FCC ID: UFN-WEBTELE Asset Tracking Device

by: Arcom Control Systems, Inc. latest update: 2006-08-10 model: WEBTELE

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1	users manual	Users Manual	pdf	1.51 MiB	October 08 2006
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October 08 2006

W-E-B Telemetry Baseboard for Telemetry)

(Wireless Embedded Technical Manual a company Definitions Arcom is the trading name for Arcom Control Systems Inc and Arcom Control Systems Ltd. Disclaimer The information in this manual has been carefully checked and is believed to be accurate. Arcom assumes no responsibility for any infringements of patents or other rights of third parties, which may result from its use. Arcom assumes no responsibility for any inaccuracies that may be contained in this document. Arcom makes no commitment to update or keep current the information contained in this manual. Arcom reserves the right to make improvements to this document and /or product at any time and without notice. Warranty This product is supplied with a 3 year limited warranty. The product warranty covers failure of any Arcom manufactured product caused by manufacturing defects. The warranty on all third party manufactured products utilized by Arcom is limited to 1 year. Arcom will make all reasonable effort to repair the product or replace it with an identical variant. Arcom reserves the right to replace the returned product with an alternative variant or an equivalent fit, form and functional product. Delivery charges will apply to all returned products. Please check www.arcom.com/support for information about Product Return Forms. Trademarks Windows NT, Windows 98 are trademarks of the Microsoft Corporation. Linux is a registered trademark of Linus Torvalds. All other trademarks recognized. Revision History Manual PCB Date Comments Issue A V1 Issue 3 15th December 2005 First full release of Manual 2005 Arcom. Arcom is a subsidiary of Spectris plc. For contact details, see page 34. Arcom operates a company-wide quality management system which has been certified by the British Standards Institution (BSI) W-E-B Telemetry Technical Manual Contents Contents About this manual ..............................................................................................................................5 Conventions...........................................................................................................................5 Related documents ................................................................................................................5 Introduction ........................................................................................................................................6 Features.................................................................................................................................6 W-E-B Telemetry at a glance................................................................................................7 Handling your board safely ....................................................................................................8 Detailed hardware description ...........................................................................................................9 W-E-B Telemetry board footprint..........................................................................................10 Power supply requirements .................................................................................................10 Power conditioning...............................................................................................................10 Switch mode power supplies ...............................................................................................10 Network interface.................................................................................................................10 Serial interface.....................................................................................................................10 PC/104 bus support .............................................................................................................10 Power supervisory circuit.....................................................................................................11 Ignition sense circuit ............................................................................................................11 Dual UART 16C552 .............................................................................................................11 Modem ON / OFF control signal ..........................................................................................11 Status LEDs .........................................................................................................................12 Optional modules.............................................................................................................................13 Trimble GPS module............................................................................................................13 Sony Ericsson GPRS module..............................................................................................13 Siemens GPRS module.......................................................................................................14 Motorola iDEN module.........................................................................................................15 Motorola WiDEN module .....................................................................................................16 Board configuration..........................................................................................................................17 Jumpers ...............................................................................................................................17 Equipment you will need..................................................................................................................18 Supplied equipment .............................................................................................................18 What you will need...............................................................................................................18 Memory map....................................................................................................................................19 Ports and connectors .......................................................................................................................20 J1 (Power connection) .........................................................................................................21 J2 (Ethernet LAN connection) and J4 (Ethernet from processor card)...............................21 J3 (Siemens modem interface)............................................................................................21 J5 (Lithium battery output) ...................................................................................................22 P5 (COM0 & COM1, RS-232)..............................................................................................23 J6 (COM0 & COM1 from processor card)............................................................................23 J7 (Sony Ericsson modem interface)...................................................................................24 J8 (SIM card connector).......................................................................................................25 J9 (Ethernet LEDs) ..............................................................................................................25 J10 (iO200 modem antenna interface) ................................................................................25 2005 Arcom Issue A 3 W-E-B Telemetry Technical Manual Contents J11 (iO200 modem CELL antenna interface).......................................................................26 J12 (iO200 modem GPS antenna interface)........................................................................26 J17 (Auxiliary power) ...........................................................................................................26 J18 (iO200 modem Push To Talk - PTT)..............................................................................27 J19 (iO200 modem SIM card interface)...............................................................................27 P2 (iO1500 modem interface)..............................................................................................27 P3 (GPS interface)...............................................................................................................28 P4 (PLD Program Header)...................................................................................................29 P60,61 PC/104 bus connectors)..........................................................................................29 P62 (iO200 modem interface)..............................................................................................30 Antenna considerations ...................................................................................................................32 Antenna safety.....................................................................................................................32 ESD protection.....................................................................................................................33 Antenna performance ..........................................................................................................33 Appendix A - Contacting Arcom .......................................................................................................34 Appendix B - Technical specifications..............................................................................................35 Appendix C - Mechanical specifications ..........................................................................................37 Index ................................................................................................................................................39 2005 Arcom Issue A 4 W-E-B Telemetry Technical Manual About this manual About this manual This manual provides detailed information about the W-E-B Telemetry board. It explains, with examples, how to get the most from this product. Conventions Symbols The following symbols are used in this guide:

Symbol Explanation Note - information that requires your attention. Tip - a handy hint that may provide a useful alternative or save time. Caution proceeding with a course of action may damage your equipment or result in loss of data. Jumper fitted. Jumper not fitted. Related documents In addition to this manual, you can obtain useful information from a variety of sources including:

Motorola iO1500 iDEN Modem Module Motorola iO200 WiDEN Modem Manual Sony Ericsson GR47/48 Modem Manual SIEMENS MC35i Modem Manual Trimble GPS Receiver Manual SM-837/1900: RM3-900/1900 Antennas Antennas 2005 Arcom Issue A 5 W-E-B Telemetry Technical Manual Introduction Introduction Features The W-E-B Telemetry (Wireless Embedded Baseboard for Telemetry) board is a rugged, modular platform for applications in telemetry and telematics. The board makes it easy to integrate three essential features of any new asset monitoring solution -

wireless modem, GPS receiver and complete power supply solution to power your system. Wide DC input voltage range (10V to 30V). Automotive transient and surge protected. Supply reverse voltage protected. Input power and ignition sensing circuitry. 8 / 16bit PC/104 bus interface. On board 5V supply, delivers up to 2.5A (for host CPU and expansion modules). On board 3.6V supply, delivers up to 2.5A (for breakout and wireless modules). On board 12V supply, delivers up to 250mA (for breakout and PC/104). Extended temperature range lithium back-up battery for GPS module. Dual 16C550 compatible UART provides serial link to wireless modules directly from PC/104 bus. EMC filtered breakout for two 16C550 serial ports. Breakout for 10/100 Base-T Ethernet (with integrated activity and speed LEDs). Direct Plug n Go connection for Siemens MC35i OEM modem module. Direct Plug n Go connection for Sony Ericsson GR47/48 OEM modem module. Direct Plug n Go connection for Motorola iDEN iO1500 OEM modem module. Direct Plug n Go connection for Motorola WiDEN iO200 OEM modem module. Direct Plug n Go connection for Trimble Lassen SQ GPS module. 3 user definable status LEDs. Integrated SIM (Subscriber Identity Module) card connector. 2005 Arcom Issue A 6 W-E-B Telemetry Technical Manual W-E-B Telemetry at a glance Base Address selector link iO200 Push To Talk 8/16bit PC1/104 interface Ethernet pass through connector Ethernet LEDs iO1500 interface MC35i interface iO200 SIM card interface 3V lithium 3V lithium backup battery connector battery Auxiliary power Serial ports pass through connector iO200 antenna iO200 GPS antenna iO200 CELL antenna Introduction Ethernet breakout connector DC input connector Power and user LEDs Dual stack DB9 connector

(serial port breakouts) iO200 interface SIM card interface GR47/47 GPS interface interface 2005 Arcom Issue A 7 W-E-B Telemetry Technical Manual Handling your board safely Anti-static handling Introduction This board contains CMOS devices that could be damaged in the event of static electricity discharged through them. At all times, please observe anti-static precautions when handling the board. This includes storing the board in appropriate anti-static packaging and wearing a wrist strap when handling the board. Batteries The W-E-B Telemetry board contains a Lithium battery to maintain the configuration of the GPS unit, if present. Do not short circuit the batteries or place on a metal surface where the battery terminals could be shorted. During shipment the battery is isolated from the boards circuitry and should be connected before using the board. Please refer to the link section of this manual for details. Dispose of used batteries according to the manufacturers instructions and local ordinances. Do not incinerate, crush or otherwise damage the batteries. The batteries are non-rechargeable. There is a danger of explosion if a lithium battery is recharged or incorrectly replaced. The Lithium battery on the W-E-B Telemetry base board has a life expectancy of 5 years. This battery should only be replaced by qualified service personnel. Packaging Please ensure that should a board need to be returned to Arcom, it is adequately packed, preferably in the original packing material. If the original packing material is not available, return the board in an anti-static bag contained within a box that provides suitable protection. Electromagnetic compatibility (EMC) The W-E-B Telemetry board is classified as a component with regard to the European Community EMC regulations, it is the responsibility of the end user to ensure that systems using the board are compliant with the appropriate EMC standards. Arcom EMC tests of the W-E-B Telemetry board have shown that the RF emissions of the board are well below standard international EMC limits and that it is unlikely to contribute significantly to the RF emissions spectrum of any system in which it is used. The optional wireless modules catered for by the W-E-B Telemetry board all have full regulatory approval from the appropriate agencies. 2005 Arcom Issue A 8 W-E-B Telemetry Technical Manual Detailed hardware description Detailed hardware description The following section provides a detailed description of the functions offered by the W-E-B Telemetry board. This information may be required during development. POWER IN POWER CONDITIONING 3.6 VOLT 3.6v DC / DC CONVERTOR

+12 VOLT 5v DC / DC CONVERTOR

+12v DC / DC CONVERTOR

-12v DC / DC CONVERTOR 5 VOLT

-12 VOLT 20 WAY IDC COM1 COM2 VERTICAL SCREENED RJ45 T L O V 5

T L O V 2 1

P C

1 0 4 P R O C E S S O R C A R D DUAL

(STACK) MALE 9 WAY DTYPE RIGHT ANGLE SCREENED RJ45 16C552 DUART AND 74HC244 VOLTAGE TRANSLATOR PC/104 BUS CONNECTOR USER LEDS LC4128 CPLD TELEMETRY WEB PCB SIM CARD CONNECTOR M O U N T I N G H O L E S W-E-B Telemetry block diagram 2005 Arcom Issue A TRIMBLE GPS MODULE SIEMENS MODEM MODULE SONY ERICSSON MODEM MODULE MOTOROLA MODEM MODULE 9 W-E-B Telemetry Technical Manual Detailed hardware description W-E-B Telemetry board footprint The board is 100mm (3.93") by 155mm (6.10") and is 1.6mm (63 thou) thick. Power supply requirements The board is designed to accept a 10V to 30V DC power supply, nominally 12V DC. Power conditioning The input supply lines are protected using re-settable surface mount fuses. These fuses can only be reset by power cycling the board. The PCB also provides protection for reverse voltage and transient voltages to comply with ETSI EN 301 489-1 V1.4.1, ISO 7637-1 and ISO 7637-2. On board EMC filtering minimizes conducted noise. Switch mode power supplies On board DC/DC converters provide the necessary power rails:

+5V, 2.5A max.

