Zinwave 2700 DAS – User Manual Issue 1.2 April 2007 Zinwave 2700 Distributed Antenna System User Manual © Zinwave Ltd.
Zinwave 2700 DAS – User Manual Issue 1.2 April 2007 Document History Issue Date Changes to previous issue 1.2 03.04.2007 • Added information regarding RF exposure 1.1 27.03.2007 • Editorial changes • Changed default IP, added description of DHCP 1.0 © Zinwave Ltd. 2007 05.03.
Zinwave 2700 DAS – User Manual Issue 1.2 April 2007 NOTICES © Zinwave Ltd. 2007 No part of this manual may be reproduced in any form or by any means (including electronic storage and retrieval or translation into a foreign language) without prior agreement and written consent from Zinwave Ltd. as governed by United Kingdom and international copyright laws. Edition Issue 1.
Zinwave 2700 DAS – User Manual Issue 1.2 April 2007 Trademark Acknowledgements Cisco ® and Aironet ® are registered trademarks of Cisco Corporation. Pentium ® is a registered trademark of Intel Corporation. Adobe ® is a trademark of Adobe Systems Incorporated. Windows XP, Windows 2000, and Windows 98 are U.S. registered trademarks of Microsoft Corporation. All other trademarks are the property of their respective holders.
Zinwave 2700 DAS – User Manual Issue 1.2 April 2007 TABLE OF CONTENTS Chapter 1 Document History Edition Warranty Technology Licenses Safety Notices Trademark Acknowledgements About this guide 2 3 3 3 3 4 4 System Description 8 1.1 1.2 1.3 1.4 1.5 Chapter 2 Chapter 3 Chapter 4 Chapter 5 Overview Key features Architecture System Components Configuration and Control 8 8 9 11 12 Quick Start 13 2.1 2.2 2.3 2.
Zinwave 2700 DAS – User Manual Issue 1.2 April 2007 B.1 B.2 B.3 Overview ZinConfig/CLI Hardware and Software Requirements System specification Appendix C Glossary of terms C.1 © Zinwave Ltd.
Zinwave 2700 DAS – User Manual Issue 1.
Zinwave 2700 DAS – User Manual Issue 1.2 April 2007 Chapter 1 System Description 1.1 Overview The Zinwave 2700 Distributed Antenna System (DAS) is a simple two-stage fiber-optic solution comprising a centrally located Hub Unit (HU) and distributed Antenna Units (AU). The Zinwave 2700 DAS is at present the only available system which provides a truly wideband solution utilizing multimode fiber (MMF).
Zinwave 2700 DAS – User Manual Issue 1.2 April 2007 Minimum supported distance of 2000 m over standard SMF Dynamically configurable RF signal distribution Electronically adjustable signal levels without the need of manual handling Hot-pluggable optical transceivers used in HU SNMP and CLI based network management o o o o o 1.3 Architecture The 2700 DAS system is built from several basic 8-port systems. Each basic 8-port system comprises one 2700 HU and up to eight AU.
Zinwave 2700 DAS – User Manual Issue 1.2 April 2007 1.3.1 RF Signal Distribution In the HU a RF signal distribution circuitry is implemented which gives the flexibility to dynamically adjust the routing of radio transceivers to AU. In its default configuration the HU routes each electrical I/O port to two adjacent optical ports.
Zinwave 2700 DAS – User Manual Issue 1.2 April 2007 1.3.3 AU Remote Setup To simplify installation and maintenance and to enhance security, all AU are controlled remotely via the HU. This includes setting attenuator values, enabling or disabling overload protection and reading status and alarm information. Each AU can be addressed individually. The required routing information for this is obtained by following the setup-procedure after all units are connected. 1.
Zinwave 2700 DAS – User Manual Issue 1.2 April 2007 Table 1-1: 276X wideband Antenna Units. 1.4.4 PN Product description Max. Output power (composite) 2760 Wideband (370 – 2500 MHz) + 6 dBm 2765 Wideband (370 – 2500 MHz) + 12 dBm Band-selective Antenna Units (277X series) The Zinwave 277X series of band-selective AU are designed to operate at certain combinations of frequency bands only. The 277X AU comprise a 276X wideband AU together with a single-, dual- or tri-band duplexer.
