800 MHz RD-LAP Private DataTAC 2.
Warranty Disclaimer Motorola may add, delete, change, or withdraw, in whole or in part, this document or the equipment or software or the specifications described in this document at any time and without notice. Such document modifications will be incorporated in new releases of this document on an intermittent basis. This publication could contain technical inaccuracies or typographical errors.
This warranty applies within the fifty (50) United States, the District of Columbia and Canada. LIMITED WARRANTY MOTOROLA COMMUNICATION PRODUCTS If the affected product is being purchased pursuant to a written Communications System Agreement signed by Motorola, the warranty contained in that written agreement will apply. Otherwise, the following warranty applies. I. WHAT THIS WARRANTY COVERS AND FOR HOW LONG: Motorola Inc.
equipment) which adversely affect performance of the Product or interfere with Motorola’s normal warranty inspection and testing of the Product to verify any warranty claim. F. Product which has had the serial number removed or made illegible. G. Batteries (they carry their own separate limited warranty). H. Freight costs to the repair depot. I.
FCC Interference Warning The FCC requires that manuals pertaining to Class A and Class B computing devices must contain warnings about possible interference with local residential radio and TV reception. This warning reads as follows: NOTE: This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules.
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Contents Warranty Disclaimer................................................................................... ii Trademarks ....................................................................................... ii Printing History .................................................................................. ii Contents.................................................................................................... vii Figures ......................................................................
1.4.3 1.4.4 1.5 1.6 1.7 Chapter 2 1-14 1-15 1-15 1-16 1-16 1-16 1-16 1-17 1-17 1-17 1-17 1-18 1-18 1-18 1-19 1-19 1-19 1-20 1-20 1-20 1-20 System Planning Process ...................................................................... 2-1 2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 viii FullVision INM .............................................................. QUANTAR Data Base Station ...................................... 1.4.4.1 QUANTAR Configurations .......................... 1.4.4.
2.8.4 Chapter 3 Decision Charts ....................................................................................... 3-1 3.1 3.2 3.3 Chapter 4 Interconnect/Information Flow ...................................................... 3-3 Ethernet Connectivity ................................................................... 3-4 Creating the Network Topology .................................................... 3-6 3.3.1 Radio Network Controller 3000 Host Port Connectivity.. 3-6 3.3.
4.3.4 4.4 4.5 4.6 Mobile Workstation 300 (MW 300) and Mobile Workstation 350 (MW 350) ........................ 4.3.4.1 Software Options for the MW 300 and MW 350....................................................... 4.3.4.2 Accessories for MW 300 and MW 350........ 4.3.5 Mobile Workstation 520 (MW-520) ............................... 4.3.5.1 Options for MW-520 .................................... 4.3.5.2 Accessories for MW-520 ............................. Portable Equipment ............................
Figures Figure 1-1. Basic Topology of a Private DataTAC System .................. 1-2 Figure 2-1. Wireline Network Computer Link to Host ........................... 2-4 Figure 2-2. Radio Data Network Computer Link to Host ...................... 2-4 Figure 2-3. Fixed-End Customer System Diagram ............................ 2-16 Figure 3-1. Core System Configurations .............................................. 3-1 Figure 3-2. Gray AND Bar ........................................................
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Tables Table 1-1. Host Link Protocols and Host Network Connectivities ......... 1-5 Table 1-2. Standard Message Profile ................................................. 1-19 Table 1-3. Message Delivery and Response Delay Specification ..... 1-21 Table 4-1. Action Code and Description ............................................... 4-1 Table 4-2. Hardware Options for RNC3000 ......................................... 4-4 Table 4-3. Power Cables for RNC3000 ........................................
Table 4-31. Software Options for MW-520 .......................................... 4-36 Table 4-32. Hardware Accessories for MW-520 ................................... 4-37 Table 4-33. Hardware Options for PRM 660......................................... 4-39 Table 4-34. Software Options for PRM 660 .......................................... 4-39 Table 4-35. Hardware Accessories for PRM 660 ................................. 4-40 Table 4-36. Hardware Accessories for GPS ......................................
Acronyms R4-11-4G AAD Accessories and Aftermarket Division AC Alternating Current ALB Automatic List Builder ANSI American National Standards Institute API Application Programming Interface APT Advanced Products Team.
DTE Data Terminal Equipment EIA Electronics Industries Association FLM Formatted Logical Messaging FNE Fixed Network Equipment FRU Field Replacement Unit FTR Formal Technical Review FullVision® INM FullVision Integrated Network Manager xvi GPS Global Positioning System GUI Graphical User Interface HDA High Density Adapter HP® Hewlett Packard® I/O Input/Output IB Inbound IEC International Electrotechnical Commission IEEE Institute of Electrical and Electronics Engineers IETF In
R4-11-4G LDC Literature Distribution Center LED Light Emitting Diode LID Logical Identifier LLC Logical Link Control Mb/s or Mbps Megabits per second MDCSE Mobile Data Customer Solutions Engineering MDT Mobile Data Terminal MHz MegaHertz MIB Management Information Base modem modulator-demodulator mph messages per hour MW-520 Mobile Workstation 520™ MWCS II Motorola Wireless Communication Software II NCL Native Command Language NDIS Network Device Interface Specification NiCd
xviii RMON Remote MONitoring RNC3000 or RNC Radio Network Controller (3000) ROM Read-Only Memory RPM Radio Packet Modem RSS Radio Service Software SCSI Small Computer Systems Interface SDK Software Development Kit SI Systems Integration SIT System Integration Test SNMP Simple Network Management Protocol SOW Statement Of Work SRAM Static Random Access Memory TCP Transmission Control Protocol TCP/IP Transmission Control Protocol/Internet Protocol TNC Threaded BNC Connector TTO
References The documents referenced in this manual can be obtained from the following sources: Accessories and Aftermarket Division Motorola Centralized Customer Service 1313 E. Algonquin Road Schaumburg, IL 60196 1-800-422-4210 FAX 1-847-538-8198 Literature Distribution Center (LDC)* Motorola, Inc. 2290 Hammond Drive Schaumburg, IL 60173 1-847-576-2828 FAX 1-847-576-5891 *Available to Motorola employees only All R4 documents are available from LDC.
Radio Network Controller 3000 (RNC3000) Equipment Model Number Document Number Radio Network Controller 3000 Installation Manual L1960/T5732 68P81098E75 Radio Network Controller 3000 Operations Manual L1960/T5732 68P81098E70 Radio Network Controller 3000 Product Specification L1960/T5732 68P81098E95 Formatted Logical Messsaging (FLM) Host Application Programmer’s Manual L1960/T5732 68P80800C85 Equipment Model Number Document Number Wireless Network Gateway™ Installation and Operations Refere
FullVision® Integrated Network Manager (FullVision INM) Document Equipment Model Number Document Number FullVision Integrated Network Manager Installation and User’s Manual, Version 3.0 SQM01SUM0072/ SQM01SUM0065* 68P80800H20 FullVision Integrated Network Manager Functional Specification SQM01SUM0072/ SQM01SUM0065* 68P80800D45 *Contact your local Business Manager for further information on the FullVision INM models.
Vehicular Radio Modem 650 (VRM 650) Equipment Model Number Document Number VRM 650 Vehicular Radio Modem for Private DataTAC™ Networks Owner’s and Installation Manual F3454 F3455 68P02952C90 VRM 500/600/650 Vehicular Radio Modem Radio Service Software User’s Guide F3454 F3455 68P02946C95 Mobile Application Interface Guide F3454 F3455 98P08901C25 VRM 500 and VRM 600 GPS Support Programming Guide F3454 F3455 68P02945C10 Equipment Model Number Document Number VRM 660 Vehicular Radio Modem for P
Portable Radio Modem 660 (PRM 660) Equipment Model Number Document Number PRM 660 Quick Reference F2274 68P02948C26 PRM 660 Portable Radio Modem for Private DataTAC Networks Owner’s and Installation Manual F2274 68P02948C25 FORTÉ Wireless CommPad, VRM 660 Vehicular Radio Modem, PRM 660 Portable Radio Modem, Mobile Workstation 520, RPM 500 Radio Packet Modem, Radio Service Software User’s Guide F2274 68P02945C40 Mobile Application Interface Guide F2274 98P08901C25 Equipment Model Number Docume
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Using This Manual This section describes this document’s intended audience, explains the Private DataTAC™ network features, and tells whom to contact if the customer’s system requirements exceed the standard specifications. For a general overview of Private DataTAC features, refer to the “Private DataTAC™ Network Capabilities Specification.” For more detailed information regarding Private DataTAC network features not covered in this document, refer to the documents listed in “References” on page xix.
and future topologies, consult the Private DataTAC Network Capabilities Specification and the Network Configuration and Optimization Guide documents, refer to the documents listed in “References” on page xix. Other System Documents Several documents are available that have pertinent information regarding the Private DataTAC 2.0.3. Their titles and brief descriptions follow.
