 45 45 270 230 60 90 170 210 1.0 1.0 1.2 1.2 1.2 1.5 1.5 1.2 1.2 1.2 1.5 1.0 1.2 1.5 1.2 1.0 1.2 1.5 1.2 1.2 1.0 1.2 1.0 1.2 V V H H V H V H V V H H V V H H V H V H V H V H Low Channel 4.9 32.5 5.6 35.1 4.9 32.5 5.6 35.1 3.0 13.1 3.0 13.1 2.3 12.6 12.6 2.3 Middle Channel 4.9 32.5 5.6 35.1 4.9 32.5 35.1 5.6 4.3 15.5 3.9 12.1 12.1 3.9 15.5 4.3 High Channel 4.9 32.5 32.5 4.9 5.6 35.1 5.6 35.1 4.7 12.5 12.5 4.7 2.6 15.0 15.0 2.6 FCC 15 Subpart C Limit dBV/m Margin Mode dB 54 54 54 54 46 46 46 46 54 54 54 54 46 46 46 46 54 54 54 54 43.5 43.5 46 46

-7.2

-10.7

-11.2

-14.1

-21.5

-22.1

-24.4

-25.6

-6.9

-10.2

-10.2

-14.4

-20.0

-21.9

-22.2

-25.7

-9.8

-11.1

-12.6

-14.8

-18.4

-19.9

-22.8

-23.9 AVG AVG AVG AVG

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46.8 43.3 42.8 39.9 24.5 23.9 21.6 20.4 47.1 43.8 43.8 39.6 26.0 24.1 23.8 20.3 44.2 42.9 41.4 39.2 25.1 23.6 23.2 22.1 Amp. dB 30.0 30.0 30.0 30.0 25.0 25.0 25.0 25.0 30.0 30.0 30.0 30.0 25.0 25.0 25.0 30.0 30.0 30.0 30.0 30.0 25.0 25.0 25.0 25.0 Freqency MHz 4824.00 7236.00 4824.00 7236.00 257.03 257.03 245.35 245.35 4884.00 7326.00 4884.00 7326.00 351.17 226.54 226.54 351.17 4944.00 4944.00 7416.00 7416.00 213.62 213.62 332.57 332.57 Report # R0206174 Page 25 of 41 FCC Part 15.247 Test Report AMBIT Microsystems Corporation FCC ID: MCLT60H563 802.11b, KT1 Notebook, Left Antenna Freqency MHz 4824.00 7236.00 7236.00 4824.00 257.03 245.35 245.35 257.03 4884.00 7326.00 7326.00 4884.00 351.17 226.54 226.54 351.17 39.4 33.5 32.7 34.7 33.1 31.5 30.6 29.4 39.1 34.9 34.3 35.3 33.8 32.5 31.6 30.2 4944.00 7416.00 7416.00 4944.00 213.62 213.62 332.57 332.57 36.5 32.3 31.6 33.2 30.9 29.70 30.3 28.4 Indicated Ampl. dBV/m Direction Degree Table Height Meter Antenna Polar H/V Antenna dBV/m Cable Loss dBV/m Correction Factor Corr. Ampl. dBV/m 300 150 180 280 250 40 45 270 90 45 45 45 90 160 180 110 250 120 180 190 60 30 180 220 1.5 1.5 1.2 1.2 1.5 1.2 1.2 1.2 1.5 1.2 1.2 1.5 1.2 1.5 1.5 1.2 1.2 1.2 1.0 1.5 1.0 1.2 1.0 1.2 V V H H V V H H V V H H V V H H V H V H V H V H Low Channel 4.9 32.5 5.6 35.1 5.6 35.1 4.9 32.5 3.0 13.1 2.3 12.6 2.3 12.6 13.1 3.0 Middle Channel 4.9 32.5 5.6 35.1 5.6 35.1 32.5 4.9 4.3 15.5 3.9 12.1 12.1 3.9 15.5 4.3 High Channel 4.9 32.5 35.1 5.6 5.6 35.1 4.9 32.5 4.7 12.5 12.5 4.7 2.6 15.0 15.0 2.6 FCC 15 Subpart C Limit dBV/m Margin Mode dB 54 54 54 54 46 46 46 46 54 54 54 54 46 46 46 46 54 54 54 54 43.5 43.5 46 46