Zinwave 2700 DAS – User Manual Issue 1.2 April 2007 Chapter 2 Quick Start 2.1 Overview This chapter provides a brief overview over the steps required to setup a Zinwave 2700 DAS. For a more detailed description of each step please refer to the relevant section of this user guide. 2.2 Setting up the Hub Unit 2.2.1 Mount the Hub o Mount the HU in a 19” equipment rack using the provided rack-mounting brackets and screws. Alternatively the HU can be shelf-mounted using the provided rubber feet. 2.2.
Zinwave 2700 DAS – User Manual Issue 1.2 April 2007 o 2.2.2.3 HyperTerminal) to the serial port (9-pin dub-D) of the HU. If no RS232 terminal is available a local connection can be established by directly connecting an Ethernet Cross-Over cable from a laptop/computer to the Ethernet port of the HU. For remote control connect an RJ45 patch-lead from a spare outlet of your LAN to the Ethernet port of the HU. Optical Fiber o o o Section 3.1.4.3 Section 3.2.
Zinwave 2700 DAS – User Manual Issue 1.2 April 2007 o o 2.3.3.3 60 Hz). A green LED on the PoE adaptor will illuminate. Connect the PoE adaptor (the port labeled “To Equipment”) to the RJ45 connector on the AU using a Cat5 Ethernet cable no longer than 100m. On powering up the green LED indicators on the RJ45 connector will illuminate. 2760 only: Alternatively the AU can be powered using the optional 48V mains adaptor.
Zinwave 2700 DAS – User Manual Issue 1.2 April 2007 2.4.3 Use the ZinConfig utility tool o o o o o o © Zinwave Ltd. 2007 To launch ZinConfig double click on the desk top icon or click Start >Programs >Zinwave->ZinConfig The default community for read/write access is “private”, for read-only access is “public”. These are configured through the CLI. Specify the IP address range (Start IP address / End IP address) of your attached Hub Units and press “Find Hubs” to load them into ZinConfig.
Zinwave 2700 DAS – User Manual Issue 1.2 April 2007 Chapter 3 Equipment Description 3.1 2700 Hub Unit 3.1.1 Overview The HU is a 1U high rack or shelf mountable device with four RF input ports (each port has two simplex connectors, 1 for downlink and 1 for uplink). The signals are routed from the RF I/O ports to 8 SFP ports through a dynamically configurable distribution circuit.
Zinwave 2700 DAS – User Manual Issue 1.2 April 2007 Table 3-1: Dimensions and weight of the 2700 HU. 3.1.3 Parameter Value Unit Height 4.4 (1.8) cm (inch) Width 44.5 (17.8) cm (inch) Depth 27.0 (10.6) cm (inch) Weight 3.5 kg Connection panels and LED indicators A drawing of the front view is shown in Figure 3-2. The front panel of the HU contains o 8 SFP ports for the 2780 SFP modules o Hub + System LED indicators for status information and alarms.
Zinwave 2700 DAS – User Manual Issue 1.2 April 2007 System Status LED Indicates the status of the 2700 DAS (see Table 3-2) SFP ports and LED indicators SFP port 8 SFP ports which can be individually populated with the Zinwave 2780 SFP module.
Zinwave 2700 DAS – User Manual Issue 1.2 April 2007 Table 3-3: Description of SFP port LED indicators. LED indicators Description No SFP in port or SFP disabled Port operational A fault has occurred on the optical link or the attached AU (see section 5.1.2) Communication to AU is active blinking 3.1.4 Installation 3.1.4.
Zinwave 2700 DAS – User Manual Issue 1.2 April 2007 Table 3-4: Power supply unit (PSU) parameters. Parameter Min Input voltage Input Frequency Max Unit Comment 100 240 VAC 47 63 Hz Fuse Typical 2 A Current consumption 220 mA Power consumption 15 W Figure 3-5: Connection of the mains cable. 3.1.4.3 Connecting the control cables Anti-surge The 2700 DAS can be controlled locally via the serial port or remotely via the network interface (Figure 3-6).
