HARRIS TR-400-A2 OEM Module User Manual Manual

HARRIS CORPORATION OEM Module Manual

Exihibit 8

Exhibit 8: OEM Interface Manual©1999 Ericsson Inc. Page 1 of 16DM-10OEM INTERFACE MANUAL
Exhibit 8: OEM Interface Manual©1999 Ericsson Inc. Page 2 of 16CONTENTS – OEM INTERFACE MANUAL1. DM10 TRANSCEIVER MODULE OUTLINE DRAWING.......................................................... 31.1. MECHANICAL.............................................................................................................................41.2. ELECTRICAL ..............................................................................................................................51.2.1. ELECTRICAL PERFORMANCE ...............................................................................................51.2.2. MOBILE STATION POWER CLASS.........................................................................................61.3. POWER CONSUMPTION..............................................................................................................61.3.1. TRANSMIT/TALK MODE ......................................................................................................61.3.2. STANDBY MODE .................................................................................................................61.3.3. SLEEP MODE (MINIMUM DC POWER CONSUMPTION)..........................................................62. ABSOLUTE MAXIMUM RATINGS ............................................................................................. 73. SAFETY .......................................................................................................................................... 83.1. EXPOSURE TO RADIO FREQUENCY ENERGY .............................................................................83.2. MODULE OPERATION ................................................................................................................83.3. POSTED FACILITIES...................................................................................................................83.4. ELECTRONIC DEVICES...............................................................................................................83.5. BLASTING AREAS.......................................................................................................................93.6. POTENTIALLY EXPLOSIVE ATMOSPHERES ...............................................................................93.7. VEHICLES...................................................................................................................................93.8. FOR VEHICLES EQUIPPED WITH AN AIRBAG..............................................................................93.9. RESPONSIBLE USE .....................................................................................................................94. TECHNICAL SPECIFICATIONS ............................................................................................... 124.1. GENERAL .................................................................................................................................124.2. RECEIVER SECTION.................................................................................................................124.3. TRANSMITTER SECTION ..........................................................................................................134.4. CONNECTORS...........................................................................................................................134.4.1. 30-PIN INTERFACE CONNECTIONS .....................................................................................134.4.2. RF INTERFACE CONNECTOR..............................................................................................144.4.3. DETAILED SIGNAL DESCRIPTIONS .....................................................................................144.4.4. SYSTEM CONNECTOR CMOS INTERFACE LEVELS .............................................................164.4.5. ACCESSORY CONNECTOR..................................................................................................164.4.6. SYSTEM CONNECTOR .......................................................................................................16
Exhibit 8: OEM Interface Manual©1999 Ericsson Inc. Page 3 of 161. DM10 Transceiver Module Outline Drawing
Exhibit 8: OEM Interface Manual©1999 Ericsson Inc. Page 4 of 161.1. MechanicalThe DM-10 module has no mechanical elements other that the main PCB assembly. All criticalelectronic components are shielded using sheet metal cans to prevent internal/externalelectromagnetic interference from degrading the module’s performance and to prevent themodule from interfering with other nearby devices. The following figure shows a typicalmounting configuration of the module with the main motherboard assembly. The module isplugged into the fixed mating connector and secured with four screws to the standoffcomponents.