-7.2

-9.8

-10.6

-11.9

-21.8

-24.6

-25.5

-25.5

-7.5

-8.4

-9.0

-11.3

-17.4

-22.5

-23.4

-26.0

-10.1

-11.0

-11.7

-13.4

-20.4

-21.6

-23.1

-25.0 AVG AVG AVG AVG

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/

46.8 44.2 43.4 42.1 24.2 21.4 20.5 20.5 46.5 45.6 45.0 42.7 28.6 23.5 22.6 20.0 43.9 43.0 42.3 40.6 23.1 21.9 22.9 21.0 Amp. dB 30.0 30.0 30.0 30.0 25.0 25.0 25.0 25.0 30.0 30.0 30.0 30.0 25.0 25.0 25.0 30.0 30.0 30.0 30.0 30.0 25.0 25.0 25.0 25.0 Report # R0206174 Page 26 of 41 FCC Part 15.247 Test Report AMBIT Microsystems Corporation FCC ID: MCLT60H563 802.11b, KT1 Notebook, Right Antenna Indicated Ampl. dBV/m Direction Degree Table Height Meter Antenna Polar H/V Antenna dBV/m Cable Loss dBV/m Correction Factor Corr. Ampl. dBV/m Freqency MHz 4824.00 7236.00 7236.00 4824.00 257.03 257.03 245.35 245.35 4884.00 7326.00 7326.00 4884.00 351.17 226.54 226.54 351.17 4944.00 7416.00 7416.00 4944.00 213.62 213.62 332.57 332.57 41.5 33.8 32.0 35.2 33.4 32.8 31.7 30.5 41.2 37.6 35.7 36.4 33.9 34.1 32.5 30.2 39.2 33.8 32.7 35.5 32.9 31.40 30.6 29.5 310 270 145 290 210 270 40 0 90 180 120 30 90 160 180 110 270 120 45 220 60 90 170 210 1.5 1.0 1.2 1.5 1.5 1.5 1.2 1.2 1.5 1.5 1.2 1.5 1.2 1.5 1.5 1.2 1.2 1.5 1.2 1.5 1.0 1.2 1.0 1.2 V V H H V H V H V V H H V V H H V V H H V H V H Low Channel 4.9 32.5 5.6 35.1 5.6 35.1 4.9 32.5 3.0 13.1 3.0 13.1 2.3 12.6 12.6 2.3 Middle Channel 4.9 32.5 5.6 35.1 5.6 35.1 32.5 4.9 4.3 15.5 3.9 12.1 12.1 3.9 15.5 4.3 High Channel 4.9 32.5 35.1 5.6 5.6 35.1 4.9 32.5 4.7 12.5 12.5 4.7 2.6 15.0 15.0 2.6 FCC 15 Subpart C Limit dBV/m Margin Mode dB 54 54 54 54 46 46 46 46 54 54 54 54 46 46 46 46 54 54 54 54 43.5 43.5 46 46