Zinwave 2700 DAS – User Manual Issue 1.2 April 2007 Figure 3-6: Connection of the RS232 null modem and the RJ45 Ethernet cable. 3.1.4.4 Connecting the RF transceiver Connection of the RF signal sources (e.g. BDA, BTS, WLAN access point) is via a pair of simplex SMF-female connectors per RF port. The ports are labeled 1 to 4 for connecting up to four RF transceivers. Connect the ports labeled “IN” to the transmit port of the RF transceiver (= downlink).
Zinwave 2700 DAS – User Manual Issue 1.2 April 2007 NOTE Termination of the unused RF ports with a 50Ω load is not necessary. It is however recommended to set all gain control settings of the unused ports to maximum attenuation (refer to section 4.2.6.1 of this guide for directions on how to do this). 3.1.5 Environmental The environmental specifications of the HU for operation and storage are listed in Table 3-5. Table 3-5: Environmental specifications of 2700 HU.
Zinwave 2700 DAS – User Manual Issue 1.2 April 2007 3.2 2780/2781 SFP module 3.2.1 Overview The 2780/2781 small form-factor pluggable (SFP) modules are broadband components (350-2700MHz) converting electrical to optical signals (Transmit) and optical to electrical signals (Receive). A block diagram of the SFP module is shown in Figure 3-8. RF Signal IN E RF Signal OUT E O Optical Signal OUT O Optical Signal IN Control + Monitor Figure 3-8: Block diagram of the 2780/2781 SFP module.
Zinwave 2700 DAS – User Manual Issue 1.2 April 2007 3.2.3 Ports 3.2.3.1 Electrical port The electrical connection of the SFP is via a push-fit 20-pin connector located at the rear of the module. 3.2.3.2 Optical port The optical port on the SFP module is LC duplex (according to IEC 61754-20). Looking from the front, the optical transmit port is on the left hand side and the optical receive port is on the right hand side. WARNING Optical emission can damage your eye-sight.
Zinwave 2700 DAS – User Manual Issue 1.2 April 2007 3.2.5 Environmental Table 3-7: Environmental specifications of 2780 SFP module (designed for the 2700 Hub Unit). Parameter Min Temperature - Operating Typical Max Unit 0 +85 °C Temperature - Storage -25 +55 °C Relative Humidity (non-condensing) 10 95 % Table 3-8: Environmental specifications of 2781 SFP module (designed for the 2760 Antenna Unit).
Zinwave 2700 DAS – User Manual Issue 1.2 April 2007 3.3 2760 + 2765 Antenna Unit – Wideband 3.3.1 Overview The 2760/2765 AUs are small wall- or ceiling mountable units which amplify the received optical signals for transmission over a wireless link (in the case of the downlink signals) and amplify the received wireless signals for transmission over the optical link (in the case of the uplink signals). The 2760 AU utilizes the 2781 SFP optical transceiver for the electrical-optical signal conversion.
Zinwave 2700 DAS – User Manual Issue 1.2 April 2007 3.3.2 Dimensions and Weight Dimensions and weight listed in Table 3-9 are for an AU without the optional cover. Table 3-9: Dimensions and weight of the 2760 + 2765 AU. Parameter 2760 2765 Unit Height 21.5 (8.5) 20.0 (8.0) cm (inch) Width 13.0 (5.125) 12.0 (4.75) cm (inch) Depth 4.5 (1.8) 6.0 (2.4) cm (inch) Weight 0.75 0.75 kg 3.3.3 Connection panels and LED indicators 3.3.3.
Zinwave 2700 DAS – User Manual Issue 1.2 April 2007 TX port Figure 3-14: RX port Rear view of the 2760 AU. Following is a description of all interfaces and LED indicators of the 2760 AU. Optical and Electrical I/O ports SFP port SFP port which can be populated with the Zinwave 2781 SFP module. RF ports Two simplex wideband (370 – 2500 MHz) SMA-female connectors, one for TX (downlink) and one for RX (uplink) Powering and LED indicators 3.3.3.2 48 VDC Input 2-pin latching connector (LEMO, EGG.00.
