w w w . a d c . c o m • + 1 - 9 5 2 - 9 3 8 - 8 0 8 0 • 1 - 8 0 0 - 3 6 6 - 3 8 9 1 Spec Sheet Digivance ® Long-Range Coverage Solution 800, 1900 and Dual-Band 800/1900 MHz Systems Digivance ® – ADC’s Digital Advantage for Improving Wireless Capacity, Coverage and Customer Retention ADC, a leading solution provider for distributing and enhancing wireless capacity and coverage, offers the Digivance ® Long-Range Coverage Solution (LRCS). The LRCS improves wireless networks by extending seamless wireless coverage from existing cell sites to hard-to-reach areas or distributing capacity from centralized radio suites. As part of the Digivance family of digital radio frequency (RF) transport solutions, LRCS is fully compatible with ADC’s Digivance Indoor Coverage Solution (ICS). The Digivance family offers flexible, scalable solutions to fit various applications from a single building to a campus to a large city center area and beyond. Digivance ® – 800, 1900 and Dual-Band 800/1900 MHz System Solutions The LRCS provides a platform for transporting and distributing both 800 and 1900 MHz wireless capacity from base stations to remote sites such as dense urban areas, canyons, tunnels, highways and large open facilities. It allows radio capacity to be centralized in base station hotels, which can be inexpensively located up to several miles away from the desired area, making more effective use of capital expenditure and reducing annual operating costs. The dual-link 800/1900 MHz system affords service providers the flexibility to either overlay a 1900 MHz network or to grow an existing 800 MHz network with 1900 MHz deployment capability when needed. The LRCS also enables service providers to add radios to meet ever growing capacity needs without any upgrade to the Digivance system. Features: • Flexible architecture enables macro network coverage to be distributed over individual or multiple point-to-point optical RF transport links • Digital platform enables transition to new capabilities such as free space optics links and coarse wavelength division multiplexing (CWDM) • Digital RF transport is virtually transparent to air modulation standards; e.g., CDMA, iDEN ® , GSM, TDMA, 1xRTT, 1xEU-DO, etc. • Remote alarm monitoring from the network operations center (NOC) reduces troubleshooting time • Local alarm networking of multiple systems for monitoring and control • Dual-link cabinet services both 800 and 1900 MHz networks in one outdoor enclosure • 800 or 1900 MHz electronics can be deployed separately, allowing a pay-as-you- grow approach to network overlays Single-Band Cabinet LRCS Dual-Band Cabinet LRCS 8 / 0 6 • 1 0 2 9 8 0 A E Digivance ® 800/1900 MHz Systems 2 w w w . a d c . c o m • + 1 - 9 5 2 - 9 3 8 - 8 0 8 0 • 1 - 8 0 0 - 3 6 6 - 3 8 9 1 Digivance ® LRCS 800, 1900 and Dual-Band 800/1900 MHz Systems Overview With the increasing popularity of wireless devices, subscribers expect to have coverage at any time, in any place. This requires service providers to increase capacity and coverage, which is typically done by adding new cell sites. However, with city center areas becoming more congested and local government zoning regulations becoming increasingly more stringent, obtaining permits for new wireless cell sites is becoming increasingly more difficult. Extending service to these hard- to-reach areas can be quite challenging. ADC’s LRCS is a cost-effective solution for extending or distributing capacity from base stations to areas that require coverage. Application The LRCS is the only long-range RF distribution solution to offer a fully digital platform. Using patented digital RF transport