+3.6V, 2.5A max.

+12V, 250mA max.

-12V, 150mA max.

+1.8V, 100mA max (see Sony Ericsson modem module). Network interface A 10/100Base-T Ethernet connector is mounted on the front edge of the PCB to allow direct mounting to a front panel. The RJ45 connector incorporates activity and speed LEDs. The network connection is provided by the PC/104 processor card and is connected to the board by a standard RJ45 cable. Serial interface A dual port male DB9 connector is mounted on the front edge of the PCB to allow direct mounting to a front panel. The RS-232 serial connection is provided by the PC/104 processor card and is connected to the board by a standard 20-way IDC ribbon cable. PC/104 bus support The board includes an 8bit PC/104 slave interface conforming to IEEE996.1. The module includes a 16bit connector to accommodate connections for additional interrupt lines. 2005 Arcom Issue A 10 W-E-B Telemetry Technical Manual Detailed hardware description Power supervisory circuit A supervisory circuit monitors the DC input supply. This signal creates an interrupt

(Power Fail) to indicate an occurrence of the DC supply voltage falling below 8V DC. The number of interrupt resources required is minimized by concatenating several interrupts into a single signal. This interrupt is concatenated with the Ignition Sense interrupt. Ignition sense circuit A supervisory circuit monitors an auxiliary (Ignition) input supply. This signal creates an interrupt (Ignition Sense) to indicate an occurrence of the DC supply voltage falling below 8V DC and rising above 8V DC. The number of interrupt resources required is minimized by concatenating several interrupts into a single signal. This interrupt is concatenated with the Power Fail interrupt. Dual UART 16C552 Two on board 16C550 compatible serial ports support optional wireless modules, whilst a parallel port supports digital I/O. Modem ON / OFF control signal When power is initially applied to the board, the modem modules are in a low power/off state. Toggle the ON / OFF control signal to turn the modules on. The ON/OFF signal is provided by the parallel port (bit 3). The address of this signal is Base address (as selected at LK1) +10H. To turn the modem module on, follow these steps:

1 Apply power to the board. 2 Write a 1 to bit 3 of parallel port. The status of the signal is (on). 3 Wait 10ms then write a 0 to bit 3 of parallel port. The status of the signal is

(off). 4 Wait 600ms, then write a 1 to bit 3 of parallel port. The status of the signal is

(on). To turn the Motorola modem module off, write a 0 to bit 3 of parallel port, (off). 2005 Arcom Issue A 11 W-E-B Telemetry Technical Manual Detailed hardware description To turn the Sony Ericsson / Siemens modem module off, follow these steps:

1 Write a 1 to bit 3 of parallel port. The status of the signal is (on). 2 Wait 10ms, then write a 0 to bit 3 of parallel port. The status of the signal is

(off). 3 Wait 1000ms, then write a 1 to bit 3 of parallel port. The status of the signal is

(on). Status LEDs Four status LEDs are provided, in a traffic light stacked arrangement. This is positioned on the front edge of the PCB to allow direct mounting to a front panel:

A green LED provides visual confirmation of power. A red LED and two yellow LEDS are user controlled. The LEDs are accessed through the parallel port (bit 0 red; Bit 1 yellow; Bit 2 yellow). The address of these LEDs is Base address (as selected at LK1) +10H. Write a 1 to the appropriate bit to turn the LED off. Write a 0 to the appropriate bit to turn the LED on. 2005 Arcom Issue A 12 W-E-B Telemetry Technical Manual Optional modules Optional modules The optional modem modules are secured to the board via four 2mm * 12mm long posidrive screws and four 4mm long spacers. These parts are included with the PCB. Trimble GPS module The board supports a Trimble Lassen SQ GPS module, which is an eight-channel low power device. The interface to the GPS module is via port 0 of the UART. The physical address of this port is base address and uses IRQ6 as the default interrupt. The GPS module is located on the secondary side of the PCB. It is shown in the following photograph:

Sony Ericsson GPRS module For worldwide cellular operations the W-E-B Telemetry board supports a Sony Ericsson GR47 / GR48 modem module. Mounting positions, RTC supply and module interface connector are all provided. A SIM card connector for the modem module is also provided on the secondary side of the board. The modules Real Time Clock back-up function is provided by a 1.8V battery-backed power supply. The interface to the Modem is via port 1 of the UART. The physical address of this port is base address +08H and uses IRQ15 as the default interrupt. 2005 Arcom Issue A 13 W-E-B Telemetry Technical Manual Optional modules The Sony Ericsson GPRS module is shown in the following photograph:

Siemens GPRS module For worldwide cellular operations the board supports a Siemens MC35i modem module. Mounting positions and module interface connector are all provided. A SIM card connector for the modem module is also provided on the secondary side of the board. The interface to the Modem module is via port 1 of the UART. The physical address of this port is base address +08H and uses IRQ15 as the default interrupt. The Siemens GPRS module is shown in the following photograph:

2005 Arcom Issue A 14 W-E-B Telemetry Technical Manual Motorola iDEN module Optional modules For American cellular operations the board supports a Nextel (Motorola) modem module. Mounting positions and module interface connector are all provided. The interface to the Modem module is via port 1 of the UART. The physical address of this port is base address +08H and uses IRQ15 as the default interrupt. The Motorola iDEN module is shown in the following photograph:

2005 Arcom Issue A 15 W-E-B Telemetry Technical Manual Motorola WiDEN module Optional modules The PCB also supports a Nextel (Motorola) WiDEN module. Mounting positions and module interface connector are all provided. The interface to the modem module is via port 1 of the UART. The physical address of this port is base address +08H and uses IRQ15 as the default interrupt. The Motorola WiDEN module is shown in the following photograph:

2005 Arcom Issue A 16 W-E-B Telemetry Technical Manual Board configuration Jumpers LK1 Base address & IRQ selector Board configuration Link Link Description Modem IRQ = IRQ15. GPS IRQ = 6. Parallel port IRQ = 12. Modem IRQ = IRQ11. GPS IRQ = 6. Parallel port IRQ = 12. Description Base address of W-E-B Telemetry PCB set to 0x3E0. Base address of W-E-B Telemetry PCB set to 0x0. Base address of W-E-B Telemetry PCB set to 0x180. LK2 GSM module select Link Description Siemens modem module fitted. Sony Ericsson modem module fitted. W1 Ignition Sense enable Link Description Ignition Sense enabled. Ignition Sense disabled. 2005 Arcom Issue A 17 W-E-B Telemetry Technical Manual Equipment you will need Equipment you will need Supplied equipment The W-E-B Telemetry package includes the following components:

W-E-B Telemetry board. W-E-B Telemetry CD, including documentation. What you will need In addition to the W-E-B Telemetry package, you will need the following hardware:

Power supply. Modem module with network connection (optional). Trimble GPS module (optional). Antennas. RS-232 null modem cable. Test computer with RS-232 communication port and Ethernet. Processor card with PC/104 bus support conforming to IEEE996.1. The board has been designed for applications using Arcoms low power PC/104 processor boards, such as the XScale based VIPER and VULCAN, or x86 compatible PEGASUS and AIM104-386EX. 2005 Arcom Issue A 18 W-E-B Telemetry Technical Manual Memory map Memory map Address 180h 187h Function Chip select for Trimble GPS module. 188h 18Fh Chip select for Modem module. 190h 194h Chip select for UART & parallel port. The 180h address indicated above is the default address and is set at time of manufacture. See Jumpers, page 17, for information about changing the physical base address. 2005 Arcom Issue A 19 W-E-B Telemetry Technical Manual Ports and connectors Ports and connectors There are 21 connectors for accessing external devices:

Connector J1 J2 J3 J4 J5 J6 J7 J8 J9 J10 J11 J12 J17 J18 J19 P2 P3 P4 P5 P60, 61 P62 Function DC input supply. Ethernet output. Siemens interface. Ethernet input. Lithium battery. Serial COMS input. Sony Ericsson interface SIM card connector. Ethernet LED interface. iO200 antenna interface. iO200 CELL antenna interface. iO200 GPS antenna interface. Auxiliary power output. iO200 PTT interface. iO200 SIM interface. iO1500 interface. GPS interface. PLD program interface. Serial COMS output. PC/104 bus connectors. iO200 interface. See page 21 21 21 21 22 23 24 25 25 25 26 26 26 27 27 27 28 29 23 29 30 2005 Arcom Issue A 20 W-E-B Telemetry Technical Manual J1 (Power connection) Ports and connectors Mating connector:

Mating crimp:

The pin assignments for the power connection are as follows:

Molex 09-91-0300 Molex 08-50-0106. Pin 1 2 3 Signal name Negative Positive I (Ignition) J2 (Ethernet LAN connection) and J4 (Ethernet from processor card) The pin assignments for J2 and J4 connections are as follows:

Pin 1 2 3 4 5 6 7 8 Signal name Transmit +

Transmit -

Receive +

Reserved Reserved Receive -

Reserved Reserved J3 (Siemens modem interface) Mating cable:

Manufacturer:

FFC0.50A40/0070L5.0-5.0-10.0-10.0SABB. Tyco. The UART connected to this interface is a 5V device. A buffer is used as a voltage translator. This buffer is powered by VOUT. The pin assignments for J3 connections are as follows:

2005 Arcom Issue A 21 W-E-B Telemetry Technical Manual Ports and connectors Pin 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35 37 39 Signal name

+3.6VDC

+3.6VDC Ground (0v) Ground (0v) NC

+VOUT ON/OFF MDM RI MDM CTS MDM DCD NC SIMRST SIMCLK SIMGND NC NC NC NC NC Pin 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 Signal name

+3.6VDC

+3.6VDC Ground (0v) Ground (0v) Ground (0v) NC NC MDM DSR MDM RXD MDM RTS MDM TXD SIMPRES SIMDATA SIMVCC

+VBAT NC NC NC NC NC J5 (Lithium battery output) Mating connector: Molex 50-57-9702. Mating crimp:

Molex 16-02-0104. The pin assignments for J5 connection are as follows:

Signal name

+3.6v 0v Pin 1 2 J5 is directly connected to the lithium battery. Any equipment connected to J5 must include battery protection equipment

(current limit resistor, reverse voltage protection). 2005 Arcom Issue A 22 W-E-B Telemetry Technical Manual Ports and connectors P5 (COM0 & COM1, RS-232) Pin assignments for the serial ports are as follows. Pin 1T 2T 3T 4T 5T 6T 7T 8T 9T Signal name DCD1 RXD1 TXD1 DTR1 Ground (0v) DSR1 RTS1 CTS1 RI1 Pin 1B 2B 3B 4B 5B 6B 7B 8B 9B Signal name DCD0 RXD0 TXD0 DTR0 Ground (0v) DSR0 RTS0 CTS0 RI0 J6 (COM0 & COM1 from processor card) Mating Connector: 3M Ref number 3421-6600 Pin assignments for the serial ports are as follows:

Pin 1 3 5 7 9 11 13 15 17 19 Signal name DCD0 RXD0 TXD0 DTR0 Ground0 (0v) DCD1 RXD1 TXD1 DTR1 Ground1 (0v) Pin 2 4 6 8 10 12 14 16 18 20 Signal name DSR0 RTS0 CTS0 RI0 No connect DSR1 RTS1 CTS1 RI1 No connect 2005 Arcom Issue A 23 W-E-B Telemetry Technical Manual Ports and connectors J7 (Sony Ericsson modem interface) Pin assignments for the Sony Ericsson modem interface are as follows:

Pin 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35 37 39 41 43 45 47 49 51 53 55 57 59 Signal name

+3.6VDC

+3.6VDC NC NC SIMVCC SIMRST SIMCLK NC NC VBAT NC NC NC NC NC MDM DTR MDM RTS MDM TXD NC NC NC NC NC NC NC NC NC Pin 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 42 44 46 48 50 52 54 56 58 60 Signal name Ground (0v) Ground (0v) Ground (0v) Ground (0v) Ground (0v) Ground (0v) ON/OFF SIMPRES SIMDATA NC NC NC NC NC NC MDM DSR

+VOUT MDM RI MDM DCD MDM CTS MDM RXD NC

+VOUT NC NC NC NC NC NC NC 2005 Arcom Issue A 24 W-E-B Telemetry Technical Manual Ports and connectors J8 (SIM card connector) Pin assignments for the SIM card are as follows:

Signal name Vcc Reset Clock Data N.C Ground (0v) Switch N.O Switch Com Pin 1 2 3 4 5 6 7 8 J9 (Ethernet LEDs) Mating connector:

Mating connector crimps (x3):

Pin assignments for the Ethernet LEDs are as follows:

Neltron 2418HJ-02-PHD. Neltron 2418TJ-PHD Pin 1 2 3 4 5 6 Signal name N.C 100 BaseT N.C 10 BaseT N.C Activity J10 (iO200 modem antenna interface) Pin assignments for the U.FL style connector are as follows:

Signal name Pin Center pin RF Signal Ring RF Ground 2005 Arcom Issue A 25 W-E-B Telemetry Technical Manual Ports and connectors J11 (iO200 modem CELL antenna interface) Pin assignments for the U.FL style connector are as follows:

Signal name Pin Center pin RF Signal Ring RF Ground J12 (iO200 modem GPS antenna interface) Pin assignments for the U.FL style connector are as follows:

Signal name Pin Center pin RF Signal Ring RF Ground J17 (Auxiliary power) Mating connector:

Molex 22 01 2055. Mating connector crimps (x5): Molex 08 50 0032. Pin assignments for the auxiliary power are as follows:

Pin 1 2 3 4 5 Signal name

+5v

+3.6v

+12v Ground (0v)

-12v 2005 Arcom Issue A 26 W-E-B Telemetry Technical Manual Ports and connectors J18 (iO200 modem Push To Talk - PTT) Mating connector:

Molex 22 01 2055. Mating connector crimps (x5): Molex 08 50 0032. Pin assignments for PTT are as follows. Pin 1 2 3 4 5 Signal name Speaker out Microphone in PTT Switch

+5v Ground (0v) J19 (iO200 modem SIM card interface) Mating cable: FFC0.50A06/0050L5.0-5.0-10.0-10.0SABB Manufacturer: Tyco. Pin assignments for the SIM card interface are as follows:

Pin 1 2 3 4 5 6 Signal name RESET VCC Ground (0v) DATA Ground (0v) CLOCK P2 (iO1500 modem interface) Mating cable:

Pin assignments for the iO1500 modem interface are as follows:

FFC0.50A30/0050L5.0-5.0-10.0-10.0SABB. Pin 1 3 5 Signal name DMTXD MDM DTR GND Signal name MDM RXD MDM DCD MDM RTS Pin 2 4 6 continued 2005 Arcom Issue A 27 W-E-B Telemetry Technical Manual Ports and connectors Pin 7 9 11 13 15 17 19 21 23 25 27 29 Signal name MDM CTS MDM RI NC NC NC ON/OFF

+3.6VDC

+3.6VDC NC Ground (0v) Ground (0v) Pin 8 10 12 14 16 18 20 22 24 26 28 30 Signal name MDM DSR NC NC NC

+VOUT PROG

+3.6VDC

+3.6VDC NC Ground (0v) Ground (0v) Ground (0v) P3 (GPS interface) The UART connected to this interface is a 5V device. A buffer is used as a voltage translator. VOUT is used to power this buffer. The modem is a DCE device software. Pin assignments for the GPS interface are as follows:

Pin 1 2 3 4 5 6 7 8 Signal name GPS TX Ground (0v) GPS RX PPS N.C N.C

+3.6v VBAT 2005 Arcom Issue A 28 W-E-B Telemetry Technical Manual P4 (PLD Program Header) Mating connector: Lattice program. Cable:

Pin assignments for the PLD header are as follows:

Available only from Lattice Semiconductors. Ports and connectors Pin 1 2 3 4 5 6 7 8 9 10 Signal name Ground (0v) SDO

/ISPEN MODE SDI CLK N.C N.C

+5V Ground (0v) P60,61 PC/104 bus connectors) Pin assignments for the PC/104 bus are as follows:

Pin 0 1 2 3 4 5 6 7 8 9 10 11 Row A

/IOCHCK D7 D6 D5 D4 D3 D2 D1 D0 IOCHRDY AEN Row B

Ground RSTDRV

+5V IRQ9 N.C DRQ2

-12V

/ENDXFR

+12V KEY

/SMEMW Row C Ground

/SBHE LA23 LA22 LA21 LA20 LA19 LA18 LA17

/MEMR

/MEMW D8 2005 Arcom Issue A Row D Ground

/MEMCS16

/IOCS16 IRQ10 IRQ11 IRQ12 IRQ15 IRQ14

/DACK0 DRQ0

/DACK5 DRQ5 continued 29 W-E-B Telemetry Technical Manual Ports and connectors Pin 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 Row A A19 A18 A17 A16 A15 A14 A13 A12 A11 A10 A9 A8 A7 A6 A5 A4 A3 A2 A1 A0 Ground Row B

/SMEMR

/IOW

/IOR

/DACK3 DRQ3 DACK1 DRQ1

/REFRESH SYSCLK IRQ7 IRQ6 IRQ5 IRQ4 IRQ3

/DACK2 TC BALE

+5V OSC Ground Ground Row C D9 D10 D11 D12 D13 D14 D15 KEY

Row D

/DACK6 DRQ6

/DACK7 DRQ7

+5V MASTER Ground Ground

P62 (iO200 modem interface) Pin assignments for the iO200 modem interface are as follows:

Pin 1 3 5 7 9 Signal name SPKR POS MIC POS ON/OFF RESERVED RESERVED Pin 2 4 6 8 10 Signal name SPKR NEG MIC NEG HOST WAKE UP FIRMWARE UPLOAD EN OPTION SELECT 1 continued 2005 Arcom Issue A 30 W-E-B Telemetry Technical Manual Ports and connectors Pin Signal name OPTION SELECT 2 12 RESERVED 14 16 RED STATUS LED 18 CTS2 TXD2 20 22 RI CTS 24 26 DTR 28 TXD1 RESERVED 30 32 VBAT 34 VBAT VBAT 36 38 VBAT VBAT 40 Signal name RESERVED VOUT GREEN STATUS LED RTS2 RXD2 CDI RTS DSR RXD1 RESERVED Ground (0v) Ground (0v) Ground (0v) Ground (0v) Ground (0v) Pin 11 13 15 17 19 21 23 25 27 29 31 33 35 37 39 The UART connected to this interface is a 5v device, a buffer is used as a voltage translator. VOUT is used to power this buffer The modem is a DCE device. 2005 Arcom Issue A 31 W-E-B Telemetry Technical Manual Antenna considerations Antenna considerations The antenna must be mounted like any other cellular or land mobile radio antenna. For vehicle applications the best position is usually the center of the vehicle roof, which provides a fairly symmetric ground plane. Use this information to help assist you in selecting the appropriate antenna for your product Antenna safety The following statement from the American National Standards Institute (ANSI) specifies the safety criteria that integrators must use when designing products with radiating elements:

The design of the integrated product must be such that the location used and the other particulars of the antenna comply with the ANSI guidelines concerning Radio Frequency Energy Exposure and with any other nationally recognized radio frequency standards that may be applicable thereto. For mobile operation with an external antenna, the modem module must be installed in a manner that provides a minimum separation distance of 300mm

(12) or more between the antenna and all persons, in order to satisfy FCC RF exposure requirements for mobile transmitting. These safety precautions must be observed during all phases of operation. Manufacturers of cellular terminal equipment are advised to convey the following safety information:

When in a hospital or health care facility, observe the restrictions on the use of mobiles. Observe the guidelines posted; medical equipment may be sensitive to RF energy. Switch off cellular equipment before boarding an aircraft. Make sure it cannot be turned on inadvertently. The operation of wireless appliances in an aircraft is forbidden. Do not operate cellular equipment in the presence of flammable gases or fumes. Switch off cellular equipment when near petrol stations, fuel depots, chemical plants or where blasting operations are in progress. Operation of electrical equipment in potentially explosive atmospheres can constitute a safety hazard. 2005 Arcom Issue A 32 W-E-B Telemetry Technical Manual ESD protection Antenna considerations In order to protect the modem modules against ESD damage it is recommended that only rubber-coated antennas are used. Antenna performance Typically, the network operator sets the antenna network requirements. 2005 Arcom Issue A 33 W-E-B Telemetry Technical Manual Appendix A - Contacting Arcom Appendix A - Contacting Arcom Arcom sales Arcoms sales team is always available to assist you in choosing the board that best meets your requirements. Contact your local sales office or hotline. Sales office US Arcom 7500W 161st Street Overland Park Kansas 66085 USA Tel:

913 549 1000 Fax: 913 549 1002 E-mail: us-sales@arcom.com Sales office UK Arcom Clifton Road Cambridge CB1 7EA UK Tel:

01223 411 200 Fax: 01223 410 457 E-mail: sales@arcom.co.uk Comprehensive information about our products is available from our web sites:

www.arcom.com and www.arcom.co.uk. While Arcoms sales team can assist you in making your decision, the final choice of boards or systems is solely and wholly the responsibility of the buyer. Arcoms entire liability in respect of the boards or systems is as set out in Arcoms standard terms and conditions of sale. If you intend to write your own low level software, you can start with the source code on the disk supplied. This is example code only to illustrate use on Arcoms products. It has not been commercially tested. No warranty is made in respect of this code and Arcom shall incur no liability whatsoever or howsoever arising from any use made of the code. Technical support Arcom has a team of technical support engineers available to provide a quick and free response to your technical queries. Technical support US Tel:

913 549 1010 Fax: 913 549 1001 E-mail: us-support@arcom.com Technical support UK Tel:

+44 (0)1223 412 428 Fax: +44 (0)1223 403 409 E-mail: euro-support@arcom.com 2005 Arcom Issue A 34 W-E-B Telemetry Technical Manual Appendix B - Technical specifications Appendix B - Technical specifications W-E-B Telemetry Power Input power:

Overvoltage/reverse voltage protection:

Ignition sense input:

Power consumption:

10 - 30V DC. 100V DC. 12V DC protected. 8 Watts (excluding GPS). Trimble SQ GPS (GPS module only): 100 mW@3.3V. Trimble SQ GPS (w/ embedded antenna): 133 mW@3.3V. Environmental Humidity:

Temperature:

Weight:

5% to 95% RH (non-condensing). Operating:

Storage:

0.83 kg (1.83 lbs) excluding optional cards.