Zinwave 2700 DAS – User Manual Issue 1.2 April 2007 Figure 3-16: Rear view of 2765 AU. Following is a description of all interfaces and LED indicators of the 2765 AU. Optical and Electrical I/O ports Duplex SC connector Optical port which connects to the fiberinfrastructure. RF ports Two simplex wideband (370 – 2500 MHz) SMA-female connectors, one for TX (downlink) and one for RX (uplink) Powering and LED indicators 3.3.3.
Zinwave 2700 DAS – User Manual Issue 1.2 April 2007 Transmit and receive antennas need to be separated to improve the required antenna isolation of 35dB. Lower antenna isolation leads to increased blocking and uplink noise figure. The use of directional antennas is recommended to improve this antenna isolation. CAUTION The antenna must be installed / positioned at a distance of greater than 20 cm away from the proximity of operators and intended operators. 3.3.4.
Zinwave 2700 DAS – User Manual Issue 1.2 April 2007 Figure 3-17: Mounting instructions for the 2760 AU. 3.3.4.3 Mounting the 2765 Antenna Unit The 2765 AU package should contain the following items: o 1 × 2765 AU o 1 × PoE converter (incl. mains cable and 1m Cat5 Ethernet cable) (optional) The Antenna Unit can be mounted to a ceiling or a wall or any horizontal or vertical flat surface.
Zinwave 2700 DAS – User Manual Issue 1.2 April 2007 o o Allow space above and below the unit for adequate ventilation and to accommodate the minimum bend radius for the coaxial and fiber cables The position of the Antenna Unit should provide sufficient air circulation Mount the Antenna Unit to the identified location following these steps: o To attach the AU, drill four holes into the wall, using the dimensions shown in Figure 3-18. o Secure the AU using 4 countersunk M4 screws (not provided) 192.
Zinwave 2700 DAS – User Manual Issue 1.2 April 2007 o Using an external 48VDC power supply unit (optional). → Mount the PSU next to the Antenna Unit using the provided brackets with the IEC mains connector facing downwards → Connect the mains cable from the PSU to an outlet providing 110 – 250 V, 50 – 60 Hz AC power. → Connect the DC cable of the PSU to the 2-pin latching input of the Antenna Unit o By Power over Ethernet. (PoE) using an IEEE802.3af compliant PoE injector. → Using the IEEE 802.
Zinwave 2700 DAS – User Manual Issue 1.2 April 2007 Parameter Min Temperature - Operating Max Unit 0 +45 °C Temperature - Storage -25 +55 °C Relative Humidity (non-condensing) 10 95 % © Zinwave Ltd.
Zinwave 2700 DAS – User Manual Issue 1.2 April 2007 3.4 277X Antenna Unit – Band specific 3.4.1 Overview The 277X AUs are 3U high wall, ceiling or rack mountable units which amplify the received optical signals for transmission over a wireless link (in the case of the downlink signals) and amplify the received wireless signals for transmission over the optical link (in the case of the uplink signals).
Zinwave 2700 DAS – User Manual Issue 1.2 April 2007 3.4.3 Connection panels and LED indicators A drawing of the front view of the 277X AU is shown Figure 3-22. The front panel of the AU contains o Optical I/O o RJ45 connector for powering via Power-over-Ethernet (PoE, IEEE 802.3af) o N-type (female) antenna connector o 4 SMA (female) connectors for semi-rigid jumper cables Antenna Connector PoE Connector Optical Connector Jumper cables Figure 3-22: Front view of the 277X AU.
Zinwave 2700 DAS – User Manual Issue 1.2 April 2007 3.4.4 Installation 3.4.4.1 Mounting the Antenna Prior to mounting the Antenna Unit, mount the antenna following your system installation plan in the assigned locations. Follow the antenna manufacturer guidelines to do so. CAUTION The antenna must be installed / positioned at a distance of greater than 20 cm away from the proximity of operators and intended operators. 3.4.4.