-5.1

-9.5

-11.3

-11.4

-21.5

-22.1

-24.4

-25.6

-5.4

-5.7

-7.6

-10.2

-17.3

-20.9

-22.5

-26.0

-7.4

-9.5

-10.6

-11.1

-18.4

-19.9

-22.8

-23.9 AVG AVG AVG AVG

/

/

/

/

AVG AVG AVG AVG

/

/

/

/

AVG AVG AVG AVG

/

/

/

/

48.9 44.5 42.7 42.6 24.5 23.9 21.6 20.4 48.6 48.3 46.4 43.8 28.7 25.1 23.5 20.0 46.6 44.5 43.4 42.9 25.1 23.6 23.2 22.1 Amp. dB 30.0 30.0 30.0 30.0 25.0 25.0 25.0 25.0 30.0 30.0 30.0 30.0 25.0 25.0 25.0 30.0 30.0 30.0 30.0 30.0 25.0 25.0 25.0 25.0 Report # R0206174 Page 27 of 41 FCC Part 15.247 Test Report AMBIT Microsystems Corporation FCC ID: MCLT60H563 802.11b, KT6 Notebook, Left Antenna Indicated Freqency MHz Ampl. dBV/m Direction Degree Table Height Meter Polar H/V Antenna dBV/m Cable Loss dBV/m Antenna Correction Factor 4824.00 7236.00 7236.00 4824.00 257.03 245.35 245.35 257.03 4884.00 7326.00 7326.00 4884.00 351.17 226.54 226.54 351.17 39.2 33.7 32.6 34.8 33.6 31.4 30.5 29.1 39.6 35.3 32.8 35.2 33.7 32.3 31.4 30.1 4944.00 7416.00 7416.00 4944.00 213.62 213.62 332.57 332.57 36.4 31.8 31.3 32.7 30.8 29.60 30.2 28.5 320 240 180 260 210 90 45 230 60 150 260 90 130 160 170 110 270 150 180 210 180 150 110 90 1.2 1.5 1.0 1.2 1.5 1.2 1.5 1.2 1.5 1.2 1.0 1.5 1.0 1.2 1.5 1.2 1.2 1.0 1.5 1.0 1.2 1.0 1.0 1.2 V V H H V V H H V V H H V V H H V H V H V H V H Low Channel 4.9 32.5 5.6 35.1 5.6 35.1 4.9 32.5 3.0 13.1 2.3 12.6 2.3 12.6 13.1 3.0 Middle Channel 4.9 32.5 35.1 5.6 5.6 35.1 4.9 32.5 4.3 15.5 12.1 3.9 3.9 12.1 4.3 15.5 High Channel 4.9 32.5 5.6 35.1 5.6 35.1 32.5 4.9 4.7 12.5 4.7 12.5 2.6 15.0 15.0 2.6 Amp. dB 30.0 30.0 30.0 30.0 25.0 25.0 25.0 25.0 30.0 30.0 30.0 30.0 25.0 25.0 25.0 30.0 30.0 30.0 30.0 30.0 25.0 25.0 25.0 25.0 Corr. Ampl. dBV/m Limit dBV/m 46.6 44.4 43.3 42.2 24.7 21.3 20.4 20.2 47.0 46.0 43.5 42.6 28.5 23.3 22.4 19.9 43.8 42.5 42.0 40.1 23.0 21.8 22.8 21.1 54 54 54 54 46 46 46 46 54 54 54 54 46 46 46 46 54 54 54 54 43.5 43.5 46 46 FCC 15 Subpart C Margin dB

-7.4

-9.6

-10.7

-11.8

-21.3

-24.7

-25.6

-25.8

-7.0

-8.0

-10.5

-11.4

-17.5

-22.7

-23.6

-26.1

-10.2

-11.5

-12.0

-13.9

-20.5

-21.7

-23.2

-24.9 Mode AVG AVG AVG AVG

/

/

/

/

AVG AVG AVG AVG

/

/

/

/

AVG AVG AVG AVG

/

/

/

/

Report # R0206174 Page 28 of 41 FCC Part 15.247 Test Report AMBIT Microsystems Corporation FCC ID: MCLT60H563 802.11b, KT6 Notebook, Right Antenna Indicated Ampl. dBV/m Direction Degree Table Height Meter Antenna Polar H/V Antenna dBV/m Cable Loss dBV/m Correction Factor Corr. Ampl. dBV/m Freqency MHz 4824.00 7236.00 7236.00 4824.00 257.03 257.03 245.35 245.35 4884.00 7326.00 7326.00 4884.00 351.17 226.54 226.54 351.17 4944.00 7416.00 7416.00 4944.00 213.62 213.62 332.57 332.57 41.6 34.8 34.5 35.1 32.3 31.7 31.6 30.4 40.4 36.1 34.2 35.9 31.8 34.3 32.6 29.7 330 150 180 270 250 270 30 0 60 45 110 45 80 160 190 110 1.5 1.2 1.0 1.5 1.5 1.2 1.5 1.2 1.5 1.0 1.2 1.5 1.2 1.5 1.5 1.2 V H V H V H V H V H V H V V H H 39.1 34.8 33.7 35.6 32.7 31.20 30.7 29.6 210 120 270 240 90 90 170 180 1.5 1.2 1.5 1.5 1.0 1.0 1.0 1.2 V V H H V H V H Low Channel 4.9 32.5 5.6 35.1 5.6 35.1 4.9 32.5 3.0 13.1 3.0 13.1 2.3 12.6 12.6 2.3 Middle Channel 4.9 32.5 5.6 35.1 5.6 35.1 32.5 4.9 4.3 15.5 3.9 12.1 12.1 3.9 15.5 4.3 High Channel 4.9 32.5 35.1 5.6 5.6 35.1 4.9 32.5 4.7 12.5 12.5 4.7 2.6 15.0 15.0 2.6

