FCC ID: MI7-M64800G-25 Mobile Data Radio

INSTALLATION GUIDE Mobile Data Computer for Communication with the IPSeries Mobile Radio INSTALLATION GUIDE CONTENTS:

Section Title Page

MDC-to-Mobile Radio Illustration ............................................. 2

Installation Requirements......................................................... 2

SLIP2IPMN Dial-up Installation................................................ 3

Modem Settings ....................................................................... 6

SLIP2IPMN Dial-up Settings for Win 98/Me............................. 7

Creating a SLIP2IPMN Shortcut for Win 98/Me....................... 9

SLIP2IPMN Dial-up Settings for Win 2000............................. 10

SLIP2IPMN Dial-up Settings for Win NT................................ 13

Creating a SLIP2IPMN Shortcut for Win NT .......................... 15

SLIP2IPMN Dial-up Settings for Win XP................................ 16

MDC-To-Radio Connection and Settings............................... 17

DHCP Setting for IPMN Mobile Radio without Ethernet Port. 17

Mobile Radio-to-VIU-to-MDC Illustration................................ 19

Mobile Radio-to-VIU-to-MDC Connection .............................. 19

VIU Address Programming..................................................... 20 IPMN p/n: 516.80310.IG Version: A 16842 Von Karman Avenue, Suite 200, Irvine, CA 92606 Voice: (949) 417-4590 Fax: (949) 417-4591 Copyright 2001-2003 IPMobileNet, Inc. Notice:

While reasonable efforts were made to ensure that the information in this document was complete and accurate at the time of printing, IPMobileNet, Inc. can assume no responsibility for any inaccuracies. Changes and corrections to the information within this document may be incorporated into future releases. MDCMR-Guide.doc\4-Sep-03 Page 1 of 20 Mobile Data Computer-to-Mobile Radio Illustration Installation Requirements Mobile Radio-to-MDC IPMobileNet (IPMN) IPSeries Mobile Radio MDC (Mobile Data Computer) with an available serial communication port and Windows 98tm or greater installed 20-foot serial cable DB9F DB9M (BlackBox p/n: EDN12J-0020-MF) to connect MDC to the mobile radio IPMobileNet Radio SLIP Port Driver Installation diskette (SLIP2IPMN.exe) IPNC (Internet Protocol Network Controller) VoiceServer Address Mobile Radio-to-VIU-to-MDC

(Refer to illustration and instructions on pages 18-19) In addition to the above, the following components will be required for adding a Voice Interface Unit (VIU) to the configuration:

VIU (Voice Interface Unit) 10-foot serial cable DB9F DB9M (BlackBox p/n: EDN12J-0010-MF) to connect VIU to the mobile radio (included) NOTE:

IP Addressing is site-dependent. MDCMR-Guide.doc\4-Sep-03 Page 2 of 20 SLIP2IPMN Dial-up Network Connection Installation This section provides step-by-step instructions on how to install the IPMN Radio SLIP Port Driver onto the MDC for connection to an IPMN IPSeries Mobile Radio. This setup will also facilitate adding a VIU to the configuration. It will also provide instructions on configuration and settings for the SLIP port to function properly. NOTE: The screens shown were captured using Windows 98tm. Differences between Windows versions will be noted. Step 1 At the WinZip Self-Extractor window, click on the Unzip button to begin the unzip process. At the computer desktop, double click on the MyComputer icon. Step 5 Step 2

Insert the IPMN Radio SLIP Port Driver Installation diskette labeled SLIP2IPMN.exe in the floppy drive. Step 3 Double click on the A:\ drive. Step 4 Double click on the SLIP2IPMN file. SLIP2IPMN NOTE:

Step 6 The zipped file will self-extract and install the radio port driver files on the MDC. Click on the OK button after self-extraction is complete. 6 file(s) unzipped successfully Step 7 Click on the Close button to continue. Step 8 Close the A:\ drive folder by clicking on the at the top right-hand corner of the window. MDCMR-Guide.doc\4-Sep-03 Page 3 of 20 Step 12 On the Install New Modem window, select Other, then click on the Next > button. Step 13 On the next Install New Modem window, select Don't detect my modem, then click on the Next> button. Step 14 On the next Install New Modem window, click on the Have Disk... button. Dial-Up Networking Parallel Cable between 2 PCs Dial-Up Networking Serial Cable between 2 PCs Standard 300 bps Modem Standard 1200 bps Modem Standard 2400 bps Modem Standard 9600 bps Modem Standard 14400 bps Modem Step 9 At the desktop click on the Start button, select Settings, and Control Panel. Step 10 Double click on the Modems icon. For Windows 2000 & XP, click on the Phone and Modem Options icon. Step 11 In the Modem Properties window, under the General tab, click on the Add... button to add a modem. For Windows 2000 & XP, on the Phone and Modem Options window, under the Modems tab, click on the Add... button. For Windows Me, 2000, XP & NT, skip to Step 13 on this page. MDCMR-Guide.doc\4-Sep-03 Page 4 of 20 Step 15 On the Install From Disk window, click on the Browse... button. Step 19 On the next Install New Modem window, under Select the port to use with this modem: select Communication Port (COM1) or the next available COM port, then click on the Next> button. Step 16 In the Open window, select the following path:

C:\Program Files\IPMobileNet Click on the NullModemFast.inf file, then click on the OK button (or in some cases the Open button). Step 17 On the Install From Disk window, click on the OK button. Step 18 On the Install New Modem window (or in some cases Add New Hardware Wizard window), click on the Next>

button to continue. For Windows 2000 & XP, a Digital Signature message may display. Click on the Yes button to continue. Step 20 On the next Install New Modem window, once install is complete, click on the Finish button. Step 21 On the Modems Properties window, under the General tab, under The following modems are set up on the computer: select IPMobileNet Diversity Radio Network, Fast and click on the Properties button. For Windows 2000 & XP, under the Modems tab, highlight IPMobileNet Diversity Radio, Fast and click on the Properties button. MDCMR-Guide.doc\4-Sep-03 Page 5 of 20 Modem Settings Step 3 On the Advanced Port Settings window, select Use FIFO buffers (requires 16550 compatible UART). Step 1 On the IPMobileNet Diversity Radio Network, Fast Properties window, under the General tab, make sure that the Maximum speed is set to 115200. Click on the Connection tab. For Windows 2000 & XP, click on the Advanced tab. Click on the Change Default Preferences... button and then on the Advanced button and continue to Step 2. Step 2 Under the Connection tab, ensure that the following settings are selected:

Data bits: 8 Parity: None Stop bit: 1 Click on the Port Settings... button. For Windows 2000 & XP, after verifying the Connection preferences, click on the OK button three (3) times and close the windows by clicking on the in the upper right-hand corner of the windows. Go to the SLIP2IPMN Dial-up Network Settings for Windows 2000 section on page 10 of this document. For Windows NT, skip to Step 4 on this page. For Windows XP, skip to Page 16. The Receive Buffer should be set to High approximately on the third notch, as shown above. The Transmit Buffer needs to be set higher than the Receive Buffer on the last notch as shown above or to Maximum. Click on the OK button. Step 4 Under the Connection tab, click on the Advanced... button. Select the Use flow control and Hardware (RTS/CTS), then click on the OK button, click on OK again, then click on the Close button. The Control Panel Window will display. Close the Control Panel window. For Windows NT, at the Modem Properties window, click on the Close button and go to SLIP2IPMN Dial-up Network Settings for Windows NT on page 13. MDCMR-Guide.doc\4-Sep-03 Page 6 of 20 SLIP2IPMN Dial-up Network Settings for Windows 98/Me Step 1 At the desktop, click on the Start button, select Programs, Accessories, Communications, and Dial-

Up Networking. Step 4 On the IPMobileNet Diversity Radio Network, Fast Properties window, click on the Options tab. Under the Options tab, under Status control, make sure that Bring up terminal window before dialing and Bring up terminal window after dialing are not selected. Select Display modem status and click on the OK button. Step 2 On the Dial-Up Networking window, double click on the Make New Connection icon. Step 3 On the Make New Connection window, under Type a name for the computer you are dialing: type SLIP2IPMN Under Select a device: select IPMobileNet Diversity Radio Network, Fast and click on the Configure... button. SLIP2IPMN Step 5 On the Make New Connection window, click on the Next> button to continue. Step 6 On the next Make New Connection window, leave the Area code field blank. In the Telephone number field type in a 5 and leave the Country set to USA. Click on the Next> button. Step 7 On the next Make New Connection window, click on the Finish... button and the new connection is created. SLIP2IPMN MDCMR-Guide.doc\4-Sep-03 Page 7 of 20 Step 11 Under Advanced options: deselect Log on to network. Under Allowed network protocols: select TCP/IP, then click on the TCP/IP Settings... button. SLIP2IPMN Step 12 On the TCP/IP Settings window, select Specify an IP address. In the IP address field, enter the MDC IP address. This IP address should conform to the address table established by the system administrator. NOTE: The MDC, VIU, and Radio IP addresses must be unique. Then select Server assigned name server addresses and deselect Use IP header compression. Select Use default gateway on remote network. Click on the OK button to continue. 192 . 168 . 1 . 5 Step 13 On the SLIP2IPMN window, click on the Scripting tab and click on the Browse... button. SLIP2IPMN Step 8 Right click on the SLIP2IPMN connection and select Properties. Step 9 On the SLIP2IPMN window, under the General tab, deselect Use area code and Dialing Properties. SLIP2IPMN Step 10 Under the Server Types tab, under Type of Dial-Up Server: select on SLIP: Unix Connection. SLIP2IPMN For Windows Me, use the Networking tab. MDCMR-Guide.doc\4-Sep-03 Page 8 of 20 IPMobileNet Step 14 Change the path to C:\Program Files\IPMobileNet, select file nodial.scp, and click on the Open button. Step 15 On the SLIP2IPMN properties window, deselect Start terminal screen minimized and click on the OK button. SLIP2IPMN C:\Program Files\IPMobileNet\nodial.scp For Windows Me, click on the Dialing tab and select This is the default Internet connection and skip Steps 16 and 17. Step 16 Click once on the SLIP2IPMN icon. Click on Connections and Settings... from the menu. Step 17 On the Dial-Up Networking window, deselect Prompt for SLIP2IPMN information before dialing, select the Dont prompt to use Dial-Up Networking and click on OK. Creating a SLIP2IPMN Session Shortcut for Win 98/Me NOTE: Follow Step 1 on Page 7. Step 1 At the Dial-Up Networking folder, right click on the SLIP2IPMN connection and click on Create Shortcut. Step 2 When prompted to place the shortcut on the desktop, click on the Yes button. Step 3 Add a copy of the SLIP2IPMN connection in the following path:

C:\Windows\Start Menu\Programs\Startup C:\WINDOWS\Start Menu\Programs\Startup Shortcut to SLIP2IPMN This completes your Dial-up Networking installation. To test, check the serial cable connection to the radio. Double click on the SLIP2IPMN connection icon. A network connection will display at the bottom right hand of the desktop screen indicating the connection is successful. Proceed to MDC-to-Radio Connection & Settings on page 16. MDCMR-Guide.doc\4-Sep-03 Page 9 of 20 SLIP2IPMN Dial-up Network Settings for Windows 2000 Step 5 Under Network Connection Type, select Dial-up to private network then click on the Next> button. Step 1 The Administrator must sign onto the system and perform the installation. NOTE: When creating shortcuts, make sure to place in All Users and permission granted to All Users for use. Step 2 At the desktop, click on the Start button. Select Programs, Accessories, Communications, and Network and Dial-up Connections. Step 6 Under Phone Number to Dial, in the Phone number field, enter a 5 and deselect Use dialing rules and click on the Next> button. Step 3 Double click on the Make New Connection icon. At the Network Connection Wizard window, click on the Next> button. Step 7 Under Connection Availability, ensure that the For all users is selected and click on the Next> button. Step 4 MDCMR-Guide.doc\4-Sep-03 Page 10 of 20 Step 8 Under Completing the Network Connection Wizard, under Type the name you want to use for this connection: type SLIP2IPMN. Select Add a shortcut to my desktop and then click on the Finish button. Step 11 Select Enable hardware flow control and click on the OK button. Step 9 On the Connect SLIP2IPMN window, click on the Properties button. Connect SLIP2IPMN Step 12 Click on the Networking tab and under Type of dial-

up server I am calling: select SLIP: Unix Connection. SLIP2IPMN SLIP2IPMN Step 10 On the SLIP2IPMN Properties window, under the General tab, deselect Use dialing rules. Under Connect using: click on the Configure... button. SLIP2IPMN Step 13 Under Components checked are used by this connection: highlight Internet Protocol (TCP/IP) and click on the Properties button. SLIP2IPMN MDCMR-Guide.doc\4-Sep-03 Page 11 of 20 Step 14 Under the General tab, under Use the following IP address: enter the MDC IP address. This IP address should conform to the address table established by the system administrator. Step 17 Click on the Security tab and under Interactive login and scripting, select Run script: and click on the Browse... button. SLIP2IPMN Properties NOTE: The MDC, VIU, and Radio IP addresses must be unique. Click on the Advanced... button. 192 . 168 . 1 . 5 Step 15 Under the General tab, select Use default gateway on remote network and deselect Use IP header compression. Click on the OK button. On the Internet Protocol (TCP/IP) window, click on the OK button. Step 16 On the SLIP2IPMN Properties window, click on the Options tab and deselect Prompt for name and password, certificate, etc. Deselect Prompt for phone number. SLIP2IPMN Properties Step 18 Select the following path and file name:

C:\Program Files\IPMobileNet\\nodial.scp Click on the Open button. On the SLIP2IPMN Properties window, click on the OK button and the properties window will close. Proceed to MDC-to-Radio Connection & Settings on page 16. MDCMR-Guide.doc\4-Sep-03 Page 12 of 20 SLIP2IPMN Dial-up Network Settings for Windows NT Step 5 On the New Phonebook Entry Wizard window, under Name the new phonebook entry: enter SLIP2IPMN. Deselect I know all about phonebook entries and would rather edit the properties directly. Click on the Next> button. Step 1 Step 2 The Administrator must sign onto the system and perform the installation. NOTE: When creating shortcuts, make sure to place in All Users and permission granted to All Users for use. At the desktop, click on the Start button. Select Settings and Control Panel. SLIP2IPMN Step 6 On the Server window, select The non-Windows NT server I am calling expects me to type login information after connecting, or to know TCP/IP addresses before dialing and click on the Next>

button. Step 3 Double click on the Internet Options icon. Step 4 On the Internet Properties window, under the Connections tab and under Dial-up Settings, click on the Add... button. Step 7 On the Phone Number window, deselect Use Telephony dialing properties. In the Phone number: field, enter a 5 and click on the Next> button. MDCMR-Guide.doc\4-Sep-03 Page 13 of 20 On the Serial Line Protocol window, select Serial Line Internet Protocol (SLIP) and click on the Next>

button. Step 8 On the Login Script window, select None and click on the Next> button. Step 9 Step 10 On the IP Address window, under My IP address: enter the MDC IP address for this connection. This IP address should conform to the address table established by the system administrator. NOTE: The MDC, VIU, and Radio IP addresses must be unique. Click on the Next> button. 192 . 168 . 1 . 5 Step 11 On the Name Server Addresses window, click on the Next> button. Step 12 On the next New Phonebook Entry Wizard window, click on the Finish button to complete creation of the new connection. Press Finish to save SLIP2IPMN Step 13 On the SLIP2IPMN Settings window, click on the Properties button. SLIP2IPMN Properties MDCMR-Guide.doc\4-Sep-03 Page 14 of 20 Step 14 Under the Edit Phonebook Entry window, under the Basic tab, click on the Configure... button. Step 17 On the SLIP TCP/IP Settings window, deselect Force IP header compression, select Use default gateway on remote network and click on the OK button. Step 15 Step 16 SLIP2IPMN Ensure that Initial speed (bps): is set to 115200. Under Hardware Features, select Enable hardware flow control and click on the OK button. At the Edit Phonebook Entry window, click on the Server tab. Under Dial-up server type: ensure that SLIP: Internet is selected. Ensure that under Network protocols, TCIP/IP is selected and click on the TCP/IP Settings... button. Step 18 Step 19 Step 2 192 . 168 . 1 . 5 At the Edit Phonebook Entry window, click on the OK button. At the SLIP2IPMN Settings window, click on the OK button. Creating a SLIP2IPMN Session Shortcut for Windows NT Step 1 At the desktop, click on the Start button. Select Programs, Accessories, and Dial-Up Networking. In the Phonebook entry to dial: make sure to select SLIP2IPMN. Click on the Moreu button. Step 3 Select Create shortcut to entry... Step 4 NOTE: Add a copy of the SLIP2IPMN connection to the The Create Dial-Up Shortcut screen displays defaulting to the desktop. Click on the OK button. A shortcut icon is created and is placed on the desktop. following path:

C:\Documents and Settings\All Users\Start Menu\Programs\Startup Proceed with MDC-to-Radio Connection & Settings on page 16. MDCMR-Guide.doc\4-Sep-03 Page 15 of 20 SLIP2IPMN Dial-up Network Settings for Windows XP Step 1 At the desktop, right click on the My Network Places icon, and select Properties. Step 2 Click on Create New Connection and the New Connection Wizard window displays. Step 3 Under Network Connection Type, select Connect to the Internet and click on the Next > button. Step 4 Under Getting Ready, select Setup my Connection Manually and click on Next >. Step 5 Under Internet Connection, select Connect using a dial-up modem and click on the Next > button. Step 6 Under Select a Device, select the IPMN Diversity Radio Network, Fast (COM1) modem and click on the Next >

button. Step 7 Under Connection Name, enter SLIP2IPMN and click on the Next > button. Step 8 In the Phone Number to Dial box, enter 5 and click on the Next > button. Step 9 Under Internet Account Information, click on the Next >

button. Step 10 At the Complete the New Connection Wizard window, click on Add a short cut to my desktop and click on the Finish button and the connection is created as well as a shortcut icon to the computers desktop. Step 11 Right click on the newly created SLIP2IPMN network connection and select Properties. Step 12 Click on the Advanced tab. Step 13 Under Internet Connection Sharing, make sure to deselect the option Allow other network users to connect through this computers Internet connection and click on the OK button. NOTE:

If Step 13 is not performed for Windows XP, the connection will not work. MDCMR-Guide.doc\4-Sep-03 Page 16 of 20 MDC-TO-RADIO CONNECTION AND SETTINGS Step 1 Connect the serial cable (DB9F DB9M) from the MDC to the radio. Power up the MDC and the radio. Step 2 Step 3 Run the dial-up connection on the MDC Step 4 Create a shortcut for the IPMessage Utility by double by double clicking on the SLIP2IPMN shortcut. click on the My Computer icon. Step 5 Double click on the C:\ drive, Program Files, IPMobileNet, and on the IPMsg folder. Step 6 Right click on the IPMsg icon and click on Create Shortcut. Once created, move the shortcut to the MDCs desktop for future use. Step 7 Run the IPMessage Utility by double clicking on the Shortcut to IPMsg icon. The IPMessage window displays. In the IPMessage window in the left field, enter the radios IP address. Step 8 In the right field type a ?. Step 9 Step 10 Press [ENTER] and the radio configuration displays. To change the radios IP address, perform the following steps:

Step 1

[From: 172.16.22.2] Host serial = 115200,N,8,1, timeout=200

[From: 172.16.22.2] Host framing = SLIP no status messages

[From: 172.16.22.2] embedded format flag = multiple

[From: 172.16.22.2] Injection = HIGH SIDE, 45MHz

[From: 172.16.22.2] channel spacing = 25000

[From: 172.16.22.2] Channel = 0

[From: 172.16.22.2] TX Power = 0

[From: 172.16.22.2] Car to car TX power = 0

[From: 172.16.22.2] Channel Tx freq Rx freq Inj freq

[From: 172.16.22.2] Frequency=0 , 485.000000, 480.000000, 525.000000

[From: 172.16.22.2] Serial number: undefined

[From: 172.16.22.2] TX quiet time = 5

[From: 172.16.22.2] TX sync time = 12 milliseconds, 0 extra inter-split-frame count

[From: 172.16.22.2] TX tail time = 5

[From: 172.16.22.2] Radio data rate = 19200

[From: 172.16.22.2] Max data tx time = 60 seconds

[From: 172.16.22.2] PLL load to txkey delay = 2 milliseconds

[From: 172.16.22.2] Carrier detect delay time = 3 milliseconds

[From: 172.16.22.2] Polarity = TX-, RX-

[From: 172.16.22.2] allow crc errors = 0

[From: 172.16.22.2] Duplicate time = 10 milliseconds

[From: 172.16.22.2] RSSI step = 12 (=234mV)

[From: 172.16.22.2] noise = -65dBm, -86dBm

[From: 172.16.22.2] Fixed TX Delay = 0 milliseconds

[From: 172.16.22.2] Scale TX Delay = 0 microseconds

[From: 172.16.22.2] IP Address = 172.16.22.2 (VIU = 172.16.21.81, PC = 173.16.23.1)

[From: 172.16.22.2] netmask = 255.255.255.0

[From: 172.16.22.2] num timeslots = 16

[From: 172.16.22.2] timeslot period = 992ms

[From: 172.16.22.2] timeslots per voice packet = 4

[From: 172.16.22.2] 06Feb2036 22:42:41 (PST), calibration=563

[From: 172.16.22.2] diversity speed = 5

[From: 172.16.22.2] receiver = auto

[From: 172.16.22.2] bxri = 0, -replace mdt address, -filter out other addresses, -filter out keep alive In the right field type UNLOCK=password (enter the appropriate password) and press [ENTER]. This unlocks the radio Firmware to enable the IP address change. Step 2 Step 3 In the right field type IPADDRESS=

NNN.NNN.NNN.NNN (replacing the Ns with the new IP address) and press [ENTER]. In the right field type a ? or IPADDRESS and press

[ENTER]. Verify that the radios IP Addresses is correct. Step 4 Step 5 Close the IPMessage window. DHCP setting for IPMN Mobile Radio without Ethernet port For Windows 2000 / XP:

Step 1: Copy file autoipl.txt to PC desktop. Step 2: Click on Start, Setting, Network and Dial-up Connections. Step 3: Right click on SLIP2IPMN. Step 4: Select Create a copy to create a copy of SLIP2IPMN. Step 5: Select Security, Browse, and Desktop. Step 6: Select autoipl.txt and click on the OK button to close. MDCMR-Guide.doc\4-Sep-03 Page 17 of 20 To access Advanced Dial-Up options, the Do not allow Internet programs to use this connection selection must be deselected. To deselect, perform the following steps:

Step 1 Click on the Start button, select Settings, Control Panel. Step 2 Double click on the Internet Option icon. Step 3 On the Internet Properties window, click on the Connections tab. Select Always dial my default connection. Highlight SLIP2IPMN, and click on the Settings... button. Step 4 Deselect the Do not allow Internet programs to use this connection. Click on the Advanced... button. SLIP2IPMN Settings Step 5 Ensure the Disconnect features are not selected. Step 6 Click on the OK button. On the Setting window, ensure that the Do not allow Internet programs to use this connection is selected. SLIP2IPMN Settings Click on OK twice and close the window by clicking on the in the upper right-hand corner of the window As previously stated, the Use default gateway on remote network selection must be removed. Perform the following steps to deselect (refer to Page 15, Step 17 to see the appropriate screens). Step 1 At MDC desktop, click on the Start button, select Programs, Accessories, Communication, and Dial-

up Networking. For Windows 2000, select Network and Dial-up Connections. For Windows XP, select Start, All Programs, Communication, and Network Connections. Step 2 Right click on the SLIP2IPMN Dial-up Network connection and select Properties. Step 3 Click on the Server Types tab. For Windows 2000 &

XP, select the Networking tab. Step 4 Click on the TCP/IP Settings... button. For Windows 2000 & XP, click on Internet Protocol (TCP/IP), Properties, and on the Advanced button. Step 5 Deselect Use default gateway on remote network. Step 6 Click on the OK button. Click on OK again. For Windows 2000 & XP, click on OK one more time. Step 7 Close the Dial-up Network window. MDCMR-Guide.doc\4-Sep-03 Page 18 of 20 Mobile Radio-to-VIU-to-Mobile Data Computer Illustration MOBILE RADIO-TO-VIU-TO-MDC CONNECTION To connect the serial cable (see Fig. 1 below), perform the following steps:

Step 1 Attach the 20-foot serial cable male connector (DB9M) to the radio. Step 2 Route the female connector (DB9F) to the operators compartment of the vehicle and connect to the serial communication port located on the rear of the VIU near the microphone hang up clip. Step 3 Attach the 10-foot serial cable male connector (DB9M) to the other serial communication port located on the rear of the VIU. Step 4 Route the female connector (DB9F) of the 10-foot serial cable to the serial communication port located on the rear of the MDC. Figure 1 To connect the VIU power supply (see Fig. 2 below), perform the following steps:

Step 1 Route the VIUs power supply cable from the operators compartment to the trunk compartment. Step 2 Connect the black wire to the negative (-) terminal of the EMI Noise Filter. Step 3 Attach the red wire of the VIUs power supply cable in-

line fuse to the radio connection on the EMI Noise Filter. Figure 2 MDCMR-Guide.doc\4-Sep-03 Page 19 of 20 VIU IP ADDRESS PROGRAMMING There are two (2) methods of programming the IP Address on the VIU. The first is through the program mode on the VIU and the second is through IPMessage Utility. NOTE: The factory default VIU IP Address is 172.16.21.80. The factory default voice server is 172.16.23.200. VIU IP Address Programming via the VIU VIU IP Address Programming via IPMsg To change via the IPMessage Utility, perform the following steps:

Step 1 Disconnect VIU power for ten seconds, then reconnect. Step 2 To view the IP Address, follow Steps 1 and 2 from the VIU IP Address Programming via the VIU. the SLIP2IPMN dial-up network connection. Step 3 Double click the SLIP2IPMN icon to start Step 4 Double click on the Shortcut to IPMsg to start the IPMessage Utility (If a shortcut is not available, locate via C:\Program Files\

IPMobilenet\IPMsg.) The IPMessage window displays. To change the VIU IP Address via the VIU program mode, perform the following steps:

Step 1 Enter the program mode by disconnecting the power for a minimum of ten seconds then reconnecting (if facing the rear of the VIU the power connector is on the back lower right-hand side of the VIU). power connector Rear view of VIU The indicator lights on the front of the VIU will blink and the speaker will beep to confirm a successful power up. Wait until the VIU display goes blank to continue. Step 2 Quickly press MENU, DOWN to Profile and press Enter. Press DOWN to IP Address and press Enter and the current IP Address displays. Immediately enter the new address:

NNN*NNN*NNN*NNN (replacing the Ns with the appropriate address). NOTE: NNN is between 0 and 255. Delete leading zeros. Use the star (*) key to represent periods in the address. Press the #INDIV key to store the information. Press Esc/Clr until you have exited the menu. To validate that the IP address was entered correctly, repeat Steps 1 and 2 above. Step 5 Step 6 Step 7 Step 8 Step 9 Step 10 In the left field, enter the IP address of the VIU and press [ENTER]. In the right field type a ? and press [ENTER]. This displays the VIU Configuration. Type UNLOCK=password (entering the appropriate password) and press [ENTER]

Type IPADDRESS=NNN.NNN.NNN.NNN (replacing the Ns with the appropriate IP Address) and press

[ENTER]

In the left field, enter the VIUs new IP Address. In the right type a ? or IPADDRESS and press

[ENTER]. Step 11 Verify that the IP Address is correct. Step 12 Close the IPMessage window. MDCMR-Guide.doc\4-Sep-03 Page 20 of 20 Step 3 Step 4

IIPPSSeerriieess HHiigghh SSppeeeedd MMoobbiillee RRaaddiioo MM6644770000GG2255

((880066 ttoo 882211)) PPrroodduucctt OOwwnneerrss MMaannuuaall Date Released: October 1, 2004 Document #: 516.80535.POM Revision: A Copyright 2004 IPMobileNet, Inc. 16842 Von Karman Avenue, Suite 200 Irvine, CA 92606 Voice: (949) 417-4590 Fax: (949) 417-4591 The term IC: before the radio certification number only signifies that Industry of Canada technical specifications were met. Operation is subject to the following two (2) conditions: (1) this devise may not cause interference, and (2) this device must accept any interference, including interference that may cause undesired operation of this device. The following U.S. Patents apply to this product:

Information contained in this document is subject to change without notice. All rights reserved. Reproductions, adaptations, or translation without prior written permission is prohibited, except as allowed under copyright laws. U.S. Patent numbers 5,640,695,6,018,647,6,243,393 M64700G25-FCCRpt.doc Page ii TABLE OF CONTENTS SECTION 1: OVERVIEW..........................................................................................................................3 Product Description....................................................................................................................3 M64700G25 Mobile Radio Section Descriptions......................................................................3 External Features........................................................................................................................4 SECTION 2: SETUP AND CONFIGURATION METHODS .....................................................................5 High Speed Mobile Radio Setup Scenarios..............................................................................5 Mobile Radio-to-Mobile Computer Setup.........................................................................5 Mobile Radio-to-VIU-to-Mobile Computer Setup .............................................................6 SECTION 3: INSTALLATION INSTRUCITONS ......................................................................................7 Installation Overview ..................................................................................................................7 Installation Instructions..............................................................................................................9 Pre-Installation Guidelines ...............................................................................................9 Mounting the High Speed Mobile Radio ........................................................................10 Serial Cable Connection and Routing............................................................................11 Ethernet Setup ...............................................................................................................11 Delay Timer Installation .................................................................................................11 Carling Switch Installation (DPST Heavy Duty Toggle).................................................13 Mobile Radio Power Supply Installation.........................................................................14 Antenna Configuration ...................................................................................................15 Measuring Return Loss ...................................................................................16 Measuring Voltage Standing Wave Ratio .......................................................16 Measuring Insertion Loss ................................................................................17 Voice Interface Unit Connections...................................................................................17 Post Installation Checklist ..............................................................................................19 Mobile Installation Layout Diagrams ......................................................................................20 Preliminary Testing and Troubleshooting..............................................................................22 Checklist of Requirement Materials ...............................................................................22 Base Station Setup for Testing ......................................................................................23 Preliminary Test Procedure and Troubleshooting ................................................................24 Confirming High Speed Mobile Radio Receiver Sensitivity ...........................................27 SECTION 4: FACTORY TEST PROCEDURE .......................................................................................28 Equipment List .........................................................................................................................28 Programming and Configuring Mobile Radio ........................................................................29 Adjustment / Alignment Procedures.......................................................................................30 Receiver Injection...........................................................................................................30 Receiver 1......................................................................................................................30 Receiver 2......................................................................................................................30 Transmit Data.................................................................................................................31 Power Setting.................................................................................................................31 Receive Data..................................................................................................................32 Final Test .......................................................................................................................32 Uplink Hardware Timing Verification..............................................................................34 Downlink Hardware Timing Verification .........................................................................36 SECTION 5: FCC LABEL.......................................................................................................................38 M64700G25 Data Transceiver FCC Label Placement ............................................................38 M64700G25 Data Transceiver FCC Label ...............................................................................38 APPENDIX A: M64700G25 CIRCUIT BOARD DIAGRAMS .................................................................39 APPENDIX B: M64700G25 TEST DATA SHEET..................................................................................40 M64700G25-FCCRpt.doc Page 2 Product Description

SECTION 1: OVERVIEW The M64700G25 Mobile Radio works within a frequency range of 806-821 MHz and requires a 1/4-wavelength antenna. The IPSeries High Speed Mobile Radios are intelligent devices designed for the challenging requirements of mobile data and voice applications. Mounted in vehicles, other intelligent devices may connect to the serial or Ethernet ports for connectivity back to the Internet Protocol Network Controller (IPNC) and other such servers. It provides the mobile link to land-based wired networks. The high speed mobile radio circuit boards are built using surface mount technology (SMT) and through-hole components. Figure 1: IPSeries High Speed Mobile Radio (Front View) Product Functionality The high speed mobile radio utilizes a high-performance, 32-level QAM. Further it uses state-of-the-art OFDM technique. This new technique will enable the high speed mobile radio to transmit and receive more than 100 Kbps data in a 25 kHz band. The high speed mobile radio features low power consumption, high performance integrated GPS receiver. Embedding this technology in the mobile radio lowers the cost of acquiring GPS data from vehicles and ensures optimal performance. The high speed mobile radio technology includes Diversity Reception (DR) capability. DR reduces the effects of fades in a multi-path environment. With the use of two (2) antennas mounted at a calculated distance on the roof of the vehicle the Diversity Reception System (DRS) minimizes the effects of fading by intelligently selecting the receiver with a better signal.

Diversity is most effective when the vehicle is in motion. M64700G25-FCCRpt.doc Page 3 SECTION 1: OVERVIEW External Features As seen in Figure 2 below, the IPSeries High Speed Mobile Radio technology is enclosed in a compact and sturdy aluminum case. The external features consist of a series of connectors and ports as described in this section.