-30C to +65C.

-20C to +85C. GPS interface General Product:

Lassen SQ GPS receiver (Trimble). Characteristics:

L1 frequency (1575.42 MHz), C/A code (Standard Positioning Service), 8-channel, continuous tracking receiver, 32 correlators. Update rate:

TSIP @ 1 Hz; NMEA @ 1 Hz, TAIP @ 1HZ Accuracy:

Protocols:

Horizontal: <6 meters (50%), <9 meters (90%). Altitude:

Velocity:

PPS:

<11 meters (50%), <18 meters (90%). 0.06 m/sec. 95 nanoseconds. TSIP at 9600 baud, 8 bits (selectable baud rate). NMEA 0183 v3.0 (selectable baud rate, 8 bits). TAIP. NMEA messages:

GGA, VTG, GLL, ZDA, GSA, GSV and RMC Messages selectable by TSIP command 2005 Arcom Issue A 35 W-E-B Telemetry Technical Manual Appendix B - Technical specifications Acquisition Reacquisition:

<2 sec (90%). Hot start:

Warm start:

Cold start:

Initialization:

<14 sec (50%), <18 sec (90%).

<38 sec (50%), <45 sec (90%).

<90 sec (50%), <170 sec (90%). Cold start requires no initialization. Warm start requires last position; time and almanac are saved in battery back-up memory. Hot start requires that the ephemeris also saved. Dynamics:

Acceleration: 4g (39.2m/sec2) Motional jerk: 20m/sec3. Operational limits:

Altitude <18000m or velocity <515m/s.

(COCOM limit). Either limit may be exceeded, but not both. 2005 Arcom Issue A 36 W-E-B Telemetry Technical Manual Appendix C - Mechanical specifications Appendix C - Mechanical specifications Mechanical dimensions (in mm) primary side

. 5 2 4 1 J9 0 3 7 3

'A'

PRIMARY SIDE

. 1 9 5 6 9 1 3 9

. P61 P60 P4 P2 J3 J18 J19 J5 J17

'A'

100.00 93.22 92.88 81.92 56.99 56.65 51.26 38.59 10.54 7.15 0.00

. 5 0 6 1 1 1 3 7 1 1

. 7 7 5 3 1

. 5 0 9 4 1

'A'

J4 J2 J1 DS2 P5 J6

'A'

0 0

. 0 8 1

. 8 2 9

. 0 1 7 9

. 1 2 4 5

. 4 3 9 7

. 9 3 4 5

. 1 5 4.22 FOUR 'A' HOLES 0 6

. 1 8 4 4

. 3 1 1 6 5

. 3 2 1 7 5

. 7 3 1 5 1

. 4 4 1 4 9

. 9 4 1 0 0

. 5 5 1 NOTES 1) ALL CONNECTOR DIMENSIONS ARE TAKEN FROM PIN 1 2.05 90.34 88.44 87.56 85.26 62.41 3.42 40.74 32.39 14.78 11.11 0.00 6.19 2005 Arcom Issue A 37 W-E-B Telemetry Technical Manual Appendix C - Mechanical specifications Mechanical dimensions (in mm) secondary side SECONDARY SIDE 100.00 76.75 67.77 54.29 12.96 0.00 0 0 0

