BlackBerry R802D-2-O Wireless OEM Modem User Manual Integrator s Guide

BlackBerry Limited Wireless OEM Modem Integrator s Guide

Contents

Revised manual at FCC request

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RIM 802D OEM Radio Modem Integrator’s GuideLast Updated: August 24, 1999Model No. R802D-2-O© 1999, RESEARCH IN MOTION LIMITEDResearch In Motion and RIM are registered trademarks of Research In Motion Ltd.MS-DOS is a registered trademark, and Windows is a trademark, of Microsoft Corp.Warning: This document is for the use of licensed users only. Any unauthorisedcopying, distribution or disclosure of information is a violation of copyright laws.While every effort has been made to ensure technical accuracy, information in thisdocument is subject to change without notice and does not represent a commitment onthe part of Research In Motion Limited.Research In Motion295 Phillip StreetWaterloo, OntarioCanada N2L 3W8tel. (519) 888-7465fax (519) 888-7884Email: rim802d@rim.netWeb site: www.rim.net
DRAFT FCC Compliance Statement (USA)FCC Class B Part 15This device complies with Part 15 of FCC Rules. Operation is subject tothe following two conditions:1. This device may not cause harmful interference, and2. This device must accept any interference received, includinginterference that may cause undesired operation.WarningChanges or modifications to this unit not expressly approved by theparty responsible for compliance could void the user’s authority tooperate this equipment.This equipment has been tested and found to comply with the limits for aClass B digital device, pursuant to Part 15 of the FCC Rules. Theselimits are designed to provide reasonable protection against harmfulinterference in a residential installation. This equipment generates, usesand can radiate radio frequency energy and, if not installed and used inaccordance with the manufacture’s instructions, may cause harmfulinterference to radio communications.There is no guarantee, however, that interference will not occur in aparticular installation. If this equipment does cause harmful interferenceto radio or television reception, which can be determined by turning theequipment off and on, the user is encouraged to try to correct theinterference by one or more of the following measures: Re-orient or relocate the receiving antenna. Increase the separation between the equipment and receiver. Connect the equipment into an outlet on a circuit different fromthat to which the receiver is connected. Consult the dealer or an experienced radio/TV technician forhelp.
DRAFT Industry Canada CertificationThis device complies with Industry Canada RSS 119, under certificationnumber xxxxx.IC Class B complianceThis device complies with the Class B limits for radio noise emissions as setout in the interference-causing equipment standard entitled “DigitalApparatus,” ICES-003 of Industry Canada.
ContentsDRAFT FCC Compliance Statement (USA) ..........................iDRAFT Industry Canada Certification.................................iiAbout this guide.................................................................... v1. Introduction............................................................... 1Radio performance...................................................................... 1DataTAC network technology..................................................... 42. Getting started........................................................... 7Test board overview.................................................................... 8How to connect the test board...................................................... 9The MENU diagnostics tool.......................................................103. Mechanical integration ........................................... 17Environmental properties...........................................................17Physical properties.....................................................................18Mounting methods.....................................................................20Cables and connectors................................................................234. Power requirements ................................................ 27Load specifications ....................................................................27Calculating overall power consumption......................................29Batteries ....................................................................................30Plug-in supplies.........................................................................31Automotive supplies...................................................................325. Interface specification............................................. 33NCL and RAP link-layer protocols.............................................33Pin descriptions .........................................................................35How to turn the radio on and off ................................................40Loading firmware (optional)......................................................416. Antenna selection .................................................... 43Selecting an antenna..................................................................43Introduction to antenna terminology ..........................................45
Antenna design considerations...................................................47Shielding ...................................................................................49FCC radio frequency exposure rules...........................................50Specifications ...................................................................... 55Glossary of terms ................................................................ 57
About this guideThis guide will assist you in integrating the RIM 802D OEM radio modem intoa variety of devices such as laptop computers, handhelds, vending machines,point-of-sale terminals, vehicle-based mobile terminals, and alarm system.Topics covered in this guide include: mounting requirements power (battery) characteristics interfacing to the RIM 802D antenna selection and placementThroughout the guide, there are suggestions and precautions that will ease theimplementation of a wireless communication solution. You are encouraged tocontact RIM if you would like to discuss the technical implementation of thisradio modem.
1. IntroductionWith the introduction of the RIM 802D, Research In Motion (RIM) has set anew standard for radio modem performance. The RIM 802D is unrivaled in thekey areas of receiver sensitivity, output efficiency, noise immunity, and powerconsumption. Its small size and weight make it suitable for virtually anywireless data application, including handheld devices and mobile terminals.The RIM 802D is designed for use with DataTAC wide-area wireless datanetworks operating in the 800 MHz range, such as the American MobileARDIS network and the Bell Mobility ARDIS network.RIM radio modems are specifically designed to integrate easily into acomputing device. Potential applications include: Laptop computers Vehicle tracking and location Point of sale devices Monitoring and telemetry Ruggedized terminals Vending machines Handheld PC’s Utility meters Parking meters Billboards Dispatching Security alarm panelsRadio performanceThe RIM 802D offers the highest performance of any radio modem forDataTAC wireless data networks:
2 Introduction – Radio performanceIntegrator’s Guide – RIM 802D OEM Radio Modem DRAFT VERSIONReceiver sensitivityReceiver sensitivity is a measure of how well a radio modem can “hear” anetwork base station. This figure is important when a device will be used inareas where signal strength is weak, such as inside buildings and in locationsthat are not close to a base station. A radio modem with good receiversensitivity can be used in more places than a radio modem with poor sensitivity.The RIM 802D has a receiver sensitivity of –118 dBm (MDC) and –111dBm(RD-Lap) at 0.01 BER. This means that the radio can interpret received datafrom a very weak 0.0025 picowatt signal with a 1% bit error rate. Although 1%may seem like a high error rate, the sophisticated over-the-air DataTACprotocol corrects these errors before the data is passed to the application,ensuring error-free communication. This capability is already built into theradio’s firmware, and does not require any additional software development.Noise immunityThe RIM 802D is not de-sensitized by the electromagnetic interference (EMI)or “noise” that is generated by the electronics of the terminal into which it isintegrated. As a result, no special shielding is required between the radio andyour device.Noise immunity offers several key benefits, including: easier integration improved RF performance longer battery life more coverage from each base station increased reliability no need for special RF shieldingLow power requirementsIf you are planning to integrate the RIM 802D into a handheld or portabledevice, battery life is a critical issue: your customers will insist on long lastingdevices without heavy battery packs. The RIM 802D sets a new powerconsumption standard for DataTAC radio modems. This ensures efficiency andmaximizes battery life.
Introduction – Radio performance 3RIM 802D OEM Radio Modem – Integrator’s Guide DRAFT VERSIONTransmitting data: 1.7 amps or less (at 4.4 V), depending on output powerThe transmitter is ON for a pulse of up to 1.1 seconds, depending on theamount of data transmitted. The maximum packet size for a DataTACdevice is 2048 bytes.Receiving data: 66 mA (at 4.4 V)The radio’s receiver is usually turned off, and turned on periodically forthe purpose of listening to the network for messages. The base station willonly attempt to communicate with the radio during these windows. Tominimize latency during rapid two-way communication, the receiver isalso turned on and kept on for 10 seconds after any communication(transmit or receive) with the network.Standby power: 0.2 mA (at 4.4 V)Standby power consumption is very low and occurs when no radio activityhas taken place for at least 10 seconds and the radio is not in a receiver-on window. The radio and base station are closely synchronized to ensurethat a communication attempt is not missed when the radio is in standbymode.Battery life is not a concern for certain applications, such as in-vehicleapplications that draw power from the vehicle battery. For these applications, itis possible to put the radio in an express operating mode, in which powerconsumption is higher than normal but packet transfer latency is reduced to aminimum.Small sizeUsing a single board design, the RIM 802D is very thin, and much smaller thana business card, at only 42.0 by 67.5 mm. This tiny size allows the RIM 802Dto meet tight space requirements within most applications. Its single-boarddesign is more reliable than multi-board designs, particularly in high-vibrationenvironments (such as vehicles) or in devices that can be dropped (such ashandheld PCs).
4 Introduction – DataTAC network technologyIntegrator’s Guide – RIM 802D OEM Radio Modem DRAFT VERSIONDataTAC network technologyThe DataTAC wireless network technology has become an international datacommunication standard. DataTAC is a secure, reliable, wireless packetswitching network specifically designed for wide-area wireless datacommunications.DataTAC networks are deployed around the world. DataTAC provides highlyreliable, two-way digital data transmission. The network provides errordetection and correction to ensure the integrity of the data being sent andreceived, and includes transmission acknowledgment.The DataTAC network has a hierarchical structure that allows messages to berouted from sender to receiver along the most direct path possible. Each radiocell is served by an intelligent base station. Because intelligence is distributedthroughout the network, data is only forwarded to the lowest network nodecommon to the sender and the receiver. For example, one base station is able tohandle all traffic in its coverage area.The network constantly monitors the location of the mobile users. As a mobiledevice moves from one area of coverage to another, base stations track itssignals, sending updated mobile location and status information to the network.If the network goes down at any point in transmission, the message is held untilnetwork service is restored. If the mobile receiver moves outside the coveragearea, the base station stores the data until coverage is re-established, thenforwards it to the mobile. This prevents data loss, and increases the reliabilityof transmission.DataTAC is optimized for data communication. It uses a packet switchingtechnique to provide the greatest flexibility in data transmission. Conventionalcellular phone systems, by contrast, use a circuit-switched network, in which aphysical connection is created between the sending and receiving nodes, andmust be maintained throughout the duration of the transmission. With circuit-switched systems, the set-up time for establishing a connection involvessignificant overhead and airtime cost, especially when only a small amount ofdata needs to be transferred.DataTAC packets include information about the origin, destination, size, type,and sequence of data to be sent. This enables packets to be transmittedindividually, in any order, as traffic permits. Internal to the network, individualpackets may travel along different routes, in any order, without interfering with
Introduction – DataTAC network technology 5RIM 802D OEM Radio Modem – Integrator’s Guide DRAFT VERSIONother packets sent over the same frequency by different users. At the receivingend, all packets are accounted for, and reassembled into the original message.Set up time is eliminated and network connection is instantaneous. As a result,packet-switching makes far more efficient use of channel capacity, typicallyallowing 10 to 50 times more users over a radio channel than a circuit switchednetwork.