Technical Support Contact the MDCSE group when technical support is required. Any nonstandard system requirement must be defined in detail and submitted to MDCSE. Mobile Data Customer Solutions Engineering Commercial, Government and Industrial Solutions Sector 1301 E.
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Chapter 1 Wireless Data Communications Network This chapter describes the Private DataTAC™ wireless data® communications network. The sections in this chapter are: • What is Private DataTAC? • Basic System Topology • Private DataTAC System Features • Fixed-End Equipment • Wireless Computers • External Radio Modems • Private DataTAC System Performance 1.
BASIC SYSTEM TOPOLOGY Vehicle Location (AVL), automated dispatching, and real-time database update. 1.2 Basic System Topology Figure 1-1 shows the basic Private DataTAC network with multiple base stations and multiple radio-linked remote mobile computers. These computers must be within the radio coverage area. The required coverage area can have up to 64 data base stations, strategically located throughout the area.
PRIVATE DATATAC SYSTEM FEATURES Data Messaging Services 1.3 Private DataTAC System Features The Private DataTAC network features provide or enhance wireless computer access to host computer networks.
PRIVATE DATATAC SYSTEM FEATURES Data Messaging Services FLM bearer services allow: • Host-controlled mobile device registration • Confirmed and unconfirmed messaging • Multiple logically addressed host sessions with message routing • User data compression Private DataTAC establishes data compression services when the connection is initialized between the required Motorola Wireless Communication Software II (MWCS II) and the Wireless Network Gateway™ (WNG).
PRIVATE DATATAC SYSTEM FEATURES Network Management the destination mobile computer. This feature can be administratively denied if a customer requires host logging of RF message traffic. Data compression services are established when the connection is utilized between the required MWCS II and the WNG. The effectiveness of compression varies depending on the content and profile of user messages. Compression reduces the time required for wireless computers and the Private DataTAC network to exchange data.
PRIVATE DATATAC SYSTEM FEATURES Large System Support The performance management reports provide hourly and daily information, as information is kept in the data warehouse. FullVision INM is a network management tool that manages, configures and monitors Private DataTAC network elements from a single user interface point. This capability is support with a proprietary SNMP implementation on the WNG and RNC. Remote network management is also available from Motorola network management services. 1.3.2.
PRIVATE DATATAC SYSTEM FEATURES Large System Support 1.3.3.1.1 FullVision INM Controlled Redundancy If the customer’s Private DataTAC network does not require a WNG, the customer can use FullVision INM-controlled Radio Network Controller (RNC) redundancy. The FullVision INM monitors two RNCs. One RNC is active and handles messaging to and from the wireline host and mobile computers. The other RNC is in a warm standby state, ready for the FullVision INM to activate it if the primary RNC fails.
PRIVATE DATATAC SYSTEM FEATURES Large System Support 1.3.3.3 Mobility Management Mobility management allows mobile devices to roam seamlessly throughout the coverage area within a Private DataTAC network without needing to select a different channel or have any specific knowledge of the RF network. The WNG manages these devices across up to four active RNC controllers and expands the coverage supporting up to 256 base stations.
PRIVATE DATATAC SYSTEM FEATURES Security Services 1.3.4 Security Services Private DataTAC 2.0.3 also offers data and network security services which include the following: • User Authentication • Data Encryption • Encryption Key Management Private DataTAC can optionally be ordered with user authentication and data encryption over-the-air services. These options require a WNG at the fixed-end, and MWCS II at the mobile computer.
FIXED-END EQUIPMENT Radio Network Controller 3000 (RNC3000) All user data and the IP header are encrypted. Only the over-the-air RD-LAP packet header is not encrypted. Data encryption is transparent to end user applications. The existing user application is able to send an encrypted message without needing modification except as noted in the Network Capabilities Specification for MWCS II message size compatibility and encrypted unconfirmed outbound and broadcast message size reduction. 1.3.4.
FIXED-END EQUIPMENT Radio Network Controller 3000 (RNC3000) The RNC is described in three categories as follows: • RNC Hardware Configurations • RNC Functions • RNC-to-Transceiver Site Link 1.4.1.1 RNC Hardware Configurations The RNC is based on a VersaModule European (VME) architecture with a Motorola 68030-based control processor, 1.4 MB floppy disk drive, hard disk drive, and a configurable number of 68030-based I/O processors. The modular design accommodates various radio site configurations.
FIXED-END EQUIPMENT Wireless Network Gateway (WNG) 1.4.1.3 RNC-to-Transceiver Site Link The products used to establish the link between the network controller and a base station site are the COMSPHERE® modems (see Chapter 3, “Decision Charts,” section 3.3.1 and 3.3.2). One modem is co-located with the RNC and one is at the base station site for each site connection.
FIXED-END EQUIPMENT Wireless Network Gateway (WNG) 1.4.2.
FIXED-END EQUIPMENT FullVision INM MWCS II works in conjunction with WNG and is required to enable the Private DataTAC 2.0.3 services of IP, compression, and security. Support for Windows NT® and Windows CE are planned for future release. For the Private DataTAC 2.0.
FIXED-END EQUIPMENT QUANTAR Data Base Station FullVision INM offers the following features: • System administration • Topology maps • Fault management • Configuration management • Performance management • Performance monitoring and analysis • Enhanced alarms and statistics • Configurable polling • Hewlett-Packard® hardware platform evolution • HP® NetView software platform evolution • Device test status and management For more detailed information of the above features, see the Network Capabilities Specifi
WIRELESS COMPUTERS Mobile Workstation 300 and Mobile Workstation 350 1.4.4.2 QUANTAR Functions The DBS consists of integrated radio and controller logic by means of embedded software.
EXTERNAL RADIO MODEMS VRM-500 simplifies unit installation and saves space. Modular construction allows quick separation for servicing. The internal radio configuration supports both RD-LAP 9.6 kbps and RDLAP 19.2 kbps on the F5203 model. 1.6 External Radio Modems External radio modems allow mobile computers to communicate in a Private DataTAC 2.0.3 network. The power supply for the VRM-500, VRM 650, and the VRM 660 is the vehicle’s battery.
PRIVATE DATATAC SYSTEM PERFORMANCE PRM 660 1.6.4 PRM 660 The PRM 660 is an integrated radio modem based on the Motorola INFOTAC® portable radio modem in a compact, self-contained unit built in a rugged housing. The PRM 660 is designed for dedicated, data-only applications. Wireless access is possible through an internal 3-watt transceiver and flip-up antenna. An LCD and function keys are built into the unit to provide an easy-to-use interface for modem set up and operation.
PRIVATE DATATAC SYSTEM PERFORMANCE Capacity Issues operation, systems engineering develops the message profile as part of the solution design. Capacity is rated using a standard message profile consisting of a 50-character (user data) inbound (IB) message, 100-character (user data) outbound (OB) message, and equal IB and OB rates. Network capacity is the sum of IB and OB messages (table 1-2). Capacity and performance are determined by modeling and simulation only.
PRIVATE DATATAC SYSTEM PERFORMANCE Capacity Issues 1.7.1.4 RNC Capacity RNC capacity, using the standard message profile, is 100K mph. This capacity equates to approximately five fully-loaded RD-LAP 19.2 kbps radio channels, or approximately nine fully-loaded RD-LAP 9.6 kbps radio channels using radio modems with 5 ms transmitter turn-on (TTO) time. 1.7.1.5 Radio Channel Capacity The radio channel capacity study for the standard message profile shows that the IB radio channel is the limiting factor.
