CalAmp Wireless Networks GPDB GeminiPD User Manual Appendix A preliminary version 1 42
CALAMP WIRELESS NETWORKS INC. GeminiPD Appendix A preliminary version 1 42
Contents
- 1. preliminary version of user manual
- 2. Installation Guide 1 01
- 3. revised pages 7 and 8 for preliminary ver1 11
- 4. installation guide
- 5. Annex B Installation manual
- 6. Appendix A preliminary version 1 42
- 7. preliminary installation manual
- 8. preliminary version
- 9. preliminary updated user manual
- 10. preliminary version of updated installation manual
- 11. updated user manual
Appendix A preliminary version 1 42
GeminiPD Mobile Radiomodem Installation Guide Version 1.42 Preliminary – For Internal Use Only The entire contents of this manual and the Radio Installation Software described in this manual are copyright 2000 by DATARADIO Inc. Copyright DATARADIO Inc. April, 2001 Part no.: 120 20110-142 Table of Contents 1. PRODUCT OVERVIEW.....................................................................................................................................1 1.1 INTENDED AUDIENCE ..........................................................................................................................................1 1.2 GENERAL DESCRIPTION ......................................................................................................................................1 1.2.1 Features....................................................................................................................................................1 1.2.2 Configuration ...........................................................................................................................................1 1.3 FACTORY TECHNICAL SUPPORT ..........................................................................................................................2 1.4 PRODUCT WARRANTY.........................................................................................................................................2 1.5 REPLACEMENT PARTS .........................................................................................................................................2 1.5.1 Factory Repair .........................................................................................................................................2 1.6 UNPACKING........................................................................................................................................................2 2. INSTALLATION..................................................................................................................................................3 2.1 PLANNING THE INSTALLATION ............................................................................................................................3 2.1.1 Overview...................................................................................................................................................3 2.1.2 Location....................................................................................................................................................3 2.1.3 Cable Path................................................................................................................................................3 2.2 WARNINGS .........................................................................................................................................................3 2.2.1 RF Radiation warning..............................................................................................................................3 2.2.2 Interference with vehicular electronics...................................................................................................3 2.2.3 Secure mounting.......................................................................................................................................4 2.2.4 Explosive environments............................................................................................................................4 2.2.5 Installation in vehicles powered by liquefied gas. ..................................................................................4 2.3 PHYSICAL UNIT...................................................................................................................................................4 2.3.1 Recommended tools and supplies.............................................................................................................4 2.3.2 Physical mounting of GeminiPD................................................................................................................4 2.4 ELECTRICAL INSTALLATION ................................................................................................................................5 2.4.1 Electrical requirements............................................................................................................................5 2.4.2 Routing of power cable ............................................................................................................................5 2.5 ANTENNA ...........................................................................................................................................................7 2.5.1 Recommended tools and supplies.............................................................................................................7 2.5.2 Planning ...................................................................................................................................................7 2.5.3 Antenna Installation.................................................................................................................................8 2.6. COMPLETING THE PHYSICAL INSTALLATION....................................................................................................8 2.7. CHECKING OUT NORMAL OPERATION .............................................................................................................8 3. OPERATING DESCRIPTION............................................................................................................................9 3.1 FRONT & REAR PANELS ......................................................................................................................................9 3.2 DTE PORT INTERFACE ......................................................................................................................................10 3.2.1 RS-232 Interface Signal Levels..............................................................................................................10 4. WINRIS PROGRAM .........................................................................................................................................11 4.1 OPERATION .......................................................................................................................................................11 4.2 TO CONNECT AND START WINRIS ....................................................................................................................11 4.3 WINDOW ..........................................................................................................................................................12 4.4 FUNCTIONS.......................................................................................................................................................13 4.4.1 “Station Reset” button...........................................................................................................................13 4.4.2 Configuration to a file............................................................................................................................13 4.4.2.1 4.4.2.2 4.4.3 Configuration from a File ......................................................................................................................14 4.4.3.1 4.4.4 “Get” button..................................................................................................................................... 13 “Get As” button ................................................................................................................................ 14 “Put From” button ............................................................................................................................ 