2. Getting startedRIM is committed to facilitating the integration of the RIM 802D OEM radiomodem. We provide the necessary resources to evaluate the feasibility ofimplementing a wireless communication solution, and work closely with ourpartners to develop an application in the shortest time possible.Years of intense R&D have spawned several tools that have been usedinternally to help streamline our own development process. We have includedmany of these tools with the RIM 802D OEM Developer’s Kit. The purpose ofthe Kit is to accelerate radio integration and to help system designers evaluatethe RIM 802D. Using the Kit, you can quickly begin interfacing the radiomodem to your computing device.We’re here for you!RIM has a team of experienced engineers who can support you in the designand implementation of your project. If you need help getting started, or if youhave any questions about the radio technology or its integration into yourplatform, please contact the RIM 802D engineering development team:e-mail: rim802d@rim.netphone: +1 (519) 888-7465fax: +1 (519) 888-7884web: www.rim.net
8 Getting started – Test board overviewIntegrator’s Guide – RIM 802D OEM Radio Modem DRAFT VERSIONTest board overviewThe RIM test board provides a standard RS-232 serial interface between a PCand the radio modem. It is designed to help you quickly interface theRIM 802D to a standard PC (through a COM port) or a terminal device with anRS-232 serial port. The test board also provides access points to the radio’scommunication port, which allows you to monitor activity with a logic probe,multimeter, or oscilloscope.The test board includes the following components and functionality:RS-232 interfaceThe serial (COM) port on a PC and most terminal devices operates at RS-232signal levels, which are typically 12V. This high voltage would damage theRIM 802D, which is typically integrated into a device that operates anasynchronous serial port at 3.0V. The RS-232 interface on the test board allowsyou to produce an output from the radio that is easily interpreted by a PC.Test pointsThe test board is more than just an RS-232 interface. It also features debuggingfacilities to help you test your application. It provides direct access to each ofthe 22 pins on the radio interface cable, which allows connectivity to analyticalequipment (e.g. logic probe, multimeter, or oscilloscope) and real-timeindication of data flow.On/off switchWith the switch in the ON position, the radio will turn on whenever power isapplied to the test board. When the switch is moved to the OFF position, theradio will shut down.Power supplyThe RIM 802D must be provided with a clean, high-current power source. Inthis case, we use a standard plug-pack to provide the current necessary to
Getting started – How to connect the test board 9RIM 802D OEM Radio Modem – Integrator’s Guide DRAFT VERSIONoperate the radio. The voltage is converted into the necessary levels by thepower supply section on the test board.LED indicatorsThe test board includes several LED indicators designed to indicate the flow ofdata to and from the host (in real time), the radio power status, power to the testboard, and more.How to connect the test boardNow that you are familiar with the components and functions of the test board,you are ready to connect the RIM 802D radio modem to an antenna and to a PC(or some other computing device with an RS-232 serial interface). To do this,you will use the test board and cables supplied with your RIM 802DDeveloper’s Kit.1. Flat interface cable (test board to radio)The flat interface cable carries data between the test board and the RIM 802D.Control and status signals such as TURNON are also carried on this cable. Usethis cable to connect the RIM 802D to the test board.This cable also carries clean, regulated power to the RIM 802D.When inserting the cable, ensure that the side with the bare pins are in directcontact with the pin side of the connector. To ensure proper contact, do notforce the cable into the connector. Instead, pull the tabs on either side of theconnector, slide the cable in, then push the tabs back in to tighten.2. DB-9 serial cable (test board to PC)Connect the male end of the straight-through DB-9 serial cable to the testboard.Connect the female end of the cable to your PC’s COM port.
10 Getting started – The MENU diagnostics toolIntegrator’s Guide – RIM 802D OEM Radio Modem DRAFT VERSION3. Power adapter (test board to AC outlet)Plug the 5VDC, 2.4A, center-pin-positive power adapter into the wall outlet.Connect the other end to the power jack of the test board.4. Antenna cable (radio to magmount antenna)Your developer’s kit includes a high-performance, 6dB-gain magmountantenna. This antenna is terminated with a screw-on SMA plug. TheRIM 802D radio modem includes a snap-on MMCX jack. The antenna cablesupplied with your developer’s kit connects the antenna’s SMA plug to theradio’s MMCX jack.The magmount antenna provides optimum RF performance when placed on abroad metal surface, such as the roof of a car. When used inside a building,performance is improved if the antenna is located near a window, with fewobstacles (wall, furniture, equipment, etc.) between the antenna and thewindow. The antenna must be oriented vertically for best performance, andperforms equally well whether positioned rightside up or upside down.5. Turn the system onThe power switch on the test board is connected to the TURNON line of theRIM 802D radio modem. To determine whether the radio is on, look at theLED marked ONI. It is lit when the radio is on.The MENU diagnostics toolNow that you have successfully connected your RIM 802D radio modem to yourPC, you are ready to send a test packet through the DataTAC network.Your radio modem must be activated by the network operator in order to beused on the DataTAC network and to establish an airtime agreement. If youhave not already arranged for activation of your radio, contact your networkoperator.
Getting started – The MENU diagnostics tool 11RIM 802D OEM Radio Modem – Integrator’s Guide DRAFT VERSIONThe RIM 802D contains a diagnostic utility called MENU. With this utility,you can set the current network, “ping” your radio modem, or view radio andnetwork status values.SetupThe following instructions assume that your RIM 802D is connected to a PCrunning a terminal program, such as Windows HyperTerminal. The MENUutility is based in the RIM 802D’s firmware, so HyperTerminal is the onlysoftware required to use it.The MENU utility’s user interface is a full-screen text mode interface, and usesthe ANSI cursor command set. Programs like HyperTerminal support the ANSIcodes by default. If you are using a different terminal program that does notprovide ANSI cursor control, the MENU utility will drop into a line-by-lineinterface. The appearance of the line-by-line interface is not documented here,but the commands it uses are the same as those described below.Select the COM port which communicates with the RIM 802D and configurefor 9600 bps, and either 7E1 (7 bits, Even parity, 1 stop bit) or 8N1 (8 bits, Noparity, 1 stop bit). If you have set this up correctly, you may see occasionalbursts of characters from the radio modem. These character bursts are normal;they represent an NCL frame, which you can ignore for now.Type the word menu (all in lower case letters only) then press the ENTER key.You can expect to see a full screen of information. If nothing happens, simplyre-enter menu until the radio modem responds. The word “menu” itself willprobably not appear on the screen as you type it in.If you re-enter menu and nothing occurs, ensure that the radio is turned on andconnected to the PC, and that all cables are securely connected. Please contactRIM for assistance if you are stuck at this point.Once the utility has been started, the terminal program’s screen will looksimilar to the following:
12 Getting started – The MENU diagnostics toolIntegrator’s Guide – RIM 802D OEM Radio Modem DRAFT VERSIONRIM 802D Firmware Version 1.0.0(c) 1999 Research In Motion LimitedRadio Setup Radio Serial Number = 031/11/066300Command Key Description Networks Available:----------- ----------- -------------------Q Quit and reset the radio. 1. AMSC 2. BELLMOBN Set the current network.P Ping: Send a Status SDU to yourself. Your Choice ?LLI=88231144 RSSI= 40% 24 dBuV Battery= 97% Network=AMSCContact=Yes Mode=PowerSave Tx=EnabledStatus=0080The screen displays the software version and build date, the radio modem’sserial number, the list of available DataTAC radio networks, current radiomodem status indicators, the “ping” function, and other relevant information.RSSI stands for Received Signal Strength Indicator. This is a measure ofnetwork coverage. The higher the number, the better the coverage. The RSSI isgiven both as a percentage and in dB V (decibel microvolts). To obtain theRSSI in dBm (decibel milliwatts), subtract 113 from the dB V value. Note thatRSSI= 0% 0 dB V does not necessarily represent the complete absence of asignal; in many cases, the radio is capable of communicating with the networkat signal strengths of 0 dB V or even less. Actual contact with the DataTACnetwork would be indicated by the Contact field. The RSSI is updated everyten seconds, or whenever you press D.The Battery indicator shows the level of supplied voltage. The battery level isupdated once every thirty seconds, or whenever you press D.Network tells you which network you are currently using. The example showsAMSC (American Mobile Satellite Corporation, which operates the ARDISnetwork in the United States) and BELLMOB (Bell Mobility ARDIS operates aDataTAC network in Canada).LLI stands for Logical Link Identifier, which is a unique number that identifieseach DataTAC radio modem. The LLI is used for addressing packets. Thescreen will also display a Radio Serial Number, which is unique to each radio
Getting started – The MENU diagnostics tool 13RIM 802D OEM Radio Modem – Integrator’s Guide DRAFT VERSIONmodem. This number is often referred to in other documents as ESN(Electronic Serial Number).Mode shows whether the radio is in powersave mode or express mode. Thedefault operating mode is powersave, which reduces power consumption by theradio but introduces latency when receiving packets from the network. Thismode may be changed through software.Tx is an indicator to let you know whether the radio’s transmitter is enabled ordisabled. The transmitter may be enabled or disabled through software, and isnormally enabled.Status describes the current state of the radio. Other documentation may alsorefer to the Status value as the radio’s internal fault bits. The following tableshows the interpretation of the Status bits. If the Status value displayed on yourscreen does not correspond to any of the values below, then determine whichvalues add together in hexadecimal to give the Status value that you see. Forexample, status value B403 would simultaneously describe states A000, 1000,0400, 0001, and 0002, as described below.Please note: if status bits are set, it does not necessarily indicate that there is afault with the radio. These bits are useful only for troubleshooting a knownproblem, and should not be read or interpreted by any application. For example,it is possible for the status bits to read 0040 yet the radio is able to transmit.0000 The radio modem status is normal. There are no warnings.0001 The RIM 802D has been out of coverage for a long time. No adequate basestation was found. Possible causes include lack of network coverage, wrongnetwork selected, or the battery level is too low.0002 This is a new RIM 802D being used for the first time. No action is necessary.0008 The radio modem has exhausted its internal memory. This should not happenunder ordinary use. Turning off the radio modem then turning it back on willresolve this.0040 The modem’s transmitter has been disabled by your software, using the RAP“Turn Transmitter Off” command. The transmitter can be turned back on withthe RAP “Turn Transmitter On” command, or by resetting the radio.0100 Another device may be using the same LLI number as your device on the samebase station. This should not happen under ordinary use. It may causeduplicate, dropped, or mixed up packets. Contact the network operator todetermine whether two units have the same LLI number.0800 The RIM 802D may be having a problem remembering its last base station. Ifthe problem persists, the unit should be returned for repair.