Zinwave 2700 DAS – User Manual Issue 1.
Zinwave 2700 DAS – User Manual Issue 1.
Zinwave 2700 DAS – User Manual Issue 1.2 April 2007 “Click” Figure 3-26: Connecting the power supply cable to the 277X AU. 3.4.5 Environmental Table 3-14: Environmental specifications of the 277X Antenna Unit. Parameter Min Temperature - Operating Max Unit 0 +45 °C Temperature - Storage -25 +55 °C Relative Humidity (non-condensing) 10 95 % © Zinwave Ltd.
Zinwave 2700 DAS – User Manual Issue 1.2 April 2007 Chapter 4 Configuration and Control 4.1 Overview The 2700 DAS can be configured and controlled either via a command line interface (CLI) or using SNMP (Simple Network Management Protocol). Control of the system with the CLI gives the same functionality as with the SNMP. Please refer to the Zinwave 2700 DAS – Software Manual for a detailed description of all the commands available through the CLI. 4.
Zinwave 2700 DAS – User Manual Issue 1.2 April 2007 4.2.3 Identifying Hubs Enter the start and end IP address range of the attached Hubs and click on the “Find Hubs” button (Figure 4-1). All detected Hubs will be displayed showing their IP address and description (Figure 4-2). Selecting a Hub from the list will reveal its settings. Use the “Community” field as defined in section 4.3.4.2 if you wish read-only or readwrite access. This field is required for communication with the HU. Refer to section 4.3.3.
Zinwave 2700 DAS – User Manual Issue 1.2 April 2007 o o 4.2.6 When “Auto-update” is disabled, the values are only updated after pressing “Send changes” (Figure 4-3). “Refresh” reads the current configuration from the 2700 system (Figure 4-3). Changes in the GUI that haven’t been updated will be lost. Controlling the Hub Unit Figure 4-4 shows a schematic of the 2700 HU with the downlink input attenuators (DL) and uplink output attenuators (UL). Also shown is the distribution circuitry.
Zinwave 2700 DAS – User Manual Issue 1.2 April 2007 4.2.6.3 Enabling/Disabling the optical ports Active SFP ports are shown green, inactive ports are grayed out and red indicates an alarm condition. SFP ports can be enabled/disabled by right clicking on the SFP port and selecting the required option from the pop-up menu (Figure 4-5). Figure 4-5: Enabling the optical ports. NOTE Disabling a port will result in the attached AU not transmitting or receiving any signal. 4.2.
Zinwave 2700 DAS – User Manual Issue 1.2 April 2007 4.2.8 Status and Alarms When an alarm is present, the SFP port or the status box in the AU frame is colored red. Status and alarm information is displayed by left-clicking on one of the colored boxes. Alternatively status information on the SFP ports can be displayed by rightclicking on the SFP port and selecting “Alarms” from the pop-up menu (Figure 4-7). Clicking on one of the SFP ports displays information on the HU SFP.
Zinwave 2700 DAS – User Manual Issue 1.2 April 2007 9-pin sub-D null-modem cable Serial Ethernet COM port Ethernet Cable HU Ethernet Figure 4-9: Required connections for local and remote control of the 2700 DAS. 4.3.1 Connecting to the CLI via RS232 This section describes how to access the CLI via the RS232 protocol using the Microsoft Windows based HyperTerminal application. The setup using a different terminal emulation application is likely to be very similar.
Zinwave 2700 DAS – User Manual Issue 1.2 April 2007 o Figure 4-11: Select the serial port of your laptop or PC. Typically this is the COM1 port. Press OK to continue. Identify the serial port on your computer. o Adjust the parameters of the serial connection according to the values listed in table 3-1. Clicking OK stores these settings under the name defined in step 1 and a connection to the Hub Unit is established.
Zinwave 2700 DAS – User Manual Issue 1.2 April 2007 4.3.2 Connecting to the CLI via Telnet When a network connection to the HU is available, the CLI can be accessed via the Telnet protocol. On a Windows based laptop/PC Telnet can be started via Start Run… telnet). Figure 4-13: Serial connection via Telnet. To open a connection to the hub unit type “open ” where should be replaced by the IP address of the HU. A password is required to access the CLI using Telnet.