* There was no apparent emission after the third harmonics. FCC 15 Subpart C Limit dBV/m Margin Mode dB 54 54 54 54 46 46 46 46 54 54 54 54 46 46 46 46 54 54 54 54 43.5 43.5 46 46

-5.0

-8.5

-8.8

-11.5

-22.6

-23.2

-24.5

-25.7

-6.2

-7.2

-9.1

-10.7

-19.4

-20.7

-22.4

-26.5

-7.5

-8.5

-9.6

-11.0

-18.6

-20.1

-22.7

-23.8 AVG AVG AVG AVG

/

/

/

/

AVG AVG AVG AVG

/

/

/

/

AVG AVG AVG AVG

/

/

/

/

49.0 45.5 45.2 42.5 23.4 22.8 21.5 20.3 47.8 46.8 44.9 43.3 26.6 25.3 23.6 19.5 46.5 45.5 44.4 43.0 24.9 23.4 23.3 22.2 Amp. dB 30.0 30.0 30.0 30.0 25.0 25.0 25.0 25.0 30.0 30.0 30.0 30.0 25.0 25.0 25.0 30.0 30.0 30.0 30.0 30.0 25.0 25.0 25.0 25.0 Report # R0206174 Page 29 of 41 FCC Part 15.247 Test Report AMBIT Microsystems Corporation FCC ID: MCLT60H563 13 - CONDUCTED EMISSION 13.1 Measurement Uncertainty All measurements involve certain levels of uncertainties, especially in field of EMC. The factors contributing to uncertainties are spectrum analyzer, cable loss, and LISN. Based on NIS 81, The Treatment of Uncertainty in EMC Measurements, the best estimate of the uncertainty of any conducted emissions measurement at BACL is +2.4 dB. 13.2 Test Setup The EUT was installed in the laptop. The laptop notebook was placed on the center of the back edge on the test table. The modem was placed on the one side of the laptop while the printer was on the other side. The rear of the laptop and peripherals were placed flushed with the rear of the tabletop. The spacing between the peripherals was 10 centimeters. External I/O cables were draped along the edge of the test table and bundle when necessary. The laptop was connected with 120Vac/60Hz power source. 13.3 Spectrum Analyzer Setup The spectrum analyzer was set with the following configurations during the conduction test:

Start Frequency............................................................................... 450 kHz Stop Frequency............................................................................... 30 MHz Sweep Speed................................................................................... Auto IF Bandwidth.................................................................................. 10 kHz Video Bandwidth............................................................................ 10 kHz Quasi-Peak Adapter Bandwidth ..................................................... 9 kHz Quasi-Peak Adapter Mode.............................................................. Normal 13.4 Test Procedure During the conducted emission test, the power cord of the host system was connected to the auxiliary outlet of the first LISN. Maximizing procedure was performed on the six (6) highest emissions of each modes tested to ensure EUT is compliant with all installation combination. All data was recorded in the peak detection mode. Quasi-peak readings were only performed when an emission was found to be marginal (within -4 dBV of specification limits). Quasi-peak readings are distinguished with a "Qp". Report # R0206174 Page 30 of 41 FCC Part 15.247 Test Report AMBIT Microsystems Corporation FCC ID: MCLT60H563 13.5 Summary of Test Results According to the data in section 12.6, the EUT complied with the FCC Conducted margin for a Class B device, with the worst margin reading of:

-12.3 dBV at 0.620 MHz in the Line mode 13.6 Conducted Emissions Test Data LINE CONDUCTED EMISSIONS FCC CLASS B Frequency Amplitude Detector Qp/Ave/Peak Phase Line/Neutral MHz 0.620 19.360 0.550 1.240 1.450 21.109 dBV 35.7 35.4 34.3 33.5 32.6 31.6 QP QP QP QP QP QP Line Line Neutral Neutral Line Neutral Limit dBV 48 48 48 48 48 48 13.7 Plot of Conducted Emissions Test Data Plot(s) of Conducted Emissions Test Data is presented in the following page as reference. Margin dB

-12.3

-12.6

-13.7

-14.5

-15.4

-16.4 Report # R0206174 Page 31 of 41 FCC Part 15.247 Test Report AMBIT Microsystems Corporation FCC ID: MCLT60H563 14 - ANTENNA REQUIREMENT According to 15.203, 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. And according to 15.247 (1), if transmitting antennas of directional gain greater than 6 dBi are used the power shall be reduced by the amount in dB that the directional gain of the antenna exceeds 6 dBi. The directional gain of antenna used for transmitting is 2 dBi by default, and the antenna connector is designed with permanent attachment and no consideration of replacement. Please see EUT photo for details. Please refer to Appendix I for detailed antenna information used by the EUT. Report # R0206174 Page 32 of 41 FCC Part 15.247 Test Report AMBIT Microsystems Corporation FCC ID: MCLT60H563 15 - RF EXPOSURE According to 15.247(b)(4) and 1.1307(b)(1), 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 level in excess of the Commissions guidelines. According to 1.1310 and 2.1093 RF exposure is calculated. Limits for Maximum Permissive Exposure (MPE) Frequency Range

(MHz) Electric Field Strength (V/m) Magnetic Field Strength (A/m) Power Density Averaging Time

(minute) 0.3-1.34 1.34-30 30-300 300-1500 1500-15000

(mW/cm2) Limits for General Population/Uncontrolled Exposure 614 824/f 27.5 1.63 2.19/f 0.073

*(100)

*(180/f2) 0.2

/

/

/

/

f/1500 1.0 30 30 30 30 30 f = frequency in MHz

* = Plane-wave equivalent power density MPE Prediction Predication of MPE limit at a given distance Equation from page 18 of OET Bulletin 65, Edition 97-01 S = PG/4R Where: S = power density P = power input to antenna G = power gain of the antenna in the direction of interest relative to an isotropic radiator R = distance to the center of radiation of the antenna Maximum peak output power at antenna input terminal: 12.14 (dBm) Maximum peak output power at antenna input terminal: 16.37(mW) Antenna Gain (typical): 2 (dBi) Maximum antenna gain: 1.58 (numeric) Prediction distance: 20 (cm) Predication frequency: 2400 (MHz) MPE limit for uncontrolled exposure at prediction frequency: 1 (mW/cm^2) Power density at predication frequency: 0.005 (mW/cm^2) Maximum allowable antenna gain: 306.9(dBm) Maximum allowable antenna gain: 24.9(dBi) Measurement Result The predicted power density level at 20 cm is 0.005mW/cm. This is below the uncontrolled exposure limit of 1mW/cm at 2400 MHz. This radio is intended to be installed in laptop PC only and is thus classed as mobile equipment. Report # R0206174 Page 33 of 41 FCC Part 15.247 Test Report AMBIT Microsystems Corporation FCC ID: MCLT60H563 EXHIBIT A - FCC ID LABEL INFORMATION Report # R0206174 Page 34 of 41 FCC Part 15.247 Test Report AMBIT Microsystems Corporation FCC ID: MCLT60H563 EXHIBIT B - TEST SETUP PHOTOGRAPHS Report # R0206174 Page 35 of 41 FCC Part 15.247 Test Report AMBIT Microsystems Corporation FCC ID: MCLT60H563 EXHIBIT C - EUT EXTERNAL PHOTOGRAPHS Report # R0206174 Page 36 of 41 FCC Part 15.247 Test Report AMBIT Microsystems Corporation FCC ID: MCLT60H563 EXHIBIT D - EUT INTERNAL PHOTOGRAPHS Report # R0206174 Page 37 of 41 FCC Part 15.247 Test Report AMBIT Microsystems Corporation FCC ID: MCLT60H563 EXHIBIT E - BLOCK DIAGRAM Report # R0206174 Page 38 of 41 FCC Part 15.247 Test Report AMBIT Microsystems Corporation FCC ID: MCLT60H563 EXHIBIT F - SCHEMATICS Report # R0206174 Page 39 of 41 FCC Part 15.247 Test Report AMBIT Microsystems Corporation FCC ID: MCLT60H563 EXHIBIT G - OPERATIONAL DESCRIPTION Report # R0206174 Page 40 of 41 FCC Part 15.247 Test Report AMBIT Microsystems Corporation FCC ID: MCLT60H563 EXHIBIT H - USERS MANUAL Report # R0206174 Page 41 of 41 FCC Part 15.247 Test Report