14 Special Functions ...................................................................................................................................14 4.4.4.1 Banner Field ..................................................................................................................................... 14 4.4.4.2 4.4.4.3 4.4.5 Comments........................................................................................................................................ 15 Password ......................................................................................................................................... 15 Test Functions ........................................................................................................................................15 4.4.5.1 DSR signal is High indicator ............................................................................................................... 15 4.4.5.2 CTS signal is High indicator ............................................................................................................... 16 4.4.5.3 Channel Selection.............................................................................................................................. 16 RSSI & Power Out Indicators.............................................................................................................................. 16 4.4.5.5 TXON tests...................................................................................................................................... 16 4.4.5.5.1 Unmodulated Carrier..................................................................................................................... 16 4.4.5.5.2 Modulated Carrier......................................................................................................................... 17 4.4.5.6 Ping Button ...................................................................................................................................... 17 4.4.5.7 Ping addresses .................................................................................................................................. 17 4.4.6 5. Status Bar ...............................................................................................................................................17 TROUBLE-SHOOTING AND TESTING .......................................................................................................19 5.1 EQUIPMENT REQUIRED......................................................................................................................................19 5.2 BASIC TESTS .....................................................................................................................................................19 5.3 GPS TEST .........................................................................................................................................................19 6. SPECIFICATIONS.............................................................................................................................................22 FIGURE 1 - MOUNTING PLATE AND SLOT DIMENSIONS ......................................................................................................5 FIGURE 2 - BRACKET INSTALLATION ................................................................................................................................5 FIGURE 3 - DC POWER CONNECTOR ................................................................................................................................6 FIGURE 4 - ANTENNA SPACING ........................................................................................................................................7 FIGURE 5 - FRONT AND REAR PANELS ...............................................................................................................................9 FIGURE 6 - WINRIS WINDOW.........................................................................................................................................12 FIGURE 7 - SELECT PORT WINDOW .................................................................................................................................13 FIGURE 8 - SHOW ALL CHANNEL FREQUENCY ...............................................................................................................16 PD TABLE 1 - GEMINI LEDS INDICATIONS ......................................................................................................................10 TABLE 2 - RS-232 SIGNAL LEVELS ................................................................................................................................10 TABLE 3 - CARRIER MODULATION..................................................................................................................................17 TABLE 4 - KEY LATCH INDICATIONS ...............................................................................................................................18 TABLE 5 - TESTS, FULL & HALF CHANNEL UNITS ..........................................................................................................20 APPENDIX 1 - "OFFICER REQUIRES ASSISTANCE" ALARM FUNCTION .......................................................................24 120 20110-142 ii GeminiPD Installation Guide What's New in this version History Version 1.42 (Preliminary), April 2001 Following sections are amended to show SRRC4FSK 12.5kHz channel spacing bit rates. Section 1.2.1 Features Table 3 Carrier Modulation Table 5 Tests, Full & Half Channel Units Section 6 Specifications Version 1.41, March 2001 • Section 2.5 “Antenna” and Figure 4 “Antenna spacing” amended to show FCC’s RF Exposure Guidelines for increased Duty Cycle. Version 1.40, December 2000 • Supporting footnotes for Gemini/PD Lite model (No GPS option) added. • Section 3.2, function of DE-9F pin 9 (Aux input) corrected and clarified. • Section 4.0, re-written to support the WinRIS program. • Section 5.0, Table 5, step 4, values revised. • Section 6.0, MIL Specifications limitations note added. • Appendix 1, clarification of “Officer Requires Assistance” alarm function added. Version 1.32, October 2000 • Updated UHF units specifications: Table 3 "Carrier Modulation" Table 4 “Tests, Full & Half Channel Units” Section 6 “Specifications”. Version 1.31, August 2000 120 20110-142 iii GeminiPD Installation Guide • Introduction of 25.6 Kbps model. Relevant changes made to: - Section 1.2.1 “Features” - Table 3 “Carrier Modulation" - Table 4 “Tests, Full & Half Channel Units” - Section 6 “Specifications”. - Emission designators table added to Section 6 “Specifications”. Version 1.30, August 2000 • Power output specifications for 800MHz model added to section 1.2.1 “Features”. • Main transceiver Output Power for 800MHz model added to: Table 4 “Tests, Full and Half Channel Units” and minimum value edited in the footnote. • Title of section 4.4.4.2 edited to specify that RSSI Indicator also serves as power meter. Note added to establish that the internal wattmeter is not to be interpreted as a precision instrument. • Section 4.4.4.3.1 “Unmodulated Carrier” edited to show 800MHz model power check nominal forward wattage. • Section 2.4.2 “Routing of Power Cable”, step no. 7, clarification of negative wire connection. Version 1.20, June 2000: • LED indication explanation for the 800MHz (2% duty cycle limit) model added as a footnote to table 1 and to section 5.3 GPS Test. • Section 2.5 “Antenna” rewritten and now including more details concerning “Planning” and has a new antenna spacing drawing. • More details added to section 4.2 concerning starting of the WinRIS program from MS-Windows. • Environmental MIL spec added • FCC Certification number added to Specifications section. Version 1.10, March 2000: Addition of 800MHz specifications, revision to paragraph 2.2.1 - RF Radiation Warning and to paragraphs 2.5 through 2.5.3. – Antenna installation. Version 1.0, January 2000: First released version 120 20110-142 iv GeminiPD Installation Guide 120 20110-142 GeminiPD Installation Guide Definitions The following terms are used throughout this document. Item DCE DTE GCU GeminiPD GeminiPD Lite HDX RS-232 Simplex WinRIS 120 20110-142 Definition Data Communications Equipment. This designation defines the direction (input or output) of the various RS-232 interface signals. Modems are always wired as DCE. Data Terminal Equipment. This designation defines the direction (input or output) of the various RS-232 interface signals. Most user equipment, as well as PCs, are wired as DTE. GeminiPD Control Unit board High specs mobile radiomodem. PD = Parallel decode GeminiPD without GPS feature Half Duplex. A unit that uses separate transmit and receive frequencies, but which may not transmit and receive simultaneously. Industry–standard interface for data transfer. A unit which uses the same frequency for transmit and receive. Windows © Radio Installation Software. This software allows basic tests and unit configuration. vi GeminiPD Installation Guide • 1. PRODUCT OVERVIEW This document provides the information required for the installation, operation and verification of the DATARADIO GeminiPD mobile radiomodem. 