Zinwave 2700 DAS – User Manual Issue 1.2 April 2007 Hub Commands Description Type default Set default values and reboot W discover Discover AUs W sfpdis <1-8> <1/0> SFP Enable/Disable R/W reID Set the active remote AU R/W config Misc.
Zinwave 2700 DAS – User Manual Issue 1.2 April 2007 Hub Parameter Description Default value uloa <1-4> Uplink Output Attenuation 31 dc22 <1-2> Distribution Circuits(2x2) Disabled dc44 <1/0> Distribution Circuit (4x4) Disabled sfpdis <1-8> SFP Enable/Disable Disabled ReID Set the active remote AU AU1 config IP IP address of the HU 10.10.10.10 config GATEWAY IP address of the gateway 10.10.10.1 config NETMASK Subnet mask 255.255.255.
Zinwave 2700 DAS – User Manual Issue 1.2 April 2007 4.3.4.2 Configuring the network interface via DHCP The network interface can be configured to obtain the relevant parameters via DHCP (Dynamic Host Configuration Protocol). DHCP is enabled by setting the IP address of the HU to 0.0.0.0. This will cause the HU to request IP address, subnet mask and gateway address from a DHCP server. 4.3.4.
Zinwave 2700 DAS – User Manual Issue 1.2 April 2007 4.3.5 Enabling Communication to Antenna Units 4.3.5.1 Auto configuration In order to be able to communicate with the attached AUs, the HU requires information on their unique identifiers (MID-numbers). This information is collected via the command “discover”. NOTE Control of the attached AUs is not possible without first running the discover command. 4.3.5.
Zinwave 2700 DAS – User Manual Issue 1.2 April 2007 Chapter 5 Get Assistance, if You Need It 5.1 Troubleshooting the 2700 DAS 5.1.1 Hub Unit (HU) main LED Indicators Condition Green Power LED Red Fault LED Green System LED No power to unit Off Off Off Unit operational On Off On Fault On On Off The red fault LED indicates the occurrence of a fault condition in the system. Use the ZinConfig tool (see section 4.2) to determine the source of the fault. 5.1.
Zinwave 2700 DAS – User Manual Issue 1.2 April 2007 5.1.3 5.1.4 2760 + 2765 Wideband Antenna Unit Condition Green Status LED Green Power LED No power to unit Off Off Unit operational On On Data activity / communicating Flashing On Fault in Fiber or Hub Off On 277X Antenna Unit There are no LED indicators located on the front or rear panel of the 277X AU. 5.2 Device communication problems 5.2.1 Network Connection o o o 5.2.
Zinwave 2700 DAS – User Manual Issue 1.2 April 2007 Appendix A Safety and Regulatory Information This appendix contains important warnings and cautions for hardware products that comprise the 2700 DAS system. A.1 Warning and caution notices WARNING If this product is not used as specified, the protection provided by the equipment could be impaired. This product must be used in a normal condition (in which all means for protection is intact) only. No operator serviceable parts are inside this system.
Zinwave 2700 DAS – User Manual Issue 1.2 April 2007 NOTE 2776 Antenna Unit. This device complies with Part 22 and Part 24 of the FCC rules. Changes or modifications not expressly approved by Zinwave Ltd could void the user’s authority to operate the equipment. © Zinwave Ltd.
Zinwave 2700 DAS – User Manual Issue 1.2 April 2007 A.2 General safety considerations The installation of electrical supplies in support of Zinwave 2700 DAS products shall be in accordance with national and local regulations. Other aspects of the installation of Zinwave 2700 DAS products and interconnecting cabling shall be in accordance with the following standards: A.2.1 Cabling installation o EN 50174 series: Information technology – Cabling installation A.2.
