DOCSLIB.ORG

Axell Wireless Active Catalog

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Axell Wireless Active Catalog Leading provider of RF coverage solutions U.S. Catalog – Active Equipment Axell Wireless is a leading developer and supplier of high-quality RF coverage solutions designed to maximize wireless network coverage in difficult RF environments and complex settings. The company specializes in extending RF radio coverage to rural areas, office buildings, subways, tunnels and shadowed areas. The Axell Wireless coverage solution supports all major mobile technologies and standards for Cellular, PCS, 700 LTE, AWS, VHF, UHF, LMR, ESMR and TETRA For more information, visit www.axellwireless.com OUR SOLUTIONS MODEL endless… seamless… wireless… for all types of environments for a wide range of technologies for all major coverage applications Page 2 of 56 www.axellwireless.com Issue 8 – April 2011 The active equipment is divided into three main sub-categories: Public Safety Off-Air (FM/AM, VHF, UHF, 700, 800) Commercial Off-Air (700 LTE, 850 Cellular, 1700 AWS, 1900 PCS) Fiber Fed (Public Safety and Commercial) Contents About Axell Wireless Page 4 Bi-Directional Amplifiers for Public Safety Page 5 CSR238 - VHF Digital Channel Selective Repeater Page 8 CSR438A - UHF Digital Channel Selective Repeater Page 10 BSR421 - Compact UHF Band Selective Repeater Page 12 BSR438 - Digital Band Selective Repeater Page 14 CSFT438 - Digital Frequency Shifting Repeater Page 16 Axell 3178B - 700/800 MHz RF Mid-Power Bi-directional Amplifier Page 18 Axell 4078D - 700/800 MHz Digital Multi-Channel RF Signal Booster Page 20 Axell 2108S - 800 MHz RF Mini Repeater Page 22 Axell 2408S - 800 MHz LMR RF Mini Signal Booster Page 24 Axell 3108S - 800 MHz RF Mid-Power Repeater Page 26 Axell 4008D - 800 MHz Digital Multi -Channel RF Signal Booster Page 28 Axell D-SBR 700 - Digital Channel Selective Repeater for LTE - 700MHz Page 30 Axell 2408 - 800 MHz Cellular Band Selective RF Mini Repeater Page 32 Axell 819 - 800MHz and 1900MHz Dual-Band RF Repeater Page 34 Axell 2117 - AWS Channel Selective RF Mini Repeater Page 36 Axell 2119 - 1900MHz Band Selective RF Mini Repeater Page 38 DIGI-mini - Americas Digital Multi-Band Mini Repeater Page 40 D-MBR - Digital Multi-Band Repeater Page 44 OMU - Optical Master Unit Page 44 BSF424 - UHF Fiber Fed Repeater Page 46 SMR 700/SMR 800 - Fiber-Fed Radio Head - High Power for Public Safety Page 48 850/1900/AWS/LTE700 - Fiber-Fed Radio Head - High Power Page 50 RMC and AEM - Network Management and Control Page 52 Some recent projects undertaken in the United States Page 54 Contact Details Page 55 Issue 8 – April 2011 www.axellwireless.com Page 3 of 56 About Axell Wireless Axell Wireless is a leading worldwide developer and manufacturer of wireless coverage equipment and associated solutions. Today, the company is one of the top 3 global providers of wireless coverage solutions and the market leader in the provision of solutions for the public safety market. Applications for Axell Wireless equipment include coverage solutions for road and railway tunnels, in buildings and infrastructures, remote or rural environments, airports and transportation systems. With its headquarters in the UK, Axell Wireless has been operating for over 30 years and now has a substantial international presence operating out of 10 offices across 4 continents. A proven track record combined with a worldwide reputation for providing innovative and high quality products have made Axell Wireless a truly global player in the wireless coverage industry. AXELL WIRELESS LMR AND MISSION CRITICAL SOLUTIONS Axell Wireless offers a comprehensive portfolio of enhanced coverage solutions for the LMR and public safety markets. Based on RF-SAW filtering, patented DSP filtering™, Axell Wireless’ proven, indoor and outdoor solutions solve a wide range of network issues including interference and oscillation problems, challenging coverage holes, rapid response deployment and inadequate in-building coverage. Regardless of the technology or frequency, Axell Wireless can provide customized coverage solutions that address any combination of unique and complex network needs for the LMR and public safety user. AXELL WIRELESS CARRIER SOLUTIONS Axell Wireless offers a comprehensive portfolio of enhanced coverage solutions for the wireless carrier market. Based on IF-SAW filtering, patented DSP filtering™ and