The product warranty becomes void if an uncertified or unauthorized individual removes the mobile radio cover. The high speed mobile radio external features consist of the following connectors and ports:

Figure 2: IPSeries High Speed Mobile Radio (External Features) TABLE 1: EXTERNAL FEATURES FEATURE DESCRIPTION TX/RX1 Transmitter / Receiver 1 antenna connection RX2 Receiver 2 antenna connection Power Connector 13.8 VDC high speed mobile radio power connector Lock LED Unit Ready Status Indicator LED (light emitting diode) GPS GPS antenna (SMA) connector Serial Port RS232 Serial Line Internet Protocol (SLIP) interface port Ethernet Port 10 Base T Ethernet interface port M64700G25-FCCRpt.doc Page 4 SECTION 2: SETUP AND CONFIGURATION METHODS High Speed Mobile Radio Setup Scenarios The following section describes the setup methods for high speed mobile radio in a vehicle. The two (2) possible configurations consist of the following:

1. Mobile Radio-to-Mobile Computer 2. Mobile Radio-to-VIU-to-Mobile Computer Mobile Radio-to-Mobile Computer Setup Figure 3: High Speed Mobile Radio-to-Mobile Computer Setup Additional components are required to setup a high speed mobile radio-to-mobile computer configuration, and are listed below in Table 2:

TABLE 2: HIGH SPEED MOBILE RADIO-TO-MOBLE COMPUTER COMPONENTS REQUIRED FOR INSTALLATION QTY DESCRIPTION 1 1 1 1 IPSeries High Speed Mobile Radio Mobile Computer 20-foot serial cable (DB9F DB9M) IPMobileNet SLIP Port Driver Installation Diskette (SLIP2IPMN.exe)

If using the high speed mobile radios Ethernet feature an Ethernet crossover cable is required to replace the 20-foot serial cable. To configure the high speed mobile radio and computer for this type of setup, follow the instructions on pages 2 through 17 in the Mobile Computer Setup for Communication with the Mobile Radio Installation Guide (IPMN p/n: 516.80310.IG) available on the Product Documentation CD. M64700G25-FCCRpt.doc Page 5 SECTION 2: SETUP AND CONFIGURATION METHODS Mobile Radio-to-VIU-to-Mobile Computer Setup Figure 4: High Speed Mobile Radio-to-VIU-to-Mobile Computer Setup Additional components are required to setup a high speed mobile radio-to-VIU-to-mobile computer configuration and they are listed below in Table 3:

TABLE 3: HIGH SPEED MOBILE RADIO-TO-VIU-TO-MOBLE COMPUTER COMPONENTS REQUIRED FOR INSTALLATION QTY 1 1 1 1 1 1 DESCRIPTION IPSeries High Speed Mobile Radio Mobile Computer Voice Interface Unit (VIU) 20-foot serial cable (DB9F DB9M) 10-foot serial cable (DB9F DB9M) IPMobileNet SLIP Port Driver Installation Diskette (SLIP2IPMN.exe)

To configure the high speed mobile radio, the voice interface unit, and the mobile computer for this type of setup, follow the instructions on pages 18 and 19 in the Mobile Computer Setup for Communication with the Mobile Radio Installation Guide (IPMN p/n: 516.80310.IG) available on the Product Documentation CD. Within this configuration, the high speed mobile radio is unable to fully list its parameters due to the limited buffers in the VIU. The high speed mobile radio will not be able to receive DHCP offers within this configuration. M64700G25-FCCRpt.doc Page 6 SECTION 3: INSTALLATION INSTRUCTIONS Installation Overview This chapter provides the basic steps involved in the installation process of an IPSeries High Speed Mobile Radio into a vehicle. This chapter includes wire routing and connections between the high speed mobile radio, other components, and the vehicles power.

To prevent personal injury and vehicle damage, exercise extreme caution throughout the installation process and follow the reminders listed below.

Follow safety precautions for handling wiring, tools, and a vehicles engine.

Handle the vehicles battery with extreme caution to avoid burns.

Do not alter the components listed in the Installation Requirements section below, unless substitutions are noted within this chapter.

Once the antennas are installed, as directed within this user manual, all persons must maintain a distance of no less than 39 inches from the antennas while the high speed mobile radio is in the transmit mode. Installation Requirements Table 4 lists the documents required to successfully install the high speed mobile radio and connect to the various components within the vehicle:

TABLE 4: DOCUMENTS REQUIRED FOR HIGH SPEED MOBILE RADIO INSTALLATION DESCRIPTION PART NUMBER The following documents are available on the Product Documentation CD enclosed in the shipment with the high speed mobile radio:

480.0001.001

M64700G25 High Speed Mobile Radio Product Owners Manual 516.80528.POM

Installation Guide for Mobile Computer Setup for Communication with the Mobile Radio 516.80310.IG M64700G25-FCCRpt.doc Page 7 SECTION 3: INSTALLATION INSTRUCTIONS Table 5 lists the components required to perform a successful high speed mobile radio installation and are available for purchase through IPMobileNet, Inc. TABLE 5: MOBILE INSTALLATION ACCESSORIES KIT QTY DESCRIPTION IPMN PART NUMBER Screws, Self Tapping #10 X 5/8 EMI Filter Timer, 2 hours Relay Relay Socket Butt Connectors #8 AWG Terminal, Ring #8 AWG, #10 Screw Insulated Terminal, Ring #18-22 AWG, #10 Screws Insulated Terminal, Ring #10-12 AWG, #10 Screws Insulated Terminal, Disconnect #14-16 F Terminal, Disconnect #10-12 F Disconnect Tab, Quad Male 4 1 1 1 1 2 1 4 4 4 18 2 1 Wire, 12 AWG Black, order 5 ft. 1 Wire, 12 AWG Red, order 44 ft. 1 2 3 1 1 1 1 Fuse, 15 AMPS ATO Fuse, 30 AMPS ATO Fuse Holder, 12 AWG Switch, Toggle DPST Diagram, Mobile Installation without VIU (included in this manual) Diagram, Mobile Installation with VIU (included in this manual) Diagram, Diversity Antenna Mobile Installation Detail (Typical Install) Table 6 lists the auxiliary equipment required to complete the installation process. 37040010-10 127.0020.002 150.0127.004 128.0117.001 128.0116.001 120.0256.001 120.0127.001 120.0250.004 120.0250.005 120.0244.002 120.0244.003 200.1377.001 156.0242.001 156.0242.003 122.0042.003 122.0042.001 120.0253.001 144.0136.001 502.80259.52 502.80260 DT450-10-0201 TABLE 6: AUXILIARY EQUIPMENT QTY DESCRIPTION Serial Cable (DB9MF), 20 ft. 1 1 Wire, 8 (133/29) AWG VW-1 Red, by foot, order 19.5 ft. 1 Wire, 8 (133/29) AWG VW-1 Black, by foot, order 19.5 ft. 2 RG8X Cable and Mount, 800 MHz, 17 ft. (incl Brass Mount & N Male Crimp) Antenna, Radome type, 806-866 MHz, 3dB Gain (requires 1 MB8XN for ea antenna) Antenna, Radome Type 821-896 MHz, 3dB Gain (requires 1 MB8XN for ea antenna) Antenna, 5/8 Wave, 806-866 MHz, 3dB Gain (requires 1 MB8XN for ea antenna) Antenna, Wave, 806-896 MHz, Unity Gain (requires 1 MB8XN for ea antenna) 2 2 2 2 IPMN PART NUMBER 156.0245.020 156.0243.003 156.0243.001 102.0200.002 102.0207.001 102.0207.002 102.0199.001 102.0204.010 M64700G25-FCCRpt.doc Page 8

SECTION 3: INSTALLATION INSTRUCTIONS Installation Instructions Pre-Installation Guidelines Prior to installing new equipment, perform the following steps:

wiring harness and antenna. 1. Remove existing equipment and all related components to include stock clips on radio 2. As shown in the figure below, mounting of the high speed mobile radio, delay timer, relay, and EMI filter (noise filter) will take place in the trunk compartment, unless installing in a vehicle without a trunk. Figure 5: Trunk Compartment Installation Removal of seats, rubber mats, and other obstructions from inside the driver compartment may be necessary to facilitate routing of wires to the engine and trunk compartments. 3. To ensure appropriate cable and wire routing, exercise the following precautions:

Route cables away from sharp edges that can penetrate cable insulation and damage wires.

Protect wires with silicone rubber grommets when routing through the engine compartment firewall or through other holes with sharp edges.

Use high-quality electrical compartment. tape when covering exposed wires in the engine

Avoid routing cables through areas exposed to extreme heat, such as the exhaust.

Keep wires routed through the engine compartment away from hot and/or moving parts. M64700G25-FCCRpt.doc Page 9

SECTION 3: INSTALLATION INSTRUCTIONS 4. 5. 6. Prior to drilling holes in the engine compartment firewall, inspect both sides to avoid obstructions. For grounding point, use the engine block or the negative (-) terminal of the vehicle battery. Ground connection surfaces must be free of paint, rust, and other corrosion to maximize performance and avoid damage. Do not tie to the vehicle chassis. To simplify troubleshooting problems, label all connecting points and wires. Mounting the High Speed Mobile Radio To mount the high speed mobile radio, perform the following steps:

Step 1 As shown in the figure below, secure the high speed mobile radio into the trunk compartment. Insert four (4) sheet metal screws in the high speed mobile radio brackets. Figure 6: High Speed Mobile Radio Mounting If less than four (4) screws are used, the high speed mobile radio can become loose in the trunk compartment. This may cause the high speed mobile radio not to function properly. When inserting screws, be careful not to disturb the vehicles gas tank. M64700G25-FCCRpt.doc Page 10 SECTION 3: INSTALLATION INSTRUCTIONS Serial Cable Connection and Routing The serial cable connects the mobile radio to the mobile computer located in the driver compartment. To connect the serial cable, perform the following steps:

Attach the 20-foot serial cable male connector (DB9M see Figure 7) to the mobile radio. Figure 7 Route the female connector (DB9F see Figure 8) to the driver compartment and connect to the serial port located on the rear of the mobile computer. Figure 8 Route the serial cable to minimize foot pressure and other potential stresses. Use split loom tubing and nylon cable ties for cable protection. Step 1 Step 2

If connecting a Voice Interface Unit, see the Voice Interface Unit Connections section within this chapter. Ethernet Setup The user also has the option to connect the mobile radio and the mobile computer via Ethernet. To connect the Ethernet crossover cable, perform the following steps:

Step 1 Attach the Ethernet crossover cable (minimum 20 feet) to the Ethernet port on the rear of the mobile radio. Step 2 Route the other end of the Ethernet crossover cable to the driver compartment and connect to the Ethernet port located on the rear of the mobile computer.