Zinwave 2700 DAS – User Manual Issue 1.2 April 2007 The installation of sub-assemblies into the main units of the Zinwave 2700 DAS shall only be undertaken if precautions required by IEC/TS 61340-5-1 have been taken. This covers: o the installation of Zinwave 2780 SFP optical fiber transceiver modules into the Zinwave 2700 Hub Unit, o the replacement of the Zinwave 2781 SFP optical fiber transceiver modules in the Zinwave 2760 Antenna Unit.
Zinwave 2700 DAS – User Manual Issue 1.2 April 2007 Appendix B System Information B.1 Overview This appendix provides you with hardware specifications, options, and part numbers for the following. o 2700 Hub Unit o 2760 wideband AU o 2765 wideband AU o 2776 band-specific AU (GSM850 / PCS1900) o 2777 band-specific AU (GSM900 / UMTS) o 2778 band-specific AU (DCS1800 / UMTS) B.
System specification 0 1 0 Channel insertion loss - MMF Channel length - SMF Channel insertion loss - SMF 35 70 70 4 2000 4 550 +55 Max.
-1 -2 Response variation Response variation © Zinwave Ltd. 2007 0 2500 1850-1919 1920-1980 1920-1980 Max. RF input power – absolute max Nom. -15 370 824-849 880-915 1710-1785 Min. Value +2 RF input power – operation System Bandwidth 2760/2765 AU 2776 AU 2777 AU 2778 AU Parameter B.3.3 System Uplink RF parameters +5 -5 Response variation +1 14 Return loss +10 1.5:1 0 VSWR RF input power Max. 2110-2170 2110-2170 +6 +12 +18 +18 +18 -5 2777 AU 2778 AU Nom.
-5 -1 -2 Response variation Response variation Response variation -10 Nom. Value +2 +1 +5 Max. 8 - 1 1 0 -25 RF interfaces Optical interfaces Control interfaces Control interfaces Temperature - operating Temperature - storage © Zinwave Ltd. 2007 1 Mains power interface Mains power consumption 50 Mains power frequency - 3.5 Weight 100 270 (10.6) Depth Mains power voltage 445 (17.5) Width Nom. 44 (1.8) Min. Value Height Parameter +55 +55 8 15 60 250 Max. B.
0 0 -25 Temperature – operating Temperature - storage +55 +85 +55 1 Max. C C C o o o - kg Unit © Zinwave Ltd. 2007 -25 1 Optical interfaces Temperature - storage 2 RF interfaces 0 1 Power supply interface – PoE Temperature - operating 1 Power supply interface – AC/DC Power consumption DC Power supply frequency 0.75 Weight 40 45 (1.8) Depth Power supply voltage 130 (5.1) Width Nom. 215 (8.5) Min. Value Height Parameter +55 +45 3 48 Max.
+55 +45 15 48 Max. C C o o - - - W - V kg mm (in) mm (in) mm (in) Unit 5.3 Weight © Zinwave Ltd. 2007 40 260 (10.25) Depth Power supply voltage 370 (14.5) Width Nom. 120 (4.75) Min. Value Height Parameter 48 Max. V kg mm (in) mm (in) mm (in) Unit B.3.
-25 Temperature - storage © Zinwave Ltd. 2007 0 1 Optical interfaces Temperature - operating 1 RF interfaces Nom. 1 DC Min. Value Power supply interface – PoE Power consumption Power supply frequency Parameter +55 +45 15 Max. C C o o - - - W - Unit SC-Duplex N-type female IEC 60603-7 (RJ-45) Comments Page 66 April 2007 Issue 1.
Zinwave 2700 DAS – User Manual Issue 1.2 April 2007 Appendix C Glossary of terms C.1 Abbreviations 2G 3G AGC AP AU CDMA CEN CENELEC CISPR CLI DAS dB dBm DCS EDGE EMC EN ESD ETSI EVDO FCC GSM HU Hi-conn iDEN IEC LMR MMF © Zinwave Ltd.
Zinwave 2700 DAS – User Manual Issue 1.2 April 2007 R&TTE RF RMA Rx (RX) SFP SMF SNMP TDMA TETRA Tx (TX) UMTS VSWR W-CDMA WLAN © Zinwave Ltd.