1.1 • Intended Audience • This document is designed for use by engineering design, installation, and maintenance personnel. 1.2 • General Description PD Parallel Decode (PD) technology (patent pending) featuring dual receivers for added decode sensitivity in multi-path and fading environments. Sophisticated DSP-based modem design provides added system performance, fewer retries and more effective throughput. Automatic channel changing for improved roaming capabilities. Built–in, up to 16-channel flash – EEPROM programmable synthesized radio transceiver with automatic channel selection. Models with on-air data speeds and modulation types as follows: - DGFSK* modulation, rates of 9600 to 19200 b/s in 12.5 or 25 kHz channel spacing (9600 b/s maximum in half channels). or - SRRC4FSK* modulation, rates of 25600 and 19200 b/s in 25 kHz or 16000 and 14400 b/s in 12.5 kHz channel spacing. 3 available user ports using standard RS-232 interface via built-in multiplexer. Half-duplex or simplex operation. Out-of-band signaling enables transmission of GPS* reports with no effect on system performance. Back-compatible with MobilPac/R (DGFSK)* at 9600 and 19200 b/s. Gemini is a mobile radiomodem aimed at the public safety and public utility markets to meet demand for high speed and high throughput. It integrates all the necessary hardware for data-only vehicular installations up to but not including the laptop PC and its application software. Example of applications are: 1. Database inquiry systems. Small number of brief messages, (usually from the mobile station) with fairly long responses. 2. Computer-aided dispatch (CAD). Large number of messages, (usually from the base station) with very brief responses. 3. Automatic Vehicle Location (AVL). Using built-in GPS receiver, determines position, speed and direction of fleet members. The GeminiPD is made-up of a main transceiver and an auxiliary receiver for Parallel Decode (PD), a 40-Watt power amplifier (35-Watt for 800 MHz model), a GeminiPD Control Unit (GCU) with DSP driven modem and an optional integrated OEM GPS receiver. * • 1.2.1 Features * Networks must use common modulation, bit • * The GeminiPD Lite model has no GPS. • • • • 1.2.2 Configuration GeminiPD is factory configured based on each customer network system requirements, usually by Dataradio System Engineering. Configuration is not changeable in the field without notifying Dataradio. and baud rates. One-piece integrated design in a rugged die-cast aluminum chassis. 120 20110-142 GeminiPD Installation Guide 1.3 Factory Technical Support 1.5 Replacement Parts This product is not field serviceable, except by the replacement of a complete unit. Specialized equipment and training is required to repair the GCU board and radio modules. The Technical Support departments of DATARADIO provide customer assistance on technical problems and serve as an interface with factory repair facilities. They can be reached in the following ways: Contact Technical Support for service information before returning equipment. A Technical Support representative may suggest a solution eliminating the need to return equipment. DATARADIO Inc. 5500 Royalmount Ave, suite 200 Town of Mount Royal Quebec, Canada H4P 1H7 1.5.1 Factory Repair Technical support hours: Monday to Friday 9:00 AM to 5:00 PM, Eastern Time When returning equipment for repair, you must request an RMA (Returned Material Authorization) number. The Tech Support representative will ask you several questions to clearly identify the problem. Please give the representative the name of a contact person who is familiar with the problem, should questions arise during servicing of the unit. phone: +1 514 737-0020 fax: +1 514 737-7883 Email address: support@dataradio.com or DATARADIO Corp. 6160 Peachtree Dunwoody RD., suite C-200 Atlanta, Georgia 30328 Customers are responsible for shipping charges for returned units. Units in warranty will be repaired free of charge unless there is evidence of abuse or damage beyond the terms of the warranty. Units out of warranty will be subject to service charges. Information about these charges is available from Technical Support. Technical support hours: Monday to Friday 8:30 AM to 5:30 PM, Eastern Time phone: 1 770 392-0002 fax: 1 770 392-9199 Email address: drctech@dataradio.com 1.4 Product Warranty 1.6 Warranty information may be obtained by contacting your sales representative. 120 20110-142 Unpacking When ready for installation, carefully unpack your GeminiPD kit (p/n 023 6000-001) shipping carton and identify each item as listed below: • One GeminiPD • Installation mounting bracket • Power cable – 22 feet (6.7 meters) • Small parts kit If damage has occurred to the equipment during shipment, file a claim with the carrier immediately. GeminiPD Installation Guide between these components and radio equipment. Try using existing holes in firewall and trunk wall and the channels above and below or beneath the doors, channels through doors and window columns that are convenient to run cables and wires. Whenever possible, install conduit in which to run the cables. 2. Installation 2.1 Planning the Installation 2.1.1 Overview To ensure trouble-free, efficient installation, start by inspecting the vehicle to determine the optimum position for GeminiPD and its antennas as well as the routing of all associated cabling and wiring. 2.2 Before starting installation, review all of the following warnings. 2.1.2 Location Often, installations in cars are done in the trunk, underneath the back window ledge or on the trunk floor. In vans and small trucks, it is usually done in the back of the vehicle. In large vehicles, it is often done in the front cabin. 2.2.1 RF Radiation warning The Federal Communications Commission (FCC), with its action in the General Docket, 79-144, March 13, 1985, has adopted a safety standard for the human exposure to radio frequency electromagnetic energy emitted by FCC-regulated equipment. Only proper installation of the transceiver antenna of GeminiPD as summarized in section 2.5 will result in user exposure substantially below the FCC recommended limits. Be sure to place the GeminiPD unit in such a way that: • The LEDs can be seen (as an aid in troubleshooting) • Access to the antenna DE-9 connectors is possible without removing the unit • Sufficient air may flow around the unit to provide adequate cooling Qualified personnel must do all antenna installations. See paragraph 2.5.2 for recommended antenna positioning. GeminiPD is not fully waterproof, therefore it should be mounted sufficiently away from an opened trunk lid or opened tailgate, windows or doors to avoid exposure to rain and/or snow. It also minimizes the chance that material can be accidentally thrown on the unit or of someone bumping against it. Transmissions when persons or animals outside the vehicle are within two feet of the antenna may result in radio energy radiation burns or related injuries. 2.2.2 Interference with vehicular electronics 2.1.3 Cable Path Certain vehicle electronic devices may be prone to malfunction due to lack of protection from radio frequency energy present when transmitting. It includes, and is not limited to: Electronic fuel injection systems Electronic anti-skid braking systems Electronic cruise control systems Try to route the cables away from locations where they would be exposed to heat (exhaust pipes, mufflers, tailpipes, etc.), battery acid, sharp edges, mechanical damage or where they would be a nuisance to automobile mechanics, the driver or the passengers. Keep wiring away from automotive computer modules, other electronic modules and ignition circuits to help prevent interference 120 20110-142 Warnings GeminiPD Installation Guide containing the LP-gas container and its fittings. Outside filling connections shall be used for the LP-gas container. The LP-gas container space shall be vented to the outside of the vehicle. If the installation vehicle contains such equipment, consult the dealer for the make of vehicle and enlist his aid in determining if such electronic circuits will perform normally when the radio is transmitting. 