Appendix A: WIMAN Hardware 8.2 Antenna systems Different antenna systems can be used with the WIMAN radio modem: Part.-No. 750081 750040 750061 750062 Matchcode AN-242MN360FMEM AN-2416PL24-NF AN-2424PF8-NF AN-2416PL85-NF Type Omni directional Omni directional, 3° downtilt planar planar paraflector Planar Gain [dBi] 2 8 8,5 16 24 16.
Appendix A: WIMAN Hardware • Omni directional antennas Typically these antennas are used with WIMAN STAR stations.
Appendix A: WIMAN Hardware • Planar antennas These antennas are mainly used at the customer side in connection with the WIMAN ACCESS. They can be used also for point-to-point connections with WIMAN LINE units. AN-24-8PL76-SMAF 8.
Appendix A: WIMAN Hardware • Paraflector antennas These antennas were developed mainly for point-to-point connections over long distances.
Appendix A: WIMAN Hardware 8.3 Hybrid-cable sets Nachfolgend sind einige Anschlussbeispiele für die verschiedenen Hybridkabel aufgeführt. Eine genaue Beschreibung der einzelnen Hybridkabel ist in Kapitel 8.4 auf Seite 78 nachzulesen. 8.3.1 Standard Connection (Indoor) using Hybrid cable Type 1 Hybrid-cable Type 1 is only used when a WIMAN is directly connected to a Router (e.g. CISCO). This type of connection can be used for devices, which are in close range to the Router (Indoor-Installation).
Appendix A: WIMAN Hardware 8.3.2 Outdoor Installation using Hybrid cable Type 2 & 3 and Datacable This connection is used when the WIMAN is installed on a rooftop or a radio tower and is synchronized among other WIMAN devices. In addition a data cable (12x2) is needed. (H2-X21C-25) (H3-X21C-37) SMA F Syncronization SubD 15 F SubD 9 F DIN M X.21 Datacable (max. 100m) Config WIMAN 12 x 2 24 V SubD 25 M SubD 25 F SubD 25 F SubD 25 M SubD 37 F Sample: WIMAN Access Outdoor-Set (incl.
Appendix A: WIMAN Hardware 8.3.3 Connection of a remote POP with WIMAN LINE and STAR This link is used for a remote Point Of Presence, if a WIMAN STAR is connected via a WIMAN LINE link. Here the STAR receives the synchronisation impulses likewise via the LINE link. (H4-X21C-37) SMA F Zeromodem X.21 Hybrid Cable Type 4 (NULL-X21C-15) (H4-X21C-37) SMA M Syncronization WIMAN SubD 37 F X.21 SMA M SMA F Syncronization Syncronization RG 316 SubD 15 M SubD 15 F SubD 15 F SubD 15 M X.21 WIMAN X.
Appendix A: WIMAN Hardware 8.4 Hybridcable In the following, all hybrid cables with their appropriate area of application are described. Note: The 37-pin SubD link (female) is always attached to the 37-pin SubD link (male) of the WIMAN. 8.4.1 Hybridcable used for X21-configurations Zeromodemcable (NULL-C21-15) Zeromodemcable for direct connection of 2 WIMAN devices. In addition a Hybrid cable Type H4 is needed.
Appendix A: WIMAN Hardware Hybridcable Type 2 (H2-X21C-25) This Hybrid cable is being used as an internal termination cable when installing a WIMAN on a readio-tower on on a rooftop. The 25pin SubD-plug (male) is connected to the 12x2 Datacable, which leads from the WIMAN to the Router. All other connectors are the same as on Hybrid cable type 1.
Appendix A: WIMAN Hardware Hybrid cable Type 4 (H4-X21C-37) This hybrid cable is used with a Peer to Peer structure of a remote POP. For this an additional NULL-X21C-15 cable, a synchronisation bus, a data cable (12x2) and a hybrid cable Typ2 becomes necessary (schematic structure see further above.
Appendix A: WIMAN Hardware 8.4.2 Hybrid cable when using the IP-routing-functionality RJ45-Connectionbox (HA-ETH-45) This link box is attached between the Ethernet cable of the local network and the hybrid cable H3-eth-37ext. Into the box the current supply link of the WIMAN, which is connected to the power pack, is integrated.
Appendix A: WIMAN Hardware Hybrid cable Ethernet 2 (H2-ETH-25) This hybrid cable is used as internal terminal cable with radio tower installations or installation of the WIMAN on a rooftop. The 25-pin SubD (male) link is connected to the data cable (12x2), which leads from the WIMAN (outdoor) to the inward. The further interfaces correspond to those of the hybrid cable Type Ethernet 1.
Appendix B: Technical data 9 Appendix B: Technical data Product outline WIMAN Star, Access high-speed transfer in point-tomulti-point mode WIMAN Line flexible point-to-point transfer Radio Frequency range 2.400 - 2.4835 GHz Type of modulation Spread Spectrum Frequency Hopping 2-FSK, 4-FSK Number of channels 80, non-overlapping Wireless interface 1 Mbps, 2-FSK 2 Mbps, 4-FSK Transmitting power 100 mW (ETSI-Version) (E.I.R.P.) 4 W (FCC-Version) (E.I.R.P.
Appendix B: Technical data Protocols Point-to-point-mode Synchronous Transparent (HDLCframe structure) Point-to-Multipoint-mode Synchronous operation Frame Relay Packet Switching Antennas Mobile antenna Omnidirectional 2 dBi Fixed antennas Omnidirectional 8 dBi Planar 8.5 dBi Planar 16 dBi Paraflector 24 dBi Mass & weights (without antennas) WIMAN-device 176 x 110 x 40 mm, 1050 g Outdoor box 300 x 190 x 85 mm, 2200 g General Voltage supply 12 – 26 V =; max.
Appendix C: Pin-allocation of the Datacables 10 Appendix C: Pin-allocation of the Datacables 10.1 WIMAN Datacable (10 x 2) Pin Wire color (1. line) 1 2 3 4 5 6 7 8 9 10 11 12 13 White/Grey White/Yellow Yellow/Brown White Brown Grey/Brown Green Yellow Pink Grey Table 7 Pin 14 15 16 17 18 19 20 21 22 23 24 25 Wire color (2.
Appendix C: Pin-allocation of the Datacables 10.2 WIMAN Datacable (12 x 2) Pin 1 2 3 4 5 6 7 8 9 10 11 12 13 Wire color (1. line) White/Grey Grey/Brown White/Yellow Yellow/Brown White Brown White/Blue Brown/Blue Green Yellow Pink Grey Table 9 Pin 14 15 16 17 18 19 20 21 22 23 24 25 Wire color (2.
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12 Index 12 Index Will be created later 88 / 90
13 Index of figures 13 Index of figures Figure 1 Figure 2 Figure 3 Figure 4 Figure 6 Figure 7 Figure 8 Figure 9 Point-to-Point connection using WIMAN LINE.........................................10 wireless access networks with WIMAN STAR and WIMAN ACCESS .....11 Standard Frame Relay applications.........................................................12 Diagram of the different operating modes ...............................................15 exported configuration file ................................
14 Index of tables 14 Index of tables Table 1 Table 2 Table 3 Table 4 Table 5 Table 6 Table 7 Table 8 Table 9 Table 10 Table 11 parameters of an extended point-to-point connection (connection 1) ..... 54 parameter of an extended point-to-point connection (connection 2) ....... 54 Structure of the 2 Byte long address array.............................................. 59 NodeId with 2-Byte-Frame Relay address array .....................................