. NOTES 1) ALL CONNECTOR DIMENSIONS ARE TAKEN FROM PIN 1 2005 Arcom Issue A J8 J7 P62 J11 J12 J10

. 6 6 7 7 2 0 1 8

. 2 4 6 8

. 2 8 1 9

. 2 0 2 1 1

. 5 0 0 2 1 0 0

. 5 5 1 38 W-E-B Telemetry Technical Manual Index Index A accuracy, GPS 35 acquisition 36 antenna 32 ESD protection 33 performance 33 safety 32 anti-static 8 auxiliary power connector 26 B background 6 base address jumper 17 battery 8 connector 22 block diagram 9 board configuration 17 handling instructions 8 overview 7 C circuit ignition sense 11 power supervisory 11 COM0 and COM1 from processor card port 23 COM0, COM1 and RS-232 ports 23 components 18 connectors 20 contact details 34 copyright 2 F features 6 G GPS accuracy 35 GPS interface 35 GPS interface port 28 GPS protocols 35 GSM module jumper 17 H hardware description 9 hardware requirements 18 humidity 35 I ignition sense circuit 11 ignition sense enable jumper 17 information sources 5 initialization 36 interface network 10 serial 10 iO1500 modem interface port 27 iO200 modem antenna interface port 25 iO200 modem CELL antenna interface port 26 iO200 modem GPS antenna interface port 26 iO200 modem interface port 30 iO200 modem push to talk PTT port 27 iO200 modem SIM card interface port 27 IRQ jumper 17 D definitions 2 disclaimer 2 dual UART 16C552 11 dynamics 36 E EMC 8 environmental specifications 35 equipment 18 ESD protection 33 ethernet from processor card connector 21 ethernet LAN connector 21 ethernet LEDs connector 25 external device connectors 20 J J1 power connection 21 J10 iO200 modem antenna interface 25 J11 iO200 modem CELL antenna interface 26 J12 iO200 modem GPS antenna interface 26 J17 auxiliary power 26 J18 iO200 modem push to talk PTT 27 J19 iO200 modem SIM card interface 27 J2 ethernet LAN connector 21 J3 Siemens modem interface connector 21 J4 ethernet from processor card connector 21 J5 lithium battery output 22 J6 COM0 and COM1 from processor card 23 J8 SIM card connector 25 J9 ethernet LEDs 25 2005 Arcom Issue A 39 W-E-B Telemetry Technical Manual L LAN 21 LEDs 12 lithium battery output connector 22 LK1 jumper 17 LK2 jumper 17 M mechanical specifications 37 memory map 19 modem on/off control signal 11 module Motorola iDEN 15 Motorola WiDEN 16 Siemens GPRS 14 Sony Ericsson GPRS 13 Trimble GPS 13 Motorola iDEN module 15 Motorola WiDEN module 16 N network interface 10 NMEA 35 O optional modules 13 P P2 iO1500 modem interface 27 P3 GPS interface 28 P4 PLD program header 29 P5 COM0, COM1, RS-232 ports 23 P60 and P61 PC104 bus connectors 29 P62 iO200 modem interface 30 packaging 8 PC/104 bus connectors 29 PC104 bus support 10 PLD program header port 29 ports 20 serial 23 power conditioning 10 connector 21 consumption 35 input 35 specifications 35 supervisory circuit 11 supply requirements 10 protocols, GPS 35 Index R requirements, hardware 18 S serial interface 10 serial ports 23 Siemens GPRS module 14 Siemens modem interface connector 21 SIM card connector 25 Sony Ericsson GPRS module 13 source code 34 specifications mechanical 37 technical 35 static 8 status LEDs 12 support,contact information 34 switch mode power supplies 10 symbols 5 T technical specifications 35 support 34 temperature 35 trademarks 2 Trimble GPS module 13 U update rate 35 V voltage 35 W W1 jumper 17 warranty 2 W-E-B Telemetry block diagram 9 overview 7 weight 35 2005 Arcom Issue A 40

		frequency	equipment class	purpose
1	2006-08-10	896 ~ 901	TNB - Licensed Non-Broadcast Station Transmitter	Change in identification of presently authorized equipment. Original FCC ID: AZ489FT7011 Grant Date: 01/10/2005

Application Forms

app s	Applicant Information
1	Effective	2006-08-10
1	Applicant's complete, legal business name	Arcom Control Systems, Inc.
1	FCC Registration Number (FRN)	0015268469
1	Physical Address	7500 W. 161st Street
1		Stilwell, Kansas 66085
1		United States

app s	TCB Information
1	TCB Application Email Address	t******@timcoengr.com
1	TCB Scope	B2: General Mobile Radio And Broadcast Services equipment in the following 47 CFR Parts 22 (non-cellular) 73, 74, 90, 95, 97, & 101 (all below 3 GHz)

app s	FCC ID
1	Grantee Code	UFN
1	Equipment Product Code	WEBTELE

app s	Person at the applicant's address to receive grant or for contact
1	Name	J** T**
1	Title	Project Engineer
1	Telephone Number	913-5******** Extension:
1	Fax Number	913-5********
1	E-mail	j******@arcom.com

app s	Technical Contact
		n/a

app s	Non Technical Contact
		n/a

app s	Confidentiality (long or short term)
1	Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?:	Yes
1	Long-Term Confidentiality Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?:	No
	if no date is supplied, the release date will be set to 45 calendar days past the date of grant.

app s	Cognitive Radio & Software Defined Radio, Class, etc
1	Is this application for software defined/cognitive radio authorization?	No
1	Equipment Class	TNB - Licensed Non-Broadcast Station Transmitter
1	Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant)	Asset Tracking Device
1	Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application?	No
1	Modular Equipment Type	Does not apply
1	Purpose / Application is for	Change in identification of presently authorized equipment. Original FCC ID: AZ489FT7011 Grant Date: 01/10/2005
1	Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization?	No
1	Related Equipment: Is the equipment in this application part of a system that operates with, or is marketed with, another device that requires an equipment authorization?	No
1	Grant Comments	Power is Conducted. The antenna(s) used for this transmitter must be installed to provide a separation distance of at least 28 cm from all persons and must not be co-located or operating in conjunction with any other antenna or transmitter and must not exceed an antenna gain of 8 dBi. Installers and end-users must be provided with antenna installation instructions and transmitter operating conditions for satisfying RF exposure compliance. This device may also operate at 821 - 825 MHz, but this band is not operational in U.S. territories.
1	Is there an equipment authorization waiver associated with this application?	No
1	If there is an equipment authorization waiver associated with this application, has the associated waiver been approved and all information uploaded?	No

app s	Test Firm Name and Contact Information
1	Firm Name	Tranzeo EMC Labs Inc.
1	Name	A** M******
1	Telephone Number	604-4********
1	Fax Number	604-4********
1	E-mail	a******@tranzeo.com

Equipment Specifications
	Line	Rule Parts	Grant Notes	Lower Frequency	Upper Frequency	Power Output	Tolerance	Emission Designator	Microprocessor Number
1	1	9		806	821	0.645	2.5 ppm	18K3D7W
1	2	9		806	821	0.645	2.5 ppm	43K3D7D
1	3	9		806	821	0.645	2.5 ppm	68K3D7D
1	4	9		806	821	0.645	2.5 ppm	93K3D7D
1	5	9		896	901	0.603	1.5 ppm	18K3D7W
1	6	9		896	901	0.603	1.5 ppm	43K3D7D
1	7	9		896	901	0.603	1.5 ppm	68K3D7D
1	8	9		896	901	0.603	1.5 ppm	93K3D7D

some individual PII (Personally Identifiable Information) available on the public forms may be redacted, original source may include additional details

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