2.2.3 Secure mounting 2.3 For vehicle occupant(s) safety, mount GeminiPD securely so that the unit will not break loose in case of an accident or violent maneuvers. 2.3.1 Recommended tools and supplies • • • • 2.2.4 Explosive environments Operation of vehicular radio transmitters in explosive environments may be hazardous and conventional safety precautions must prevail. These include and are not limited to: Transmitting while fuelling the vehicle. Do not carry fuel containers in the same compartment as GeminiPD. Dynamite blasting caps may explode when transmitting radio operation takes place within 500 feet. Always obey the “Turn Off Two-Way Radios” signs posted at sites where dynamite is being used. If transporting blasting caps: a) Carry the blasting caps in an appropriate metal container having a soft cushioning lining. b) Suppress transmissions whenever the blasting caps container is being loaded or unloaded into or from the vehicle. Check applicable local bylaws. • Electric drill for mounting holes Hammer and center punch Tie-wraps Drills and circle cutters as needed according the size of screws (or nuts and bolts) used. In-line “Power meter” capable of measuring forward and reflected power at the operating frequency of the radio. 2.3.2 Physical mounting of GeminiPD Start by running all the cables (DC power, PC RS-232 as well as all antennas cabling) prior to mounting GeminiPD to assure the feasibility of the planned cable routing. Be sure to leave sufficient slack in each cable so the GeminiPD may be removed from the mounting bracket for servicing with the power applied and the antenna attached. GeminiPD is ready for installation. Cautions: • When drilling mounting holes, be careful to avoid damaging some vital part of the vehicle such as fuel tanks, transmission housing etc. Always check how far the mounting screws extend below the mounting surface prior to installation. • Use of drill bit stops is highly recommended. • After drilling, remove all metal shavings before installing screws. 2.2.5 Installation in vehicles powered by liquefied gas. GeminiPD installations in vehicles powered by liquefied petroleum gas with the LP-gas container in the trunk or other sealed-off space within the interior of the vehicle must conform to the National Fire Protection Association Standard NFPA 58 which requires: Space containing radio equipment shall be isolated by a seal from the space 120 20110-142 Physical Unit GeminiPD Installation Guide • Do not overtighten selftapping screws. 1. Once you have found a suitable mounting position for GeminiPD, hold the unit and the unattached mounting bracket in the proposed mounting position and check that there is clearance behind the unit for the heatsink, cables, etc. Check that the position provides a large enough flat surface that the bracket will not be distorted when installed. 7. Drill any additional holes as required for routing all cables and fit holes with suitable grommets or bushings whenever required. 2.4 2.4.1 Electrical requirements GeminiPD is designed to operate from a 13.8Vdc nominal car battery (negative ground) and requires currents up to 15.0A. It will tolerate a supply voltage range of 10.9 volts to 16.3 volts. In vehicles with a 24 VDC electrical system (mostly in trucks), it is essential to provide a suitably rated 24/12 VDC converter to isolate the unit from the battery and protect it against excessive voltage. 0.2" 1.0" 2.5" 6.0" Figure 1 - Mounting plate and slot dimensions 2. Using the installation bracket as a template, mark the four locations for drilling (see Figure 1). Again, ensure that drilling at the selected points is safe and will not cause damage. 3. Indent the drilling positions with a center punch. 4. Drill holes sized for the self-tapping screws or for the nuts, bolts and lock washers used. Caution: Slightly reduce the size of the drilled holes when using self-tapping screws in thin metal. Warnings: Application of more than 16.3 VDC will damage GeminiPD and is not covered by the warranty. Always disconnect GeminiPD’s DC power lead before connecting a second battery, using power from another vehicle or power boosting (e.g. when “jump starting” the vehicle). 2.4.2 Routing of power cable 1. Start by disconnecting the vehicle’s battery unless specifically prohibited from doing so by the customer, vehicle manufacturer, agent or supplier. Note: In this event, exercise extreme caution throughout the installation and fit the fuse only when the installation is complete. Figure 2 - Bracket installation 5. Install the bracket without distorting. 6. Securely mount GeminiPD to the installed bracket using the four supplied 8x40 black machine screws. 120 20110-142 Electrical installation 2. The 22 feet (6.7 meters) long power cable consists of three wires attached to a Packard Electric “Weather-Pack” connector (DC power Connector). GeminiPD Installation Guide 6. Repeat the step above for connecting the red DC power lead. 7. Attach the positive lead at the battery positive terminal. Attach the negative wire at the vehicle end of the battery ground cable. The DC Power connector has: • • • At position “A”, the smaller red switch-sense wire (commonly to ignition) At position “B”, the blue ground wire At position “C”, a larger red B+ DC power wire (MUST be unswitched) If the negative cable is connected directly to the battery negative terminal, it should be fused in case of failure of the vehicle’s ground cable. Figure 3 - DC Power Connector 3. Place this connector at GeminiPD’s radio power input location. Do not connect at 13.8VDC B+ (Fused Red wire) GROUND (Blue wire) Ensure tight and secure connections. 8. Fasten the fuse holder and leads. 9. Carefully route the A wire to where the connection will be made for switch sensing. • Connect to “Ignition” if you wish to have GeminiPD turning ON and OFF dependent on the vehicle’s ignition key. • Connect to “Accessory” if you wish GeminiPD to be available when the engine is not running, but still dependent on the ignition key. • Connect to a user-supplied control switch. • In installations equipped with a “ChargeGuard”, connect to the controlled-side of the ChargeGuard (remembering that the DC Power lead must NOT be switched). 10. Make appropriate connections. Cautions: Where scraping to bare metal was required, and at the battery posts where wire ends and lugs may be exposed, apply anti-corrosion compound. Insert the fuse only when installation is complete and ready to test. SEAL (DO NOT REMOVE) IGNITION (Small red wire) this time. See paragraph 2.6, “Completing the physical installation”. 4. Carefully route both the B and the C wires to where the in-line fuse holder will be installed, usually as close to the vehicle’s battery as practicable. Ensure that leads do not chafe on any metal part(s). Secure the wires at several locations along their length. Caution: Use proper crimping tool. Common pliers are NOT acceptable. Warning: The DC Power lead must be unswitched 5. Insert the negative (blue) lead into one of the appropriate connector lug and crimp solidly to force the metal contacts onto the wires. 120 20110-142 11. At the GeminiPD position, neatly coil cable slack and attach securely. GeminiPD Installation Guide 2.5 Antenna MPE To meet the FCC’s RF Exposure Guidelines, the main transmitter antenna must be vehiclemounted to provide a separation distance of 50 cm or more from all persons and the antenna gain must not exceed 5dB to satisfy RF exposure requirements. 