Route the cable to minimize foot pressure and other potential stresses. Use split loom tubing and nylon cable ties for cable protection. Note that if installing a Voice Interface Unit (VIU), the Ethernet setup cannot be used, as the VIU is a serial-only device. Delay Timer Installation To install the Delay Timer, perform the following steps:

Step 1 Step 2 Step 3 Secure Delay Timer to the trunk compartment of the vehicle inserting screws in the appropriate locations using care not to puncture the vehicles gas tank. Route the black wire (#12 AWG) from ground connection on the Delay Timer to the vehicle chassis (see Figure 9). Route and wire the red wire (#8 AWG) from the positive (+) terminal connection on the vehicle battery connection via the in-line fuse toward the battery connection on the Delay Timer. Connect the red wire (#8 AWG) to the two red wires (#12 AWG). Route and wire the red (#12 AWG) wires to the two (2) battery connections on the Delay Timer. M64700G25-FCCRpt.doc Page 11 SECTION 3: INSTALLATION INSTRUCTIONS Figure 9: Delay Timer Installation Step 4 Step 5 Step 6 Step 7 Step 8 Step 9 Route a red wire (#12 AWG) from the ignition connection on the Delay Timer to the ignition switch in the driver compartment (see the figure above). The ignition wire should be fused with 2A fuse. Route a red wire (#12 AWG) from the first and last output connections on the Delay Timer to the Automotive Power Relay. Route and wire a red (#12 AWG) wire from the second output connection on the Delay Timer to the last output connection on the Delay Timer. Route and wire a red (#12 AWG) wire from the last output connection on the Delay Timer to the Automotive Power Relay coil at the position shown in the figure above. Route and wire a black (#8 AWG) wire from the junction (negative battery post group) in the trunk compartment to the negative (-) terminal on the vehicle battery. Wire the red (#12 AWG) wire to the battery input on the Delay Timer and route the black (#8 AWG) portion of the wire to the positive terminal on the battery via an in-

line fuse (30 AMP). M64700G25-FCCRpt.doc Page 12 SECTION 3: INSTALLATION INSTRUCTIONS Carling Switch Installation (DPST Heavy Duty Toggle) To install the switch, perform the following steps:

Step 1 Step 2 Step 3 Mount the switch in the selected location. Route and wire a red wire (#12 AWG) from the switch to the Automotive Power Relay

(see the figure below). Ground the switch by routing and wiring a black wire from the switch to the chassis ground. Figure 10: Carling Switch Installation M64700G25-FCCRpt.doc Page 13 Mobile Radio Power Supply Installation SECTION 3: INSTALLATION INSTRUCTIONS To install the mobile radio power connection, perform the following steps:

Step 1 Route and connect the power cable to the EMI filter, as shown in the figure below. Figure 11: Power Supply Installation Step 2 Route and connect the other end of the power cable to the rear of the mobile radio to the power connector (13.8 VDC) connection. WARNING! Do not connect power before installing and connecting proper antenna or dummy load on the TX/RX1 port. The mobile radio must never be allowed to transmit without a suitable output load. Step 3 Install the GPS antenna. The GPS antenna is required for the mobile radios and the base stations.

M64700G25-FCCRpt.doc Page 14 SECTION 3: INSTALLATION INSTRUCTIONS Antenna Configuration

Two (2) antennas are mounted and installed on the roof of the vehicle using specific measurements for distance. To mount and install the antennas, perform the following steps:

Step 1 Install antennas (see the figure below).

1 2 Observe correct separation between antennas (refer to Table 8: Mobile Antenna Distance Matrix). This table provides midpoint distance calculations and minimum and Near-Field Exclusion Zone (NFEZ) for proper diversity reception. The NFEZ distance is an absolute minimum. The greater the distance between the antennas to any other surfaces will result in improved performance. Step 2 Cut a mounting hole in the roof of the vehicle using an electric drill or hole saw.

The antenna-mounting hole provides ground connection to the antenna. Ensure that a metal-to-metal connection between the antenna shields exists. Figure 12: Antenna Distance Configuration M64700G25-FCCRpt.doc Page 15 SECTION 3: INSTALLATION INSTRUCTIONS

The previous figure represents the recommended front-to-rear antenna installation. The receiver antenna (RX2) should be the antenna nearest to the light bar. Step 3 Step 4 All antenna mounts must be environmentally tight. Install or use O-rings to seal the antenna base to the rooftop of the vehicle. Route the coaxial cables to the mobile radio through one of the hollow spaces in the roof supports into the trunk compartment where the high speed mobile radio is mounted. Both antennas should be checked and tested to ensure they are functioning properly. If these installation guidelines are followed, it will be safe for persons to stand at a distance no less than 39 inches from the antennas while the mobile radio is in transmit mode.

Measuring Return Loss The following test is performed without any power, thus can be performed immediately after the installation of the coax and antenna, following the installation of the N-type connector on the coax. To measure Return Loss, perform the following steps:

Step 1 Step 2 Step 3

Select the appropriate Antenna Analysts to perform the test. Connect the antenna to be tested to the Antenna Analyst. Turn on the Antenna Analyst and the Return Loss (RETL) is displayed in dB to the left of the Voltage Standing Wave Ratio (VSWR) curve. The Return Loss Specification is 14 dBm or greater (with good antennas the typical range will be between 14 and 28). Measuring Voltage Standing Wave Ratio To measure the Voltage Standing Wave Ratio (VSWR) Reflected Power, perform the following steps:

Step 1 Step 2 Step 3 After selecting the appropriate Analyst and connecting the antenna to be tested, press F1 to access the Analyst Menu. Press F1 again to access the Display (DSPLY) menu, which lists the modes. Press F2 to select the VSWR display mode. Plotting will resume and the VSWR value is highlighted.

The VSWR Reflected Power Specification should be at a ratio of approximately 1.6 to 1. M64700G25-FCCRpt.doc Page 16 SECTION 3: INSTALLATION INSTRUCTIONS Measuring Insertion Loss Step 1 Step 2

To measure Insertion Loss of an unterminated length of coax, perform the following steps:

Connect the antenna to be tested to the appropriate Antenna Analyst. Turn on the Antenna Analyst and the Return Loss is displayed in dB to the left of the VSWR curve. To switch from the RETL mode to VSWR mode, refer back to the previous set of instructions. Step 3 Divide the result by two (2). Voice Interface Unit Connections If connecting a VIU, an additional 10-ft serial cable is required (IPMN p/n: 156.0245.010 included with VIU). Attach 20-ft serial cable male connector (DB9M) to the high speed mobile radio. Route the female connector (DB9F) to the driver compartment and connect to the serial port located on the rear of the VIU near the microphone hang up clip. To connect the serial cables, perform the following steps:

Step 1 Step 2 Step 3 Step 4 Attach the 10-foot serial cable male connector (DB9M) to the other serial port located on the rear of the VIU. Route the female connector (DB9F) serial cable to the serial port located on the rear of the mobile computer. M64700G25-FCCRpt.doc Page 17 SECTION 3: INSTALLATION INSTRUCTIONS Figure 13: VIU Connections To connect the VIU power supply, perform the following steps:

Step 1 Step 2 Step 3 Route the VIUs power supply cable from the driver compartment to the trunk compartment. Connect the red (#12 AWG) wire via an in-line fuse from the VIU power cable to the relay as shown in the figure above. Attach the black (#12 AWG) wire of the VIU power cable to the ground connection on the vehicle chassis. M64700G25-FCCRpt.doc Page 18 Post Installation Checklist Table 7 lists the tasks that should be performed upon completing installation. SECTION 3: INSTALLATION INSTRUCTIONS TABLE 7: POST INSTALLATION CHECKLIST NO. CHECKLIST ITEM 1 2 3 4 5 6 Scope out the entire vehicle setup to locate any obvious problem areas. Check wiring for safety concerns. Use tie wraps to ensure that all wires routed in parallel are bundled together. Check to see if any wires are exposed. If any wires are exposed, use electrical tape to cover.

When covering wires in the engine compartment, use high-quality electrical tape. Perform appropriate testing as described in this manual to ensure mobile radio works properly.

Once installation is completed, remove all debris and restore dismantled parts and rubber mats to appropriate locations. M64700G25-FCCRpt.doc Page 19 SECTION 3: INSTALLATION INSTRUCTIONS Mobile Installation Layout Diagrams Figure 14: Vehicle Unit Wiring Interconnection Layout Table 8 lists the high speed mobile radio antenna distances by frequency band. TABLE 8: MOBILE ANTENNA DISTANCE MATRIX Center Frequency in MHz Antenna Spacing for Wave Ant

(inches) Frequency Band in MHz 130-140 140-150 150-160 160-174 450-470 470-490 490-512 764-784 784-804 806-821 135 145 155 167 460 480 501 774 794 814

*NFEZ = Minimum Near-Field Exclusion Zone M64700G25-FCCRpt.doc Wavelength

(inches) Near-Field Exclusion Zone*

(inches) Wave Length

(inches) 87.3 81.4 76.2 70.7 25.7 24.6 23.6 15.26 14.88 14.5 10.9 10.2 9.5 8.9 3.2 3.1 2.9 1.91 1.86 1.8 21.8 20.4 19.0 17.7 6.4 6.2 5.9 3.81 3.72 3.6

**Round antenna spacing to the nearest Page 20 65.4 61.2 57.0 53.1 19.2 18.6 17.7 11.4 11.2 10.8 SECTION 3: INSTALLATION INSTRUCTIONS Figure 15: Diversity Antenna Mobile Installation Detail (Typical Installation) Figure 16: Vehicle Unit Wiring Interconnection Layout (with Voice Interface Unit) M64700G25-FCCRpt.doc Page 21 SECTION 3: INSTALLATION INSTRUCTIONS Preliminary Testing and Troubleshooting This section provides a functional preliminary test for the mobile radio once installed. It is used to determine the condition of new mobile radios before being placed into service. Checklist of Required Material Table 9 provides a checklist of the tools and equipment required to perform the preliminary test procedure. TABLE 9: CHECKLIST OF REQUIRED MATERIAL TO PERFORM PRELIMINARY TESTING NO. REQUIRED TOOLS/EQUIPMENT IPSeries High Speed Mobile Radio installed in the vehicle as previously described in this chapter A laptop with an available serial communication port and Microsoft Windows 98 or greater installed IPMobileNet Dial-Up Networking and IPMessage software loaded onto the laptop

(SLIP2IPMN.exe) DC power supply with ammeter, 13.8V, 12 amps or more (Astron VS12M or equivalent) Corresponding calibrated IPSeries Base Station Internet Protocol Network Controller (IPNC) Two antennas (generic mag mounts) tuned to frequency of transceiver Serial cable DB9M DB9F connectors (IPMN p/n: 156.0245.020) RF Attenuator 10-20 dB with appropriate wattage rating for transceiver 1 2 3 4 5 6 7 8 9

M64700G25-FCCRpt.doc Page 22 SECTION 3: INSTALLATION INSTRUCTIONS Base Station Setup for Testing

The system must be programmed with the customers parameters before any tests are made on the mobile radio. To prepare the base station to be used in the mobile radio test, perform the following steps:

Step 1 On the laptop at the Windows desktop, click on the Start button and select Accessories, Communications, and HyperTerminal. Step 2 Power up the base station.

First-time users must enter the customers operating parameters into the base station with HyperTerminal (refer to the IPSeries High Speed Base Station System Manual for instructions and the clients system documentation for parameters). Ensure that the calibrated base station and the high speed mobile radio antennas are separated by at least 10 feet. If the antennas are too close, the high speed mobile radio intermittent receivers may overload by communications and high data errors. transmitters resulting the in M64700G25-FCCRpt.doc Page 23 SECTION 3: INSTALLATION INSTRUCTIONS Preliminary Test Procedure and Troubleshooting

Prior to performing this procedure, the IPNC IP address must be known. Note taking during preliminary testing is crucial to ensure necessary information is gathered to use for additional testing or if the mobile radio needs to be submitted for repair. To test mobile radio functionality, perform the following steps:

Step 1 Perform a visual inspection of the mobile radio and its connections. Validate that all connectors and power cables are in good condition and all chassis screws are in place. Step 2 Connect the mobile radio as shown in the figure below. Figure 17: High Speed Mobile Radio Connection for Testing Step 3 Step 4 Power on the mobile radio and the test laptop. The power supply ammeter must read 1.0 amp or less with a 13.8 VDC output. At the desktop, run the dial-up connection setup to use Serial Line Internet Protocol (SLIP) by double clicking on the SLIP2IPMN shortcut.