PRIVATE DATATAC SYSTEM PERFORMANCE Capacity Issues delay. The Motorola simulator yields these metrics for the customer’s peak message profile. Delays usually are less during off-peak periods. The 90th percentile delay metric represents that 90 percent of all delays that are less than or equal to the indicated delay. The following delay specification provides figures for average and 90th percentile delays for Private DataTAC networks operating at 90 percent of radio channel and RNC message capacity.
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Chapter 2 System Planning Process This chapter covers the system planning preparatory process. Adding a Private DataTAC™ network to an existing computer system requires more than new hardware. Mobile computer and host application software issues must be considered. 2.1 Scope This chapter discusses high-level issues that must be addressed before designing a Private DataTAC network. This manual does not cover all issues relevant to a business case, an application analysis, or a formal SOW.
SYSTEM PLANNING PROCESS OVERVIEW System analysis begins with the business case information. Future scenarios are developed to help determine whether Motorola can provide the products, network, or system to meet customer expectations. Application analysis starts simultaneously with the system analysis and provides information for the product functions within the confines of future operational scenarios. The two analyses use the results to confirm that a Private DataTAC network is a viable customer solution.
BUSINESS CASE 2.3 Business Case The account manager must create a business case for the customer before the system engineer designs the system. Motorola management uses the business case to determine resource needs and develop the sales potential, based on the customer’s qualifications, specifications, budget, time tables, and technical requirements. A Private DataTAC network provides specific competitive advantages.
BUSINESS CASE Mobilizing the remote computer from the wireline network requires special consideration to optimize operation and response times. Eliminating the wire between the host computer and the remote computer and replacing it with two-way radios, injects noise and delays not normally encountered in wireline systems. Figure 2-1 illustrates the mobile computer connected directly to the host. See the Private DataTAC™ Application Design Guide for more information.
BUSINESS CASE • The police chief complains to the watch commanders that the citation rates are lower than those of neighboring municipalities. Funding and staffing are based partly on citation activities, officers must be more efficient. A wireless network solves the problems by giving the officers in the field the same access to local, state, and federal criminal databases that they have in the office, which reduces the incident time.
SYSTEM ANALYSIS Information Gathering and Operational Objectives 2.4 System Analysis This section describes how system analysis leads to the system requirements. System analysis compiles and organizes the information required to create the technical requirements for the customer. The analysis activities are based on business case and management’s decision to pursue the opportunity.
SYSTEM ANALYSIS Information Gathering and Operational Objectives The example response might be: • To provide the organization with a distinct competitive advantage • To catch up with competition in providing goods and services • To respond to citizens demanding significantly faster response from public safety organizations • To be an industry innovator and early adopter of technology • To provide wireless data service companies with the latest technology so they can then provide it to their customers For p
SYSTEM ANALYSIS Information Gathering and Operational Objectives 2.4.1.1.
SYSTEM ANALYSIS Information Gathering and Operational Objectives Questions to answer include: • What percentage of the operational area needs to be covered and at what level of reliability? • What is the mix of portable and mobile computers? • How many radio channels are available? • How many radio channels can the system dedicate for data communications? • What is the distribution profile of mobile computers in the coverage area? • How many base station sites are available? • Given the available base stat
SYSTEM ANALYSIS Availability Expectations 2.4.1.3 System Capacity • Capacity covers issues that concern the maximum number of messages per hour that the system can handle. • Capacity issues need to be addressed up front and determine part of the system design.
SYSTEM ANALYSIS Constraints Availability covers a variety of expectations such as the percentage of time that the network is available for service maintainability, remote monitoring, and management.
APPLICATION ANALYSIS Current Operational Scenario 2.5 Application Analysis Application analysis compiles and organizes the information required to create the technical software requirements for the customer. The application analysis activities are based on the business case and management’s decision to pursue the opportunity. This phase describes the software functionality the customer needs. The application designer needs specific information to make the best choices in approach.
TECHNICAL SYSTEM REQUIREMENTS List of Differences A customer’s current operations, moving to a future scenario are based on the customer’s perception. If the customer is not serving their customers in the most efficient manner, or serving a market or class of customers that provide growth and profitability, then using a Private DataTAC network to address the customer’s need to change is weighed against the various possible solutions. 2.5.
SYSTEM DESIGN Performance Requirements The system engineer must identify and analyze the following architectural requirements before proceeding to the system design phase: • Computer site availability • Base site availability • Computer to base site communications links • Radio channel availability • Mobile computer geographic distribution 2.6.3 Performance Requirements Performance requirements describe messaging capacity, response times, and data radio coverage in objective terms of numbers and time.
SYSTEM DESIGN Architectural Design If Motorola provides and integrates applications software, the system engineer must also provide the following: • Detailed host application and connectivity description • Detailed terminal application and connectivity description • System level functional ATP • System integration test (SIT) plan and procedures 2.7.2 Architectural Design The system engineer must make architectural choices based on functional and performance trade-offs.
SYSTEM DESIGN Architectural Design Fixed Equipment Private DataTAC Network Message Switch MiniCAD FullVision FullVision Integrated Integrated Network Network Manager FullVision Manager Integrated Manager of Network of Managers Manager Managers Network/ Servers Wireless Wireless Network Network Hub Gateway Local Hosts Customer Customer Network Enterprise Backbone Network Radio Wireless Network Network Gateway Controller Radio Network Hub Controller Data DataBase BaseStation Station Data Base Sta
SYSTEM DESIGN Performance Design 2.7.3 Performance Design Private DataTAC network performance design is an integral part of the system design. All the system design choices interact with the specific customer application requirements to form a quantitative description which should agree with the customer’s performance expectations.
EQUIPMENT LIST, PROPOSAL, AND STATEMENT OF WORK Creating the Equipment List 2.8 Equipment List, Proposal, and Statement of Work Upon completion of the FTR for the components of the system design, the solution team creates the proposal and SOWs. The equipment list (also called a Bill Of Material) is part of these two documents. Typically, the SOW is created following the final negotiations activities and becomes part of the contract.
EQUIPMENT LIST, PROPOSAL, AND STATEMENT OF WORK Acceptance Test Plan 2.8.2 Acceptance Test Plan The project manager, systems engineering, and systems integrator together create the acceptance test plan (ATP). The ATP can have variations in the test procedures, depending on the customer’s preferences.
EQUIPMENT LIST, PROPOSAL, AND STATEMENT OF WORK Creating the Statement of Work 2.8.4 Creating the Statement of Work The SOW is a compilation of the system description, responsibilities, an ATP, and other considerations as earlier discussed in this chapter. After completion of the equipment list, the SOW needs to be created. This document provides the customer with a clear description of the responsibilities and actions of the Motorola team.
Chapter 3 Decision Charts The decision charts in this chapter help the system designer and engineering personnel select equipment to meet the specific customer needs. The charts also help the systems engineer select compatible equipment for new and existing systems. When you are selecting equipment from the decision charts, the compatibility charts, options, and accessories charts for the associated equipment are on the same page. Chapter 4, “Equipment Descriptions,” describes them in detail.
Four other features are used in the decision charts to help with understanding relationships between products: • The use of gray AND bars (soft ANDs) means that the items to the right of the bar are not needed for system operation. These items provide additional capability or functionality (fig. 3-2). • The use of boxes with rounded corners means that the model number inside is control or application software. The model number inside is required for proper system operation (fig. 3-2).
INTERCONNECT/INFORMATION FLOW 3.1 Interconnect/Information Flow Figure 3-4 is a site map that reflects how the basic interconnections and information flows through the devices and the data system. For example, the Global Positioning System (GPS) receiver can be connected directly to a VRM or a mobile computer. Locations for the devices are shown in the site map. Host Notebook Host Port Connectivity Section 3.3.1 PRM 660 FORTÉ Wireless with Radio CommPad Section3.3.11 3.3.
ETHERNET CONNECTIVITY 3.2 Ethernet Connectivity Figure 3-5 shows the ethernet hubs and 10BaseT cables as they relate to SNMP with FullVision® INM and non-SNMP without FullVision INM. Ethernet Hubs Non-SNMP ( with/without WNG and without FullVision INM) TCP/IP Ethernet CDN1643 12 PORT NON SNMP HUB 10Base-T Cables QTY 1 7 F,. 10BASE-T ETHERNET QTY 1 14 FT. 10BASE T ETHERNET CB CDN6330 QTY 1 7 F,. 10BASE-T ETHERNET CDN6330 CDN6331 QTY 1 14 FT.