SmartALC™ technologies, Axell Wireless’ proven, indoor and outdoor solutions solve a wide range of network issues including interference and oscillation problems, challenging coverage holes, inadequate in-building coverage and cell extension from the smallest structures to the largest venues . Regardless of the technology or frequency, Axell Wireless can provide customized coverage solutions that address any combination of unique and complex network needs for the wireless carrier. Page 4 of 56 www.axellwireless.com Issue 8 – April 2011 FIRST RESPONDERS have to be sure Flexible On-Frequency Bi-Directional Amplifiers Frequency Range 60MHz to 3GHz Band Selective or Channel Selective Software Defined Radio DSP Flexible Modular Design 1 to 100 Watt Class “A” Amplifiers Simplex or Duplex Design 30dB to 110dB Gain IP65 Enclosures RF Design Services On-Site Commissioning Axell Wireless are acknowledged leaders in the design and supply of cost effective wireless coverage solutions world-wide, extending single or multiple radio networks throughout buildings, tunnels etc. for analogue and digital essential services. The Axell Wireless range of equipment includes Band and Channel Selective BDAs, Filtering and Multicoupling systems utilizing state-of-the-art RF Digital Signal Processing techniques to enhance radio coverage and to enable more efficient use of radio spectrum allocations, helping to overcome the physical limitations of antenna base-station sites. All key Public Safety bands from VHF to 900MHz and P25 are covered. DELIVERING WORLD CLASS COMMUNICATIONS SOLUTIONS FOR OVER 30 YEARS Call 972 361 8038 or email [email protected] Issue 8 – April 2011 www.axellwireless.com Page 5 of 56 Public Safety Off-Air CUSTOMIZABLE SOLUTIONS FOR PUBLIC SAFETY BDA – Bi-Directional Amplifiers Two-Way On-Frequency Repeaters Multi-band and frequency agile Many carriers at low power Automatic gain control is fitted to protect the system against operational saturation caused by close mobile working Available in 19” rack-mount configuration or IP65 wall-mount enclosure. Axell Wireless Custom Built BDAs are two-way on-frequency repeaters which are available to meet the requirements of all public safety bands from VHF to 800MHz and are P25 compliant. They are broadband and can handle large numbers of channels and can also be configured to operate in frequency bands between 30MHz and 2.4GHz. Each BDA is configured for the customer’s specific requirements at the frequencies of interest. Dual or triple pass band versions are available where spectrum allocations are not continuous. The necessary filtering to cover the system bandwidths required is assembled from a wide range of filtering designs encompassing not only traditional analog methods but also the latest Digital Signal Processing (DSP) and Software Defined Radio (SDR) technologies which are being actively develop by Axell Wireless. The use of DSP and SDR technologies helps to deliver better performance and also offers a built-in upgrade path to future-proof capital investment. DOWNLINK LNA LNA PA AGC To Antenna To Antenna PSU ALARMS facing BTS facing Mobiles AGC PA LNA LNA UPLINK Page 6 of 56 www.axellwireless.com Issue 8 – April 2011 Technical Expertise A major factor in the success of Axell Wireless is our reputation for excellence and expertise in the radio communications industry. Our skills and flexibility have enabled us to repeatedly provide innovative solutions quickly and cost-effectively with assured quality. Over the years, we have forged very strong links with: The Federal Communications Committee (FCC). The UK Institution of Engineering and Technology (IET). The European Telecommunications Standards Institute (ETSI). The Tetra Memorandum of Understanding (MOU). Today our product range includes Channel Selective, Band Selective and Optical BDAs, as well as passive components to satisfy the complex needs of the public safety telecommunications networks in a cost effective and fault tolerant manner. Axell’s public safety coverage solutions dramatically simplify installations and significantly reduce a site’s footprint and power consumption. Using Axell’s bespoke network management software tool (AEM) or a web interface, new features and capabilities can be downloaded instantaneously thus providing flexibility and lower costs for deployment and maintenance. Typical custom-build Channelized BDA Issue 8 – April 2011 www.axellwireless.com