The SLIP2IPMN dial-up network shortcut displays as an icon on the laptops desktop. If the SLIP2IPMN shortcut is not available on the desktop, consult the Mobile Data Computer for Communication with the Mobile Radio Installation Guide (IPMN p/n:

516-80310.IG) for instructions on how to set up the connection. Step 5 At the desktop, run the IPMessage Utility by double clicking on the IPMsg shortcut. The IPMessage window displays. M64700G25-FCCRpt.doc Page 24

SECTION 3: INSTALLATION INSTRUCTIONS If a message window appears indicating the connection was unsuccessful, perform the following troubleshooting steps:

1. 2. 3. 4. Ensure the serial and power cables are properly connected. Verify that the mobile radio lock LED (light emitting diode) is on, indicating the mobile radio has power. Ensure that the SLIP2IPMN dial-up connection is running. If problem persists after retrying, replace the serial cable with one that is known to be working properly.

(Address)

(Commands) Figure 18: IPMessage Window Step 6 Step 7 In the IPMessage window in the left field, enter the mobile radios IP address and press the [TAB] button. If the mobile radio IP address is not known, enter 255.255.255.255 in the left field. In the right field type a ? and click the [ENTER] button. A list of mobile radio configuration parameters appears in the upper message window. This verifies that the IP address is correct, the mobile radios serial interface is live, and that the high speed mobile radios microcontroller section is active. If the upper message window only displays To [IP address] ?, communication has not been established. Validate the IP address. M64700G25-FCCRpt.doc Page 25

SECTION 3: INSTALLATION INSTRUCTIONS Step 8 Step 9 At the desktop, click on the Start button and select Programs and MS-DOS Prompt. The MS-DOS window displays. Ping the IPNC commanding the transmitter to send 25 messages of 500 characters each to the IPNC as well as a response through Receiver 1 back to the laptop or desktop PC by typing in the following command at the MS-DOS prompt replacing NNN.NNN.NNN.NNN with the IPNC IP address:

Ping NNN.NNN.NNN.NNN n 25 l 500 w 4000 After entering the command, press [ENTER] to continue.

When entering a command, pay special attention to the spaces and the characters being typed. If the calibrated base station does not respond, check the syntax of the Ping command and verify the IP address is correct. If the ping command runs but high packet loss figures are shown, perform the following:

1. Verify that the calibrated base station and mobile radio antennas are separated by at least 10 feet. If the antennas are too close, the mobile radio receivers overload by the transmitters resulting in intermittent communication and high data errors. Verify the calibrated base station parameters are correct for the mobile radio. Such parameters include IP addresses and complementary RX/TX frequencies. Check to ensure the data and power cables are connected correctly. If the Ping command continues to fail, test using a mobile radio that is known to be working properly. 2. 3. 4. Step 10 Step 11 Step 12 Step 13 Step 14 Step 15 Check the test laptop and verify that the Packets Lost Percentage is zero to 1%

packet loss. Greater losses may indicate a problem with the transmitter/receiver 1, or modem circuitry. Change the antenna on the mobile radio to the RX2 antenna input. Connect the RF attenuator to the mobile radios TX/RX1 antenna input. Connect the second antenna to the RF attenuator. In the IPMessage window, enter receiver=2. This will allow the mobile radio to only receive via Receiver 2. Type NNN.NNN.NNN.NNN with the IPNC IP address:

command at following the the MS-DOS prompt replacing Ping NNN.NNN.NNN.NNN n 25 l 500 w 4000 After entering the command, press [ENTER] to continue. Check the test laptop and verify that the Packets Lost Percentage is zero to 1%

packet loss. Greater losses may indicate a problem with the transmitter/receiver 1, or modem circuitry. M64700G25-FCCRpt.doc Page 26 SECTION 3: INSTALLATION INSTRUCTIONS Confirming High Speed Mobile Radio Receiver Sensitivity This set of instructions provides the user with a list of required equipment and steps needed to confirm mobile radio Receiver sensitivity. Requirements

DC power supply, 13.8V, 12 amps or more (Astron VS 12M or equivalent)

Desktop or laptop computer with IPMessage installed

Agilent HP 8920A or B Service Monitor

Serial cable DB9M DB9F connectors (generic) To confirm mobile radio receiver sensitivity, perform the following steps:

Connect the mobile radio to the recommended power supply, the desktop or laptop computer, and the service monitor. IPSeries High Speed Mobile Radio Step 1 Step 2 Step 3 Step 4 Step 5 Step 6 Step 7 Step 8 Step 9 Turn on the mobile radio. Connect the serial cable or Ethernet interface to the mobile radio and the desktop or laptop computer. Start the connection to the mobile radio. Start the IPMessage utility. At the IPMessage window, enter the mobile radio IP address and press [ENTER]. the At password) and press [ENTER]. IPMessage window, enter unlock=password (entering the assigned Send the following test mode command at the IPMessage window, by entering testmode=1 and press [ENTER] to continue. Generate an on frequency, modulated (1000 Hz @ 5 kHz dev) signal to Receiver 1 at 100 dBm. Step 10 At the IPMessage window, type noise and press [ENTER] to continue. Step 11 Confirm that the noise level for Receiver 1 is +/- 2dB of the 100 dBm level.

Repeat the same steps for Receiver 2. M64700G25-FCCRpt.doc Page 27 Equipment List The following table lists the equipment required to perform the M64700G25 Mobile Radio Factory Test Procedure:

SECTION 4: FACTORY TEST PROCEDURE TABLE 10: EQUIPMENT REQUIRED TO PEREFORM FACTORY TEST PROCEDURE QTY DESCRIPTION MANUFACTURER MODEL PCs One for Mobile One for Base Windows 9X w/

IPMessage AVR Service Monitor Communication Test Set Digital multi-meter DC power supply w/ ammeter, 13.8V, 23 Amps or more HP Tektronix Fluke Astron HP8920B or equivalent 77 or equivalent RM35A 4-Channel Scope Tektronix TDS 460A M64700G25 Mobile Radio B32800N25 Calibrated Base Station Internet Protocol Network Controller (IPNC) 100 watt dummy load/attenuator Pasternack UHF Antennas (generic mag mount) Serial cable DB9M-DB9F connectors IP power cable 3-foot RF jumper cable with type N connectors

(generic) Scope test probe (generic, X1 attenuation) Ceramic tuning tool 1 ea

#0, #1, and #2 Phillips screwdrivers (generic) PE7021-40 or equivalent IPMN p/n:

156-0245-020 IPMN p/n:

502-82017-52 IPMN p/n:

44010006 2 1 1 1 1 1 1 1 1 2 1 1 1 1 1 M64700G25-FCCRpt.doc Page 28 Step 2 Step 3 Step 4 SECTION 4: FACTORY TEST PROCEDURE Programming and Configuring Mobile Radio Once the appropriate equipment for performing the factory test are gathered, perform the following steps to program and configure an M64700G25 Mobile Radio:

Step 1 Enter the mobile radio serial number, date test being performed, and testers name on the Test Data Sheet (see Appendix B). Program the radio to the current Firmware revision using the AVR programming utility. Connect a PC to the radio and launch the IPMessage program. In the IPMessage window, type factory default, press [ENTER], and the radio displays the radios default values. Enter the appropriate values for the radio's frequency band. The following values were used for a 806 to 821 MHz mobile radio:

M64700G25-FCCRpt.doc Page 29 Step 2 Step 3 Step 2 Step 3 Step 4 Step 5 Step 6 Step 7 Step 2 SECTION 4: FACTORY TEST PROCEDURE Adjustment / Alignment Procedures Receiver Injection Perform the following steps to adjust the receiver injection and injection frequency:

Step 1 While monitoring the receiver injection frequency at RXINJ1, input the value for the DAC frequency control for minimum frequency error (+/- 100Hz). Record this value on the Test Data Sheet. While monitoring the 44.545 MHz 2nd injection frequency at U6 pin 4, adjust trimmer capacitor CV22 for the maximum amplitude of this injection frequency. The maximum amplitude must be between -3 to -5 dBm. Record this value on the Test Data Sheet. Repeat Step 2 by monitoring U9 pin 4 and adjusting CV20 for Receiver2 IFLO. Record this value on the Test Data Sheet. Receiver 1 Perform the following steps to adjust receiver 1:

Step1 Inject an on-frequency carrier signal with amplitude of -80 dBm, modulated with a 1 kHz test tone at +/- 5.0 kHz deviation into receiver 1's antenna port. While monitoring the voltage at RSSI1 Test Point with a DMM, adjust trimmer capacitor CV15 and C16 to midway between the points where the oscillation stops. While monitoring the DC level of the recovered modulation; adjust potentiometer RV6 for a reading of 2.500 VDC +/- 1 mV DC. While monitoring the amplitude of the recovered audio signal, adjust potentiometer RV5 and RV6 for a reading of 350 mV RMS and 2.500 VDC. Steps 3 and 4 are interactive adjustments, therefore repeat steps 3 and 4 until further adjustment is no longer required (i.e. when 350 mV RMS and 2.500 VDC are realized). While monitoring the recovered audio signal at TP1, verify the distortion is less than 3%

adjust CV15 and CV16 if necessary to achieve less than 3% distortion. Record this value on the Test Data Sheet. While monitoring the recovered audio signal at TP1, verify the SINAD is -118 dBm or better. Record this value on the Test Data Sheet. Receiver 2 Perform the following steps to adjust receiver 2:

Step 1 Inject an on-frequency carrier signal with amplitude of -80 dBm, modulated with a 1 kHz test tone at +/- 5.0 kHz deviation into Receiver 2's antenna port. While monitoring the voltage at RSSI2 Test Point with a DMM, adjust trimmer capacitor CV6 and CV7 to midway between the points where the oscillation stops. M64700G25-FCCRpt.doc Page 30 Step 3 Step 4 Step 5 Step 6 Step 7 Step 3 Step 4 Step 5 Step 6 SECTION 4: FACTORY TEST PROCEDURE While monitoring the DC level of the recovered modulation, adjust potentiometer RV4 for a reading of 350 mV (+/-10 mV) RMS. While monitoring the amplitude of the recovered audio signal, adjust potentiometer RV3 for a reading of 2.500 (+/-10 mV) VDC. Steps 3 and 4 are interactive adjustments, therefore repeat steps 3 and 4 until further adjustment is no longer required (i.e. when 350 mV RMS and 2.500 VDC are realized). While monitoring the recovered audio signal at TP1, verify the distortion is less than 3%, adjust CV3 if necessary to achieve less than 3% distortion. Record this value on the Test Data Sheet. While monitoring the recovered audio signal at TP1, verify the SINAD is -118 dBm or better. Record this value on the Test Data Sheet. Transmit Data Perform the following steps to adjust transmit data:

Step 1 Step 2 Use IPMessage to set the transmit power to 0. Using the x=1400,n command of IPMessage to generate transmit data messages while observing the transmitted signal on the HP RF communications test set, adjust pot R33 for minimum frequency error while transmitting data messages. Turn potentiometer RV1 fully counterclockwise. Adjust RV2 for deviation of 4.9 kHz. Using calibrated base station, and monitoring the uplink received data quality on the base station's Hyperterminal screen, slowly turn RV1 clockwise until consistent data quality readings of 240 - 248 are achieved using 1400 character test messages. Data quality reading should not be less than 240 for 1400 character messages.