technology, the LRCS digitizes the entire designated RF band, digitally transports it over fiber, and reconstructs the signal at full bandwidth, regardless of modulation technology or data rate. Digital RF transport allows the signal to be replicated at full dynamic range, regardless of the fiber length, which increases the capability for data throughput. As advanced high-data rate broadband services are rolled out, networks with a LRCS backbone will be ready. The LRCS offers a flexible architecture to distribute wireless capacity. Its versatility and small size allow service providers to quickly deploy networks in dense urban areas, where zoning restrictions often hinder installation of base stations. ADC offers a single- and dual-band system, which can be deployed with either 800 or 1900 MHz electronics. When deploying a dual-band system, the other frequency can be deployed when needed, thus allowing service providers to defer capital expenditures until absolutely necessary. Centralization of base station capacity can also be realized using the LRCS, allowing service providers to further benefit by reducing capital expenditures and annual operating costs. ADC's digital RF transport technology accommodates enhancements such, as free space optical laser and millimeter wave links instead of physical fiber connections and xWDM capabilities. The xWDM option allows multiple transmit and receive paths over a single fiber cable, thus reducing annual fiber lease costs. Free space optical laser links and millimeter wave solutions overcome fiber availability issues, as well as enable service providers a means to deploy wireless capacity in specific dense urban areas in just days. System Description The LRCS optically transports digitized RF signals to difficult coverage areas such as tunnels, canyons, large open structures such as stadiums, and congested city center locations. One point- to-point RF transport link consists of a Host Unit, Remote Unit, and element management software. The LRCS Host Unit is typically rack-mounted at the base transceiver station (BTS) site or collocated with other Host Units at a centralized radio suite. The RF signal is transported digitally over two fiber optic cables that connect the Host Unit and Remote Units. Optionally, the wave division-multiplexing (WDM) feature allows transport over a single fiber. In either application, the link can also be configured for diversity operation, which requires an additional fiber. The LRCS Remote Unit is positioned near the area requiring coverage (up to several kilometers from the Host Unit) and interfaces with an antenna to distribute the RF signal. The distance between the LRCS Host Unit and Remote Unit is limited only by time delay requirements of system modulation standards; i.e., iDEN ® , GSM, CDMA, TDMA, 1xRTT, 1xEU-DO, etc. Multiple LRCS links can be readily deployed as a system to distribute capacity and provide coverage to larger areas, such as an entire city center area. The Digivance Element Manager System (EMS) provides operational and maintenance capabilities for up to 24 Digivance LRCS links. Digivance LRCS Host UnitsBase Station BTB Sector Alpha Sector Beta Sector Gamma OSP Fiber Pairs Alpha Omni-Cell Alpha Omni-Cell Digivance LRCS Remote Unit Alpha Omni-Cell 8 / 0 6 • 1 0 2 9 8 0 A E Digivance ® 800/1900 MHz Systems 3 w w w . a d c . c o m • + 1 - 9 5 2 - 9 3 8 - 8 0 8 0 • 1 - 8 0 0 - 3 6 6 - 3 8 9 1 Host Unit The rack-mountable LRCS Host Unit is typically located at a remote BTS or a facility building housing a suite of base stations near the area requiring coverage. On the forward path, the Host Unit digitizes