14 Getting started – The MENU diagnostics toolIntegrator’s Guide – RIM 802D OEM Radio Modem DRAFT VERSION1000 The RIM 802D has received an unknown interrupt and might be havingproblems receiving packets. If the problem persists, the unit should be returnedfor repair.2000 The RIM 802D has received an unknown interrupt. No action is necessary.4000 The RIM 802D has been damaged and cannot be used until this problem iscorrected. The unit should be returned for repair.How to change to a different networkThe RIM 802D radio may be used on different DataTAC networks operating ondifferent channels in the 800 MHz range. Up to 16 network channel lists maybe programmed by RIM into each radio. If the network shown is not the correctone, you can choose another from the list of networks available. Press N andthe MENU utility will present an additional prompt for selecting the network,as shown below.RIM 802D Firmware Version 1.0.0 release(c) 1999 Research In Motion LimitedRadio Setup Radio Serial Number = 031/11/066300Command Key Description Networks Available:----------- ----------- -------------------Q Quit and reset the radio. 1. AMSC 2. BELLMOBN Set the current network.P Ping: Send a Status SDU to yourself. Your Choice ? Choose a network from the list (1..2) ?LLI=88231144 RSSI= 30% 22 dBuV Battery= 97% Network=AMSCContact=Yes Mode=PowerSave Tx=EnabledStatus=0080Change network nameYou may now enter a number corresponding to the desired network shownunder Networks Available. When you press ENTER, the radio modem willswitch to the selected network, as shown below. If you do not enter a number,or if you erase the number you have typed, then no change will occur when youpress ENTER. Pressing ESC will cancel the network set-up command.
Getting started – The MENU diagnostics tool 15RIM 802D OEM Radio Modem – Integrator’s Guide DRAFT VERSIONThe screen below shows what would happen if you press 2 then ENTER. Thevalues shown beside Network has changed.RIM 802D Firmware Version 1.0.0(c) 1999 Research In Motion LimitedRadio Setup Radio Serial Number = 031/11/066300Command Key Description Networks Available:----------- ----------- -------------------Q Quit and reset the radio. 1. AMSC 2. BELLMOBN Set the current network.P Ping: Send a Status SDU to yourself. Your Choice ?LLI=88231144 RSSI= 30% 22 dBuV Battery= 97% Network=BELLMOBContact=Yes Mode=PowerSave Tx=EnabledStatus=0080Radio update was successful.“Ping” the network: an end-to-end radio testYou can determine whether your radio modem is working on the network bypressing P. When you “ping,” you send a message (SDU – Service Data Unit, aDataTAC data packet) to yourself via the wireless network base station. TheMENU utility will display a message indicating that the SDU was sent. A fewseconds later, it should also indicate that the SDU was received. This confirmsthat your radio modem is operational and active on the network.If you get the message “Status SDU cannot be sent – out of coverage”, then youare not in an area that is covered by the DataTAC network. You can determinewhether you are in coverage by looking at Contact on the status lines. If youare certain that you are in a coverage area, but are still not able to communicatewith the network, check the antenna to make sure it is connected properly andis positioned vertically. Signal quality can vary significantly within a building.Try moving the antenna to a new location, perhaps near a window, to see ifyou can get a signal.
16 Getting started – The MENU diagnostics toolIntegrator’s Guide – RIM 802D OEM Radio Modem DRAFT VERSIONRIM 802D Firmware Version 1.0.0(c) 1999 Research In Motion LimitedRadio Setup Radio Serial Number = 031/11/066383Command Key Description Networks Available:----------- ----------- -------------------Q Quit and reset the radio. 1. AMSC 2. BELLMOBN Set the current network.P Ping: Send a Status SDU to yourself. Your Choice ?LLI=88231144 RSSI= 30% 22 dBuV Battery= 97% Network=BELLMOBContact=Yes Mode=PowerSave Tx=EnabledStatus=0080Received SDU from 88231144 (to 88231144)If you are unable to communicate with the network, first contact the networkoperator to make sure that your device is activated on the network. If the radiohas not been activated, then the network will not send the SDU back to theradio. Second, make sure that you are in network coverage. You can determinewhether you are in coverage by looking at Contact on the status lines. If itshows Contact=NO, then you are not in an area that is covered by yourDataTAC network. You can also determine whether the antenna is connectedproperly and is deployed properly. Signal quality in buildings can varysignificantly over short distances. Try moving the antenna to a new location,perhaps near a window, to see if you can get a signal. If none of these remedieshelp, contact RIM for assistance.Exiting the utilityWhen you have finished using the utility, you should press Q to quit. This stepis important because it allows the radio to resume accepting commands fromother software. The screen will clear and you will be informed that the radiohas been reset. You can safely disconnect the radio and close your terminalprogram once you have seen this message.
3. MechanicalintegrationThis chapter provides information about the RIM 802D that will be useful indetermining the physical positioning of the radio modem within an application.Environmental properties and testing, physical properties, mounting methods,and connector information are provided.Environmental propertiesDuring environmental testing, RIM takes samples of its radio modems andsubjects them to a variety of harsh conditions. We measure over a hundreddigital RF calibration parameters, once before and once after each test. Thedifference between these measurements precisely reveals any performancedegradation. Each unit in the sample is also inspected visually after testing.This experience allows us to fine-tune our design and manufacturing process.Environmental testing ensures that our products are able to withstand bothtypical and extreme real-world conditions in which they will be used. RIM doesnot sell units that have been subject to environmental testing.
18 Mechanical integration – Physical propertiesIntegrator’s Guide – RIM 802D OEM Radio Modem DRAFT VERSIONStorage temperatureThe RIM 802D OEM radio modem may be stored at a temperature from -40 Cto +85 C (-40 F to +185 F).Operating temperatureThe RIM 802D is designed to operate between -30 C to +70 C (-22 F to+158 F). The end user should be careful not to exceed the upper temperaturelimit, as performance degradation or damage to the power amplifier may occurpast this point, especially while transmitting.The radio contains a temperature sensor that will automatically shut off thetransmitter if the temperature reaches approximately +75 C (+167 F).Physical propertiesWeightThe RIM 802D weighs 35 g (1.2 oz), including the case.DimensionsThe RIM 802D has been designed to meet the most stringent spacerequirements. In most cases, there will be sufficient room in an existingenclosure to house the radio modem.The overall maximum dimensions of the radio modem, not including cables,are: Width: 42.0 mm (1.65”) Length: 67.5 mm (2.66”) Thickness: 8.4 mm (0.33”)
Mechanical integration – Physical properties 19RIM 802D OEM Radio Modem – Integrator’s Guide DRAFT VERSION
20 Mechanical integration – Mounting methodsIntegrator’s Guide – RIM 802D OEM Radio Modem DRAFT VERSIONMounting methodsThe RIM 802D OEM radio modem may be securely fastened using a variety ofmethods. The operating environment must be carefully considered whenchoosing a mounting option. For example, extreme temperature, heavyvibration, or high electromagnetic interference areas may require a specialmounting solution. It is important to ensure that the RIM 802D remainssecurely attached in the environment where it will be used.The following information is presented as a guide, but applications can varyconsiderably. A mechanical engineer can help ensure that the mounting methodis suitable for the specific application.Bolts or standoffsThe RIM 802D radio modem includes a hole in each corner, which may beused to bolt the device onto a circuit board, device housing, stand-offs, or othersurface. The mounting hole pattern is four holes in a 62.5 by 36.5 mmrectangle, with each hole 2.5 mm in diameter.To allow room for components on your board underneath the radio, you mayuse standoffs instead of bolts. This is illustrated in the following diagram.
Mechanical integration – Mounting methods 21RIM 802D OEM Radio Modem – Integrator’s Guide DRAFT VERSIONTie wrapsTie wraps can be used as a secure but non-permanent means of attaching theRIM 802D to a surface. Typically, each tie wrap passes through a hole drilled
22 Mechanical integration – Mounting methodsIntegrator’s Guide – RIM 802D OEM Radio Modem DRAFT VERSIONinto the surface of your board, on either side of the RIM 802D. This allows theradio to be attached to a shell, a PCB, or some other mounting surface.If using tie wraps, ensure that the surface beneath the RIM 802D is flat.Otherwise, the mounting surface could push up on the bottom surface of theradio case while tightening the tie wraps pushes down on the edge of the radiocase. This could cause the metal case of the RIM 802D to flex upward and shortacross components inside the radio, causing the radio to malfunction. Forexample, thick adhesive foam tape and tie wraps should not be used together.Permanent industrial adhesiveThe RIM 802D is small and lightweight enough to be attached to the hostdevice using an industrial adhesive. For some applications, this method ofmounting is preferable to bolts, because adhesive is easier to use in amanufacturing environment, and is more resistant than bolts to loosening. Inmany cases, an effective solution is to adhere the radio modem to the insidesurface of your product’s casing.An adhesive should be chosen on the basis of its ability to stick to the materialused in the outer casing of the radio modem and in the surface to which theradio will be mounted. The bottom casing of the RIM 802D is magnesium.3M manufactures VHB, a permanent industrial adhesive with excellent long-term holding power. The peel adhesion and tensile holding power of VHB tapesare extremely high, making this a suitable solution when the radio will notneed to be removed. Choose foam tape for rough surfaces and adhesive tape forsmooth surfaces.More information about VHB may be obtained by contacting 3M IndustrialTape and Specialties Division at 1-800-227-5085 (fax: 1-612-733-1771). Thepublication number for the VHB technical data sheet is 70-0702-0266-1(104.5)R1.