If unable to reach the data quality readings then ask for Technical Support. Poor data quality readings are indicative of poor group delay performance, or other defect. Verify transmit deviation, frequency error, and transmitting data messages quality and record this data on the Test Data Sheet. Power Setting Perform the following steps to adjust the transmit power control:

Step 1 Step 2 Attach a power attenuator to the transmit port of the radio. Using the x=1400,n command of IPMessage, and while monitoring the transmit power level on the HP communications test set, check the level of the transmit power. Using IPMessage set the power setting to txpower=0. The radio should have an output power level of approximately 1 mW. Record this value on the Test Data Sheet. M64700G25-FCCRpt.doc Page 31 Step 3 Step 2 Step 3 SECTION 4: FACTORY TEST PROCEDURE Using IPMessage send the txpower= command to increase the power level settings until 30 Watts of output power is obtained. Record this value on the Test Data Sheet. Note that values on the table are to plot the codes vs. power output. The 30-Watt setting can be a code not on the table. Adjust txpower until the code is found that does not exceed 30.0 Watts. Record this value on the Test Data Sheet.

Do not to exceed 30 Watts of output power, as this may reduce the life of the amplifier. Receive Data Perform the following steps to verify the receive data performance:

Step 1 Using the DOS ping command on the PC connected to the radio, ping the network controller to generate uplink and downlink data messages. The following command will generate one Hundred 500 character messages:

>;Ping 192.168.3.3 -n 100 -l 500 Observe the data quality readings on the IPMessage window of the PC connected to the radio using the V (for Verbose) command in the IPMessage program. With the mobile radio's antenna connected to receiver 1, verify the received data quality readings are consistently 248s. Data quality readings should also be verified at the base station using the V command on the Hyperterminal window. Verify receiver 2 data quality readings are also consistently 240 to 248s by changing the antenna from receiver 1 port to receiver 2 port. In this manner both uplink and downlink data quality can be verified. Record this data on the Test Data Sheet. Final Test A final test must be performed prior to shipping the M64700G25 mobile radio to the customer. This final test will verify that the timing characteristics are correct and that both transmit and receive data quality readings are consistently high. Perform the following steps for the final test:

Step 1 Step 2 Attach the 40dB 100-Watt power attenuator to the transmit port of the radio. Program the radio for full power operation. The tx power level setting can be found in the radio's Test Data Sheet.

Attach a digital scope to the base station as described in section the next section, Uplink Hardware Timing Verification. Using the x=1400,19 command (which will cause the radio to transmit 19, 1400 character messages), verify the following:

The setting must not to exceed 40 Watts. Transmit frequency of radio is adjusted for minimum frequency error of +/- 100 Hz. Step 3 M64700G25-FCCRpt.doc Page 32 Step 4 Step 5 Step 6 Step 7 Step 8 Step 9 Step 10 Step 11 Step 12 Step 13 SECTION 4: FACTORY TEST PROCEDURE The x=1400,19 command will generate different messages with differing DC components. Each message will slightly slew the frequency off from the center frequency). Be careful to closely monitor the variation in transmit frequency due to these different messages and ensure that on average the transit frequency error has been minimized to within +/-100 Hz. This indicates that some of these test messages will be slightly high in frequency, some messages will be slightly low in frequency, and some messages will be right on frequency. Verify the transmit deviation is 4.9 kHz Verify the timing characteristics are identical to the plots in the next section, Uplink Hardware Timing Verification. At the base station monitor PC, verify that all the data quality readings are 240 and higher. Move the scope probes to monitor the timing at the mobile radio as described in Downlink Hardware Timing Verification. Generate test messages by issuing a ping command to the IPNC from the PC attached to the radio. The following command will cause 100 pings, 500 bytes in length to be transmitted from the mobile radio and echoed by the IPNC through the base station:

.>;Ping 192.168.3.3 -n 100 -l 500 -w 2000 Set CRC =1 Enable on the radio Verify the timing characteristics are identical to those in Downlink Hardware Timing Verification. Verify that both receivers on the mobile radio report data quality readings of 240 or higher

(248 is typical). This can be accomplished by installing the antenna on the TX/RX1 port and verifying RX1 is selected by observing the RX1 LED on the mobile radio and installing the antenna on the RX2 port and verifying RX2 is selected by observing the RX2 LED on the mobile radio. Reset CRC = 0 Disable on the radio In IPMessage, type the ? command to radio. Copy the radio settings and paste them into the Test Data File. Perform a close visual inspection of the radio closely inspecting manufacturing related problems (loose screws, solder particles, etc.). M64700G25-FCCRpt.doc Page 33 SECTION 4: FACTORY TEST PROCEDURE Uplink Hardware Timing Verification The figure below displays an oscilloscope plot of an uplink data message from the mobile to the base station. Channel 1 is connected to the base station's RSSI (XXX-12), channel 2 is connected to the base station's recovered modulation, and channel 3 is connected to the base station's modem chip select line. The scopes acquisition mode is high-resolution. As seen in the above plot, the mobile radio's transmit carrier has ramped up to full power (channel 1) in just a few milliseconds. The recovered modulation (channel 2) is stable by this time. There follows a few milliseconds of quiet time followed by 12 milliseconds of symbol sync time. The recovered modulation from a mobile radio should look identical to this plot. The recovered modulation signal should be approximately 1.0 Volts peak-to-peak and should be centered at approximately 2.5 VDC as is indicated in the figure above.

M64700G25-FCCRpt.doc Page 34 SECTION 4: FACTORY TEST PROCEDURE The figure below displays another oscilloscope plot of an up-link data message from the mobile to the base station. As in the last plot, channel 1 is connected to the base station's RSSI (J5-12), channel 2 is connected to the base station's recovered modulation test point, and channel 3 is connected to the base station's modem chip select line (U16-13). The scope's acquisition mode is now in the peak detect mode. This enables the base station's modem CS (Chip Select) line to be viewed. The base station's microcontroller, upon detecting a step response in the RSSI (caused by the mobile radio's transmitter coming up to power), waits a period of time equal to the programmed value of the base station's carrier detect delay time. The microcontroller then instructs the modem to search for the modem synchronization preamble. When the base station instructs the modem to look for sync tones, the modem's CS line transitions low. This can be seen in the above plot. Approximately 10 milliseconds after the mobile radio's transmitter causes a step increase in the base station's RSSI, the CS signal goes low momentarily. As can be seen, the sync tones are stable by this time and the modem quickly establishes synchronization. M64700G25-FCCRpt.doc Page 35 SECTION 4: FACTORY TEST PROCEDURE Downlink Hardware Timing Verification The figure below displays a plot of the downlink timing characteristics. Channel 1 is connected to RSSI, channel 2 is connected to recovered audio, and channel 3 is connected to the modem CS pin. The scope is in the high-resolution acquisition mode.

There is a very short period of quiet time (no modulation) followed by approximately 12 milliseconds of modem synchronization time (sync time). M64700G25-FCCRpt.doc Page 36 SECTION 4: FACTORY TEST PROCEDURE The plot shown in the figure below is the same as before but now the scope is in the peak detect acquisition mode. After the mobile radio detects a step response in the RSSI (caused by a down-link transmission), the radio's microcontroller waits an amount of time equal to the programmed value of the

"carrier detect delay time" then instructs the modem to look for frame sync. When the microcontroller instructs the modem to look for frame sync, it asserts the modem's CS line (active low). In this plot, the modem's CS line can be seen to transition low approximately 3 milliseconds after the base station's transmitter has come up to full power. The recovered modulation should be centered at approximately 2.5 VDC and should have an amplitude of approximately 800 mV peal-to-peak as indicated in the plot above. M64700G25-FCCRpt.doc Page 37 M64700G25 Data Transceiver FCC Label Placement SECTION 5: FCC LABEL M64700G25 Data Transceiver FCC Label M64700G25-FCCRpt.doc Page 38 APPENDIX A: CIRCUIT BOARD DIAGRAMS High Speed Mobile Radio OMAP 5910 Circuit Board High Speed Mobile Radio RF Circuit Board

M64700G25-FCCRpt.doc Page 39 APPENDIX B: M64700G25 TEST DATA SHEET Program and Configure Mobile Radio Date Serial Number Firmware Revision Tester Adjustment / Alignment Procedures Receiver Injection Parameter Injection Frequency Error at RXINJ1(within +/- 100 Hz of exact injection frequency) U17 pin 4 power level Receiver 1& 2 Parameter Audio DC Amplitude

(1 kHz Test tone @ 5.0 kHz Deviation) Audio AC Amplitude

(1 kHz Test tone @ 5.0 kHz Deviation) Distortion

(1 kHz Test tone @ 5.0 kHz Deviation) SINAD 12 dB

(1 kHz Test tone @ 5.0 kHz Deviation) Spec 2.5 VDC

+/- 1mV 350 mVRMS

+/- 1mV 3%<

-118dBm >

Measured Spec

+/- 100 Hz

-3 to -5 dBm Receiver 1 Measured Receiver 2 Measured M64700G25-FCCRpt.doc Page 40 Transmit Section Parameter APPENDIX B: M64700G25 TEST DATA SHEET Transmit Modulation Deviation

(4.9 kHz while transmitting 1400 character test message) Transmit Data Quality

(While transmitting 1400 character test messages to the base station) Transmit Frequency Error

(Transmitting 1400 character test message) Transmit Power Control Caution: Do not to exceed 20-Watts RF output power during this test. Transmit Power Setting 0 25 50 75 100 125 150 175 200 225 250 Expected RF Out

~ 1mW Measured Spec 4.9 kHz 240 >

+/- 100Hz RF Out Watts Parameter Maximum power output setting without exceeding 20.0Watts Digital Code Measure M64700G25-FCCRpt.doc Page 41 APPENDIX B: M64700G25 TEST DATA SHEET Data Quality Parameter Receiver 1 Data Quality

(While receiving 500 character pings from base station, 100 pings min, no errors allowed, CRC errors enabled) Receiver 2 Data Quality

(While receiving 500 character pings from base station, 100 pings min, no errors allowed, CRC errors enabled) Final Tests Uplink Final Parameter Transmit Frequency Error Transmit Modulation Deviation Uplink Hardware Timing Verified Transmit Carrier ramp up time Symbol Sync time

(Stable Amplitude to with in 100mV during the period) Recovered modulation signal Verify Sync Start

(RSSI to CS first going low) Verify Fram Sync (From end of Sync to CS second time going low) Transmit Data Quality

(While transmitting 19, 1400 character test messages to the base station) Spec 240>

240>

Spec

+/- 100 Hz

(Transmitting 19, 2000 character test message) 4.9 kHz

(while transmitting 19,2000 character test message) 2mS < X < 4mS 12ms +/- 1ms 1 V PtoP ~