ETHERNET CONNECTIVITY Ethernet Hubs (Cont.) TCP/IP Ethernet Switch Equipment (for systems with more than 2 active RNCs) 10Base-T Cables QTY 1 7 F,. 10BASE-T ETHERNET CDN6251 SUPERSTACK I I 1000 12 PORT CDN6330 QTY 1 14 FT. 10BASE T ETHERNET CB CDN6331 ETHERNET CABLE, 10’ TDN1111 ETHERNET CABLE, 25’ TDN1112 ETHERNET CABLE, 50’ TDN1113 ETHERNET CABLE, 100’ TDN1114 10Base-T Cables AND AND OR CDN6252 SUPERSTACK I I 1000 24 PORT TCP/IP Ethernet QTY 1 7 F,.
CREATING THE NETWORK TOPOLOGY Radio Network Controller 3000 Host Port Connectivity 3.3 Creating the Network Topology The following decision charts, subsections 3.3.1, "Radio Network Controller 3000 Host Port Connectivity," through 3.3.12, "Global Positioning System," describe and define each product and their relationship to each other. 3.3.1 Radio Network Controller 3000 Host Port Connectivity Model No. L3186 Asynchronous COMSPHERE Model 3810PLUS No: TDN9263 MODEM S/A V.32 MODEM, V.3229 (see pg.
CREATING THE NETWORK TOPOLOGY Radio Network Controller 3000 (RNC3000) 3.3.2 Radio Network Controller 3000 (RNC3000) CONTROL CONSOLE & CABLES Model No. CKN1032 CABLE 25FT DB25M DB25M RNC3000 Model No: TDN1088 (110V/220V) AND OR DATA CONTROL CONSOLE Model No. CKN1033 CABLE 50FT DB25M DB25M Host Port Connectivity (see section 3.3.
CREATING THE NETWORK TOPOLOGY Wireless Network Gateway™ 3.3.3 Wireless Network Gateway™ CONTROL CONSOLE & CABLES Wireless Network Gateway™ SOFTWARE HARDWARE T5899 T6517 T5814 Host Computer Systems Network A ND A ND WIRELESS NETWORK GATEWAY AND AND OR DATA CONTROL CONSOLE OR AND CDN6330 CDN6331 TDN1112 TDN1113 TND1114 Model No: TDN1088 Model No. CKN1033 CABLE, 50FT DB25M-DB25M WNG GATEWAY 200MHZ VME Cables Select One of the Following 10BaseT Cables Model No.
CREATING THE NETWORK TOPOLOGY FullVision Integrated Network Manager 3.3.4 FullVision Integrated Network Manager CLN7472 COLOR LASER PRINTER 110V TDN1112 ETHERNET CABLE, 25’ 10BaseT Cables Host Port Connec- AND tivity (see Section 3.3.1) AND OR TCP/IP Ethernet CDN6330 CDN6331 TDN1111 TDN1112 TDN1113 TND1114 AND *Contact your *Reference COF/E-Cat local Business for currentfor pricing and Manager details ordering structure of of FullVision models software and hardware options. (see section 3.
CREATING THE NETWORK TOPOLOGY QUANTAR® Data Base Station 3.3.5 QUANTAR® Data Base Station QUANTAR Data Base Station (DBS) C99ED-001C QUANTAR/QUANTRO FAMILY MODEL - QUANTAR Model No: CLN1430 MODEM, V.3400 DLN1085 12VDC DESKTOP DC-POWER 800-825 MHz Specific Required Options MODEM (DOMESTICS) A ND A ND • X84 • X399 C • Cabinet/Rack (see below) DLN1086 Model No.
CREATING THE NETWORK TOPOLOGY Vehicular Radio Modems 500 3.3.
CREATING THE NETWORK TOPOLOGY Vehicular Radio Modem 650 3.3.7 Vehicular Radio Modem 650 FKN4369 10 FT. DB9 (M/F) Model No. F3454 VRM650 806-824MH 15-35W 19.2KBPS (frequency ranges shown in Tx only) AND (frequency ranges shown in Tx only) 806 - 824 MHz Model No: F2160** F5200 FORTÉ W/O RADIO MOBILE MODEM OR O R OR FKN4367 20 FT. DB9 (M/F) and WORKSTATION FRN1524 520 Docking In Vehicle DOCKING, 9.6 kbps RF Protocol V470 19.
CREATING THE NETWORK TOPOLOGY Vehicular Radio Modem 660 3.3.8 Vehicular Radio Modem 660 Model No. F2168 VRM660 3WATT 800MHZ PRIVATE DATATAC FRN1524 WORKSTATION 520 FKN4369 10 FT.
CREATING THE NETWORK TOPOLOGY Mobile Workstations 300/350 3.3.9 Mobile Workstations 300/350 Monochrome Display Color Display Model No. F5032 MW 350, COLOR DISPLAY Model No. F5030 MW 300, MONOCHROME DISPLAY OR PA00002 ENH: SYSTEM SW WIN CE 2.12 V2.71 PA00002 ENH: SYSTEM SW WIN CE 2.12 V2.71 MW 300 and MW 350 Option: MW 300 and MW 350 Option: Software Option: Programming Tools ADD: SYSTEM SW WIN CE 2.12 V2.
CREATING THE NETWORK TOPOLOGY Mobile Workstation 520 3.3.10 Mobile Workstation 520 With External Radio With Internal Radio Model No. F5203 Mobile Workstation 520 Model No. F5200 Mobile Workstation 520 Pentium II 333 MHz Model No. F5205 Mobile Workstation 520 V492 ENH: DOS 6.22 & WIN 3.
CREATING THE NETWORK TOPOLOGY Portable Radio Modem 660 3.3.11 Portable Radio Modem 660 Model No. F2274 PRM 660 800MHZ, 3WATT PRIVATE 806-824 MHz-Tx 851-869 MHz-Rx FOR AN EXTERNAL ANTENNA, ORDER SEPARATELY PER CUSTOMER SPECIFICATION AND FKN4088A CABLE, 3FT RJ-45TO DB9-F AND 9.6 kbps RF Protocol V470 19.
V492 ENH: DOS 6.22 & WIN 3.11 OS CREATING THE NETWORK TOPOLOGY Global Positioning System 3.3.12 Global Positioning System Mobile Workstation Model No: F2159520 Model No. F5203 FORTÉ Model PRIVATENo. RPMF5205 3W 470MHZ V598 ENH: WIN98 OS, US W/IMAGE CD 403-470 OR MHz V691 ENH: WIN2000 OS, W/IMAGE CD* RD-LAP 9.6MW520 only (*Does not support 12.
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Chapter 4 Equipment Descriptions This chapter describes Private DataTAC™ 2.0.3 product models, options, and accessories. These are listed in the following equipment groups: • Fixed Network Equipment • Mobile Equipment • Portable Equipment • Global Positioning System Receiver • Network Equipment The model, option and accessory descriptions in this chapter list those included in Chapter 3, “Decision Charts.” Not every option or accessory available is listed.
FIXED NETWORK EQUIPMENT Radio Network Controller 3000 4.1 Fixed Network Equipment This section describes the various components within the RNC3000, WNG, MWCS II, FullVision® INM, and QUANTAR® base site equipment. 4.1.
FIXED NETWORK EQUIPMENT Radio Network Controller 3000 L1960 • RADIO NETWORK CONTROLLER XR12 L1960 is a VersaModule European (VME) computing device manages message routing in Private DataTAC networks. The RNC3000 comes with the following: • Internal hard drive • 1.
FIXED NETWORK EQUIPMENT Radio Network Controller 3000 4.1.1.3 RNC3000 Options Tables 4-2 through table 4-4 show the options numbers and descriptions for the hardware, power cables and software for the RNC3000. The table for the power cables (table 4-3) includes both option and accessory numbers for ordering purposes. Table 4-2.
FIXED NETWORK EQUIPMENT Radio Network Controller 3000 Table 4-4. Software Options for RNC3000 OPTION NUMBER COF DESCRIPTION ENH: SFWR SUPPORT PVDT 2.0 Z485AC DESCRIPTION Adds the software option that is required for identifying the system type as Private DataTAC network. ENH: SFWR SUPPORT, 8 BASE STNS Z488 Adds software to support 8 base stations to T5732. ENH: SFWR SUPPORT, 16 BASE STNS Z489 Adds software to support 16 base stations to T5732.