Mechanical integration – Cables and connectors 23RIM 802D OEM Radio Modem – Integrator’s Guide DRAFT VERSIONCables and connectorsThere are two connectors on the RIM 802D radio modem. One connector isused to interface the radio modem to a serial computing device and a powersupply, and a second connector is used to connect an antenna to the radio.Interface cable and connectorSerial communication data, control signals, and power are carried on a flat 22-conductor 0.30 mm (0.012”) thick flexible printed circuit (FPC) cable with1.00 mm centerline spacing, which can plug into a matching connector. Sinceeach application is unique, Molex can create a custom Flat Flex Cable Jumperin the correct length and the correct connector orientation for your application.The minimum cable length available is 30 mm (1.181”).The interface cable supplied with the RIM 802D Developer’s Kit is a Type D76.2 mm (3.0”) long Flat Flex Cable (FFC) Jumper in 1.00 mm centerlinespacing, Molex part number 8800-8071, as illustrated in the followingmechanical drawing:
24 Mechanical integration – Cables and connectorsIntegrator’s Guide – RIM 802D OEM Radio Modem DRAFT VERSIONThis cable can plug into a matching 22-position 1.0 [0.039] horizontal FPCconnector. A variety of connectors are manufactured by Molex. Moreinformation about each connector, including mechanical drawings, is availablefrom the manufacturer’s web site (www.molex.com), or you can contact RIM(rim802D@rim.net) for help with selecting an appropriate connector for yourapplication.Contact:Molex Headquarters Molex Electronics Ltd.Lisle, IL, USA Toronto, Ontario, Canadatel: (630) 969-4550 tel: (416) 292-1444fax: (630) 969-1352 fax: (416) 292-2922www.molex.comAntenna cable and connectorsRIM uses the industry-standard MMCX connector for the RIM 802D because itis a very small connector that has the mating force to withstand heavyvibration.Typically, an antenna does not plug directly into a RIM 802D. Instead, a cableis used between the radio’s antenna connector and a second connector at theouter casing of the device. This allows the antenna to be removed from thesystem without having to open the device, and it eliminates a source of strainon the radio’s MMCX connector.The antenna cable should have low loss, an impedance of 50 , and an MMCXjack that mates with the RIM 802D’s MMCX plug. The other end of the cablecan be any connector you choose, as long as it has an impedance of 50 . AnSMA screw-on connector is suitable and widely available. TNC connectors arealso suitable, but larger than SMA. The antenna cable supplied with theRIM 802D developer’s kit has an MMCX connector on one end and an SMAconnector on the other. The cable is built with strain reliefs to prevent damage.Huber & Suhner can provide antenna cables and connectors. The partsdescribed below have an impedance of 50 and are suitable for use with theRIM 802D.
Mechanical integration – Cables and connectors 25RIM 802D OEM Radio Modem – Integrator’s Guide DRAFT VERSION11MMCX-50-2-1C/111 Straight MMCX connector16MMCX-50-2-1C/111 Right-angle MMCX connector25SMA-50-2-25/111 SMA connectorEZ Flex 405 Low-loss matching (50 ) cable133REEZ4-12-S2/1216 8” cable, straight MMCX to SMA133REEZ4-12-S2/1699 8” cable, right-angle MMCX to SMAThe following cable is included with the RIM 802D Developer’s Kit:Contact:Huber & Suhner Huber & SuhnerEssex Junction, VT, USA Kanata, Ontario, Canadatel: (802) 878-0555 tel: (800) 627-2212fax: (802) 878-9880 fax: (613) 596-3001www.hubersuhnerinc.com
4. Power requirementsThe RIM 802D radio modem must be provided with a clean power sourcecapable of delivering bursts of high current. This can be provided by a plug-inpower supply unit, a rechargeable battery pack, or single-use batteries. RIM hasconducted extensive research to develop guidelines for integrators who followdesign the power supply system for the RIM 802D.Load specificationsThe RIM 802D draws its power in bursts; the power required changes rapidlydepending on whether the radio is transmitting, receiving, or in standby. Theload profile is given on the following page. These specifications can be givendirectly to your power supply designer or battery supplier.Power supply parametersThe RIM 802D requires a clean, stable 4.1 to 4.75 volt source that is capable ofdelivering a one-second burst of up to 1.7 A when required by the transmitter.Maximum efficiency is obtained at 4.1V. RIM recommends designing a morerobust power supply that can provide adequate power under such non-idealconditions as an improperly matched antenna, under which this burst could beas high as 2.2A. The receiver current consumption is 66 mA. The standbycurrent consumption is 0.2 mA in low-power standby mode and 4.3 mA inregular standby mode.
28 Power requirements – Load specificationsIntegrator’s Guide – RIM 802D OEM Radio Modem DRAFT VERSIONRadio load profile (at 4.4 V)Transmitter transmitting 2.0 W to antenna… worst-case peak instantaneous (due to extreme temperature, poorly matched antenna, etc.)…1.7 A2.2 AReceiver 66 mAStandby 4.3 mALow-power Standby 0.2 mATransmit duration– minimum… maximum…32 ms1 sOff current consumption 20 AOverall power consumption (assume heavy usage) based on 0.05% transmit, 5.00% receive, and 94.95% low-power standby… if low-power standby is not used…4.3 mA8.8 mARipple specificationFor best performance, ripple of less than 15 mV peak-to-peak (measured at theradio end of the connector) is recommended across the frequency range 60 Hzand 1 MHz. The maximum ripple at the connector that can be tolerated is20 mV peak-to-peak.Except in special cases where there are several sources of ripple, this meansthat you measure the ripple with an oscilloscope set to 1 MHz bandwidth, andthe peak-to-peak value is not to exceed 15 mV. Note that if there are severalripple components, or if ripple is measured with a larger (typically 20 MHz)bandwidth, ripple will seem worse. If it is still below 15 mV under theseconditions, it will meet the ripple specification.A passive LC (series L, shunt C) power filter can be put between your powersupply and the RIM 802D radio modem to reduce ripple at the radio connector.Bear in mind that the RIM 802D radio already has about 70 F of on-boardshunt capacitance. The inductor cannot exceed 100 H (otherwise, transientscould reset the radio), it must be rated to pass the maximum DC current of
Power requirements – Calculating overall power consumption 29RIM 802D OEM Radio Modem – Integrator’s Guide DRAFT VERSION2.2 A supply current at all temperatures, and its resistance must be low enoughto guarantee minimum voltage of 4.1 V to the RIM 802D at 2.2 A.Calculating overall power consumptionThe instantaneous power consumption varies between 0.2 mA and 1.7 A, arange of four orders of magnitude. At any given point in time, the powerconsumption depends on what the radio is doing. Calculating the overall powerconsumption is important if a battery with appropriate capacity is to be properlyselected.The current figures below are all measured at a supply voltage of 4.4 V. Theactual operating range of the supply voltage is 4.1 to 4.75 V.Transmitter power usageThe radio transmitter draws 1.7 A to transmit 2.0 W.When the radio is not transmitting, the transmitter is off and consumes nopower.Receiver power usageThe radio receiver draws 66 mA when it is turned on. However, in PowersaveMode, the receiver is nearly always turned off, and is turned on onlyoccasionally. The base station will wait until the radio’s receiver is turned onbefore attempting to send data to the radio. If no data is waiting at the basestation, the radio will turn the receiver off and wait another period of time. Thisreduces power consumption significantly, but introduces a latency whenreceiving data packets from the wireless network.The receiver also stays on for 10 seconds (the “transaction time”) immediatelyafter data is sent to or received from the network base station. During thetransaction time, there is no latency introduced by the use of Powersave. Thisallows two-way interactive applications to process a transaction without delay.
30 Power requirements – BatteriesIntegrator’s Guide – RIM 802D OEM Radio Modem DRAFT VERSIONSending 3 packets in rapid succession will consume less power than sending 3packets more than 10 seconds apart.To decide whether to roam onto a new base station, the radio periodically scansfrequencies of neighboring base stations. The length of time spent scanning isdifficult to predict, as it depends on coverage, user mobility, and number ofnetwork channels. Most applications will spend less than 0.2% of the timescanning, during which the receiver is turned on. However, a highly mobileapplication will consume more power than one in a semi-fixed location.BatteriesWhen integrated into a handheld device, the RIM 802D can be powered bybatteries. This is a proven technology that is easily available and eliminates theneed for power supply components such as voltage regulators.Rechargeable batteriesWe recommend using rechargeable nickel cadmium (NiCad) batteries to powerthe RIM 802D radio modem for battery-operated applications that require awide operating temperature range. Nickel metal hydride (NiMH) and lithiumion (Li+) cells may also be used with good results, but many such cells do notwork very well at temperatures below freezing. Specifications for batteriesshould be obtained from the manufacturer. The RIM engineering developmentteam (rim802D@rim.net) can help you determine whether a particular batteryis suitable for your application.The selected cells must be able to meet the load specifications of theRIM 802D. Specifically, they must be able to provide 1.7 A (at 4.4 V) fortransmission. Rechargeable cells vary considerably, because capacity varieswith current draw. Even if two cells have the same published capacity, one maynot be as efficient as another when the radio transmitter is turned on. This isbecause some batteries have a higher equivalent series resistance (ESR) at highcurrent drain. The ESR should be low enough that the battery can supply thetransmit current required without a large voltage drop.