50cm 19.7in. ≥24in. 2.5.1 Recommended tools and supplies • • • • ≥5/8λ λ (UHF: 18"/46cm 800MHz: 9"/23cm) circle cutter hole saw or socket punch for antenna Mini-UHF Crimp tool Figure 4 - Antenna spacing 2.5.2 Planning Install the antennas in one of the following positions: - Most preferred for all antennas: centerline of roof. For transmitter antenna, it is the ONLY acceptable position. - Less preferred for receiver antenna: trunk lid, providing distance to transmitting antenna is respected whether lid is opened or closed. - Much less preferred, but permissible for receiver antenna: left or right rear fenders, just in back of rear window - Least preferred, but permissible for receiver antenna: left or right front fenders, ahead of windshield Note: Proximity to other vehicle-mounted antennas may cause mutual interference especially at higher frequencies. Referring to Figure 4, GeminiPD commonly uses three separate antennas: • “T” - Main transceiver Constraints are Maximum Permissive Exposure (“MPE” on the drawing) limits of 50 cm (as per see section 2.5 above) and omni-directional factors • “R” - Auxiliary receiver – Constraints are the receiver spacing of at least 5/8 λ (wavelength) from transceiver antenna and omni-directional requirements • “G” - Global Positioning System (GPS)* Constraints are TX spacing of at least 24-in/60.96 cm from all transmitting antennas and a clear view of the sky. For the optimum antenna spacing at the frequency you are using, consult System Engineering. For installation of ground-plane dependent antennas, the center of the metal surface used for mounting is preferable for best omni-directional pattern. For ground-plane independent antennas, installation may be close to the edges of the surface. * The GeminiPD Lite model has no GPS. 120 20110-142 GeminiPD Installation Guide • 2.5.3 Antenna Installation Connect DC Power cable’s connector to GeminiPD’s until you hear a click as the two parts snap together. Re-check that all other connections are secure (antennas, PC, etc.) Switch vehicle ignition ON. 1. Route good quality 50-ohm coaxial cables (e.g. RG-223) from each of the selected antenna positions to the position where the GeminiPD unit is mounted. • 2. Terminate the end at each of the antenna positions with the appropriate connector for the antenna used and make the connection. You are now ready to check for normal operation and to run the Radio Installation Software (WinRIS) program for testing or trouble-shooting. • 3. At the GeminiPD position, cut the three cables to length and terminate with the appropriate plug. For the transceiver and the auxiliary cables, use a Mini-UHF crimp plug using an appropriate crimping tool. For the GPS, use a SMA connector. 2.7. Checking out Normal operation Check that the vehicle ignition is ON. 1. Check for proper operation of the GeminiPD’s LEDs as per Table 1 in section 3.1 4. Positively identify the transceiver miniUHF plug and connect to the left rear of GeminiPD. 2. Using the WinRIS program (described in section 4) and an in-line wattmeter, check forward & reverse power to confirm main antenna installation. 5. Positively identify the auxiliary receiver mini-UHF plug and connect to the front left of GeminiPD to the RX position. 3. Using the WinRIS, check the RF link with a base station that can be heard by using the WinRIS “Ping” feature (see paragraph 4.4.4.4). 6. Connect the SMA connector to the GPS* position below the auxiliary connector position. or 7. Do not skip this last step, trust us; it is an important one. To complete the installation, tie-wrap together the auxiliary and the GPS* antenna cables at a point about two inches in front of the unit. It will be much easier hereafter to correctly identify which mini-UHF plug goes where. You DO NOT want to cross the auxiliary plug with the transceiver plug. If user application and its base station are available, test the installation by going through a normal sequence of transmitting and receiving messages. * The GeminiPD Lite model has no GPS. 2.6. Completing the physical Installation. To complete the physical installation and prior to testing GeminiPD: 120 20110-142 GeminiPD Installation Guide 3. Operating Description 3.1 Front & Rear Panels The front panel includes: • • One mini-UHF type female antenna connector for the auxiliary receiver One SMA type female connector for the GPS receiver (not installed on GeminiPD Lite model) • Two LED indicators • Three DE-9F RS232 ports The rear panel includes: One mini-UHF type female antenna connector for the main transceiver One 3-pin pigtailed DC Power connector with ignition sense ® Gemini/PD RX PWR PGM RX TX PC/SETUP 2.000" • • GPS DEV-3 DEV-2 DEV-1 6.000" Figure 5 - Front and rear panels 120 20110-142 GeminiPD Installation Guide Table 1 - Gemini PD LEDs indications GeminiPD LEDs indications Power-on Sequence (LEDs are paired) Special Errors Normal PWR RX / TX Red Red Amber Off Normal Operation (LEDs are independent) Indication Normal boot-up start (10 to 27 sec.) Then 8 seconds to completing boot-up PWR Indication RX / TX Green* Normal ready state Off Amber* 1 Pulse/sec. Sufficient satellites acquired by GPS Green Receiving packets “DBA sync” allows transmit Receiving packets “DBA out-of-sync” prevents transmit Green Off Normal state Red Off Hardware failure Amber Slow Red/Green Red Software failure (firmware erased) Red Fast Red/Green Red Programming in progress 3.2 No network activity Transmitting * For 800MHz model (using 25% duty cycle limit) PWR lit Green / Flashing Amber = normal indication (GPS 1pulse per sec.) PWR lit Amber / Flashing Green = exceeded duty cycle (GPS 1pps) DTE Port Interface For all three ports: DE-9 F pin # Indication We recommend the use of a shielded 9-wire cable with all pins connected. These ports can be used for unit configuration, maintenance & adjustment as well to connect user applications. Function PD DCD – from Gemini , normally asserted PD RXD – data from Gemini PD TXD – data to Gemini PD DTR – to Gemini , handshaking Ground PD DSR – from Gemini , tied to VCC through current limiting resistor 3.2.1 RS-232 Interface Signal Levels In the descriptions of data signals, the following conventions are used: Table 2 - RS-232 Signal Levels PD RTS - to Gemini , handshaking PD CTS – from Gemini , handshaking AUX - auxiliary input to GeminiPD, (for port 2: “Officer requires assistance” Alarm input) It may be activated by (normally open) dry contact pull-up to the port’s DSR output. It may also tolerate user pull-up to external +12 VDC (car battery), but an isolated dry contact is preferred due to the risk of noise-related false alarms caused by the vehicle’s electrical system. A +3 to +12 V signal at this pin will send a DMP “x” (On) message to the base. An open or ground signal will send a DMP “y” (Off) message. Messages are only sent when a signal transition occurs. See Appendix “A” on page 24 for further details. 120 20110-142 10 Term Alternates Signal level OFF asserted, spacing dropped, marking +3 to +15 V -3 to -15 V GeminiPD Installation Guide 4.2 4. WinRIS program The Windows Radio Installation (WinRIS) program is used to: • • • Software Connect a suitable 9-conductor straight RS-232 cable, between the unit’s front-mounted PC/Setup port and the RS-232 port of the PC or portable computer that will be running Gemini.exe program. PD Check and troubleshoot Gemini . Save an existing configuration. Upload files for field-configuring units (Requires intervention with technical support). GeminiPD’s WinRIS program is available on diskette, Dataradio p/n 980 03392-00n. Refer to the WinRIS Readme.txt file for details on how to set MS-Windows environment, connect, install and run this program. To run the program, you will need: A PC or portable computer running a 32-bit MSWindows application: Win ME Win2000 Win NT Win 9x Note: WinRIS does not operate under: Win CE (embedded in PocketPC) 16-bit Windows 3.x In summary, before starting the WinRIS when running MS-Windows, click on “Start”, then on "Run". Type the relevant path and variables on the command line (or select by browsing) leading to: WinRIS.EXE COM[x], [speed],8,n,1 A hard disk. An available COM port. A serial mouse, with its own driver installed is strongly recommend however most actions can also be done using keyboard command 4.1 (where x is the PC COM port to be used) Of course, the executable command may be used alone without any variable added. Click on “OK”. It is also possible to create a PC desktop shortcut icon for WinRIS: • Start by right clicking anywhere on the desktop, • Select New, • Select Shortcut and type the path as detailed above directly on the command line (with or without variables). • Click Next, • Type in an applicable name for the shortcut icon, • Click Next • Select an icon (your choice) and • Click on Finish. Operation This support program can be run in MSWindows © mode. DO NOT have more than one copy of this program loaded at any given time in separate windows. Doing so creates COM port sharing conflicts and failure to run the program alone results in unexpected transmissions. Only left mouse button operation is supported. Any command or selection shown in gray is either unavailable or is awaiting another action before activating. Command line settings override the environment variable, if any. Help in the program is available at all points by pressing the F1 key. If a subject is highlighted, the help displayed will be context sensitive. 