 

 

AMBIT Microsystems Corporation FCC ID: MCLT60H563 APPENDIX B - TEST SETUP PHOTOGRAPHS Conducted Emission - Front View Conducted Emission Test Setup - Rear View Report #Exhibit B Page 1 of 2 AMBIT Microsystems Corporation FCC ID: MCLT60H563 Radiated Emission - Front View Radiated Emission - Rear View Report #Exhibit B Page 2 of 2

 

 

CCBG-CABLE-ME Quanta KT1,5 Antenna Test Report Confidential 3/12/2002 Page:1 Sheng Tai Antenna Location CCBG-CABLE-ME Left Antenna Right Antenna Confidential 3/12/2002 Page:2 VSWR For Left 14 LCD 1. LCD Open 2. LCD Close CCBG-CABLE-ME Confidential 3/12/2002 Page:3 CCBG-CABLE-ME XY Plane Radiation Pattern For Left 14 LCD

(Open) HORIZONTAL POLARIZATION VERTICAL POLARIZATION Confidential 3/12/2002 Page:4 CCBG-CABLE-ME Average Gain For Left 14 LCD Antenna

(Open)

(dBi) XY-H XY--V Total Average Gain 2400 MHz 2450 MHz 2500 MHz

-10.51

-6.70

-5.19

-9.77

-6.16

-4.59

-9.98

-6.21

-4.69 PEAK GAIN

(dBi) XY-H XY--V 2400 MHz 2450 MHz 2500 MHz

-4.57

-1.23

-4.20

-0.95

-4.99

-6.00 Confidential 3/12/2002 Page:5 CCBG-CABLE-ME XY Plane Radiation Pattern For Left 14 LCD

(Close) HORIZONTAL POLARIZATION VERTICAL POLARIZATION Confidential 3/12/2002 Page:6 CCBG-CABLE-ME Average Gain For Left 14 LCD Antenna

(Close)

(dBi) XY-H XY--V Total Average Gain 2400 MHz 2450 MHz 2500 MHz

-8.34

-13.21

-7.11

-8.17

-11.87

-6.63

-8.10

-11.13

-6.35 PEAK GAIN

(dBi) XY-H XY--V 2400 MHz 2450 MHz 2500 MHz

-2.17

-7.90

-3.32

-6.54

-3.49

-6.48 Confidential 3/12/2002 Page:7 VSWR For Right 14 LCD 1. LCD Open 2. LCD Close CCBG-CABLE-ME Confidential 3/12/2002 Page:8 CCBG-CABLE-ME XY Plane Radiation Pattern For Right 14 LCD

(Open) HORIZONTAL POLARIZATION VERTICAL POLARIZATION Confidential 3/12/2002 Page:9 CCBG-CABLE-ME Average Gain For Right 14 LCD Antenna

(Open)