Page 7 of 56 Public Safety Off-Air MISSION CRITICAL SOLUTIONS CSR238 VHF DIGITAL CHANNEL SELECTIVE REPEATER Large repeater coverage footprint due to high output power and gain Easy system implementation with built-in commissioning tools Time-slot based ALC Supervision available over radio modems Remotely upgradeable for future challenges The CSR238 provides quick, cost-effective and secure radio coverage in any VHF network and can handle up to eight carriers. Through the use of the CSR238 an operator can easily expand a base station’s service area by filling in coverage holes caused by terrain, buildings or tunnels. The wireless interface permits the operator to remotely configure RF parameters as well as monitor alarms on a continuous basis. The CSR238 can also be used to provide coverage in shorter tunnels.
Load more

Recommended publications
  • RF Connector Overview Guide Linx Technologies Offers a Wide Variety of SMA, MCX, MMCX and MHF Radio Frequency Connector and Cable Assemblies
    RF Connector Overview Guide Linx Technologies offers a wide variety of SMA, MCX, MMCX and MHF radio frequency connector and cable assemblies. RF connectors and cables consist of miniature precision-machined mechanical components and clever designs with complex assembly which are necessary to minimize losses and reflections. This requires tight tolerances, quality surface finishing and proper choice of metals and insulators. By combining domestic design and quality with offshore connector manufacturing, Linx offers low loss connectors at very competitive prices for OEM customers. – 1 – Revised 9/24/15 SMA Connectors Cable Termination SMA and RP-SMA Connecctors SMA (subminiature version A) connectors are high performance coaxial RF connectors with 50-ohm matching and Connector Body Orientation Mount Style Cable Types Polarity Part Numbers excellent electrical performance up to 18GHz with insertion loss as low as 0.17dB. They also have high mechanical Type Finish RG-174, RG-188A, Standard CONSMA007 strength through their thread coupling. This coupling minimizes reflections and attenuation by ensuring uniform SMA007 Straight Crimp End Plug Nickel RG-316 contact. SMA connectors are among the most popular connector type for OEMs as they offer high durability, low Reverse CONREVSMA007 RG-58/58A/58C, Standard CONSMA007-R58 VSWR and a variety of antenna mating choices. In order to comply with FCC Part 15 requirements for non-standard SMA007-R58 Straight Crimp End Plug Nickel RG-141A Reverse CONREVSMA007-R58 antenna connectors, SMA connectors are
    [Show full text]
  • Guidelines on Mobile Device Forensics
    NIST Special Publication 800-101 Revision 1 Guidelines on Mobile Device Forensics Rick Ayers Sam Brothers Wayne Jansen http://dx.doi.org/10.6028/NIST.SP.800-101r1 NIST Special Publication 800-101 Revision 1 Guidelines on Mobile Device Forensics Rick Ayers Software and Systems Division Information Technology Laboratory Sam Brothers U.S. Customs and Border Protection Department of Homeland Security Springfield, VA Wayne Jansen Booz-Allen-Hamilton McLean, VA http://dx.doi.org/10.6028/NIST.SP. 800-101r1 May 2014 U.S. Department of Commerce Penny Pritzker, Secretary National Institute of Standards and Technology Patrick D. Gallagher, Under Secretary of Commerce for Standards and Technology and Director Authority This publication has been developed by NIST in accordance with its statutory responsibilities under the Federal Information Security Management Act of 2002 (FISMA), 44 U.S.C. § 3541 et seq., Public Law (P.L.) 107-347. NIST is responsible for developing information security standards and guidelines, including minimum requirements for Federal information systems, but such standards and guidelines shall not apply to national security systems without the express approval of appropriate Federal officials exercising policy authority over such systems. This guideline is consistent with the requirements of the Office of Management and Budget (OMB) Circular A-130, Section 8b(3), Securing Agency Information Systems, as analyzed in Circular A- 130, Appendix IV: Analysis of Key Sections. Supplemental information is provided in Circular A- 130, Appendix III, Security of Federal Automated Information Resources. Nothing in this publication should be taken to contradict the standards and guidelines made mandatory and binding on Federal agencies by the Secretary of Commerce under statutory authority.