120 20110-142 To connect and start WinRIS 11 GeminiPD Installation Guide Figure 6 - WinRIS window 4.3 Window This program uses one main display screen only. Placing the cursor over a Toolbar or Button generates a ScreenTip. Referring to Figure 6, starting from top and moving down to the bottom, the screen display is made up of: • A Menu bar, containing the menu names listed below. They give access to command options. Unavailable commands are shown in light gray color. Shortcut keys are listed whenever available. ! File menu lists the: - Put From command (Ctrl+O) - Get command (Ctrl+S) - Get As command and below a command separator, the: - Exit command 120 20110-142 • 12 Test menu lists the: - Modulated command - UnModulated command ! View menu lists the: - Toolbar checked command - Status bar checked command ! Help menu lists the: - Help Topics command and below a command separator, the: - About WinRIS command A Toolbar row, located immediately below the menu bar containing buttons (each bearing an icon) for commonly used tasks as follows: ! Put From button ! Get button Get As button GeminiPD Installation Guide and to the right of a bar separator, the: ! About button and the ! Context-sensitive Help button • An Indicator and Button bar, located immediately below the Toolbar row, it contains two circular indicators ! DSR signal is High indicator ! CTS signal is High indicator and three buttons for commonly used tasks as follows. ! Station Reset button ! Modulated TXON button ! Unmodulated TXON button • • • • • Figure 7 - Select Port window • • A Product field, displays product type being used after a connection to the product has been established A Data section, containing the Banner plus the Comments and Password fields and their related Put buttons. A Channel(s) section, to select and activate a channel. A Test section, with a Ping button and the relevant address field. A Status bar, for displaying standard usermessages. Other messages appear in dialog window boxes or warning windows. 4.4 The Station Reset button is also pressed as a last step after doing a “Put From”. The Station Reset button causes downloaded parameters from a file or diskette to take effect in the connected unit. Pressing Station Reset is not required after doing any Comments or Password configuration change as these have their own Put Comments and Put Password buttons. Station Reset does not break the connection. 4.4.2 Configuration to a file Saving the unit’s configuration to a file allows the user to: • Subsequently restore the configuration. • Safeguard a copy as documentation of the configuration. Note: The configuration and status files are ASCII files and may be e-mailed or faxed to technical support when requested to do so. Warning: Do not make any changes to these files. Any changes made to the configurations MUST be done at factory or by Dataradio system engineering. Functions The WinRIS program is used to: • Save an existing configuration from a unit to a file. • Take a configuration from a file and upload it to a unit • Check GeminiPD • Test and/or trouble-shoot installations 4.4.1 “Station Reset” button The Station Reset button is the only button available when first starting the program and is used to initiate the connection process. • • 4.4.2.1 “Get” button On the menu bar, select “File”, then the “Get” command or press the “Get” button on the Toolbar to: Press Station Reset. Enter Port and Baud rate information in the Select Port sub-window. 120 20110-142 Press OK to validate the selection (or Cancel to exit back to the main screen). All test buttons and fields are now activated. • 13 Establish linking GeminiPD Installation Guide • 4.4.3.1 Download and automatically save the connected unit’s configuration setting to a file named with the unit' serial number: The WinRIS status bar will then report “All parameters are successfully retrieved and saved in file [unit' s/n].GM2. Any previous configuration in the program is overwritten. 1- On the menu bar, select “File”, then the “Put From” command or press the “Put From” button on the Toolbar. 2- In the “Open” window, locate the drive, directory and file name of the relevant file. If you do not wish to overwrite an existing configuration or prefer to name the file yourself, use the “Get As” button. 4.4.2.2 “Get As” button Establish linking • Open the “File, Save As” window with the ASCII file *.gm2 (already selected). • • • This may be a configuration saved earlier from a unit. • It can also be from a Dataradio (factory or system engineering) diskette. 4- Select the appropriate file On the menu bar, select “File”, then the “Get As” command or press the “Get As” button on the Toolbar to: • 5- Press the “OK” button. The status bar reports: “[filename] is downloading into unit” and up to 30 seconds later displays: “All parameters are saved. Apply Station Reset to take effect!” . 6- Press the “Station Reset” button. See section 4.4.1 for details. Save the connected unit’s operating characteristics (configuration setting) to a file, directory or drive of your choice. The program will ask before overwriting an existing file. 4.4.4 Special Functions The following WinRIS fields and buttons are used to gather specific information concerning the connected unit: Status bar reports “All parameters are successfully retrieved and saved in [filename]. 4.4.3 Configuration from a File Loading a configuration from a file to a unit is useful to: • Banner field • Comments field and Put Comments button • Password and Put Password button 4.4.4.1 • Restore the operating characteristics of a unit (Requires intervention with technical support.) • Carry out field updates using Dataradio system engineering supplied diskette(s). Banner Field This field displays a string made up of the serial number of the connected unit followed by the firmwares used and their version number. Format is: [serial number]:firmware 1 name, its version #, firmware 2 name, its version #. Warning: Do not make any changes to these files. Any changes made to the configurations MUST be done at factory or by Dataradio system engineering. 120 20110-142 “Put From” button The serial number portion uniquely identifies the unit. It is a variable length, maximum eightcharacter alphabetic string assigned at the time of manufacture. It is identical to the serial number printed on the label of the unit. This number cannot be changed and is used as part of the onair protocol. 14 GeminiPD Installation Guide GeminiPD's firmwares resides in flash EPROM and are designed to allow field upgrades. The Dataradio supplied password algorithm is designed to thwart the casual observer only. It provides a limited form of data privacy. Therefore, if your security requirements are high, Dataradio urges you to use external encryption technology (such as Data Encryption Standard (DES)) in the Host and Mobiles computers. When contacting your supplier, give the full banner string and the version of the WinRIS used. You will find the version number by selecting the “Help” menu option, then “About WinRIS” command or pressing the “About” button on the Toolbar. 4.4.5 Test Functions The “Banner” field is blank prior to doing a "Get", "Get As" or "Put From". The following WinRIS functions and buttons are used to carry out testing or trouble-shooting on a connected unit: 4.4.4.2 • DSR signal is High indicator • CTS signal is High indicator • Channels select • Show All Channel Frequencies • RSSI Indicator • TXON (Modulated) Comments 1- Type comments directly in the “Comments” field. These can be text up to 24 characters. Use this field to enter user-convenient description(s) (customer name, location, etc…). 2- Press the button “Put Comments” to make the entry permanent. This field may be left blank. On subsequent “Get”, “Get As” or “Put From”, this field displays entered comments. If no comment was entered, the field will remain blank. • TXON (Unmodulated) • Ping Address and Ping button 4.4.4.3 4.4.5.1 Password The password feature is useful where two (or more) fleets share the same radio channel. Mobiles without the proper password would still receive the message but the contents would not be intelligible. DSR signal is High indicator The “Data Set Ready” (DSR) indicator light, located on the button bar (leftmost), is an RS232 protocol port indication. When lit, it indicates proper connection and that the value is High. The DMP protocol used requires that DSR be normally asserted. 