(dBi) XY-H XY--V Total Average Gain 2400 MHz 2450 MHz 2500 MHz

-10.91

-6.77

-5.35

-10.57

-6.33

-4.94

-11.13

-6.35

-5.10 PEAK GAIN

(dBi) XY-H XY--V 2400 MHz 2450 MHz 2500 MHz

-4.24

-2.27

-2.64

-1.86

-2.84

-1.51 Confidential 3/12/2002 Page:10 CCBG-CABLE-ME XY Plane Radiation Pattern For Right 14 LCD

(Close) HORIZONTAL POLARIZATION VERTICAL POLARIZATION Confidential 3/12/2002 Page:11 CCBG-CABLE-ME Average Gain For Right 14 LCD Antenna

(Close)

(dBi) XY-H XY--V Total Average Gain 2400 MHz 2450 MHz 2500 MHz

-12.35

-9.18

-7.47

-12.82

-8.29

-6.98

-13.86

-9.68

-8.28 PEAK GAIN

(dBi) XY-H XY--V 2400 MHz 2450 MHz 2500 MHz

-6.65

-4.84

-7.22

-3.91

-8.09

-6.17 Confidential 3/12/2002 Page:12 VSWR For Left 15 LCD 1. LCD Open 2. LCD Close CCBG-CABLE-ME Confidential 3/12/2002 Page:13 CCBG-CABLE-ME XY Plane Radiation Pattern For Left 15 LCD

(Open) HORIZONTAL POLARIZATION VERTICAL POLARIZATION Confidential 3/12/2002 Page:14 CCBG-CABLE-ME Average Gain For Left 15 LCD Antenna

(Open)

(dBi) XY-H XY--V Total Average Gain 2400 MHz 2450 MHz 2500 MHz

-11.26

-6.05

-4.91

-11.55

-5.93

-4.88

-12.90

-6.03

-5.22 PEAK GAIN

(dBi) XY-H XY--V 2400 MHz 2450 MHz 2500 MHz

-4.86

-2.10

-4.94

-1.57

-4.74

-0.65 Confidential 3/12/2002 Page:15 CCBG-CABLE-ME XY Plane Radiation Pattern For Left 15 LCD

(Close) HORIZONTAL POLARIZATION VERTICAL POLARIZATION Confidential 3/12/2002 Page:16 CCBG-CABLE-ME Average Gain For Left 15 LCD Antenna

(Close)

(dBi) XY-H XY--V Total Average Gain 2400 MHz 2450 MHz 2500 MHz

-8.35

-11.55

-6.65

-7.80

-10.86

-6.06

-7.23

-10.15

-5.44 PEAK GAIN

(dBi) XY-H XY--V 2400 MHz 2450 MHz 2500 MHz

-4.25

-4.27

-2.96

-3.93

-2.60

-6.22 Confidential 3/12/2002 Page:17 VSWR For Right 15 LCD 1. LCD Open 2. LCD Close CCBG-CABLE-ME Confidential 3/12/2002 Page:18 CCBG-CABLE-ME XY Plane Radiation Pattern For Right 15 LCD

(Open) HORIZONTAL POLARIZATION VERTICAL POLARIZATION Confidential 3/12/2002 Page:19 CCBG-CABLE-ME Average Gain For Right 15 LCD Antenna

(Open)

(dBi) XY-H XY--V Total Average Gain 2400 MHz 2450 MHz 2500 MHz

-9.92

-6.59

-4.93

-10.49

-6.26

-4.87

-11.83

-5.55

-4.63 PEAK GAIN

(dBi) XY-H XY--V 2400 MHz 2450 MHz 2500 MHz

-2.80

-1.73

-2.80

-1.97

-3.51

-1.89 Confidential 3/12/2002 Page:20 CCBG-CABLE-ME XY Plane Radiation Pattern For Right 15 LCD

(Close) HORIZONTAL POLARIZATION VERTICAL POLARIZATION Confidential 3/12/2002 Page:21 CCBG-CABLE-ME Average Gain For Right 15 LCD Antenna

(Close)