Exhibit 8: OEM Interface Manual©1999 Ericsson Inc. Page 5 of 161.2. ElectricalThe diagram below shows an overview of the electrical interface between the DM-10 moduleand a typical application.DM-10 Electrical InterfaceCustomer ApplicationHWVoltage RegulatorControl ProcessorVoice & Data ProcessingŸEcho CancellingŸNoise CancellingŸAudio Power AMPŸData ConversionDTEPowerExternal AudioInterfaceAntennaUser Interface61Power & GNDSerial InterfaceWakeAnalog Audio Interface101354Clock REFOptionSIM DeviceDM-10ModulePCM Audio Interface1.2.1. Electrical PerformanceElectrical performance parameters are valid only when the terminating impedance at theoutput of the antenna connector exhibits a VSWR of less than 2:1 for all phase angles inthe frequency band of operation. High VSWR loads at the antenna connector adverselyaffect current consumption, linearity, and power efficiency of the module and mayprevent operation or cause internal damage.The RF performance of the DM-10 fully meets the following specifications:• IS-136 TDMA Cellular mode – Per IS-137 specification• 553 AMPS Cellular mode – Per IS-19 specification
Exhibit 8: OEM Interface Manual©1999 Ericsson Inc. Page 6 of 16• CDPD Mode – Per Cellular Digital Packet Data (CDPD) System Specification, Release1.1, 19 January 1995 (CDPD will be supported in a future release of the DM10).1.2.2. Mobile Station Power ClassThe module is able to operate in several modes and different output power levels.Typical applications require output power levels similar to those in a handheld cellularphone (600-mW nominal) which is considered a power class IV unit for dual modeoperation. It is possible to increase the output power level to that of a class I unit (4 Wnominal) during the 5 second analog burst data mode. The table below shows thenominal output power levels (Effective Radiated Power, assuming an antenna systemgain of 1 dBd (2.5 dBd antenna gain with 1.5 dB cable loss)).Mobile Station Nominal Power LevelsMobile Station Power Level (dBW)0 1 2 3 4 5 6 7 8 9 10Class I 6 2 -2 -6 -10 -14 -18 -22 -22 -22 -22Class IV -2 -2 -2 -6 -10 -14 -18 -22 -27±3-32±4-37±5*Note: Output power levels maintained within range of +2 / -4 dB unless otherwisenotedPower levels 8-10 valid for digital mode only1.3. Power Consumption1.3.1. Transmit/Talk ModeDC current in mA AMPS Mode IS-136 Mode CDPD ModePeak 617 590 590600 mWatt RMS 617 355 3553 W Burst Peak 1810 - -1.3.2. Standby ModeDC current in mA AMPS Mode IS-136 Mode CDPD ModeRMS 36 15 151.3.3. Sleep Mode (Minimum DC Power consumption)A power down or "sleep mode" is available in which the module is placed in a low powerconsumption state under control of the host application. In this mode, the unit consumesapproximately TBD uA of current as measured from the VCC_6V supply input on pin 1of the system connector. A logic level "0" on pin 19 of the system connector returns theunit to full operation although there may be a significant delay while the modulereestablishes registration with the cellular network
Exhibit 8: OEM Interface Manual©1999 Ericsson Inc. Page 7 of 162. Absolute Maximum RatingsParameter Rating UnitsSupply voltage 6.0 volts 5.2-6.8 Volts13.6 volts 10.88-16.32 VoltsOperating temperature -40 to +70 °CStorage temperature -40 to +85 °C
Exhibit 8: OEM Interface Manual©1999 Ericsson Inc. Page 8 of 163. Safety3.1. Exposure to Radio Frequency SignalsThis OEM module is a low power radio transmitter and receiver. The module is notdesigned as or to be configured as a hand held device. Use as a portable transmitter willrequire separate FCC approval for SAR compliance. Typical usage of this OEMmodule includes:• remote electrical meter reading• telematic communication for vehicles• fixed wireless terminalsWarning:1. At no time is the antenna to be located closer than 20 centimeters to a normallyoccupied location.2. At no time should an antenna system with greater than 1.0 dB gain be used with thismodule in any normally occupied area. The recommended antenna systemconfiguration is a standard automotive antenna with 2.5 dB antenna gain and 1.5 dBcable loss.3.2. Module OperationSafe and efficient use of this module requires a properly terminated antenna. DO NOToperate the module with a damaged or missing antenna, replace a damaged or missingantenna immediately otherwise damage to the module may result and could violateFCC regulations. DO NOT operate this device within 6 inches of a person unless propershielding from the antenna is installed.3.3. Posted FacilitiesDo not operate this device where posted notices require wireless devices to be turnedoff.3.4. Electronic DevicesMost electronic equipment is shielded from RF signals. However, certain electronicequipment may not be shielded properly against RF signals.PacemakersThe Health Industries Manufacturers Association recommends that a minimumseparation of six (6) inches be maintained between a wireless transmitter and apacemaker to avoid potential interference with the pacemaker. These recommendationsare consistent with the independent research and recommendations of WirelessTechnology Research. Persons with Pacemakers should always keep theantenna/module more than 6 inches from their pacemaker when the module is on; ifyou have a reason to suspect that interference is taking place, turn off the moduleimmediately.