FIXED NETWORK EQUIPMENT Radio Network Controller 3000 Table 4-5. Hardware Accessories for RNC3000 (Continued) COF DESCRIPTION A/B SWITCH EXPANDABLE BANK ACCESS NUMBER TDN1084 DESCRIPTION A/B switch bank expansion that supports up to 16 channels. Maximum of three per RNC configuration. Required to be ordered with TDN1083 for systems needing more than 16 channels. Includes a second power supply module installed in the first switch bank for additional channel support.
FIXED NETWORK EQUIPMENT Radio Network Controller 3000 Table 4-5. Hardware Accessories for RNC3000 (Continued) COF DESCRIPTION ACCESS NUMBER DESCRIPTION ADD; CARD COMSPHERE 3811+V/32 ZA00084AA Adds COMSPHERE card version of their stand-alone modem that is factory strapped to V.32 with CE markings. ADD: CABLE, 50PIN TO 50PIN AMP 1 ZA00096AA Adds 10-foot front mounted amphenol cable. Two cables required. Maximum two cables to a rack. Requires DQTORK118556 RJ45 adapter.
FIXED NETWORK EQUIPMENT Wireless Network Gateway™ 4.1.2 Wireless Network Gateway™ The WNG is a software platform designed to link wireline data networks to Motorola radio frequency (RF) networks by managing message traffic to and from the wireless network. The modular software of the WNG can be ordered to fit system configurations and provides the foundation for supporting future enhancements.
FIXED NETWORK EQUIPMENT Wireless Network Gateway™ T6517 • WNG GATEWAY XR The T6517 is a VME-based 19-inch rack mountable XR series chassis that includes the following main components: • PowerPC microprocessor • SCSI CD-ROM drive • 1.
FIXED NETWORK EQUIPMENT Wireless Network Gateway™ 4.1.2.2 WNG Software Software is required for the WNG and is described in the following paragraph. T5814 • WIRELESS NETWORK GATEWAY The WNG requires the T5814 software. This software manages message traffic in and out of the wireless network. Option Z485 (Private DataTAC system software) must be specified when ordering WNG software. One or both connectivity options must also be ordered: IP with compression (Z622AA), and/or the FLM host interface (Z815AA).
FIXED NETWORK EQUIPMENT Wireless Network Gateway™ 4.1.2.3 Wireless Network Gateway Options Table 4-6 shows the hardware option, Table 4-7 shows the power cables option and accessory numbers and Table 4-8 shows the software options. Table 4-6. Hardware Option for WNG COF DESCRIPTION ADD: ETHERNET MODULE 1 PAIR OPTION NUMBER ACCESS NUMBER E694AA CDN6589 DESCRIPTION Adds an ethernet module to the Fault Tolerant WNG Platform. Table 4-7.
FIXED NETWORK EQUIPMENT Wireless Network Gateway™ Table 4-8. Software Options for WNG COF DESCRIPTION OPTION NUMBER DESCRIPTION ENH: MWCSII LICENSE-INTL Z11AA Adds the MWCS II license for each device with a new WNG shipped internationally and when requiring IP messaging and/or security services. Up to 999 maximum can be ordered by line item. Use the Z800AB for U.S. shipments. ENH: SECURITY SERVICES - INTL Z53AB Adds 40-bit key encryption international security service option. Use Z788AB for U.S.
FIXED NETWORK EQUIPMENT Wireless Network Gateway™ 4.1.2.4 Wireless Network Gateway Accessories Tables 4-9 and 4-10 show the hardware and power cable descriptions for WNG. The power cable accessories are shown with both the accessory and option numbers. Table 4-9. Hardware Accessories for WNG COF DESCRIPTION ACCESS. NUMBER DESCRIPTION QTY 4 - 7 FT 10BASE-T ETHERNET CBL CDN6330 Adds four 7-foot, 10BaseT ethernet cables with RJ-45 connectors on both ends.
FIXED NETWORK EQUIPMENT FullVision Integrated Network Manager Table 4-10.
FIXED NETWORK EQUIPMENT FullVision Integrated Network Manager B2000 Low Tier Workstation • 400 MHz (clocked), PA-8500 Processor +64-bit CPU • 9 GB Hard Drive • 256 MB expandable to 4 GB RAM with four memory slots • 120 MHz SDRAM RAM type main memory • 4 memory slots • 32X speed CD-ROM drive • 21” color monitor • 101-key keyboard and 3-button mouse • FX2 Graphics card • HP external DAT tape drive HP OpenView is based on SNMP. A 10BaseT ethernet cable and software are required for the Private DataTAC system.
FIXED NETWORK EQUIPMENT FullVision Integrated Network Manager Table 4-12. Software Options for FullVision INM OPTION NUMBER COF DESCRIPTION FULLVISION UPGRADE SQM01SU M0088 ENH: HEWLETTPACKARD OPEN VIEW ZA00244AA DESCRIPTION Required when ordering software options after the original order has been placed or when ordering latest version of FullVision software. Adds upgrade license for upgrading to Private DataTAC 2.0.3 from Private DataTAC 2.0.2.
FIXED NETWORK EQUIPMENT FullVision Integrated Network Manager Table 4-13. Hardware Accessories for FullVision INM (Continued) COF DESCRIPTION ACCESS. NUMBER DESCRIPTION COLOR LASER PRINTER (110V) CLN7472 Adds a color laser printer equipped with IEEE-1284 parallel interface, includes software drivers, toner cartridge, 110 volt U.S. style power cable, and documentation. NOTE: An additional 10BaseT ethernet cable is required.
FIXED NETWORK EQUIPMENT QUANTAR® Data Base Station Equipment 4.1.4 QUANTAR® Data Base Station Equipment The QUANTAR Data Base Station is part of the family of Fixed Network Equipment. This section describes the model, options and accessories for the QUANTAR. C99ED • QUANTAR/QUANTRO FAMILY 001C • QUANTAR/QUANTRO CONFIGURATION The QUANTAR C99ED/001C is a 806-825 MHz synthesized field programmable single channel radio. QUANTAR operation is full duplex when ordered as specified with all five required options.
FIXED NETWORK EQUIPMENT QUANTAR® Data Base Station Equipment Table 4-14. Hardware Options for QUANTAR DBS (Continued) COF DESCRIPTION OPTION NUMBER DESCRIPTION ALT: DC ONLY OP. DC TO DC CONVERTER X113 Adds a 48/60V DC 210 watt (low power) DC-to-DC converter instead of an AC power supply. Comes with a battery backup cable (TKN8732) and a 10-foot external battery cable (TRN5155). A 48/60V DC battery or power source is required.
FIXED NETWORK EQUIPMENT QUANTAR® Data Base Station Equipment Table 4-14. Hardware Options for QUANTAR DBS (Continued) OPTION NUMBER COF DESCRIPTION DESCRIPTION ADD: 8’ OPEN RACK QUANTAR X810 Adds an eight-foot open rack to hold the QUANTAR units. This is used in place of a cabinet at the customer’s option. ADD: 7’ OPEN RACKQUANTAR X832 Adds a seven-foot open rack to hold the QUANTAR units. This is used in place of a cabinet at the customer’s option. ADD: 7.
FIXED NETWORK EQUIPMENT QUANTAR® Data Base Station Equipment Tables 4-17 and 4-18 list the hardware and surge protection accessories for the QUANTAR DBS. Table 4-17. Hardware Accessories for QUANTAR DBS COF DESCRIPTION ACCESS. NUMBER DESCRIPTION DC-POWER MODEM (DOMESTICS) DLN1085 Adds a stand-alone 12V DC modem and is configured to run 14.4 kbps for the RD-LAP 19.2 RF protocol, and configured to run at 7.2 kbps for the RD-LAP 9.6 protocol.
MIDDLEWARE MWCS II 4.2 Middleware Middleware is software that interfaces applications to underlying network protocols, thereby, facilitating mobile application software development. Middleware usually provides value-added services, such as data compression and encryption. 4.2.1 MWCS II MWCS II is an Network Device Interface Specification (NDIS) compliant communication device driver, and is also referred to as middleware, for use with Microsoft® Windows® 95 or Windows 98 operating system.