    [Show full text]
  • RF/Microwave Connectors on Printed Circuit Boards
    High Frequency Design CONNECTORS ON PCBs RF/Microwave Connectors on Printed Circuit Boards By Gary Breed Editorial Director hen mounting This month’s tutorial takes a an RF/micro- look at the practical matter Wwave or high of characterizing, then speed digital connector to installing, an RF connector a printed circuit board, on a printed circuit board the transition from the connector body and inner conductor pin to the printed traces is often the source of excessive mismatch. The discontinu- ity in size, shape and surrounding conductors Figure 1 · Connectors must provide a tran- results in an area with a characteristic sition from a round coaxial transmission line impedance that can be much different (usual- to the planar microstrip or stripline structure ly lower) that the system impedance of 50 of a p.c. board. ohms (RF/microwave) or 75 ohms (data or video). An additional challenge is the transition increases the characteristic impedance in the from the round coaxial structure of cables and area where the required solder pad is much their connectors, to the planar stripline or wider than a normal 75-ohm microstrip line. microstrip structure of signal paths on a p.c. Figure 2 illustrates the problem by showing board. The connector shown in Figure 1 the relative widths of the solder pad and demonstrates one approach to solving the microstrip lines on the top metal layer. Figure problem. The connector body is designed to 3 shows how the top metal and the metal of minimize the VSWR “bump” caused by the the next lower layer are modified to create a change from coaxial to planar transmission region with higher characteristic impedance.
    [Show full text]
  • Migration to 3G Technology Standards: Europe, Japan, South Korea, and the U.S. by Richard Nunno, International Bureau, FCC
    Migration to 3G Technology Standards: Europe, Japan, South Korea, and the U.S. By Richard Nunno, International Bureau, FCC Revised July 21, 2003 For over a decade, the International Telecommunication Union (ITU) has been supporting the international effort to develop an advanced third-generation (3G) mobile telecommunications service that has a higher bandwidth than previous and existing mobile services and that subscribers can seamlessly use across international borders (known as global roaming). To that end, the ITU has identified spectrum and developed technical standards for International Mobile Telecommunications 2000 (IMT-2000), the official name for 3G services. The ITU’s World Administrative Radiocommunication Conference (WARC) in 1992 and World Radiocommunication Conference (WRC) in 2000 identified several bands of spectrum that could be used for 3G services. The mobile telecommunications industry has started delivering 3G services that provide broadband applications including voice, data, and video. As defined by the ITU, 3G signal transmission rates must be able to reach 2 megabits per second (Mbps) or higher for indoor (low mobility) wireless applications (more than 35 times faster than today’s 56 kilobits per second (kbps) dial-up PC modems). 3G rates may be slower (384 kbps) for pedestrian traffic, and 144 kbps for high mobility (vehicular) traffic.1 How each country is implementing 3G systems depends on a number of factors, such as the country’s 3G spectrum allocations, the standards it adopts for 3G (if it adopts any standards vs. letting the marketplace make the decision), and the country’s current mobile telephony system configuration. Because a great deal of information and analysis is already available on the spectrum-related issues surrounding 3G implementation, this report focuses only on the technology standards issues pertaining to 3G.