the designated RF band and digitally transports it over singlemode fiber to the Remote Unit. On the reverse path, the Host Unit receives the digitized signal and converts it to RF. The Host Unit also collects alarm information from the Remote Unit. For system deployments, multiple links can be networked together at the same BTS site. Host Units can be daisy-chained together to allow monitoring and control of multiple links from a single user interface. Local monitoring and control functions can be performed either directly through the Host Unit or via a PC. Remote alarm monitoring and control of the LRCS system can also be performed from an off-site location or NOC. Communications to the NOC can be performed using a PC with a standard physical layer protocol. In addition to sending alarm notifications to the EMS through software, the LRCS Host Unit also features front panel alarm reporting. LEDs on the front panel of the Host Unit will change color depending on the status of the unit. LED displays provide information regarding the following items: • Power • Mode of system (active/standby) • Indicate which unit is at fault • RF conditions Furthermore, alarm contact closures provide major and minor alarms. The Host Unit has two alarm contacts that either report system operation is seriously affected (major alarm) or system operation is degraded (minor alarm). The Host Unit operates on DC power. Remote Unit The LRCS Remote Unit is an outdoor cabinet that is either pole-mounted or mounted on the side of a building. On the forward path, the Remote Unit receives the digitized signal from the Host Unit and converts the signal back into RF to be distributed via an externally mounted antenna. On the reverse path, the Remote Unit digitizes the designated RF band and digitally transports it over singlemode fiber to the Host Unit. In addition to sending alarm notifications to the EMS through software, the LRCS Remote Unit also features front panel Remote Unit will change color depending on the status of the unit. LED displays provide information regarding the following items: • Power • Mode of system (active/standby) • Indicate which unit is at fault • RF conditions • Power amplifier fault • Antenna fault Furthermore, alarm contact closures provide a final level of alarming capability at the Remote Unit. Major and minor alarms are reported through these contact alarm closures. The Remote Unit is powered by an AC source. Digivance ® LRCS 800, 1900 and Dual-Band 800/1900 MHz Systems 8 / 0 6 • 1 0 2 9 8 0 A E Digivance ® 800/1900 MHz Systems 4 w w w . a d c . c o m • + 1 - 9 5 2 - 9 3 8 - 8 0 8 0 • 1 - 8 0 0 - 3 6 6 - 3 8 9 1 Digivance ® LRCS 800, 1900 and Dual-Band 800/1900 MHz Systems Alarming and Management System ADC's Digivance EMS provides operational and maintenance capability for the LRCS. The Digivance EMS consists of a personal computer (PC) using a Windows ® operating system, ADC furnished Java- based software package; an ASCII based RS-232 capable terminal, and RS-232 cables. The EMS can simultaneously monitor a network of LRCS links by daisy-chaining the alarm interfaces of up to 24 LRCS Host Units. Each of the Host Units are connected through a controller area network bus, and the PC can be connected to any of the Host Units. The EMS has the ability to download software, change parameters, and monitor alarms. The EMS provides three levels of alarms: software reporting, LEDs and external contacts. Using a laptop PC, the EMS can also be used for field test and troubleshooting at each Remote Unit. Additionally, off-site functionality is accomplished through a terminal at the NOC using a