Exhibit 8: OEM Interface Manual©1999 Ericsson Inc. Page 9 of 16Hearing AidsSome digital wireless devices may interfere with some hearing aids.Other Medical DevicesIf you use any other type of personal medical device in the presence of this transceiver,consult the manufacturer of your device to determine if it is adequately shielded fromexternal RF energy. Your physician may be able to assist you in obtaining thisinformation.3.5. Blasting AreasTo avoid interfering with blasting operations, turn your module off when in a “blastingarea” or in areas posted: “Turn off two-way radio”. Obey all signs and instructions.3.6. Potentially Explosive AtmospheresTurn your module off when in any area with a potentially explosive atmosphere andobey all signs and instructions. Sparks in such areas could cause an explosion or fireresulting in bodily injury or even death.Areas with a potentially explosive atmosphere are often, but not always, clearlymarked. They include such areas as gasoline stations; below deck on boats; fuel orchemical storage or transfer facilities; vehicles using liquefied petroleum gas (such aspropane or butane); areas where the air contains chemicals or particles, such as graindust or metal powders; and any other area where you would normally be advised to turnoff your vehicle engine.3.7. VehiclesRF signals may affect improperly installed or inadequately shielded electronic systemsin motor vehicles. Check with the manufacturer or its representative regarding yourvehicle. You should also consult the manufacturer of any equipment that has beenadded to your vehicle.3.8. For Vehicles Equipped with an AirbagAn airbag inflates with a great force. Do not place objects including both installed orportable wireless equipment in the area over the airbag or in the airbag deploymentarea. If in-vehicle wireless equipment is improperly installed and the airbag inflates,serious injury could result.3.9. Responsible UseOEM Manufacturers providing telematic devices for vehicular use are encouraged toincorporate the following CTIA guidance for safe and responsible wireless phone useinto their user’s manuals:A Guide to Safe and Responsible Wireless Phone UseTENS OF MILLIONS OF PEOPLE IN THE U.S. TODAY TAKE ADVANTAGE OFTHE UNIQUE COMBINATION OF CONVENIENCE, SAFETY AND VALUE
Exhibit 8: OEM Interface Manual©1999 Ericsson Inc. Page 10 of 16DELIVERED BY THE WIRELESS TELEPHONE. QUITE SIMPLY, THEWIRELESS PHONE GIVES PEOPLE THE POWERFUL ABILITY TOCOMMUNICATE BY VOICE--ALMOST ANYWHERE, ANYTIME--WITH THEBOSS, WITH A CLIENT, WITH THE KIDS, WITH EMERGENCY PERSONNELOR EVEN WITH THE POLICE. EACH YEAR, AMERICANS MAKE BILLIONS OFCALLS FROM THEIR WIRELESS PHONES, AND THE NUMBERS ARERAPIDLY GROWING.But an important responsibility accompanies those benefits, one that every wirelessphone user must uphold. When driving a car, driving is your first responsibility. Awireless phone can be an invaluable tool, but good judgment must be exercised at alltimes while driving a motor vehicle--whether on the phone or not.The basic lessons are ones we all learned as teenagers. Driving requires alertness,caution and courtesy. It requires a heavy dose of basic common sense---keep your headup, keep your eyes on the road, check your mirrors frequently and watch out for otherdrivers. It requires obeying all traffic signs and signals and staying within the speedlimit. It means using seatbelts and requiring other passengers to do the same.But with wireless phone use, driving safely means a little more. This brochure is a callto wireless phone users everywhere to make safety their first priority when behind thewheel of a car. Wireless telecommunications is keeping us in touch, simplifying ourlives, protecting us in emergencies and providing opportunities to help others in need.When it comes to the use of wireless phones, safety is your most important call.Wireless Phone "Safety Tips"Below are safety tips to follow while driving and using a wireless phone, which shouldbe easy to remember.1. Get to know your wireless phone and its features such as speed dial and redial.Carefully read your instruction