1- Type your password directly in the “Password” field. It is a string of 32 hexadecimal characters (exactly). 2- Press the button “Put Password” to make the entry permanent. This field may be left blank. On subsequent “Get”, “Get As” or “Put From”, this field will require that the correct password be entered. If none was entered, the field will remain blank. Password information is NOT retrieved and saved to a file, along with the configuration. Clearing a Password is done by entering 32 zeros. 120 20110-142 15 GeminiPD Installation Guide 4.4.5.2 4.4.5.4 CTS signal is High indicator The Radio Signal Strength Indicator (RSSI) bar graph usually displays in twin-columns the relative strength (in dBm) of an incoming RF signal on the selected channel. The left column indication, labeled "I", shows the transceiver RX signal (rear mini-UHF connector). The right column indication, labeled "II", shows the auxiliary RX signal (front mini-UHF connector). Meter precision is usually better than 3 dBm. The “Clear-to-Send” (CTS) indicator light, located on the button bar (second indicator from the left), is an RS-232 protocol port indication. When lit, it indicates proper connection and that the value is High. The DMP protocol used requires that CTS be normally asserted. 4.4.5.3 RSSI & Power Out Indicators Channel Selection Select the radio channel on which you wish to send a test transmission by clicking the relevant available option button. The program automatically detects which of sixteen channels are present on the connected unit. For each factory-set channel available, the relevant round option button and channel number is enabled (black). For each unavailable channel, the round option button and channel number appears disabled (grayed-out). Only one channel at a time may be selected. This indicator functions as a single column "Power" (Watt) meter when using either of the test functions: "TXON (Modulated)" or "TXON (Unmodulated)" with a range of 0 to 60 watts. Precision is usually better than +/-3 watts. Note: This internal wattmeter is designed for use as reference only and is not a substitute for a quality external precision measuring instrument. Pressing the “Show All Channel Frequencies” button opens a sub-window (see Figure 8) listing in tabular form the radio transmitting and receiving frequencies programmed for each available channel(s). 4.4.5.5 TXON tests TXON test functions are selected by choosing “Test” from the file menu, then “Modulated” or “UnModulated” command or by pressing the relevant button on the Toolbar. To exit this sub-window, press the upper right system box. 4.4.5.5.1 Unmodulated Carrier Unmodulated carrier gives a clear carrier and is frequently used for checking: • Frequency error • Forward and reverse power Press the TXON (Unmodulated) button to transmit an unmodulated 20-seconds test signal on the channel selected or until the button is pressed again. The functions of all the other buttons are inoperative during test transmissions. Power check: 1- Connect an in-line power meter between the radio and the antenna. 2- Measure the forward (nominal 40W for UHF model and 35W for 800MHz model) and reflected power levels by powering TX ON Figure 8 - Show All Channel Frequency 120 20110-142 16 GeminiPD Installation Guide 2- Press the Ping button to start ping testing. The functions of all the other buttons are inoperative during pinging. (<5% of forward power or as specified by System Eng.). 4.4.5.5.2 Modulated Carrier The program sends a test query and continues transmitting pings at brief intervals. As soon as a Ping test signal is returned from the address selected, the status bar displays: Test transmission generates a carrier modulated with 1kHz sinewave, at deviation level that depends on model and network speed: • • Table 3 - Carrier Modulation Carrier Modulation Full Channel DGMSK SRRC 4FSK Network Speed Typical Deviation 1) 4.4.5.7 2) 25600 ± 4.0 /±3.7 kHz 19200 ± 4.5 kHz 19200 ± 4.0 kHz 16000 ± 4.0 kHz 9600 ± 3.0 kHz 2) 1) 2) SRRC 4FSK 1) ± 1.9 /±2.4 kHz 14400 ± 2.3 /±2.7 kHz DGMSK 9600 ± 2.5 kHz 1. Numerically, the valid address range is 1-126. 2. As an “Alpha-Mapped-Nibble” (AMN) address, consisting of upper case letters in the range A-P. The valid address range is A to GN. The base address is usually: 1. The program may display one of the following messages on the status bar: For ParagonPD product: “Ping address is not in AMN or number format” or For GeminiPD product: “Ping address is not in the range A – GN” Different modulation types are not interoperable 1) 2) UHF model 800MHz model This function is frequently used for checking frequency deviation. Press the TXON (Modulated) button to begin transmitting a 20-seconds modulated test signal on the channel or until the button is pressed again. In either case, check that the address entered is within the acceptable range, is of a valid format and correctly typed. 4.4.6 Status Bar The functions of all the other buttons are inoperative during test transmissions. 4.4.5.6 The Status Bar is located along the bottom edge of the WinRIS window. To display or hide the bar, check or uncheck the command in the “View” menu. Ping Button The Ping function checks connectivity by testing the ability of GeminiPD to communicate with the base station by sending a short transmission query and receiving a confirming response. The left area of the status bar describes actions of menu items as you navigate using the directional arrows. This area also shows messages describing actions of toolbar buttons as you depress them, before releasing them. If after 1- Specify the channel (paragraph 4.4.5.3) and ping address (paragraph 4.4.5.7) 120 20110-142 Ping addresses Addresses may be entered by typing directly in the “Ping Address” field in two ways: Half Channel Network Speed Typical Deviation 16000 “Ping Successful” and pinging stops. If no ping signal is received after 60 seconds, ping testing stops and the status bar displays “Ping Failed”. 17 GeminiPD Installation Guide viewing the description of the toolbar button command you wish not to execute the command, then release the mouse button while the pointer is off the toolbar button. Warning and Caution messages appear in pop-up sub-windows. To close these message boxes, press the ESC key. Three boxes on the right of the status bar indicate which of the following keys are latched down: Indicator CAP NUM SCRL Description The Caps Lock key is latched down. The Num Lock key is latched down. The Scroll Lock key is latched down. Table 4 - Key latch indications 120 20110-142 18 GeminiPD Installation Guide 5. Trouble-Shooting and Testing 5.3 About three minutes after ignition is turned-on, the PWR LED on the GeminiPD front panel should flash in amber color at the rate of one pulse per second.1 This indicates that the GPS has acquired the sky position of a sufficient number of satellites to arrive at a ground position solution. The checks described below should be done at annual intervals or whenever deterioration in performance is noted. 5.1 • • • • Equipment Required If the GPS has a good view of the sky and still has not generated any position solution within three minutes (it may take up to 10 minutes or more if the sky view is partially blocked.), the following trouble-shooting procedures should be undertaken to isolate the fault: 13.8 VDC (nominal) car battery, or 13.8 VDC/20A regulated power supply (In the case the unit is not installed in a vehicle) In-line watt meter (50W range) Radio service monitor (IFR or equivalent). Cable with mini-UHF male connector to connect GeminiPD to the service monitor. 5.2 GPS Test 1) Disconnect the GPS antenna cable connector from the Gemini radio and check for + 5 VDC on the center pin of the GPS antenna connector on the radio using a Digital voltmeter (DVM). If the voltage is present, do not reconnect the cable and proceed to step 2. Basic Tests Recommended checks: 1. Transmit and Reverse power output 2. Carrier frequency error 3. Frequency deviation 4. Receivers RSSI Check 5. Link test between Gemini and the base station. 6. GPS test (not required on GeminiPD Lite model). 2) With the DVM, measure resistance between the shell and the center conductor of the GPS cable, resistance should be between 100 and 300 Ohms, if it measures open or short circuit the GPS antenna is either a passive antenna which is the WRONG type, or a defective active antenna, replace with a known good active antenna. Refer to Table 5 for checks 1 to 5. Important note: Before proceeding make sure that the service monitor has been calibrated recently and has warmed up for at least the time specified by its manufacturer. 