PC with a standard physical layer protocol for the communications. ADC offers a complete EMS hardware and software turnkey solution to element management, as well as a software solution, where operators utilize their existing element management network. Host Site Capabilities The EMS performs the following functions at the host site: • Provides real-time information regarding faults • Displays various system level values (voltages, RF, power, etc.) • Records and generates history reports with time and date stamps • Adjusts performance related parameters of the Host Unit and Remote Unit • Permits placement of Host Unit and Remote Unit into standby mode • Allows download of new software versions to the Host Unit and Remote Units Off-Site Capabilities The EMS performs the following functions at off- site locations such as the NOC: • Provides real-time information regarding faults • Displays various system level values (voltages, RF, power, etc.) • Adjusts performance-related parameters of the Host Unit and Remote Unit • Permits placement of Host Unit and Remote Unit into standby mode The EMS provides real-time data to the operator at the NOC through an ASCII-based, RS-232- capable terminal. The ASCII terminal at the NOC communicates to the PC at the host site through an RS-232 port. In addition, the operator has the ability to remotely access the EMS over Ethernet, RS-232 to Ethernet connection. NOC ASCII Terminal Host Site Host Unit 1 Host Unit 2 Host Unit 24 Site Manager: • EMS • SNMP Up to 20 km or more Up to 20 km or more Up to 20 km or more Remote Unit 1 Remote Unit 2 Remote Unit 24 8 / 0 6 • 1 0 2 9 8 0 A E Digivance ® 800/1900 MHz Systems 5 w w w . a d c . c o m • + 1 - 9 5 2 - 9 3 8 - 8 0 8 0 • 1 - 8 0 0 - 3 6 6 - 3 8 9 1 Digivance ® LRCS 800, 1900 and Dual-Band 800/1900 MHz Systems FORWARD PATH System Bandwidth: Frequency Range: Gain: Out-of-band Rejection: Intrinsic Hardware Delay: Dynamic Range: Peak to Average Ratio: Intermodulation: RF Input Level: TX Insertion Loss: Output Power: Error Vector Magnitude (EVM) REVERSE PATH System Bandwidth: Frequency Range Gain: Out-of-band Rejection: Intrinsic Hardware Delay: Intermodulation: Noise Figure: Maximum RF Output Level: Dynamic Range (blocking): Error Vector Magnitude (EVM): 800 MHz 12.5 MHz (Digitization bandwidth and duplexer bandwidth are ≥12.5 MHz) 869-880 & 890-891.5 MHz (A Band) 880-890 & 891.5-894 MHz (B Band) 85 dB (Adjustable) -40 dB, bandwidth 35 MHz 2.4 microseconds (excluding fiber) -60 dBc >10 dB - 55 dBc at remote output (two tone) - 40 to -9 dBm Composite 2.5 dB 50 watt at PA output; 30 watt at antenna port 7% (TDMA/EDGE) 4° (GSM) 0.98 rho factor (CDMA) 12.5 MHz (Digitization bandwidth and duplexer bandwidth are ≥12.5 MHz) 824-835 & 845-846.5 MHz (A Band) 835-845 & 846.5-849 MHz (B Band) 30 dB (Adjustable) -40 dB, bandwidth 35 MHz 2.4 microseconds (excluding fiber) -62 dBc at Host Output (Two Tone) 5 dB Typical -10 dBm Composite 70 dB 7% (TDMA/EDGE) 4° (GSM) 0.98 rho factor (CDMA) 1900 MHz 25 MHz; AD Sub Band is 20 MHz (Digitization bandwidth and duplexer 1930 to 1950 MHz (AD Sub Band) 1945 to 1970 MHz (DBE Sub Band) 1950 to 1975 MHz (BEF Sub Band) 1965 to 1990 MHz (EFC Sub Band) 83.5 dB (Adjustable) -40 dB, bandwidth 35 MHz 2.4 microseconds (excluding fiber) -60 dBc >10 dB - 55 dBc at remote output (two tone) - 40 to -9 dBm Composite 2.5 dB 40 watt at PA output; 25 watt at antenna port 7% (TDMA/EDGE) 4° (GSM) 0.98 rho factor (CDMA) 25 MHz; AD Sub Band is 20 MHz (Digitization bandwidth and duplexer bandwidth are ≥25MHz) 1850 to 1870 MHz (AD Sub Band) 1865 to 1890 MHz (DBE Sub Band) 1870 to 1895 MHz (BEF Sub Band) 1885 