Power requirements – Plug-in supplies 31RIM 802D OEM Radio Modem – Integrator’s Guide DRAFT VERSIONRechargeable alkaline batteries are another option. These cells are typicallyrated for about 25 discharge cycles, far fewer than NiCads, but they providelonger life than NiCads. For the first five to ten cycles, you will get about 70 to80 percent of the battery life you would expect from a single-use alkaline cell.After 25 discharges, this number may drop to 50 percent. Some precautionsmust be taken with this type of battery. These cells are also not intended to beused to their full capacity, so the actual useful run-time of these cells is closer to30 to 40 percent of a single-use alkaline cell, and requires the user to pay closerattention to the state of the batteries. If you fully discharge a rechargeablealkaline battery, you may only get five recharges before the capacity decreasesto the point where it is useless.Single-use batteriesAmong single-use cells, only alkaline and lithium cells provide the highcurrent necessary for transmission. In particular, AA alkaline cells areinexpensive, widely available, and provide an excellent power source. Alkalinecells typically run about four times longer than similar-size NiCad cells, andabout three times longer than similar-size NiMH cells.The use of general-purpose carbon-based batteries is strongly discouraged, asthis type of battery is unable to supply the power required by the transmitter.These cells are more suited to flashlights and other products that do not have abursty load characteristic. If a carbon-based battery is used, the voltage willdrop below the minimum power required under load almost immediatelyfollowing a radio transmit, which would reset the radio each time it tries totransmit.Since carbon cells are generally sold under names like “super heavy duty,” thebest way to be sure that a single-use battery is alkaline is to look for the word“alkaline” on the label, or to use well-known brands such as Duracell orEnergizer. This should be communicated to the user of your product.Plug-in suppliesA plug-in supply converts normal AC power (usually 110 volts or 220 volts)into a steady DC source that can be used instead of batteries. The plug-in
32 Power requirements – Automotive suppliesIntegrator’s Guide – RIM 802D OEM Radio Modem DRAFT VERSIONsupply must be designed to ensure that voltage spikes, lightning, and otherpower fluctuations cannot damage the radio modem. Transient voltageprotection zener diodes, or other spike arrestor circuits, may be added to keepthe inputs within the limits given in the RIM 802D load specifications. Theseshould have a value of 20 volts and be placed on the supply side of the regulatorcircuit.RIM recommends a supply capable of providing 4.1 V and rated for 2.5 A peakcurrent. LIND Electronics (www.lindelectronics.com) can supply a car lighteradapter suitable to drive a 5V, 2A device (model number APA-SH0520M) witha connector of your choice; your hardware should then reduce the power to4.1V. For sales information, contact Dave Murphy at (612) 927-6303.Automotive suppliesIf you plan to power the RIM 802D from an automotive supply, extra protectionmust be included to protect the radio modem from the intense powerfluctuations experienced when the automobile is started. A circuit comprisinginductors, transorbs and voltage regulators should be used to ensure the radiomodem is protected from these power fluctuations.Commonly, in automotive applications, voltages may be as high as 70 V on thebattery, especially during starting. Commercial automotive adapters areavailable that will safely convert the 12 volt automotive supply to a regulatedsupply suitable for operating the RIM 802D radio modem.
5. InterfacespecificationThe asynchronous serial interface on the RIM 802D operates at 3.0V, making itcompatible with many existing system designs. The RIM 802D can becontrolled by a wide variety of microcontrollers and microprocessors, such asthe Intel 8051 or 80386, or Motorola 68000. In most cases, the RIM 802D canbe connected directly to a micro-controller, or through a UniversalAsynchronous Receiver/Transmitter (UART) to a microprocessor data bus. Ifthe radio modem is to be connected directly to a PC or other RS-232 device, aninterface must be provided to convert the signal voltage to the higher valuesrequired by an RS-232 device.NCL and RAP link-layer protocolsThe RIM 802D requires a serial link-layer protocol to carry data, radio controlinstructions, and radio status information between the RIM 802D radio modemand the computing device to which it is attached. Two protocols are supportedby the radio: Native Control Language (NCL) and Radio Access Protocol(RAP).If you are using an NCL application with another DataTAC radio and are nowmigrating to the RIM 802D, you do not need to rewrite the application in RAP– simply continue using the NCL application. If you are writing a new
34 Interface specification – NCL and RAP link-layer protocolsIntegrator’s Guide – RIM 802D OEM Radio Modem DRAFT VERSIONapplication for the RIM 802D, you will need to choose whether to use NCL orRAP as your link-layer protocol.NCL assumes a high-noise environment where bit errors are likely to occur onthe serial link between the radio modem and the computing device. NCL isdesigned to be extremely robust and redundant, and should be used when theserial link is unreliable or when the serial cable to the RIM 802D is very long.Advances in mobile computing technology have helped to ensure that seriallinks are short enough to make bit errors extremely unlikely. This is especiallytrue for smaller devices such as laptops and PDAs. The complexity of NCL isunnecessary for these applications, and involves complex and lengthy softwaredevelopment.RAP was designed to take advantage of the reliability inherent to a short seriallink. The primary benefit of RAP is that it is easy to describe and implement.As a result, RAP reduces software development time, complexity, and memoryconsumption. It also provides double the throughput of NCL, by using binaryframe data transfers instead of hex-ASCII encoding.Since every application is different, the choice of protocol should be madecarefully. The following chart is provided as a guide to comparing the relativeadvantage of each protocol.NCL RAPInterface cable fromRIM 802D to device Designed for long serialcable prone to bit errors Assumes a short, reliableserial cableOperating environment Withstands harsh, hostileelectrical interference Best suited for laptops,PDAs, other small devicesSoftware complexity Complex SimpleImplementation time(typical) Weeks or months,or use third-party APIs DaysMemory requirements 5 to 20 kilobytes 1 to 3 kilobytesCost Free, open specification,or pay for third-party APIs Free, open specification,sample source code is free
Interface specification – Pin descriptions 35RIM 802D OEM Radio Modem – Integrator’s Guide DRAFT VERSIONThere is no “best” protocol. The NCL or RAP protocol is used strictly for thelink between the radio modem and the computing device, and does not haveany influence on the speed or reliability of communication between the radioand the DataTAC network. The RIM engineering development team(rim802D@rim.net) can help you select the protocol most suited to your needs.Pin descriptionsAll input and output lines are 3.0 volt logic; however, they will also be able todrive 3.3 volt systems. Input lines 13, 16, 19, and 20 are 5.0 volt input tolerant.Output lines will be capable of driving 5.0 volt systems provided the VIH ofthese pins is less than 2.5 volts.All outputs will source a short circuit current of 3 mA. Inputs will have acurrent leakage of 1 A.This section describes the purpose of each of the 22 lines that comprise theinterface to the RIM 802D OEM radio modem. The symbol ~ before the labelindicates that line is an active low digital signal.Note that pins 9 through 22 on the RIM 802D correspond to pins 14 through 1on the RIM 900. The numbering is reversed because the connector is reversed,but physically the leftmost pin on the RIM 802D connector is the same as theleftmost pin on the RIM 900 connector.Pins 1, 2, 3, 4, 13, and 22 are designed for future use and must be leftdisconnected. All other unused inputs to the radio should be tied to ground, andany unused outputs from the radio should be left disconnected.Pin 5 ~MSG ~Message WaitingThis is an output from the radio.The active state of this line is low, and indicates that the radio has received adata packet (SDU) from the network, which has not been delivered to thedevice application yet. This line continues to remain active until the applicationacknowledges receiving the packet.
36 Interface specification – Pin descriptionsIntegrator’s Guide – RIM 802D OEM Radio Modem DRAFT VERSIONWhen the radio’s receive buffer is full, this line will be inactive (high).Pin 6 ~COV ~CoverageThis is an output from the radio.The active state of this line is low, and indicates that the radio is in networkcoverage, as measured by the presence of a signal from the network basestation.When the radio does not have contact with the wireless network, this line ishigh.Pins 7,8 POWER Power supplyThese pins supply power to the radio. Since the current requirement duringtransmit exceeds the current rating of a single line, both lines 7 and 8 should beconnected to the power supply.Pin 9 GND GroundThis line should be tied to the system ground of the computing device to ensureproper operation. Pin 18 should also be connected to ground.Pin 10 TURNON Turn Radio OnThis is an input to the radio.This line turns on the radio unit. It is a digital signal that eliminates the needfor an on/off switch across the power supply to the radio. This is a 3.0V inputto the radio, and is not 5.0V tolerant. Information about the use of this pin iscontained in the next section of this chapter.Pin 11 ONI On IndicateThis output from the radio that indicates that the radio is on and operational.
Interface specification – Pin descriptions 37RIM 802D OEM Radio Modem – Integrator’s Guide DRAFT VERSIONThis line may be used by a computing device to qualify the handshakingoutputs on the serial interface. If CTS is low, and ONI is high, then the unit isready to receive data, but if CTS is low and ONI is low, then the radio is notready to receive data because it is off.When ONI is low, all inputs to the radio should be held low or disconnected.Otherwise, power will be consumed and wasted.Pin 12 TRI Transmit IndicateThe active (radio transmitting) state of this line is high.This output from the radio that is asserted while the RIM 802D is transmittinga packet to the network base station. TRI has a built-in current limiter thatallows it to drive an LED directly, to provide real-time visual feedback to theuser that the radio is transmitting packets. If this is not necessary, the line cansimply be left disconnected.This line will supply 3 mA to a standard LED, and is short-circuit protected.This line is low when the Radio is off.Pin 14 ~RI ~Ring IndicateThis is an output from the radio.When ~DTR is not asserted (high), the RIM 802D asserts ~RI (low) to indicatethat it has data waiting for the computing device. The radio will not transfer thedata until ~DTR is asserted (low). This line can be used to wake up asuspended computing device when the radio needs to communicate with it. If~DTR is already asserted (low) when the radio has data to send the computingdevice, ~RI will not be asserted.For NCL implementations, this line indicates that the radio has an NCL framewaiting to transfer to the computing device. This line should also bedisconnected if your application does not use it.For RAP implementations, ~RI is not used and should not be connected.