(dBi) XY-H XY--V Total Average Gain 2400 MHz 2450 MHz 2500 MHz

-12.99

-8.21

-6.96

-12.68

-8.15

-6.84

-12.15

-8.16

-6.70 PEAK GAIN

(dBi) XY-H XY--V 2400 MHz 2450 MHz 2500 MHz

-6.96

-3.44

-7.85

-2.98

-5.89

-2.58 Confidential 3/12/2002 Page:22 CCBG-CABLE-ME Summary Of Total Average Gain 14" LCD Open (Left) 15" LCD Open (Left)

(dBi) XY-H XY--V Total Average Gain 14" LCD Close (Left)

(dBi) XY-H XY--V Total Average Gain 14" LCD Open (Right)

(dBi) XY-H XY--V Total Average Gain 14" LCD Close (Right) 2400 MHz 2450 MHz 2500 MHz

-10.51

-6.70

-5.19

-9.77

-6.16

-4.59

-9.98

-6.21

-4.69 2400 MHz 2450 MHz 2500 MHz

-8.34

-13.21

-7.11

-8.17

-11.87

-6.63

-8.10

-11.13

-6.35 2400 MHz 2450 MHz 2500 MHz

-10.91

-6.77

-5.35

-10.57

-6.33

-4.94

-11.13

-6.35

-5.10

(dBi) XY-H XY--V Total Average Gain 15" LCD Close (Left)

(dBi) XY-H XY--V Total Average Gain 15" LCD Open (Right)

(dBi) XY-H XY--V Total Average Gain 15" LCD Close (Right) 2400 MHz 2450 MHz 2500 MHz

-11.26

-6.05

-4.91

-11.55

-5.93

-4.88

-12.90

-6.03

-5.22 2400 MHz 2450 MHz 2500 MHz

-8.35

-11.55

-6.65

-7.80

-10.86

-6.06

-7.23

-10.15

-5.44 2400 MHz 2450 MHz 2500 MHz

-9.92

-6.59

-4.93

-10.49

-6.26

-4.87

-11.83

-5.55

-4.63

(dBi) XY-H XY--V Total Average Gain 2400 MHz 2450 MHz 2500 MHz

-12.35

-9.18

-7.47

-12.82

-8.29

-6.98

-13.86

-9.68

-8.28

(dBi) XY-H XY--V Total Average Gain 2400 MHz 2450 MHz 2500 MHz

-12.99

-8.21

-6.96

-12.68

-8.15

-6.84

-12.15

-8.16

-6.70 Confidential 3/12/2002 Page:23 Summary Of Peak Gain CCBG-CABLE-ME 14" LCD Open (Left) 15" LCD Open (Left)

(dBi) XY-H XY--V 2400 MHz 2450 MHz 2500 MHz

-4.57

-1.23

-4.20

-0.95

-4.99

-6.00

(dBi) XY-H XY--V 2400 MHz 2450 MHz 2500 MHz

-4.86

-2.10

-4.94

-1.57

-4.74

-0.65 14" LCD Close (Left) 15" LCD Close (Left)

(dBi) XY-H XY--V 2400 MHz 2450 MHz 2500 MHz

-2.17

-7.90

-3.32

-6.54

-3.49

-6.48

(dBi) XY-H XY--V 2400 MHz 2450 MHz 2500 MHz

-4.25

-4.27

-2.96

-3.93

-2.60

-6.22 14" LCD Open (Right) 15" LCD Open (Right)

(dBi) XY-H XY--V 2400 MHz 2450 MHz 2500 MHz

-4.24

-2.27

-2.64

-1.86

-2.84

-1.51

(dBi) XY-H XY--V 2400 MHz 2450 MHz 2500 MHz

-2.80

-1.73

-2.80

-1.97

-3.51

-1.89 14" LCD Close (Right) 15" LCD Close (Right)

(dBi) XY-H XY--V 2400 MHz 2450 MHz 2500 MHz

-6.65

-4.84

-7.22

-3.91

-8.09

-6.17

(dBi) XY-H XY--V 2400 MHz 2450 MHz 2500 MHz

-6.96

-3.44

-7.85

-2.98

-5.89

-2.58 Confidential 3/12/2002 Page:24