    [Show full text]
  • Table of Contents
    TABLE OF CONTENTS CHAPTER SUBJECT PAGE 1 Theory of Operation ........................................................................1-1 Line of Sight .............................................................................1-3 Troposcatter ..............................................................................1-4 Diffraction .................................................................................1-5 Fading .......................................................................................1-7 Diversity Reception ..................................................................1-7 Characteristics of AN/TRC-170 (V)2, 3, 5 ...............................1-9 Service Range of the V2, V3 ....................................................1-10 2 AC Power ..........................................................................................2-1 Power Entry Panel Controls & Indicators .................................2-3 Low Voltage Power Supply #1 .................................................2-11 Low Voltage Power Supply #2 .................................................2-12 AC-AC Converter .....................................................................2-14 3 DC POWER ……………………………………………………….3-1 4 TQG Operation ................................................................................4-1 Fault Indicator Panel .................................................................4-6 Generator Switch Over .............................................................4-10 5 Signal Flow .......................................................................................5-1
    [Show full text]
  • Fiscal 2010 Annual Report
    Fiscal 2010 Annual Report A V I E L Electronics Chief Executive Officer’s Letter to Stockholders September 22, 2011 Fellow Stockholders: Fiscal Year 2010, which ended on October 31, 2010, was a year in which RF Industries achieved its eighteenth consecutive year of profitability and rebounded from a sales decline in Fiscal 2009 that was the result of the recession and the industry-wide slowdown in wireless infrastructure spending. The improvements in our operations in 2010, and the strengthening of our balance sheet in Fiscal 2010 enabled us to once again focus on our longer term goals of growth and acquisitions. Despite the general economic uncertainty in 2010, the improvement of RF Industries’ operations in Fiscal 2010 and the strength of its October 31, 2010 balance sheet provided us with the security and comfort to (i) expand our operations to the East Coast through the purchase Cables Unlimited, Inc., our new fiber optics and harness assembly subsidiary that we purchased in June 2011, and (ii) significantly increase the dividends that we are distributing to you stockholders. Fiscal 2010 Results For the fiscal year ended October 31, 2010, sales were $16,322,000, compared to sales of $14,213,000 in fiscal 2009. Operating income was $2,004,000 compared to $906,000 in 2009, and net income after taxes was $1,220,000, or $0.38 per diluted share, compared to net income of $656,000, or $0.20 per diluted share for fiscal 2009. Sales at the RF Connector and Cable Assembly segment, our most profitable business segment, increased 16% to $14,094,000 from $12,154,000 in fiscal 2009.
    [Show full text]
  • RS Enterprises
    +91-8048372651,225 RS Enterprises https://www.indiamart.com/rsenterpriseskannauj/ We “RS Enterprises” are a Sole Proprietorship based firm, engaged as the foremost Wholesaler of Coaxial Cable, BLW98 Transistor, Coaxial Connector, MS Connector, etc. About Us Established in the year 2017 at Kannauj, Uttar Pradesh, We “RS Enterprises” are a Sole Proprietorship based firm, engaged as the foremost Wholesaler of Coaxial Cable, BLW98 Transistor, Coaxial Connector, MS Connector, etc. Our products are high in demand due to their premium quality, seamless finish, different patterns and affordable prices. Furthermore, we ensure to timely deliver these products to our clients, through this we have gained a huge clients base in the market. For more information, please visit https://www.indiamart.com/rsenterpriseskannauj/about-us.html