38 Interface specification – Pin descriptionsIntegrator’s Guide – RIM 802D OEM Radio Modem DRAFT VERSIONPin 15 ~CTS ~Clear To SendThis is an output from the RIM 802D to the computing device. The active(clear to send) state of this line is low.When asserted low by the RIM 802D, this line indicates that the radio is readyto receive data from the computing device. When this line is high, any data sentfrom the computing device to the RIM 802D may be lost. This is a flow controlmechanism that is normally reacted to by the UART in your serialcommunication system. If you do not plan to use it, leave it disconnected.Pin 16 ~RTS ~Request To SendThis line is an input to the radio. The active (request to send) state of this lineis low.All NCL implementations require this line, but it is optional for RAPimplementations. This line should be asserted low by the computing device toindicate that it is ready to receive data from the RIM 802D. This is a flowcontrol mechanism that is normally handled by the UART in your serialcommunication system. If you do not connect this line to your UART, it mustbe tied low so that it is permanently asserted and allows communication.If your device’s buffer overflows, it should set RTS inactive to signal theRIM 802D to pause in sending data. Note that there may be a 16-byte overrunafter the RTS line is made inactive, so your device should set RTS inactive atleast 16 bytes before any critical buffer overflows.Pin 17 ~DSR ~Data Set ReadyThis line is an output from the radio.The active (data set ready) state of this line is low. DSR can be used by yourcomputing device as a confirmation that the radio knows the state of theterminal. DSR follows DTR, so the two lines will always be at the samevoltage.
Interface specification – Pin descriptions 39RIM 802D OEM Radio Modem – Integrator’s Guide DRAFT VERSIONPin 18 GND GroundThis line should be tied to the system ground of the host unit to ensure properoperation. Pin 9 should also be connected to ground.Pin 19 ~DTR ~Data Terminal ReadyThis line is an input to the radio.The active (data terminal ready) state of this line is low, and indicates that thecomputing device is ready to receive data from the RIM 802D. De-assertingthis line high will turn communication off; the RIM 802D would not attempt todeliver data to the computing device until ~DTR is again asserted low.Asserting this line low will allow communication to resume.If you do not intend to use ~DTR, tie it to ground to ensure that it is alwaysasserted during radio operation.This line should be driven low when the radio is off. Driving ~DTR high whenthe radio is off will consume unnecessary power.Pin 20 TX TransmitThis line is an input to the radio. Its idle (no serial transmit activity) state ishigh.This is an asynchronous serial input to the radio unit, and should be connectedto the computing device’s Transmit Data output. This line carries data at 9600bits per second. The parameters are 8 bits, No parity, 1 stop bit.
40 Interface specification – How to turn the radio on and offIntegrator’s Guide – RIM 802D OEM Radio Modem DRAFT VERSIONPin 21 RX ReceiveThis is an output from the radio. Its idle (no serial receive activity) state ishigh.This line is an asynchronous serial output from the radio unit, and should beconnected to the host terminal’s Receive Data input. This line carries data at9600 bits per second. The parameters are 8 bits, No parity, 1 stop bit.How to turn the radio on and offThe TURNON pin is a digital signal that turns the radio on and off. Iteliminates the need for a power switch across the power supply to the radio.Turning the radio onTo turn the RIM 802D on, the software should first check the ONI pin. If ONIis high, but TURNON is being held low, then your application has recentlyrequested the radio to shut down, and the radio is performing shutdownoperations and should not be disturbed. Wait for ONI to go low beforecontinuing.If ONI is low, this indicates the radio is turned off. Set the TURNON line highto turn the radio on. The ONI pin will respond by going high, typically within 2seconds. Once the ONI pin is high, other handshaking and communicationsignals can begin.If the radio fails to respond to a high TURNON line, the radio may requireservice, or the power supplied to the radio may be too low for proper operation.Turning the radio OFFA controlled shutdown is necessary to allow the RIM 802D to tell the DataTACnetwork that it is off air. To turn the RIM 802D off, your software should de-assert the TURNON line by setting it low. The radio will then begin shutdown
Interface specification – Loading firmware (optional) 41RIM 802D OEM Radio Modem – Integrator’s Guide DRAFT VERSIONoperations, and the ONI pin will remain active until all shutdown operationsare complete.Shutdown will normally require several seconds to complete, and the radioshould not be disturbed while it is shutting down. Attempting to communicatewith the radio during shutdown may extend the time taken to performshutdown operations. The ONI signal will be de-asserted (low) when the radiohas shut down.All inputs to the radio should be low when the radio is turned off. This ensuresthat power consumption will be reduced to the lowest possible levels. Note thatif any line is left in the high state, as much as 5 mA may flow into the radiomodem.SDU data that has been received by the RIM 802D from the DataTAC network,but which has not been transferred to the computing device, will not be saved.The SDUs will be lost when the unit enters shutdown or is turned off.Following this shutdown procedure, it is not necessary to remove power frompins 7 and 8, unless the application cannot tolerate the 0.02 mA current drawthat occurs when the radio is shut down.Loading firmware (optional)The RIM 802D firmware controls the operation of the radio. RIM is committedto the quality of its firmware, and improvements or optimizations may be madefrom time to time. The radio is designed so that loading revised firmware is notnecessary; two RIM radios with different firmware revisions will always be ableto communicate with each other through the wireless network.Because of its size, firmware cannot be updated over the air. If you decide toimplement the ability to update the firmware after the radio is deployed, RIMcan provide a DOS or Windows programming utility that loads firmware intothe radio. If your device is not DOS or Windows based, the programming utilitymust reside on a PC or laptop that is connected through its COM port to theradio’s RX and TX lines. This means that the RX and TX lines would bebrought out to an external connector, and a switch required to select whetherthe radio is connected to your processor or to the external programming
42 Interface specification – Loading firmware (optional)Integrator’s Guide – RIM 802D OEM Radio Modem DRAFT VERSIONcomputer. Other lines that are required during reprogramming are DTR (mustbe asserted low), TURNON (must be high), and GND.
6. Antenna selectionThe antenna is one of the most important components of a wirelesscommunication system. The right antenna will maximize the coverage area ofthe RIM 802D.The antenna that you choose should complement the needs of your specificproject. There are many different antenna types and options that will meet yourengineering and user requirements while remaining within budget constraints.We strongly recommend the use of an experienced antenna provider in order torealize the highest gain possible. A well-designed antenna solution willmaximize efficiency, coverage area, and battery life.Selecting an antennaAntenna manufacturers have designed and manufactured a wide variety ofantennas for use on the DataTAC network, and for other radio-frequency (RF)systems operating in the 800 MHz range. RIM does not recommend specificantennas because the choice of antenna is application-dependent.The performance of an antenna depends on its configuration and environment:the same antenna will behave differently in one device than in another device,even if both devices use the same RIM 802D radio modem. For example,magmount antennas include a magnetic base that allows the antenna to clamponto a metal surface. This surface is called a ground plane, and reflectselectromagnetic radiation that would otherwise be lost to the antenna. This
44 Antenna selection – Selecting an antennaIntegrator’s Guide – RIM 802D OEM Radio Modem DRAFT VERSIONeffectively doubles the length of the antenna by creating a virtual “mirrorimage” of the antenna beneath the plane.Antenna requirementsThe following are the minimum requirements of the antenna system used withthe RIM 802D.Impedance: 50 Center frequency: 833 MHz, 5 MHzthis is deliberately biased toward transmit becauseof the exceptionally sensitive receiver in the radio; ithelps balance the two-way link between the radiomodem and the network base stationFrequencies of operation: 806 to 825 MHz (transmit)851 to 870 MHz (receive)Acceptable return loss: VSWR < 1.5 or RL < 14 dB (recommended)VSWR < 2.0 or RL < 10 dB (minimum acceptable)required across the frequencies of operationSupplier contact informationLarsen Antenna Technologies, Inc. Larsen Antenna Technologies-Canada,Ltd.Vancouver, WA, USA Burnaby, B.C., Canadatel: (800) ANTENNA / (360) 944-7551 tel: (800) 663-6734 / (604) 299-8517fax: (800) 525-6749 / (360) 944-7556 fax: (800) 689-2199 / (604) 299-4191www.larsenantenna.comAustin Antenna (subsidiary of World Wireless Communications Inc.)Salt Lake City, UT, USAtel: (801) 575-6600fax: (801) 575-6621www.worldwireless.com
Antenna selection – Introduction to antenna terminology 45RIM 802D OEM Radio Modem – Integrator’s Guide DRAFT VERSIONCenturion International, Inc.Lincoln, NE, USAtel: (800) 228-4563 / (402) 467-4491fax: (800) 826-3774 / (402) 467-4528www.centurion.comAndrew CorporationOrland Park, IL, USAtel: (708) 349-3300fax: (708) 349-5444www.andrew.comIntroduction to antenna terminologyThis section introduces some of the terminology that is used to describeantennas, and expands on the summary of antenna requirements, above.Gain and ERPAntennas produce gain by concentrating radiated energy in certain areas, andradiating less energy in other directions. The amount of gain depends on theradiation pattern, antenna match, and antenna efficiency. Antenna gain isgiven as a rating of the maximum increase in radiated field energy densityrelative to a dipole antenna, expressed in decibels of power gain (dBd).A dipole is a balanced antenna consisting of two radiators that are each aquarter-wavelength, making a total of a half-wavelength. The widespread useof half-wave dipole antennas at VHF and UHF has led to the use of a half-wavedipole as the reference element.The power output of the RIM 802D is 2.0 W at the antenna port, and theantenna gain (or loss) will result in an increase (or decrease) in this value. Theactual output is called the Effective Radiated Power, or ERP. For example, ifthe RIM 802D is putting out 2.0 W of power to a 2.3 dBd gain antenna, theERP is 2.0 10^(2.3 10) = 3.4 W, the actual power radiated by the antenna inthe direction of maximum gain and polarization.