manual and learn to take advantage of valuablefeatures most phones offer, including automatic redial and memory. Also, work tomemorize the phone keypad so you can use the speed dial function without takingyour attention off the road.2. When available, use a hands free device. A number of hands free wireless phoneaccessories are readily available today. Whether you choose an installed mounteddevice for your wireless phone or a speaker phone accessory, take advantage ofthese devices if available to you.3. Position your wireless phone within easy reach. Make sure you place yourwireless phone within easy reach and where you can grab it without removing youreyes from the road. If you get an incoming call at an inconvenient time, if possible,let your voice mail answer it for you.4. Suspend conversations during hazardous driving conditions or situations. Letthe person you are speaking with know you are driving; if necessary, suspend thecall in heavy traffic or hazardous weather conditions. Rain, sleet, snow and ice can
Exhibit 8: OEM Interface Manual©1999 Ericsson Inc. Page 11 of 16be hazardous, but so is heavy traffic. As a driver, your first responsibility is to payattention to the road.5. Do not take notes or look up phone numbers while driving. If you are reading anaddress book or business card, or writing a "to do" list while driving a car, you arenot watching where you are going. It's common sense. Don't get caught in adangerous situation because you are reading or writing and not paying attention tothe road or nearby vehicles.6. Dial sensibly and assess the traffic; if possible, place calls when you are notmoving or before pulling into traffic. Try to plan your calls before you begin yourtrip or attempt to coincide your calls with times you may be stopped at a stop sign,red light or otherwise stationary. But if you need to dial while driving, follow thissimple tip--dial only a few numbers, check the road and your mirrors, thencontinue.7. Do not engage in stressful or emotional conversations that may be distracting.Stressful or emotional conversations and driving do not mix--they are distractingand even dangerous when you are behind the wheel of a car. Make people you aretalking with aware you are driving and if necessary, suspend conversations, whichhave the potential to divert your attention from the road.8. Use your wireless phone to call for help. Your wireless phone is one of the greatesttools you can own to protect yourself and your family in dangerous situations--withyour phone at your side, help is only three numbers away. Dial 9-1-1 or other localemergency number in the case of fire, traffic accident, road hazard or medicalemergency. Remember that it is a free call on your wireless phone!9. Use your wireless phone to help others in emergencies. Your wireless phoneprovides you a perfect opportunity to be a "Good Samaritan" in your community. Ifyou see an auto accident, crime in progress or other serious emergency where livesare in danger, call 9-1-1 or other local emergency number, as you would wantothers to do for you.10. Call roadside assistance or a special wireless non-emergency assistancenumber when necessary. Certain situations you encounter while driving mayrequire attention but are not urgent enough to merit a call for emergency services.But you still can use your wireless phone to lend a hand. If you see a broken-downvehicle posing no serious hazard, a broken traffic signal, a minor traffic accidentwhere no one appears injured or a vehicle you know to be stolen, call roadsideassistance or other special non-emergency wireless number.Careless, distracted individuals and people driving irresponsibly represent a hazard toeveryone on the road. Since 1984, the Cellular Telecommunications IndustryAssociation and the wireless industry have conducted educational outreach to informwireless phone users of their responsibilities as safe drivers and good citizens. As weapproach a new century, more and more of us will take advantage of the benefits ofwireless telephones. And, as we take to the roads, we all have a responsibility to drivesafely.