to 1910 MHz (EFC Sub Band) 30 dB -40 dB, bandwidth 35 MHz 2.5 microseconds (excluding fiber) -62 dBc at Host Output (Two Tone) 5 dB Typical -10 dBm composite with Maximum Remote Input 70 dB 7% (TDMA/EDGE) 4° (GSM) 0.98 rho factor (CDMA) SPECIFICATIONS 800 MHz Cellular Band (50W) RF Channel Composite Per RF Carrier Composite Per RF Carrier 1 45.5 dBm 45.4 dBm 35.0 Watts 35.0 Watts 2 45.5 dBm 42.4 dBm 35.0 Watts 17.5 Watts 4 45.5 dBm 39.4 dBm 35.0 Watts 8.8 Watts 8 45.5 dBm 36.4 dBm 35.0 Watts 4.4 Watts 16 45.5 dBm 33.4 dBm 35.0 Watts 2.2 Watts Output Power per Carrier Chart (Power Remains the Same Across All Modulations): 1900 MHz PCS Band (40W) RF Channel Composite Per RF Carrier Composite Per RF Carrier 1 43.8 dBm 43.8 dBm 23.8 Watts 23.8 Watts 2 43.8 dBm 40.8 dBm 23.8 Watts 11.9 Watts 4 43.8 dBm 37.7 dBm 23.8 Watts 6.0 Watts 8 43.8 dBm 34.7 dBm 23.8 Watts 3.0 Watts 16 43.8 dBm 31.7 dBm 23.8 Watts 2.2 Watts 8 / 0 6 • 1 0 2 9 8 0 A E Digivance ® 800/1900 MHz Systems 6 w w w . a d c . c o m • + 1 - 9 5 2 - 9 3 8 - 8 0 8 0 • 1 - 8 0 0 - 3 6 6 - 3 8 9 1 Digivance ® LRCS 800, 1900 and Dual-Band 800/1900 MHz Systems OPTICAL SPECIFICATIONS Fiber Type: Fibers Required Non-diversity: Diversity: Forward Path Wavelength: Reverse Path Wavelength: Optical Budget: Optical Transmit Power Output Host Unit: Remote Unit: Optical Receive Input: PHYSICAL Host Unit Dimensions (HxWxD): Weight: Color: Mounting Options: Remote Unit Dimensions (HxWxD): Weight: Color: NEMA Rating Mounting Options: 800 MHz Singlemode, 9/125 µm 1 with WDM; 2 without WDM 2 with WDM; 3 without WDM 1550 ±20 nm 1310 ±20 nm 25 dB 0 dBm +2 dBm -15 dBm Single-Band 800 and 1900 MHz 3.5" x 19" x 15.8" (8.9 x 48.3 x 40.1 cm) 18 lbs. (8 kg) Putty White 19" or 23" rack 40.4” x 12” x 20.7" (103.4 x 30.5 x 52.3 cm) 120 lbs. (54 kg) without battery backup Putty White 3R Wall-mount; optional pole-mount 1900 MHz Singlemode, 9/125 µm 1 with WDM; 2 without WDM 2 with WDM; 3 without WDM 1550 ±20 nm 1310 ±20 nm 25 dB 0 dBm +2 dBm -15 dBm Dual-Band 800/1900 MHz (2 Host Units Required) 3.5" x 19" x 15.8" (8.9 x 48.3 x 40.1 cm) 18 lbs. (8 kg) Putty White 19" or 23" rack (1 Remote Unit Required) 40.4” x 18.8 x 20.7 " (103.4 x 47.8 x 52.3 cm) 190 lbs. (86 kg) without battery backup Putty White 3R Wall-mount; optional pole-mount SPECIFICATIONS POWER SPECIFICATIONS Host Unit Power Source: Host Unit Input Current: Remote Unit Power Source: Remote Unit Input Current: Remote Unit with Battery Backup (optional): SIGNALING CONNECTORS Optical Connectors: RF Connectors: ENVIRONMENTAL Host Unit Temperature Operating: Storage: Remote Unit Temperature Operating: Storage: Humidity: Lighting Protection: MTBF Host Unit: Remote Unit: APPROVALS Remote Unit Enclosure UL/CUL Compliance: FCC Acceptance: Industry Canada: Quality: 21 to 60 VDC, Bridged Floating Current Input 2A @ 24 VDC (1.4 A at 24 VDC; 0.8 A at 48 VDC) 90 to 265 VAC; 47 to 63 Hz Maximum – 9 A @ 120 VAC; Nominal – 7.3 A at 120 VAC 1 hour* (With 95 Amp Battery) Ultra Polished SC N female 0°C to 50°C (32°F to 122°ºF) -40°C to 70°C (-40°F to 158°F) -30°C to 50°C (-22°F to 122°F) -40°C to 70°C (-40°F to 158°F) 10% to 90%, non-condensing 20kA IEC 1000-4-5 8/20 µs waveform 80,000 Hours at 25°C (Excluding Fans) 50,000 Hours at 25°C (Excluding Fans) UL 50 Part 22 (800 MHz) and Part 24 (1900 MHz) RSS-131 Manufactured under ISO 9001 and TL9000 Quality Systems. *For dual-band 800/1900 MHz System = 1 hour for either 800 or 1900 MHz Note: Unless noted otherwise specifications are typical and subject to change 8 / 0 6 • 1 0 2 9 8 0 A E Digivance ® 800/1900 MHz Systems 7 w w w . a d c . c o m • + 1 - 9 5 2 - 9 3 8 - 8 0 8 0 • 1 - 8 0 0 - 3 6 6 - 3 8 9 1 Digivance ® LRCS 800, 1900 and Dual-Band 800/1900 MHz Systems ORDERING INFORMATION: Single-Band System and Components Catalog Number DGVL- __ __ __ __ __ 0 __ Frequency Band 1 800 Cellular 4 1900 PCS Sub-Band 1 A - 800 2 B - 800 3 AD - 1900 4 DBE - 1900 5 BEF - 1900 6 EFC - 1900 Power Amplified 1 40W (1900) 2 50W (800) Remote Unit Cabinet Style 0 Not Applicable 1 Standard Single-Band 3 Standard Dual-Band 5 Slim-style Single-Band, No Batt. 6 Slim-style Single-Band, Batt. Capable 7 Indoor Remote Rack Mount 8 Slim-style Dual-Band, No Batt. 9 Slim-style Dual-Band, Batt. Capable System or Component SYS System* HU Host Unit STM Spectrum Transport Module LPA Linear Power Amplifier Diversity Option 0 Non-Diversity 1 Diversity *Single-Band System includes: One (1) Host Unit, One (1) STM, One (1) LPA and Cabinet. Description Catalog Number Digivance LRCS Single-Band - 800, 50W, A Band, Non-Diversity, Slim-Style Single-Band Cabinet w/Battery Compartment DGVL-112600SYS Digivance LRCS Single-Band - 1900, 40W, AD Band, Diversity, Slim-Style Single-Band Cabinet w/o Battery Compartment DGVL-431510SYS SINGLE-BAND SYSTEM CONFIGURATION EXAMPLES Description Catalog Number Host Unit, 800, Non-Diversity DGVL-102000HU Power Amplifier Module, 40W, 1900 DGVL-401000LPA STM, 800, A Band, Diversity DGVL-122010STM STM, 1900, BEF Band, Non-Diversity DGVL-451000STM SPARES CONFIGURATION EXAMPLES Web Site: www.adc.com From North America, Call Toll Free: 1-800-366-3891 • Outside of North America: +1-952-938-8080 Fax: +1-952-917-3237 • For a listing of ADC’s global sales office locations, please refer to our Web site. ADC Telecommunications, Inc., P.O. Box 1101, Minneapolis, Minnesota USA 55440-1101 Specifications published here are current as of the date of publication of this document. Because we are continuously improving our products, ADC reserves the right to change specifications without prior notice. At any time, you may verify product specifications by contacting our headquarters office in Minneapolis. ADC Telecommunications, Inc. views its patent portfolio as an important corporate asset and vigorously enforces its patents. Products or features contained herein may be covered by one or more U.S. or foreign patents. An Equal Opportunity Employer 102980AE 8/06 Original © 2006 ADC Telecommunications, Inc. All Rights Reserved Spec Sheet ORDER ORDERING INFORMATION: Dual-Band System and Components Catalog Number DGVL- __ __ __ __ __ __ SYS Frequency Band 1 800 Cellular 4 1900 PCS 6 800/1900 Sub-Band 1 A - 800 2 B - 800 3 AD - 1900 4 DBE - 1900 5 BEF - 1900 6 EFC - 1900 Power Amplified 1 40W (1900) 2 50W (800) Remote Unit Cabinet Style 0 Not Applicable 1 Standard Single-Link 3 Standard Dual-Link 5 Slim-style Single-Band, No Batt. 6 Slim-style Single-Band, Batt. Capable 7 Indoor Remote Rack Mount 8 Slim-style Dual-Band, No Batt. 9 Slim-style Dual-Band, Batt. Capable Diversity Option 0 Non-Diversity 1 Diversity *Dual-Band System includes: Two (2) Host Unit, Two (2) STM, Two (2) LPA and a Dual-Band Cabinet. Unless choosing "0" for "Option for Dual-Band System", which will only include One (1) Host Unit, One (1) STM, One (1) LPA and a Dual-Band Cabinet. Option for Dual-Link System 0 Not Applicable 1 A - 800 2 B - 800 3 AD - 1900 4 DBE - 1900 5 BEF - 1900 6 EFC - 1900 Description Catalog Number Digivance LRCS Dual-Band – 800 A Band, 1900 AD Band, Non-Diversity, Slim-Style Dual-Band Cabinet w/Battery Compartment DGVL-612903SYS Digivance LRCS Dual-Band – 1900, AD Band, Only, 40W, Diversity, Slim-Style Dual- Band Cabinet w/o Battery Compartment DGVL-431810SYS DUAL-BAND SYSTEM CONFIGURATION EXAMPLES