O u r P r o d u c t s E L B A C L A I X A O C Coaxial Cable RG6 Dual Shielded Coaxial Cable RG6 Coaxial Cable RF Coaxial Cable O u r P r o d u c t s R O T S I S N A R T 8 9 W L B BLW98 Transistor 15 AMP 32V/40V FUSABLE RESISTANCE (ALSO AVAILABLE IN DIFFERENT TYPE OF RESISTANCE) Solenoid Valve Model- 30126- ON5040 MOSFET 3-2G-S8 (Fluid control system) TRANSISTOR Make- Rotex O u r P r o d u c t R s O T C E N N O C L A I X A O C N Type Coaxial Connector F Coaxial Connector 75 Ohm F Connector MCX TO SMA Cable Connector O u r P r o d u c t s R O T I C A P A C A C I M 680pf 500v 1% silver dipped MATEL TYPE MICA CAPACITOR mica capacitor Mica Capacitor Mica Capacitor 120NF, 20NF,10NF ( 120000PF,20000PF.10000PF) O u r P r o d
    [Show full text]
  • Wireless E9-1-1 Phase II Stage 2 Feature Analysis ______
    ESRE0049 – Wireless E9-1-1 Phase II Stage 2 Feature Analysis _______________________________________________________________________ Canadian Radio – television and Telecommunications Commission Interconnection Steering Committee Report to the CRTC by the Emergency Services Working Group (ESWG) Wireless E9-1-1 Phase II Stage 2 Feature Analysis Report Number: ESRE0049 August 21, 2009 August 21, 2009 Version 1.03 Page 1 ESRE0049 – Wireless E9-1-1 Phase II Stage 2 Feature Analysis _______________________________________________________________________ Revision History: Version Date Editor Summary of Changes 1.0 July 31, Nancy Initial draft version proposed to the ESWG. 2009 Banks 1.01 August Nancy Initial version proposed to the ESWG. 12, 2009 Banks Roamer Options 2 & 3 added. 1.02 August Nancy Initial version proposed to the ESWG. Final 13, 2009 Banks conclusions completed. 1.03 August Gerry Final updates as reviewed and approved on 20, 2009 Thompson the August 20 ESWG monthly conference for Nancy call. Banks August 21, 2009 Version 1.03 Page 2 ESRE0049 – Wireless E9-1-1 Phase II Stage 2 Feature Analysis _______________________________________________________________________ Table of Contents 1 Background ................................................................................................................. 5 2 Introduction ................................................................................................................. 5 3 ESWG Approach .......................................................................................................
    [Show full text]
  • Variable Capacitors in RF Circuits
    Source: Secrets of RF Circuit Design 1 CHAPTER Introduction to RF electronics Radio-frequency (RF) electronics differ from other electronics because the higher frequencies make some circuit operation a little hard to understand. Stray capacitance and stray inductance afflict these circuits. Stray capacitance is the capacitance that exists between conductors of the circuit, between conductors or components and ground, or between components. Stray inductance is the normal in- ductance of the conductors that connect components, as well as internal component inductances. These stray parameters are not usually important at dc and low ac frequencies, but as the frequency increases, they become a much larger proportion of the total. In some older very high frequency (VHF) TV tuners and VHF communi- cations receiver front ends, the stray capacitances were sufficiently large to tune the circuits, so no actual discrete tuning capacitors were needed. Also, skin effect exists at RF. The term skin effect refers to the fact that ac flows only on the outside portion of the conductor, while dc flows through the entire con- ductor. As frequency increases, skin effect produces a smaller zone of conduction and a correspondingly higher value of ac resistance compared with dc resistance. Another problem with RF circuits is that the signals find it easier to radiate both from the circuit and within the circuit. Thus, coupling effects between elements of the circuit, between the circuit and its environment, and from the environment to the circuit become a lot more critical at RF. Interference and other strange effects are found at RF that are missing in dc circuits and are negligible in most low- frequency ac circuits.