46 Antenna selection – Introduction to antenna terminologyIntegrator’s Guide – RIM 802D OEM Radio Modem DRAFT VERSIONImpedance matching, return loss, and VSWRThe antenna, cables, and connectors in a radio frequency system must allpossess the same impedance. The impedance required by the RIM 802D is50 , which is a widely-available industry standard. Any deviation from thisvalue may result in impedance mismatch.Impedance mismatch can be caused by cable connections, cable lengths, andimperfections in the cables and connectors. The mismatch causes some of theradio frequency energy to be reflected back from the location of the mismatch.This interferes with the signal and reduces its amplitude, resulting in a powerloss.Antenna mismatch can be expressed as a return loss (RL), which is simply theratio of reflected power to the incident power, expressed in decibels.RL 10 10log PPreflectedoutputEquation 1: Return LossThe Voltage Standing Wave Ratio (VSWR) is another way of expressing theratio of incident power (from the RIM 802D) to reflected power (into theRIM 802D).VSWR1PP1 - PPreflectedoutputreflectedoutputEquation 2: VSWRVSWR = 1 or RL = dB is a perfect match. In practice, there will always beimperfections, which means that VSWR will be greater than 1 and RL will be anegative number.VSWR and RL normally vary as a function of frequency. The RIM 802D’sfrequency range includes 806 to 825 MHz (transmit) and 851 to 870 MHz(receive). The minimum acceptable match across this range must be
Antenna selection – Antenna design considerations 47RIM 802D OEM Radio Modem – Integrator’s Guide DRAFT VERSIONVSWR < 2.0 or RL < 10 dB. For best performance, the recommended antennamatch at these frequencies is VSWR < 1.5 or RL < 14 dB.Antenna sizeThe optimal antenna radiation efficiency is produced by an antenna measuringone wavelength, . The value of for the RIM 802D is 36.0 cm, and iscalculated by dividing the speed of light c = 3 x 108 m/s by the center frequencyf = 833 MHz. Because the RIM 802D’s receiver is so sensitive, this valueincludes a 5 MHz bias toward the transmit frequencies to help balance theuplink and downlink between the radio modem and the network base station.Antenna lengths of /2, /4, and /8 also work well, and usually result in arelatively well matched antenna. /2 or /4 can be electrically “shortened” byadding load matching elements to control the antenna match. However, thisshortening will reduce the antenna efficiency and therefore the effectiveradiated power.Antenna design considerationsProper positioning of the antenna will maximize the gain provided by theantenna. In determining the proper position, the designer must carefullyconsider the environment in which the device will be used. Physical devices canvary significantly, and incorporating the antenna is an integral part of asuccessful design.The DataTAC network is based on vertically polarized radio-frequencytransmission. Therefore, the antenna should ideally be oriented so that itprovides vertical polarization. This is achieved by positioning the antennavertically upward when the RIM 802D is in use. In small, hand-held devices, itmay be convenient to design the unit in such a way that the antenna folds out ofthe way when not in use.The antenna should be located as far from the active electronics of thecomputing device as possible. In general, metal construction in the case of thecomputing device and its internal components may attenuate the signal incertain directions. This is not desirable, as it would reduce the sensitivity and
48 Antenna selection – Antenna design considerationsIntegrator’s Guide – RIM 802D OEM Radio Modem DRAFT VERSIONtransmit performance of the radio modem when the computing device is held orpositioned in certain orientations. However, the judicious use of metal in theconstruction of a ground plane for an antenna can significantly improve theantenna gain and the coverage area of the system.If the computing device is designed to sit on a surface, then the antenna shouldbe as far from the bottom of the device as possible. This will reduce radio-frequency (RF) reflections whenever the device is placed on a metal surface.When the computing device is hand-held or is worn next to the body of theuser, the antenna should be positioned to radiate away from the body.Otherwise, the body will absorb the radiated energy and the effective coveragearea of the radio will be reduced. This will also help the device meet the FCC’sRF exposure requirements.For best results, the antenna should be connected directly to the antenna cable.If an extension cable is required, it should be low loss, as short as possible, andhave an impedance of 50 . It is important that a proper matching connectorbe used, as each connector in the signal path introduces a return loss andreduces performance.The following additional notes are provided courtesy of Larsen AntennaTechnologies:“There are a number of critical issues to consider when integrating antennasinto portable RF systems. It is important to make allowances early in thedesign process to optimize performance and provide flexibility in antennachoice. Generally, it is prudent to position the antenna “up and away” fromthe radio and printer motors to maximize noise reduction and receiverdesensitivity. Other “high noise” areas to be avoided include displays andkeypads that can seriously degrade antenna performance. Advances in antennashielding techniques may also be incorporated to retain the integrity of thesystem.“Mechanical issues for an integrated antenna revolve around proper cablerouting and use of service loops to provide uninhibited antenna rotation ifneeded. The ability to position the antenna in a manner which will result inantenna deformation, impact resistance and aesthetic requirements must alsobe considered to design a workable form factor. The option to position theantenna vertically when in use so that performance is optimized is anotherconsideration which can be limiting and a true consideration when choosing touse off-the-shelf solutions.
Antenna selection – Shielding 49RIM 802D OEM Radio Modem – Integrator’s Guide DRAFT VERSION“Custom antenna solutions may be worthy of consideration for some projects.In some applications, custom designed antennas have shown performanceincreases of up to 2 dB when compared to quality off-the-shelf solutions. Thecost of a custom design and resulting production can be as cost efficient as anoff-the-shelf solution for projects requiring quantities as low as 20,000antennas. The use of state-of-the-art antenna theory, printed circuittechnology, and application of evolving concepts can produce antennas withreduced sized without compromising performance.“Examining the options available, and choosing an antenna early in thedevelopment process, can only benefit the performance and aesthetic appeal ofa product. The engineering staff at Larsen Antenna Technologies are expertsin this field with over 30 years of experience in helping OEMs reach theirantenna design and production objectives.”ShieldingThe electrical design of the RIM 802D provides high immunity to radio-frequency (RF) noise, or electromagnetic interference (EMI). The metal casingalso acts as a shield to help minimize the effect of RF interference originatingfrom the computing device to which it is attached, and to prevent theRIM 802D from emitting RF energy into the computing device and disruptingthe computing device’s operation.Consequently, you do not need to provide any additional RF shielding betweenthe RIM 802D and a computing device, unless the environment contains anextreme level of RF noise (electromagnetic interference). In fact, it would bemore important for the power supply to the RIM 802D to be free of high-frequency electrical noise, than to provide additional RF shielding.The antenna must be positioned in such a way that the radiated energy isdirected away from the computing device. If this is not possible, then RFshielding may be required between the antenna and the computing device.Note that circuits with a high impedance, and sensitive analog circuits, areespecially vulnerable to nearby radio frequency emissions, and may need to beshielded. Typically-affected circuits include CRTs and LCD display drivers.
50 Antenna selection – FCC radio frequency exposure rulesIntegrator’s Guide – RIM 802D OEM Radio Modem DRAFT VERSIONFCC radio frequency exposure rulesDRAFT subject to changeBased on FCC rules 2.1091 and 2.1093 and FCC Guidelines for HumanExposure to Radio Frequency Electromagnetic Fields, OET Bulletin 65 and itsSupplement C, all integrations of the RIM 802D OEM unit are subject toroutine environmental evaluation for radio-frequency (RF) exposure prior toequipment authorization or use.For portable devices, defined in accordance with FCC rules as a transmittingdevice designed to be used within 20 cm of the user body under normaloperating conditions, RF evaluation must be based on Specific Absorption Rate(SAR) limits in W/kg. SAR is a measurement of the rate of energy absorptionper unit mass of body tissue.For mobile devices, defined as a transmitting device designed to be generallyused such that a separation distance of at least 20 cm is maintained between thebody of the user and the transmitting radiated structure, the human exposure toRF radiation can be evaluated in terms of Maximum Permissible Exposure(MPE) limits for field strength or power density in mW/cm2.How to comply with FCC SAR/MPE guidelinesRIM has submitted module-specific information and test reports for a genericMPE compliance.The antennas tested are: Larsen NMO Q 800B (0 dBd gain) Andrew (formerly The Antenna Company) Eclipse II Mag Mount(3 dBd gain)The Larsen ground plane mount antenna with a 6 foot cable length passes theMPE test when it is 20 cm from the user. Similarly the passing distance for theEclipseII magmount antenna, with 6 foot cable, is 20 cm.