MIDDLEWARE MWCS II radio modem. The soft power-off feature can be enabled or disabled by the customer’s administrator. MWCS II works in conjunction with the WNG at the FNE end of the system.
MIDDLEWARE MWCS II actual installation when a large number of units are involved. T6225 requires either the Z800AC (U.S.) or the Z11AB (international) option. 4.2.1.2 MWCS II Required Option Z11AA • ENH: MWCSII LICENSE-INTL Adds the MWCS II license for each device with a new WNG shipped internationally. Up to 999 maximum can be ordered by line item. Z11AA is ordered with T5915 or the WNG T5814.
MOBILE EQUIPMENT Vehicular Radio Modem 500 4.3 Mobile Equipment Modems certified for Private DataTAC 2.0.3 use an enhanced roaming algorithm to reduce channel reacquisition time. Modems in this release also are enhanced to support FullVision INM performance monitoring and RD-LAP rate agility. This section describes the models, options and accessories for the VRM-500, VRM 650, VRM 660, Mobile Workstation 300, Mobile Workstation 350, and the Mobile Workstation 520™ (MW-520).
MOBILE EQUIPMENT Vehicular Radio Modem 500 See MCS 2000 sales literature for more information. 4.3.1.1 Options for VRM-500 Tables 4-19 and 4-20 list the hardware and software options for the VRM-500. Table 4-19. Hardware Option for VRM-500 OPTION NUMBER COF DESCRIPTION ADD: CABLE, MCS 2000 INTERFACE J455 DESCRIPTION Adds a 3-foot cable (FKN4482). The modem side is a Hirose 13-pin female connector and the MCS 2000 side is a 25-pin female accessory connector. Must be ordered for use with the MCS 2000.
MOBILE EQUIPMENT Vehicular Radio Modem 650 4.3.1.3 Options for MCS 2000® Table 4-22 lists the options for MCS 2000 which are used with the VRM-500. 4.3.1.3.1 MCS 2000 H44 is a Private DataTAC data capability option for the MCS 2000 mobile and is available on enhanced radio packages, models II and III only. The H44 option is compatible with conventional, SmartNet® and SmartZone® System Software Package options. Table 4-22 shows the data software option for the MCS 2000. Table 4-22.
MOBILE EQUIPMENT Vehicular Radio Modem 650 F3454 • VRM650 806-824MH 15-35W F3454 is a data-only mobile packet radio modem with built-in 806-824 MHz (transmit frequency) 15-35 watt two-way radio for use on private radio channels. The device provides connectivity between vehicle mounted data terminals, workstations, or notebook computers and the system’s host computer, through Motorola’s Private DataTAC radio data network.
MOBILE EQUIPMENT Vehicular Radio Modem 660 Table 4-24. Hardware Accessories for VRM 650 (Continued) COF DESCRIPTION ACCESS. NUMBER DESCRIPTION CABLE, 14IN DB9 M-F DTE FKN4520 Adds a 14-inch DB-9 M-F cable that collocates the MW-520 with the VRM. CABLE, TRIMBLE GPS DB9, 20FT FKN4548 Adds a 20-foot DB-9 M-F cable that connects the VRM to the Trimble receiver. KEY LOCK MOUNTING KIT HLN6372 Keylock mount for dash or remote mount. 4.3.
MOBILE EQUIPMENT Vehicular Radio Modem 660 Table 4-25 lists the software options for VRM 660. Table 4-25. Software Options for VRM 660 COF DESCRIPTION OPTION NUMBER DESCRIPTION ENH: RD-LAP PROTOCOL 9.6 KBPS V470 Adds the RD-LAP 9.6 kbps software driver and is loaded into the VRM 660. For use with 12.5 kHz channel spacing. ENH: RD-LAP PROTOCOL 19.2 KBPS V500 Adds the RD-LAP 19.2 kbps software driver and is loaded into the VRM 660. For use with 25 kHz channel spacing. 4.3.3.
MOBILE EQUIPMENT Mobile Workstation 300 (MW 300) and Mobile Workstation 350 (MW 350) 4.3.4 Mobile Workstation 300 (MW 300) and Mobile Workstation 350 (MW 350) The MW 300 and MW 350 are mid-tier mobile workstations designed to support a variety of Windows CE-based applications.
MOBILE EQUIPMENT Mobile Workstation 300 (MW 300) and Mobile Workstation 350 (MW 350) F5032 - MW 350, COLOR DISPLAY, 16MB FLASH The F5032 is a mobile workstation offering a 5.7-inch 1/4-VGA (240 by 320 pixels) color LCD 350 nit backlit display with optional touch screen. Comes with MW 300/MW 350 Owner’s Manual. 4.3.4.1 Software Options for the MW 300 and MW 350 Table 4-27 shows the software options for the MW 300 and MW 350. . Table 4-27.
MOBILE EQUIPMENT Mobile Workstation 520 (MW-520) 4.3.5 Mobile Workstation 520 (MW-520) The MW-520 was specifically designed for computing and communications in a mobile environment, while offering the power of a desktop computer. The MW-520 basic package includes: • Intel® Pentium® processor • Integral PCMCIA slots (2 Type II or 1 Type III) • 10.
MOBILE EQUIPMENT Mobile Workstation 520 (MW-520) The rear panel on both MW-520 models, except where noted, comes equipped with the following: • Six DB connectors consisting of — Two male DB-9 COM ports (COM1 and COM2) — One female DB-9 keyboard connector for keyboard — One DB-15 AUX port connector — One-DB-44 female connector for the Liquid Crystal Display (LCD) — One DB-25 female connector for the parallel printer port — GPS antenna port • Mini-UHF antenna connector (F5201 model only) • Two audio jacks (
MOBILE EQUIPMENT Mobile Workstation 520 (MW-520) 4.3.5.1 Options for MW-520 Tables 4-30 and 4-31 list the options for the hardware and the software for MW-520. Table 4-30. Hardware Options for MW-520 COF DESCRIPTION OPTION NUMBER DESCRIPTION ADD: 9.6FT (3.2) DISPLCPU CBL V75 Adds a nine-and-a-half foot cable for connecting the display monitor to the MW-520. ADD: 35W 800MHZ P.
MOBILE EQUIPMENT Mobile Workstation 520 (MW-520) Table 4-31. Software Options for MW-520 COF DESCRIPTION OPTION NUMBER DESCRIPTION ENH: RD-LAP 9.6 MW520 800 MHZ V470 Adds the RD-LAP 9.6 kbps software driver (806-824 MHZ) and is loaded into the MW-520. For use with 12.5 kHz channel spacing. ENH: DOS 6.22 & WIN 3.11 OS V492 Adds Microsoft DOS 6.22 and Windows 3.11 OS, PCMCIA drivers, and system software. ENH: RD-LAP 19.2 MW-520 800 MHZ V500 Adds RD-LAP 19.
MOBILE EQUIPMENT Mobile Workstation 520 (MW-520) 4.3.5.2 Accessories for MW-520 Table 4-32 shows the hardware accessory descriptions for the MW-520. Table 4-32. Hardware Accessories for MW-520 COF DESCRIPTION ACCESS. NUMBER DESCRIPTION COLOR DISPLAY 10.4, VGA, 350 NIT FLN2946 Adds 350 NIT display. RETROFIT H.D TO 3D FLN9560 Adds retrofit. KEYBOARD, BRACKET FLN9674 Offers customer extra keyboard bracket. MW-520 MOUNTING ASSEMBLY RLN4929 Adds mounting assembly for the 1000 NIT display.
PORTABLE EQUIPMENT Portable Radio Modem 660 4.4 Portable Equipment This section covers the portable radio modem (PRM) 660. Private DataTAC portable configurations include field computers that can be vehicle-mounted and connected to a radio modem. A portable computer can connect to a radio modem to communicate with a host network. The system designer can choose the notebook with the portable radio modem (PRM) 660 for portability: 4.4.
PORTABLE EQUIPMENT Portable Radio Modem 660 The PRM 660 requires RD-LAP 19.2 kbps RF protocol (V500) or RD-LAP 9.6 kbps RF protocol (V470) to be specified at the time of order. Data terminal to modem cables are available as accessories. The battery supplied is uncharged. Follow slow-charge instructions before first time usage. These instructions are found in the PRM 660 Portable Radio Modem for Private DataTAC Networks Owner’s and Installation Manual. 4.4.1.