    [Show full text]
  • The Spectrum Policy Dictionary
    The GSMA spectrum primer series The spectrum policy dictionary 1 2 The spectrum policy dictionary These handbooks provide a general introduction to mobile spectrum, how it is managed and the challenge posed by rapidly growing data usage. They have been designed for readers who don’t have a technical background in the subject. While this is only a very brief introduction to the subject, these handbooks should hopefully provide a useful overview. 4 The titles in this series are: Introducing radio spectrum Introducing spectrum management Managing spectrum for growing data The spectrum policy dictionary 5 1G The first generation of ‘cellular’ mobile phone systems used in the late 1970s until the early 1990s. These analogue-based systems were replaced by 2G digital mobile systems - most notably GSM. Examples include AMPS (Advanced Mobile Phone System), NMTS (Nordic Telecommunication System) and TACS (Total Access Communications). 2G The second generation of ‘cellular’ mobile phone systems which appeared in the 1990s were the first to employ digital coding. The vast majority of 2G mobile networks around the world use GSM technology. However, there are other 2G systems including D-AMPs, PDC, iDEN and most notably cdmaOne which continues to be used by some operators around the world. 2.5G see GPRS 2.75G see EDGE 3G The third generation of ‘cellular’ mobile phone systems were the first to be designed from the outset to support high speed data services as well as voice. The most dominant system used is WCDMA which was deployed by the operators which previously used GSM. However, other systems are used including CDMA2000 (largely by operators that previously used cdmaOne) and the Chinese system TD-SCDMA.
    [Show full text]
  • Nextel History Page 1 of 3
    Nextel History Page 1 of 3 ABOUT NEXTEL ........................................... NEXTEL HISTORY >Corporate Overview ........................................... > Executive Team Get the latest on our wireless innovation or take a .................................... look at past events. > History 2003 See what we've done in 2004: 2002 1999-2001 1987-1998 December 2004 ............................. Sprint and Nextel announce that their boards of directors have Corporate Governance ................................. unanimously approved a definitive agreement for a merger of equals. 5 Inclusion and Diversity ~ .................................... Nextel's youth iifesye brand, Boost Mobile. signs up its one-millionth I > Community Outreach customer. Nextel offers Direct Taikm, a unique service that provides a back-up off- network walkie-talkie service for use when customers are outside Nextel network coverage areas. Nextel is the first national carrier to offer this type of off-network Service integrated directly into a cellular handset. November 2004 Nextel achieves a perfed Swre on the Washington Posts annual cellular phone service test for the Second year in a row, surpassing all other wireless carriers. in its first year as the title sponsor of racing's premier series, the NASCAR NEXTEL Cup Series", Nextel is honored with the 2004 Horizon Award for Best Sports Business Integrated Marketing Pian. October 2004 Nextel and Trimblejoin forces to offer heonly outdoor recreation produd that uses mobile phones for navigation and trip planning. Nextel announces the availability of the Motorola i860. the first phone with a built-in camera to offer Nextel's premier walkie-talkie services. September 2004 Nextel. in partnership with NASCAR, unveils the first NASCAR NEXTEL Cup Trophy, which will be awarded to the 2004 NASCAR NEXTEL Cup Series" champion.
    [Show full text]
  • Agilent RF and Microwave Switch Selection Guide
    Agilent RF and Microwave Switch Selection Guide Agilent Technologies — Your one-stop switching solution provider Key Features • High reliability and exceptional repeatability ensure excellent measurement accuracy • Excellent RF specifi cations optimize your test system measurement capability • Broad selection of switches provides confi guration fl exibility for various applications Agilent RF and Microwave Switches Agilent has been a leading designer and manufacturer of RF and microwave Agilent RF and microwave switches in the global marketplace for more than 60 years. RF and microwave switches provide: switches are used extensively in microwave test systems for signal routing between instruments and devices under test (DUT). Incorporating a switch into • Superior RF performance to a switch matrix system enables you to route signals from multiple instruments optimize test equipment to single or multiple DUTs. This allows multiple tests to be performed with the performance same setup, eliminating the need for frequent connects and disconnects. The • Unmatched quality and reliability entire testing process can thus be automated, increasing the throughput in to minimize measurement high-volume production environments. uncertainty Agilent designs and manufacturers a comprehensive range of RF and microwave • Ultra broadband to meet the switches to meet your switching requirements. There are two mainstream demands of today’s devices switch technologies in use today: solid state and electromechanical. Agilent’s solid state and electromechanical switches operate across a broad frequency range and come in a variety of confi gurations. Designed with high accuracy and repeatability for automated test and measurement, signal monitoring and routing applications, Agilent switches have a proven track record for high performance, quality and reliability.
    [Show full text]