Exhibit 8: OEM Interface Manual©1999 Ericsson Inc. Page 12 of 164. Technical Specifications4.1. GeneralAll ratings @12V supply unless otherwise specifiedParameter Conditions Min Typ Max UnitFrequency range Transmit 834.390 835.620 MHzReceive 879.390 880.620 MHzChannel spacing 30 kHzNumber of channels 42Supply voltage +8.5 +18 VoltsSupply voltage ripple 10 Hz to 200 kHz 200 mVSupply current Sleep 1 12 15 mAmpsStandby 225 50 mAmpsTransmit 31300 1800 mAmpsOperating Temperature -40 +60 °CAntenna port impedance 50 OhmsÜÜ Notes1. In sleep mode neither the receiver nor the transmitter is operating. The communicationsinterface is completely operational.2. When receiving a relatively strong signal (>-100 dBm), the typical current is approximately 25mA. When the signal strength is less than -100 dBm, the operating current is approximately 45mA.3. Typical operating current during transmit mode is approximately 1300 mA. The currentrequired in this mode is sensitive to the quality of the antenna termination impedance. With apoorly matched antenna, the operating current can approach 2 Amps. Note that a transmissionlasts approximately 118 milliseconds.4.2. Receiver SectionParameter Conditions Min Typ Max UnitsSensitivity1-116 dBmAdjacent channel rejection 16 dBAlternate channel rejection 60 dBIntermod rejection 65 dBRSSI range (digital) -116 -60 dBmRSSI accuracy (digital) +/- 3 dBRSSI range (analog) 0.75 1.75 voltsÜÜ Notes1 Sensitivity is measured with respect to an analog test point after demodulation of the receivedsignal. External filtering is applied to make the test consistent with sensitivity tests typically
Exhibit 8: OEM Interface Manual©1999 Ericsson Inc. Page 13 of 16performed on cellular telephones (as per IS-19B). The criteria for this test is > 12 dB SINAD fora 1 kHz audio tone modulating the carrier to 8 kHz peak deviation.4.3. Transmitter SectionParameter Min Typ Max UnitsPower output1 0.0063 3 Watts (nom)Transmission duty cycle 2.5 %Peak Deviation +/- 8 kHzFrequency Stability - 2.5 + 2.5 ppmCarrier switching time 2 msecChannel switching time 40 msecPower levels (per CMAC) 8 (pwr levels 0-7)ÜÜ Notes1 The actual power output is controlled by the AMPS system via the CMAC register in theoverhead control message. Per EIA/TIA-553, the output power varies from +8 dBm to +36dBm, in 4 dB steps.4.4. Connectors4.4.1. 30-pin Interface ConnectionsPin Signal Name Description TYPE1GND Chassis Ground -2GND/AD_in Chassis Ground (optionally A/D input) -/I3AFMS Audio from module O4GND Chassis Ground -5AGND Analog ground -6ATMS Audio to module I7OUT2 * Reserved O8WAKE Switches the main voltage regulator on/off I9IN2 * Reserved I10 OUT1 * Reserved O/I11 VDD * Logic reference O12 IN1 * Reserved I13 PCMCLK PCM Clock output O14 PCMSYNC PCM Frame sync O15 PCMULD PCM Voice input I16 PCMDLD PCM Voice output O17 GND Chassis Ground -18 GND Chassis Ground -19 DCD/VppFlash Data Carrier Detect and Flash Programming Voltage Input O/I20 REF_CLK 19.44 MHz reference clock output O
Exhibit 8: OEM Interface Manual©1999 Ericsson Inc. Page 14 of 16Pin Signal Name Description TYPE21 CTS Clear to send O22 DTR Data Terminal Ready I23 TD Serial data to module I24 RTS Request to Send I25 VCC_12V 12 vdc supply (needed only for 3 Watt burst applications) I26 RD Serial data from module O27 VCC_12V 12 vdc supply (needed only for 3 Watt burst applications) I28 VCC_12V 12 vdc supply (needed only for 3 Watt burst applications) I29 VCC_6V 6 vdc regulated supply voltage I30 VCC_6V 6 vdc regulated supply voltage I* Pin used for SIM Interface in GSM based products. Pin function reserved for future use byU.S. products.