PORTABLE EQUIPMENT Portable Radio Modem 660 4.4.1.2 Accessories for PRM 660 Table 4-35 lists the accessories for the PRM 660 and equivalent option numbers, if applicable. Table 4-35. Hardware Accessories for PRM 660 COF DESCRIPTION ACCESS. NUMBER DESCRIPTION CABLE, 3FT RJ45TO DB9-F FKN4088 Adds a 3-foot RS-232 serial cable with a DB-9 female connection on one end, and an 8-pin connector (RJ-45) at the other end.
GLOBAL POSITIONING SYSTEM RECEIVER Portable Radio Modem 660 4.5 Global Positioning System Receiver The GPS receiver can be connected to the AUX port of a VRM-500 or VRM 650 modem that includes the GPS interface option (Z167), as part of a legacy AVL solution only. Concurrent Private DataTAC 2.0 value-added services are not supported by the modem or any device connected to the DTE port of the same modem.
NETWORK EQUIPMENT Accessories for GPS 4.5.1 Accessories for GPS Table 4-36 lists the accessories for the GPS. Table 4-36. Hardware Accessories for GPS COF DESCRIPTION ACCESS. NUMBER DESCRIPTION TRMBLE FOG, BLKHD ANTENNA CBL CDN6277 Adds an 18-foot antenna cable that links the antenna to the receiver processing unit. TRMBLE PLCR GPS 400 INTR CBL CDN6278 Adds a DB-9 M-F 3-foot cable used to connect the GPS to the computer used for programming or testing.
NETWORK EQUIPMENT Accessories for GPS Table 4-37. Cables, Hubs, and Switches (Continued) COF DESCRIPTION ACCESS. NUMBER DESCRIPTION SUPERSTACK II 12 PORT CDN6392 A stackable ethernet hub equipped with 12 RJ-45 10BaseT ports and extend from a basic hub for unmanaged workgroups to a segmentable hub with full remote monitoring (RMON) support, web-based management, advanced load balancing, SNMP management, security and resilient links. For use in shared ethernet networks with FullVision INM.
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Chapter 5 Site Planning Data Table 5-1 lists the electrical specifications and dimensions of products presented in this manual. Table 5-1. Electrical Specifications and Dimensions of Equipment Elec. Input Volt. Elec. Freq. HZ Elec. Input Amps Elec. Input Watts BTUs Ht. in./cm Wdth. in./cm Length in./cm Wt. lbs/kg L1960 115/230 VAC 60/50 6.1 700 775 21/53.2 19/48.2 13.5/34.3 60/27.3 COMSPHERE 3810Plus Desktop L3186 110 VAC 60/50 - 8W w/ speaker off 9W on 27.3 w/ speaker off 2.1/5.
Table 5-1. Electrical Specifications and Dimensions of Equipment Elec. Input Volt. Elec. Freq. HZ Elec. Input Amps Elec. Input Watts BTUs Ht. in./cm Wdth. in./cm Length in./cm Wt. lbs/kg F2054 13.6 VDC — 180 mA 2.5 — 5/12.7 1.1/2.8 4.7/11.9 1.1/5 VRM 650 F3454 F3455 13.8 VDC — 6.5 13.5 1.85/4.7 1.97/5 6.61/16.8 6.61/16.8 7.68/19.5 8.47/21.5 3.8/1.57 3.10/1.65 VRM 660 F2168 10.616.6 VDC DC 200 mA max. 2.76 2.1/5.3 3.5/8.8 5.3/13.5 1.7/.
Chapter 6 Service Information This chapter contains three separate sections to support servicing the products in this document. The first section provides a listing by product of service documentation and service aids. The second section provides interconnect charts with cable installation information. The third section is a chart of test equipment by product. 6.1 Software, Documentation, and Accessories This section provides a listing by product of service documentation and service aids.
SOFTWARE, DOCUMENTATION, AND ACCESSORIES Vehicular Radio Modem 500 (VRM-500) Equipment Model Number Document Number/ Part Number Cable, 6-foot DB9 M-F (PC running RSS) F2054 0180358A25 Radio Service Software and VRM 500 Vehicular Radio Modem Radio Service Software User’s Guide F2054 RVN4133 MCS 2000 Mobile Radio Service Instructions F2054 68P81080C43 VRM 500 Vehicular Radio Modem Radio Service Software User’s Guide F2054 68P02946C95 Equipment Model Number Document Number/ Part Number Cable,
SOFTWARE, DOCUMENTATION, AND ACCESSORIES Mobile Workstation 300 (MW 300)/Mobile Workstation 350 (MW 350) Equipment Model Number Document Number/ Part Number Cable, 6-foot DB9 M-F (PC running RSS) F2168 0180358A25 Radio Service Software and VRM 660 Vehicular Radio Modem, PRM 660 Portable Radio Modem, Mobile Workstation 520, RPM 500 Radio Packet Modem, Radio Service Software User’s Guide F2168 RVN4146 VRM 660 Vehicular Radio Modem Radio Service Software User’s Guide F2168 68P02951C15 Equipment Mod
SOFTWARE, DOCUMENTATION, AND ACCESSORIES Global Positioning System (GPS) Equipment Model Number Document Number/ Part Number Private DataTAC 1.
SOFTWARE, DOCUMENTATION, AND ACCESSORIES The documents referenced in this manual can be obtained from the following source: Accessories and Aftermarket Division Motorola Centralized Customer Service 1313 E.
CABLE INSTALLATION INFORMATION Radio Network Controller 3000 6.2 Cable Installation Information This section describes the cabling information for the products described in this document. 6.2.1 Radio Network Controller 3000 This section covers the cabling and accessories for the RNC3000.
CABLE INSTALLATION INFORMATION Wireless Network Gateway™ 6.2.2 Wireless Network Gateway™ This section covers the cabling and accessories for the WNG.
CABLE INSTALLATION INFORMATION FullVision® Integrated Network Manager 6.2.3 FullVision® Integrated Network Manager This section covers the cabling and accessories for FullVision INM.
CABLE INSTALLATION INFORMATION QUANTAR® Data Base Station 6.2.4 QUANTAR® Data Base Station This section covers the cabling and accessories for the QUANTAR DBS. QUANTAR Data Base Station Extension Connector Listings Jack Number & Equipment Style RSS Port (SCM Front Panel) DB9-F D-Conn. C (Conn. #15) Modem F (Conn. #24) (Battery Temperature Sensor) E (Conn. #25) (Battery Charger Output) Cable Accessories Jack Number and Style Type of Equipment Used — 3080369E31 DB9 (M-F) DB9(M) D-Conn.
CABLE INSTALLATION INFORMATION Vehicular Radio Modem 500 6.2.5 Vehicular Radio Modem 500 This section covers cabling and accessories for the VRM-500. Vehicular Radio Modem 500 (VRM-500) Extension Connector Listings Jack Number & Equipment Style Cable Option — — — DTE DB9-F D-Conn. — — 6-10 Cable Accessories FKN4520/14IN. (M-F) FKN4369/10FT. (M-F) FKN4367/20FT. (M-F) FKN4368/10FT. (M-M) FKN4376/20FT. (M-M) — FKN4174/20FT.
CABLE INSTALLATION INFORMATION Vehicular Radio Modem 650 6.2.6 Vehicular Radio Modem 650 This section covers the cabling and accessories for the VRM 650. Vehicular Radio Modem 650 (VRM 650) Extension Connector Listings Jack Number & Equipment Style Jack Number and Style Type of Equipment Used FKN4520/14IN. (M-F) COM1/ DB9(M) D-Conn. MW-520 FKN4367/20FT. (M-F) COM2/ DB9(M) Cable Option Cable Accessories — — - — 01-80358A25 6 FT. DB9 (M-F) D-Conn DTE — FKN4174/20FT.