Antenna selection – FCC radio frequency exposure rules 51RIM 802D OEM Radio Modem – Integrator’s Guide DRAFT VERSIONIf the RIM 802D radio modem is integrated in a vehicle, and if one of these twoantennas is used, the MPE limits will not be exceeded provided that theantennas are installed at least 20 cm from any edge of the vehicle rooftop. Thiscan be accomplished by making it mandatory for the customer to put aprominent warning in their user manual to tell the installer to make sure thatthe antenna is properly mounted in the centre of the vehicle rooftop. The usershould also be warned to maintain the minimum required distance from theantenna.Please note that RIM FCC grant for the RIM 802D limit or restrict to operate invehicle-mount configurations or substantially equivalent operating conditions.As long as the antenna type, gain, length within 1 inch of those tested for MPE,minimum cable length of 6 ft, and minimum separation distance of 20 cmsatisfy the MPE limits (through proper installation), and an appropriatewarning statement is included in the user manuals of the final product, the FCCgrant conditions are satisfied. For example, in a non-vehicle situation you mayneed to provide semi-fixed installation procedures for magmount antennas toensure the MPE separation distances are met for satisfying grant conditions andto overcome mobility issues caused by such antennas.Warning: If you use an antenna with different characteristics, then your endproduct is not covered by RIM testing and submission, and you must performyour own testing, submit for a separate FCC ID, and go through the appropriateprocess. It is mandatory for portable end products such as handheld and body-worn devices to comply with FCC RF radiation requirements with respect to theSAR limit.The submission should include end product information, end productSAR/MPE test report, and a reference to the RIM module FCC ID for all otherPart 90 requirements.RIM strongly recommends the use of APREL Laboratories for SAR/MPEtesting, because of their experience with this type of testing of devices usingRIM radio modems. Contact:Dr. Paul CardinalAPREL Laboratories51 Spectrum WayNepean, Ontario, CanadaK2R 1E6Tel: (613) 820-2730Fax: (613) 820-4161Email: p.cardinal@aprel.com
52 Antenna selection – FCC radio frequency exposure rulesIntegrator’s Guide – RIM 802D OEM Radio Modem DRAFT VERSIONDuring the SAR/MPE testing, the RIM testing software resides on an externalPC that requires the ability to communicate with the radio directly. This meansthat the device you submit for testing must have an external connector that canbe used to connect the radio to a PC. If your device can run DOS programs,RIM can provide a DOS-based utility that joins two COM ports. This can beuseful if the radio might be connected to a handheld device’s internal COM 4port. There may also be an RS232 serial connection COM 1 that is external tothe device. It would be possible to make a virtual link between the two COMports, so that an external device connected to COM 1 can communicate withthe radio connected to the internal COM 4, eliminating the need to remove theradio from the handheld device.SAR and MPE limitsSAR limits for General Population/Uncontrolled exposure is 1.6 W/kg forpartial body exposure, averaged over 1 g of tissue and 4 W/kg for hands, wristsand feet averaged over 10 g of tissue. The limits for Occupational/Controlledexposure are more relaxed, i.e., 8 W/kg for partial body and 20 W/kg for hands,wrists and feet. The 1.6 W/kg limit applies for most of RIM OEM integrators.The limit for MPE is 0.53 mW/cm2 at 800 MHz.GuidelinesRF exposure distance is based on normal operating proximity to the user’s ornearby persons’ body. This distance is measured from any part of a radiatingstructure, which is generally the antenna, to the closest body part. A set of testsmust be performed to determine the passing distance that meets the exposurelimits with respect to SAR for handheld, body-worn, and portable devices, orMPE for vehicular and mobile devices, if antennas other than the two tested byRIM are used.Operating manual compliance statementFor mobile and vehicular devices, you should include a statement in youroperation, user, and/or installation manual making the user aware of RFexposure issues and ensuring that the users keep a passing distance from theantenna while transmitting. You should provide instructions or diagrams in the
Antenna selection – FCC radio frequency exposure rules 53RIM 802D OEM Radio Modem – Integrator’s Guide DRAFT VERSIONmanual for proper antenna mounting and position, when applicable, to ensure asafe exposure distance to the operator and nearby persons.For handheld, body-worn, and portable devices, separate FCC approval isrequired to be in compliance with FCC RF exposure guidelines with respect tothe SAR limits.LabelLabeling is not required on the final device configuration provided that the 20cm separation distance is met for the two antennas that have been tested byRIM to satisfy MPE requirements. Compliance with respect to SAR limitswhich satisfy MPE limits would not require warning labels, but an RF radiationwarning label can be used to alert the user or nearby persons about abnormalusage conditions.For more informationSections 2.1091 and 2.1093 of the FCC Rules, which govern RF exposurelimits, are available at:www.access.gpo.gov/nara/cfr/waisidx/47cfr2.htmlBulletin 65 and its Supplement C, issued by the FCC’s RF Safety Group (Officeof Engineering and Technology), is available at:www.fcc.gov/oet/info/documents/bulletins/#65Further information concerning the bulletin can be obtained by contacting theRF Safety Group:Telephone: (202) 418-2464Email: rfsafety@fcc.govWeb: www.fcc.gov/oet/rfsafetyInquiries can also be directed to the FCC’s Call Centre. The toll-free number is:1-888-CALL-FCC (1-888-225-5322)You may contact Research In Motion’s engineering development team at:
54 Antenna selection – FCC radio frequency exposure rulesIntegrator’s Guide – RIM 802D OEM Radio Modem DRAFT VERSIONEmail: rim802d@rim.netTelephone: (519) 888-7465
SpecificationsThe following is a summary of the RIM 802D OEM radio modemspecifications.Power supply & typical current usage Single power supply; operating range: 4.1 to 4.75V DC Single 3.0V logic line to turn on/off Battery save stand-by mode: 0.2 mA (at 4.4 V) Receive / express stand-by mode: 66 mA (at 4.4 V) Transmit mode: up to 1.7 A (at 4.4 V, output 2.0W) Average current draw (heavy usage: 5% receive, 0.05% transmit, 94.95% standby)4.3 mA (at 4.4 V) if low-power standby mode is used8.8 mA (at 4.4 V) if low-power standby mode is not usedRF properties Transmit frequency: 806 to 825 MHz 2.0 W nominal maximum transmit power at antenna port Receive frequency: 851 to 870 MHz Receiver sensitivity: -118 dBm(MDC) and –111dBm(RD Lap) at 0.01 bit error rate(BER) 8000 bps 0.3 BT GMSK FCC Parts 15 and 90 pending Industry Canada RSS 119 pendingSerial communications 3.0V asynchronous serial port 8 bits with no parity (NCL and RAP) Link speed: 9600 bps Link level protocols: Radio Access Protocol (RAP) Native Control Language (NCL)
56 Specifications – FCC radio frequency exposure rulesIntegrator’s Guide – RIM 802D OEM Radio Modem DRAFT VERSIONOther features “MENU” is a simple-to-use firmware utility displays serial number, LLI, RSSIlevel, battery strength, and network parameters. It can also select differentDataTAC networks or "ping" the network to test the radio modem. Software can activate radio Hardware flow control Radio parameters stored at power down Terminal devices may power-down while radio-modem remains operationalMechanical & environmental properties Weight: 35 g (1.2 oz), including case Footprint: 42.0 by 67.5 mm (1.65” x 2.66”) Thickness: 8.4 mm (.33”) 3.0V interface connector: 22 pin FPC (Flexible Printed Circuit) connector Antenna cable connector: MMCX Tested to IEC 68-2-6 Part 2 for vibration Metal case Operating temperature tested to: -30°C to +70°C (at 5-95% relative humidity, non-condensing) Storage temperature: -40°C to +85°C
Glossary of termsTerm: Meaning:C The speed of light.dB decibel. A measure of power, based on a logarithmic scale.FPC Flexible Printed Circuit. The interface cable on theRIM 802D is made using this type of flat multi-conductorwiring. Also known as FFC (Flat Flex Cable).Gain In this document, refers to increase/decrease in radiatedpower.LLI Logical Link Identifier. Each DataTAC radio modem hasone unique LLI. A LLI is a 32-bit number. The networkoperator will assign a LLI to each radio modem when theyauthorize its use on their DataTAC network.NCL Native Control Language. The link layer protocolexchanged via an asynchronous full-duplex serial channelbetween a data terminal or computing device and theRIM 802D OEM Radio Modem.MMCX The connector on the RIM 802D to which an antenna cableis connected.DataTAC A radio network and its communication protocols.SDU Service Data Unit. A parcel of data transferred betweenthe DataTAC network and the radio modem.Network Operator The corporation or agency which installs, maintains andauthorises use of a DataTAC network in a given area,usually within one country.Noise Refers to undesired, random interference combining withthe signal. If the device is not immune to noise, theinterference must be overcome with a stronger signalstrength. Noise can be produced by electronic components.
58 – FCC radio frequency exposure rulesIntegrator’s Guide – RIM 802D OEM Radio Modem DRAFT VERSIONTerm: Meaning:OEM Original Equipment Manufacturer. Usually implies thatthe “OEM product” is carried another manufacturer’sname. The RIM 802D is designed to be embedded in OEMterminals, PCs, and data gathering equipment.OSI The Open Systems Interconnection model allows differentsystems, following the applicable standards, tocommunicate openly with each another.Polarity Direction of current flow. Connecting some cables with thewrong polarity (i.e. backward) may damage the device.Radio Modem A device which provides modulation and demodulation fora radio frequency communications system.Radiation In this document, “radiation” refers to the emission ofelectromagnetic energy in the radio frequency (RF) band.Do not confuse this with radioactive particle emissionscaused by nuclear reactions.RAP Radio Access Protocol. An alternative to the NCLprotocol, found on the RIM 802D. Provides simplerimplementation.Return Loss A measure of antenna matching.RF Radio Frequency.RS-232 The standard asynchronous serial communicationsinterface used by most existing personal computers andmini-computers. Usually refers to both thecommunications protocol and the electrical interface.SMA An RF connector type.TTL Transistor-Transistor Logic. Used in digital circuits. Low(0) is represented by 0 V and High (1) by 5 V. TheRIM 802D uses 3.0V for High.Type Approvals These approvals are required by most governments beforeradio transmitters and equipment containing radiotransmitters can be used. In the USA, a device must betested and certified by an independent lab which isrecognized by the FCC.UART Universal Asynchronous Receiver/Transmitter. Used as aninterface between a microprocessor and a serial port.VSWR Voltage Standing Wave Ratio. A measure of antennamatching. See the Antenna Selection chapter.

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