2.5 VDC ~

10mS +/- 0.5 4 +/- 0.1 mS 240 >

Measured Measured M64700G25-FCCRpt.doc Page 42 Downlink Final Parameter APPENDIX B: M64700G25 TEST DATA SHEET Spec Measured Downlink Hardware Timing Verification Sync start

(RSSI to CS first going low) Recovered Modulation Levels Frame Sync

(From end of Sync to CS second time going low) Receiver 1 Data Quality

(While receiving 500 character "pings" from base station, 100 pings min, no errors allowed, CRC errors enabled) LED Receiver 1 Receiver 2 Data Quality

(While receiving 500 character "pings" from base station, 100 pings min, no errors allowed, CRC errors enabled) LED Receiver 2 Attach copy of all firmware settings Visual inspection 3.0 +/- 0.5ms 800 mV~

2.5VDC~

3.2 +/- 0.5 mS 240>

Lit 240>

Lit Completed Completed M64700G25-FCCRpt.doc Page 43

CS8900A Product Bulletin FEATURES Single-Chip IEEE 802.3 Ethernet Controller

Maximum Current Consumption = 55 mA (5V Supply) 3 V Operation Industrial Temperature Range

Comprehensive Suite of Software Drivers Available Efficient PacketPage Architecture Operates in I/O and Memory Space and as DMA Slave

Direct Bus Interface Full Duplex Operation

On-Chip RAM Buffers Transmit and Receive Frames 10BASE-T Port with Analog Filters, Provides:

Automatic Polarity Detection and Correction

AUI Port for 10BASE2, 10BASE5, and 10BASE-F Programmable Transmit Features:

Automatic Re-transmission on Collision Automatic Padding and CRC Generation Crystal LANTM Ethernet Controller OVERVIEW The CS8900A is a true single-chip, full-duplex, Ethernet solution, incorporating all of the analog and digital circuitry needed for a complete Ethernet circuit. Major functional blocks include: a direct bus interface; an 802.3 MAC engine; integrated buffer memory; a serial EEPROM interface; and a com-

plete analog front end with both 10BASE-T and AUI. The CS8900A is a low-cost Ethernet LAN Control-

ler optimized for embedded applications and Per-

Functional Block Diagram

(cont.)

(cont.) EEPROM 20 MHz XTAL CS8900A Ethernet Controller LED Control Clock EEPROM Control RAM B u s Bus Logic Encoder/

Decoder

PLL Memory Manager 802.3 MAC Engine Boundary Scan Test Logic Power Manager 10BASE-T RX Filters &

Receiver 10BASE-T TX Filters &

Transmitter AUI Transmitter AUI Collision AUI Receiver RJ-45 10BASE-T Attachment Unit Interface

(AUI) Cirrus Logic, Inc. P.O. Box 17847, Austin, Texas 78760

(512) 445 7222 FAX: (512) 445 7851 http://www.cirrus.com Copyright Cirrus Logic, Inc. 2000

(All Rights Reserved) NOV 01 PI271PP2 1

CONFIDENTIAL DRAFT CS8900A Crystal LANTM Ethernet Controller FEATURES (Continued from Page 1) Programmable Receive Features:

Stream Transfer for Reduced CPU Overhead Auto-Switch Between DMA and On-Chip Memory Early Interrupts for Frame Pre-Processing Automatic Rejection of Erroneous Packets EEPROM Support for Jumperless Configuration

Boot PROM Support for Diskless Systems

Boundary Scan and Loopback Test LED Drivers for Link Status and LAN Activity Standby and Suspend Sleep Modes

All the most popular drivers are available, including:

LINUX Microsoft

NDIS 2 DOS driver

NDIS 2 OS/2 driver

NDIS 3 drivers for Windows NT, Windows for Work-

groups, Windows 95, and Windows CE

Novell

ODI DOS driver

ODI OS/2 driver

ODI Server Packet Driver (TCP/IP) pSOS

Real-time OS drivers

RIPL (Remote Initial Program Load) for ODI and NDIS 2

RTOS/NCOS (ARM and Oracle) - In development SCO Setup/installation Utility: EEPROG Utility

(EEPROM programming utility)

UNIX VxWorks NOTE: To inquire about additional drivers, see Order-

ing Information on page 3 OVERVIEW (Continued from Page 1) sonal Computers. Its highly-integrated design eliminates the need for costly external components required by other Ethernet controllers. The CS8900A includes on-chip RAM, 10BASE-T trans-

mit and receive filters, and a direct Bus interface with 24 mA Drivers. In addition to high integration, the CS8900A offers a broad range of performance features and config-

uration options. Its unique PacketPage architec-

ture automatically adapts to changing network traffic patterns and available system resources. The result is increased system efficiency. The CS8900A is available in a 100-pin TQFP package ideally suited for small form-factor, cost-sensitive Ethernet applications. With the CS8900A, system engineers can design a complete Ethernet circuit that occupies less than 1.5 square inches (10 sq. cm) of board space. Contacting Cirrus Logic Support For a complete listing of Direct Sales, Distributor, and Sales Representative contacts, visit the Cirrus Logic web site at:

http://www.cirrus.com/corporate/contacts/

Preliminary product information describes products which are in production, but for which full characterization data is not yet available. Advance product infor-

mation describes products which are in development and subject to development changes. Cirrus Logic, Inc. has made best efforts to ensure that the information contained in this document is accurate and reliable. However, the information is subject to change without notice and is provided AS IS without warranty of any kind (express or implied). No responsibility is assumed by Cirrus Logic, Inc. for the use of this information, nor for infringements of patents or other rights of third parties. This document is the property of Cirrus Logic, Inc. and implies no license under patents, copyrights, trademarks, or trade secrets. No part of this publi-

cation may be copied, reproduced, stored in a retrieval system, or transmitted, in any form or by any means (electronic, mechanical, photographic, or otherwise) without the prior written consent of Cirrus Logic, Inc. Items from any Cirrus Logic website or disk may be printed for use by the user. However, no part of the printout or electronic files may be copied, reproduced, stored in a retrieval system, or transmitted, in any form or by any means (electronic, mechanical, photo-

graphic, or otherwise) without the prior written consent of Cirrus Logic, Inc.Furthermore, no part of this publication may be used as a basis for manufacture or sale of any items without the prior written consent of Cirrus Logic, Inc. The names of products of Cirrus Logic, Inc. or other vendors and suppliers appearing in this document may be trademarks or service marks of their respective owners which may be registered in some jurisdictions. A list of Cirrus Logic, Inc. trade-

marks and service marks can be found at http://www.cirrus.com. 2 PI271PP2

CONFIDENTIAL DRAFT CS8900A Crystal LANTM Ethernet Controller Low Power and Low Noise For low power needs, the CS8900A offers three power-down options: Hardware Standby, Hard-

ware Suspend, and Software Suspend. In Standby mode, the chip is powered down with the exception of the 10BASE-T receiver, which is enabled to lis-

ten for link activity. In either Hardware or Software Suspend mode, the receiver is disabled and power consumption drops to the micro-ampere range. In addition, the CS8900A has been designed for very low noise emission, thus shortening the time required for EMI testing and qualification. Complete Support The CS8900A comes with a suite of software driv-

ers for immediate use with most industry standard network operating systems. In addition, complete evaluation kits and manufacturing packages are available, significantly reducing the cost and time required to produce new Ethernet products. Ordering Information CS8900A-CQ, 0 to 70 C, 100-pin TQFP CS8900A-IQ, -40 to 85 C, 100-pin TQFP CS8900A-CQ, 30 to 70 C, 100-pin TQFP CRD8900A-1 Evaluation Kit If you have any questions, please contact the undersigned by phone or by email. www.cirrus.com/support/ or Field Applications Engineers. OVERVIEW (cont.) Key Benefits Very Low Cost The CS8900A is designed to provide the lowest-

cost Ethernet solution available for embedded applications, portable motherboards, and adapter cards. Cost-saving features include:

Integrated RAM eliminates the need for expensive external memory chips.

On-chip 10BASE-T filters allow designers to use simple isolation transformers instead of more costly filter/transformer packages. The serial EEPROM port, used for configuration and initialization, eliminates the need for expen-

sive switches and jumpers. The CS8900A is designed to be used on a 2-layer circuit board instead of a more expensive multi-

layer board. The 8900A-based solution offers the smallest footprint available, saving valuable printed circuit board area.

A set of certified software drivers is available at no charge, eliminating the need for costly software development. High Performance The CS8900A is a full 16-bit Ethernet controller designed to provide optimal system performance by minimizing time on the bus and CPU overhead per frame. It offers equal or superior performance for less money when compared to other Ethernet controllers. The CS8900As PacketPage architec-

ture allows software to select whichever access method is best suited to each particular CPU/bus configuration. When compared to older I/O-space designs, PacketPage is faster, simpler and more efficient. To boost performance further, the CS8900A includes several key features that increase throughput and lower CPU overhead, including:

StreamTransfer cuts up to 87% of interrupts to the host CPU during large block transfers.

Auto-Switch DMA allows the CS8900A to maxi-

mize throughput while minimizing missed frames. Early interrupts allow the host to preprocess incoming frames.

On-chip buffering of full frames cuts the amount of host bandwidth needed to manage Ethernet traffic. 3 PI271PP2

CONFIDENTIAL DRAFT CS8900A Crystal LANTM Ethernet Controller 20 MHz 5 V 4.99 k, 1%

4.7 k 97 77 XTAL1 XTAL2 SLEEP 98 93 76 TEST RES CS8900A RXD-

RXD+

TXD-

TXD+

DO-

DO+

CI-

CI+

DI-

DI+

92 91 88 87 84 83 82 81 80 79 1 100 , 1%

3 68 pF 10 BASE T Isolation Transformer 1:1 1:

2 16 14 11 9 RJ45 6 3 2 1 6 7 8 24.3 , 1%

24.3 , 1%

0.1 F 15 pin D 12 V 16 15 13 12 10 9 13 10 3 9 2 12 5 4, 6 AUI Isolation Transformer 1:1 1:1 1:1 1 2 4 5 7 8 39.2 , 1%

0.1 F BSTATUS/HCI 78 LANLED 100 99 17 LINKLED CSOUT 39.2 , 1%

39.2 , 1%

39.2 , 1%

0.1 F 5 V 680 680 Boot-PROM 20 22 27C256 CE OE PD[0:7]

19 1 74LS245 OE DIR EEPROM 93C46 CS DO DI CLK 1 4 3 2 Address Decoder PAL 4 ISA BUS LA[20:23]

BALE SA[0:19]

20 IRQ10 IRQ11 IRQ12 IRQ5 DRQ5 DACK5 DRQ6 DACK6 DRQ7 DACK7 SA[0:14]

SD[0:7]

16 15 8 3 6 5 4 7 28 29 62 61 49 36 63 75 34 33 64 32 31 30 35 15 16 13 14 11 12 EECS EEDATAIN EEDATAOUT EESK CHIPSEL ELCS SA[0:19]

MEMW MEMR IOW IOR REFRESH SBHE AEN RESET MEMCS16 IOCS16 IOCHRDY SD[0:15]

INTRQ0 INTRQ1 INTRQ2 INTRQ3 DMARQ0 DMACK0 DMARQ1 DMACK1 DMARQ2 DMACK2 Figure 1 Typical Connection Diagram 4 PI271PP2