CABLE INSTALLATION INFORMATION Vehicular Radio Modem 660 6.2.7 Vehicular Radio Modem 660 This section covers the cabling and accessories for the VRM 660. Vehicular Radio Modem 660 (VRM 660) Extension Connector Listings Jack Number & Equipment Style Jack Number and Style Type of Equipment Used FKN4520/14IN. (M-F) COM1/ DB9(M) D-Conn. MW-520 — FKN4367/20FT. (M-F) COM2/ DB9(M) — FKN4369/10FT. (M-F) D-Conn — FKN4174/20FT. (M-F) (Use AMP #745255-2 or 745779-2 connectors only.) — FKN4368/10FT.
CABLE INSTALLATION INFORMATION Mobile Workstation 520 6.2.8 Mobile Workstation 520 This section covers the cabling and accessories for the MW-520. Mobile Workstation 520 (MW-520) Extension Connector Listings Jack Number & Equipment Style Cable Option Cable Accessories Jack Number and Style Type of Equipment Used Parallel J1-DB25-F Conn — Power Connector 2-Pin Conn.
CABLE INSTALLATION INFORMATION Portable Radio Modem 660 6.2.9 Portable Radio Modem 660 This section covers the cabling and accessories for the VRM 660. Portable Radio Modem 660 (PRM 660) Extension Connector Listings Jack Number & Equipment Style Cable Option Ext. Antenna Conn. J1 SMB FKN4399/ 2880376E84 Mini UHF Conn Antenna V327 Battery Charger & Cond. (FLN6795A) Wall Outlet 110V AC V349 Battery Charger & Cond. (FLN8479A) Wall Outlet 220V AC V466 Battery Charger & Cond.
CABLE INSTALLATION INFORMATION Global Positioning System 6.2.10 Global Positioning System This section covers the cabling and accessories for the GPS. Global Positioning System (GPS) Extension Connector Listings Jack Number & Equipment Style Cable Option Cable Accessories Jack Number and Style Type of Equipment Used ANT SMB PushOn Conn.-M — CDN6277 (M-F) SMA Conn.-F Antenna PORT 1 DB-F — FKN4369/10FT.
TEST EQUIPMENT INFORMATION Global Positioning System 6.3 Test Equipment Information You need to contact the Mobile Data Customer Solutions Engineering in the section, “page -xxv,”Using This Manual,” for assistance. The equipment listed below is required to service each product in the column headers. Test Equipment Chart Test Equip. Model No. or Equiv.
TEST EQUIPMENT INFORMATION Global Positioning System Test Equipment Chart Test Equip. Model No. or Equiv.
TEST EQUIPMENT INFORMATION Global Positioning System 6-18 800 MHz System Planner R4-11-4G
Glossary Numerics 10BaseT: A variant of ethernet which allows stations to be attached via twisted-pair cable. A A/B Switch: A hardware switch used to switch the modem lines from the Data Base Stations to the master RNC. In a warm standby configuration, two RNCs (master and standby) are connected via ethernet, and in parallel to the DBSs through an A/B Switch. algorithm: A mathematics rule for procedure for solving a problem. American National Standards Institute: (ANSI) A U.S.
B Base Station: (BS) See Data Base Station. Base Station Controller: (BSC) Hardware and software logic that controls the communication functions of the radio portion of a base station. (The DBS product integrates a BSC within the QUANTAR® base station platform.) C Carrier Sense Multiple Access/Collision Detection: (CSMA/CD) A method for handling contention on shared media.
Customer Order Fulfillment: (COF) Motorola’s computer electronic ordering system that allows for entry of extensive customer and equipment information direct from sales and engineering field personnel, and leads to fast, high-quality customer orders. The system allows you to place orders, check on orders, shipping dates, etc. D Data Base Station: (DBS) A fixed radio frequency transceiver used in wireless data communications.
Electronics Industries Association: (EIA) A U.S. national standards organization composed of members from the electronics industry. In the context of data and computer communications, it has produced a range of interface standards for connecting peripherals to a computer. It is a member of American National Standards Institute and, through them, the International Organization for Standardization.
Graphical User Interface: (GUI) A computer interface that permits users to directly manipulate objects displayed on the monitor as the primary means of interaction. Using a pointing device, the screen objects can be modified and controlled. H High-level Data Link Control: (HDLC) A protocol used between the DBS and the RNC. Hertz: (Hz) A unit of frequency of a periodic process equal to one cycle per second. I Inbound: (IB) The transmission direction from a user device to a host application.
International Telecommunications Union: (ITU) Formerly known as CCITT, the primary international standards organization for wired public telecommunications networks. International Telecommunications UnionTelecommunications Standardization Sector: (ITU-T) Formerly known as CCITT, the primary international standards organization for wired public telecommunications networks. Also called ITU-TSS.
Local Area Network: (LAN) A privately owned and administered network for data communications. Provides a relatively high bandwidth over a limited geographical area for communication between the attached devices (typically personal computers and servers). Logical Identifier: (LID) A four-byte address used to uniquely identify a mobile device in an RF network. Logical Link Control: (LLC) The upper portion of the datalink layer, as defined in IEEE 802.2.
O ohm: The unit of resistance of the International System of Units (S1). The ohm is the resistance of a conductor such that a constant current of one ampere in it produces a voltage of one volt between its ends. Open Systems Interconnect: (OSI) A seven-layer data communication protocol model that specifies standard interfaces that all vendors can adapt to their own designs. Outbound: (OB) The transmission direction from a host application to a user device.
R Radio Data-Link Access Procedure: (RD-LAP) An RF protocol used for communication between user devices and the DBSs. RD-LAP provides a raw data transfer rate of 19.2 kbps on 25 kHz radio channels and 9.6 kbps on 12.5-kHz radio channels. Radio Frequency: (RF) Refers to the electromagnetic energy wavelengths between the audio and light range frequencies (usually somewhere between 10 kHz and 300 gHz).
SMA: A sub-miniature threaded coupling interface. Small Computer Systems Interface: (SCSI) A disk-drive to diskcontroller interface standard. It is typically used on workstations, but is available for PCs. It is often pronounced scuzzy. Statement Of Work: (SOW) Created after the equipment list is completed. This provides the customer with a complete description of what Motorola will be responsible for. Static Random Access Memory: (SRAM) A form of semi-conductor memory.
V Vehicular Radio Modem: (VRM) A VRM is used with a separate mobile radio or integrated with a mobile radio into a single unit. VersaModule, European: (VME) A flexible open-ended bus system which makes use of the Eurocard (circuit boards). VME was introduced in 1981 by Motorola and three other companies. W Wide Area Network: (WAN) A computer or communications network that covers a geographic area which is larger than a city or metropolitan area.
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Index D A application analysis, 2-12 application software, 2-7 host/server computer, 2-8 mobile, 2-8 audience field engineering, xxv sales personnel, xxv decision charts understanding the, 3-1, 3-2 documentation System reference, xix E ethernet, 1-19, 6-6 12 port non-SNMP, 3-4 SNMP, 3-4 24 port non-SNMP, 3-4 SNMP, 3-4 cables, 3-4, 4-42, 4-43 connectivity, 3-4 B box-to-box compatibility, 3-14 business case, 2-3 C cables 10BaseT, 4-13, 4-16, 4-42 non-SNMP, 3-4 SNMP, 3-4 connectivity, 3-4, 3-5 capacity hos
accessories cables, 4-42 box-to-box compatibility, 3-17 cabling information, 6-15 documentation reference, xxiii service, 6-1, 6-2, 6-3 flow chart, 3-3 models L3073, 4-41 service test equipment, 6-16 service test equipment, 6-16 specifications, 5-2 MWCS II documentation reference, xx service, 6-1 option, 4-12, 4-24 T5915, 4-23 User License, 4-24 P Private DataTAC Architectural Design, 2-15 See also Chapter 6 Functional Design, 2-14 See also Chapter 6 Performance Design, 2-17 See also Chapter 8 PRM 660 acce
service test equipment, 6-16 specifications, 5-2 VRM 660 box-to-box compatibility, 3-13 cabling information, 6-12 documentation reference, xxii service, 6-2, 6-3 flow chart, 3-3 models F2168, 4-29 specifications, 5-2 VRM-500 accessories cables, 4-26, 4-29, 4-30 box-to-box compatibility, 3-11 cabling information, 6-10 channel spacing 12.5 kHz, 3-11 25 kHz, 3-11 documentation reference, xxi service, 6-2 models F2054, 4-25 protocols 19.2 kbps, 3-11 9.
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1301 E.