ÜÜ NotesIn modem mode, pin 8 is configured as an output and indicates whether a message is stored inthe output buffer. In standalone mode, pin 8 is configured as an input and is used to warn thetransceiver of an impending power failure.4.4.2. RF Interface ConnectorRadio frequency (RF) signals from the module to the external, customer-supplied antenna aremade through a surface mount, microminiature snap-on M/A-COM connector. A wide variety ofcompatible mating connectors is available. A Pigtail assembly and the inter-series cableassembly from M/A-COM are two options. Since the mating connector can rotate through 360o,the application developer has maximum flexibility for routing the RF coax assembly. The totalheight of the mated M/A-COM RF connectors is 0.12 inches.4.4.3. Detailed Signal DescriptionsDGND This is the supply voltage return (VCC_6V and VCC_12V)Minimum MaximumInput voltage for 0000 0000 word 0.05VInput voltage for 1111 1111 word 3.25VLinearity ± 0.5 LSBAbsolute accuracy -10mV +10mVConversion time to within 0.5 bit 5µ secInput impedance 1MΩA/D_inExternal source impedance
Exhibit 8: OEM Interface Manual©1999 Ericsson Inc. Page 15 of 16Module audio outputOutput Impedance (active state)Output Impedance (inactive state)Output Impedance (pwr down state)Drive capacity into 50 ΩDrive capacity into 5 kΩ(0.3 – 3.5 kHz)Zout < 10 Ω in series with ≥3.3uF (-20%)Zout < 10 Ω to VDD/2Zout > 30 kΩ1.1 VP-P min.2.0 VP-P min./ 4.0 VP-P max.External Device audio input InputImpedance Zin > 50 ΩVolume control ± 12 dB from nominal > - 40dB (mute)AFMSLevels to external audio input 28 mVrms nominal 450mVrms max.All sources must be AC coupled except for a microphone device. Externalaudio source should be DC coupled in order for module to supply DC powerto microphone.External audio sourceOutput impedance (active state)Output impedance (inactive state) Zout ≤ 100 ΩZout > 10 kModule audio inputInput impedanceOutput DC level unloaded for externalaudio source powerZin > 2 kΩ2.0 V min.Levels from external audio source HGA= 0 45 mVrms nominal 340 mVrmsmax.ATMSAudio input signal is amplified anadditional 32 db and a DC bias isprovided to the microphone when HGA= 11.5 mVrms nominalOUT1, OUT2 CMOS open drain output with 1 mA drive (See Section 4.3.4)WAKE TTL compatible active low input (WAKE pin is tied to VDD through 51kΩresistor, recommend open collector/drain transistor) I_01, I_03 CMOS bi-directional, tri-state output with 2mA drive (See Section 4.3.4)VDD 2.7 Vdc min 3.4 Vdc nominal 5.5 Vdc maxPCMCLK (See Section 4.3.4)PCMSYNC (See Section 4.3.4)PCMULD (See Section 4.3.4)PCMDLD (See Section 4.3.4)(See Section 4.3.4)DCD/VppFlash VppFlash programming voltage. Capability =60 ma min 11.8 – 12.2 VdcFrequency 19.44 MHz this output is switchableOutput Level 0.7 min 1.0 typ 1.4 max volts-P2PREF_CLKHarmonic Content -10dBc maxRTS, CTS, DTR (See Section 4.3.4)
Exhibit 8: OEM Interface Manual©1999 Ericsson Inc. Page 16 of 16RD,TD (See Section 4.3.4)VCC_12V 13.6 volt ± 20%, 1.5 A maxVCC_6V 6 volt ± 13.3% regulated, 1A max4.4.4. System Connector CMOS Interface LevelsLimitsQuantity Symbol Min Typ Max UnitsHigh level output voltage (IOH= rated) VOH 0.9 *VDD VDD VoltsLow level output voltage (IOL= rated) VOL 00.1.*VDD VoltsHigh level input voltage VIH 0.8 *VDD VDD VoltsLow level input voltage VIL 00.2 *VDD Volts4.4.5. Accessory ConnectorConnections to an optional accessory board are made through a 14-pin accessory connector. Add-onaccessories under consideration include a GPS receiver, a Bluetooth transceiver, and a CeBus transceiver16-Pin Accessory Connector FunctionsConnector / Pin Signal Name DescriptionX353 / 1 VCC_6V 6 VDC supply inputX353 / 2 GND Digital groundX353 / 3 CLKREQ Request from accessory to keep providing reference clockX353 / 4 ARESET Reset signal to accessoryX351 / 1 ASYNC Request from accessory for frame syncX351 / 2 TBD SPAREX351 / 3 IU3T DTMSX351 / 4 IU3R DFMSX351 / 5 ADATAUP Data to accessory (PCM link)X351 / 6 APCMSYNC Sync line (PCM link)X351 / 7 APCMCLK Clock line (PCM link)X351 / 8 ADATDOWN Data from accessory board (PCM link)X351 / 9 ASYSCLK 19.44 MHz reference clock to accessoryX351 / 10 AWAKE Wake-up signal to accessoryX351 / 11 IU2T IU2TX351 / 12 IU2R IU2R4.4.6. System ConnectorExternal interfaces to the module are made primarily through a 30-pin, standard 0.050 inch pitch,ODU header shown.

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