3) Connect the new antenna to Gemini and wait about three minutes for the POSITION ACQUIRED indicator to start flashing on GeminiPD, if not, the Gemini radio or its GPS receiver is defective Some reported frequency and deviation problems have actually been erroneous indications from service monitors that have not adequately warmed up. This is particularly likely when field service is done during winter months Refer to the WinRIS section for function details 120 20110-142 19 Lit green and flashing amber for the 800MHz model under 2% duty cycle limit. GeminiPD Installation Guide Table 5 - Tests, Full & Half Channel Units CHECKLIST STEP ACTION GeminiPD EXPECTED RESULTS at 25°° C MEASURE WITH IF NOT? units are set and characterized at the factory to optimize performances. It is not recommended to try to readjust the units. Power-up LED Sequence Connect and save config as per Table 1 - GeminiPD LEDs indications as per section 4.4.2 Press WinRIS Get button Main transceiver Output Power Press TX (Unmod) Main transceiver Reflected Power UHF: 40 watts 800MHz: 35 watts both +10%, -10% Factory-settable down to 10 watts (5 watts for 800MHz model) as per customer request Service monitor set to read power <5% of forward power or as specified by System Eng. 10W in-line wattmeter ±300 Hz Service monitor set to read frequency error SRRC4FSK, Full ch. unit: Service monitor set to read deviation or 50W in-line wattmeter Press TXON (Unmod) Carrier Frequency Error Press TX (Unmod) TX Deviation Press TXON (Modulated) Carrier will be modulated with a 1 kHz tone. 25.6 kb/s: ±4.0 kHz (UHF) ±3.7 kHz (800MHz) 19.2 kb/s: ±4.5 kHz SRRC4FSK, Half ch. unit: 16.0 kb/s: ±1.9 kHz (UHF) ±2.4 kHz (800MHz) 14.4 kb/s: ±2.3 kHz (UHF) ±2.7 kHz (800MHz) Full ch. unit: DGFSK, 19.2 and 16 kb/s: ±4.0 kHz 9.6 kb/s: ±3.0 kHz DGFSK, Half ch. unit: 9.6 kb/s: ±2.5 kHz (IF filter set to Mid or 30 kHz position) Refer to factory technical support. Check for bad connections, damaged coax cable, etc. Refer to factory technical support. Refer to factory technical support. Tolerance is +5%, -10% for all bit rates. RF Link test "Ping" a base station as per section 4.4.5.6 “Ping Successful” Check on the WinRIS RSSI bar graph if the base station is within range (i.e. better than -107dBm) or Refer to factory technical support. Set the service monitor to generate at the levels mentioned below. The carrier generated should be modulated with a 1.0 kHz tone at deviation of +/- 4.0kHz (full ch.) or +/-2.5kHz (half ch.). Main Receiver RSSI checks -70dBm -110dBm -120dBm 120 20110-142 Refer to factory technical support. - 70 dBm +/-3 -110 dBm +/-3 -120 dBm +/- 3 WinRIS bar graph 20 The RSSI checks give a good indication of receivers' health. GeminiPD Installation Guide 8 Aux Receiver same as step 7 WinRIS bar graph repeat as per step 7 Refer to factory technical support. 1 (unless you have set a lower value). Note that readings less than 40 watts (UHF model) or 35 watts (800MHz model) may be due to losses in cables used for testing. Check also your wattmeter frequency calibration curve. Do not be too ready to condemn the transmitter. 120 20110-142 21 GeminiPD Installation Guide 6. Specifications GENERAL UHF 800 MHz 806 – 824 MHz (821-824) 851 – 869 MHz (866-869) Frequency Tx 403 - 512 MHz Frequency Rx 403 - 512 MHz Channel spacing 12.5 or 25 kHz Frequency Control Digital Synthesizer / uController Frequency Stability 1.5 ppm Operating temperature -30°C to +60°C (25°C nominal) @ 95% non-cond. RH Modes of Operation Simplex or Half Duplex Number of channels 16 internally stored Supply voltage Circuit Protection RX Current at 13.6 VDC 13.6Vdc nominal (negative ground) 10.9 – 16.3 VDC 15 Amp fuse external 2 & 4 Amp fuse internal < 550 mA Standby (with auxiliary receiver) TX Current at 13.6 VDC < 15 A TX/RX separation 5 MHz typical Nominal Dimensions 7.050” D x 6.000” W x 2.0000” H Weight: < 3.5 lbs. RF input/output Impedance RF connector 50 ohms nominal Main TX/RX: mini-UHF female Auxiliary RX: mini-UHF female GPS RX: SMA female (Not installed for Gemini Interface connector PD Lite version) 3x DE-9F D-subminiature RECEIVER Sensitivity (12 dB SINAD) < 0.35 µV * Selectivity (25KHz) 75 dB typical 70 dB minimum Selectivity (12.5) 65 dB typical 60 dB minimum Intermodulation 75 dB typical 70 dB minimum Spurious rejection 75 dB typical 70 dB minimum FM hum & noise -45 dB typical * Conducted spurious < -57 dBm * psophometrically weighted filter WARNING: 120 20110-142 The frequency band 406 to 406.1 MHz is reserved for use by distress beacons and should not be programmed into the unit. 22 GeminiPD Installation Guide TRANSMITTER Power output UHF = 10-40 watts Duty cycle 800 MHz = 5-35 watts 20% @ full power, 30 secs. max. TX time (subject to FCC MPE limit) Conducted Spurious -75 dBc (-38 dBm @10 W) typical Frequency stability 1.5 ppm FM hum and noise -45 dB max (25 kHz) Attack time < 10 ms Operation Simplex/half duplex Data rates and Modulation type DGFSK (9600 b/s), (19200 b/s) * SRRC4FSK (19200 b/s), (25600 b/s) * better than –112 dBm at 19200 b/s full channel, with P/D (DGFSK)* Packet Error Rate (for < 1% error) better than –110 dBm at 25600 b/s full channel, with P/D (SRRC4FSK - UHF)* better than –109 dBm at 25600 b/s full channel, with P/D (SRRC4FSK – 800MHz)* Protocol Dataradio Proprietary DBA * Networks must use common modulation, bit and baud rates. Different types are not on-air compatible DISPLAY and CONTROLS 2 status LEDs RX/TX, PWR Environmental MIL. spec. Environment Categories Low Pressure High Temperature Low Temperature Temperature Shock Solar Radiation Rain Humidity Dust Vibration Shock MIL Spec. 810E Operations Operations, Storage Operations, Storage Transfer of equipment Heat effects Drip rain Induced, Aggravated Blowing dust Ground Mobile Functional, Bench handling FCC / IC CERTIFICATIONS Other Method Procedure 500.3 501.3 502.3 503.3 505.3 506.3 507.3 510.3 514.4 516.4 II I(A1), II I(C3), II (C1) I(AI,C2) II II,III I(8) I,VI IEC IP54 only II IEC IP54 EIA RS-204C Forestry EIA RS-204C EMISSION DESIGNATORS FCC IC (DOC) Bit rate Baud rate Modulation UHF 800MHz UHF EOTGPDA 773195525A 9600 16000 9600 16000 DGMSK DGMSK 8K60FID 15K3FID 8K60FID 15K3FID 800 MHz EOTGPDB 773195643A 19200 19200 25600 16000 14400 19200 DGMSK 15K0FID 9600 SRRC4FSK* 16K0FID 12800 SRRC4FSK* 15K6F1D 8000 SRRC4FSK* 8K17F1D 7200 SRRC4FSK* 8K67F1D * IC – Class II permissive change 15K0FID 16K0FID 15K6FID 10K0F1D 11K0F1D PD MIL Specification not guaranteed with Gemini 120 20110-142 Lite version. 23 GeminiPD Installation Guide Appendix 1 - "Officer Requires Assistance" alarm function The contents of this appendix are also available as Technical Instruction Sheet 009 (TIS009), document part number 122 20110-009 dated December 20, 2000. Overview The DTE Port Interface pin 9 (AUX) on DEV-2 is used for the “Officer Requires Assistance” alarm function. Intended Audience This document is designed for use by System Integrators. Physical Connection This auxiliary input may be activated by (normally open) dry contact pull-up to the port’s DSR output. It can also tolerate user pull-up to external +12 VDC (car battery), but an isolated dry contact is preferred due to the risk of noise-related false alarms caused by the vehicle’s electrical system. A +3 to +12 V signal at this pin will send a DMP “x” (On) message to the base. An open or ground signal will send a DMP “y” (Off) message. Messages are only sent when a signal transition occurs (debounced for approximately 100 ms). Operation When using GeminiPD or GeminiPD Lite products, activating the “Officer Requires Assistance” alarm input starts emergency communications: • The modem creates DMP “x” or “y” messages. • Any other pending message(s) will be failed to avoid delaying the alarm message on account of lower priority traffic and to remove non-emergency messages from duty-cycle management (if applicable). In the case of a “q” message, a D-NAK* will be immediately returned. • Base and Channel hunt will take place for the usual number of retries per base (according to configuration) but will cycle forever until D-ACKed* or Reset*. • Lack of base DBA synch will not prevent transmission to maximize the chance that a base gets the alarm signal. DBA “Freewheel” mode will be forced until the alarm is acknowledged. * For details on DMP terms, refer to DMP 1.5 manual, version 4.0 120 20110-142 24 GeminiPD Installation Guide
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