SpiderCloud Radio Node - SCRN-200 Hardware Installation Guide Step 2 Route the Ethernet cable through the pedestal base cable opening and through the cable guards. Insert the RJ-45 connector into the Ethernet port as shown in Figure 13: RJ-45 Connector in Ethernet Port Cable Opening Cable Guard Spring Clip Figure 13 Route and Terminate the Cable Step 3 Slide the pedestal base of the radio node into the groove opening in the mount bracket.
SpiderCloud Radio Node - SCRN-200 Hardware Installation Guide Installing the Radio Node (Method 2) To route the cable directly and mount the radio node Step 1 Route the Ethernet cable through the large hole in the mounting bracket. Figure 15 Mount Bracket with Direct Cable Routing Step 2 With two user-provided screws, attach the mount bracket assembly to a wall or ceiling. The screw holes are sized for an M4 (#10) screw.
SpiderCloud Radio Node - SCRN-200 Hardware Installation Guide Step 5 Slide the pedestal base of the radio node into the groove opening in the mount bracket. When the pedestal reaches the end of the trough, a spring clip will secure the unit into place. Figure 17 Fully Mounted Completing the Installation Step 1 For radio nodes for use with external antennas, attach the antennas to the TNC connectors. If the radio node is mounted on a horizontal surface, direct the antennas downward.
SpiderCloud Radio Node - SCRN-200 Hardware Installation Guide Step 2 Attach a padlock or cable tie wrap through the cutout lock holes in the mount bracket and pedestal base. Figure 19 Padlock and Lock Holes The lock in the above figure is shown schematically. The orientation is for illustration purposes (not accurate) since the bracket is typically wall or ceiling mounted. Note Step 3 The radio node boots up and attempts to connect to the services node.
SpiderCloud Radio Node - SCRN-200 Hardware Installation Guide Boot Sequence and Services Node Communication On initial boot, the radio node performs the following boot sequence and communicates with the services node. This sequence takes about one minute to complete.
SpiderCloud Radio Node - SCRN-200 Hardware Installation Guide Radio Node LED Boot Sequence The radio node state machine is sequential and progresses in the following order: State 0 -> State 1 -> State 2 -> State 3 -> State 4 -> State 5 A normal boot sequence transitions through all these states sequentially and the LED state transitions accordingly. If the radio node fails to transition to the next state, the system restarts the boot sequence, starting with State 0.
SpiderCloud Radio Node - SCRN-200 Hardware Installation Guide Table 3: Radio Node LED Boot Sequence (continued) State 4. Operating System Booting LED Color Description Green Flashing The radio node loads the operating system and starts the default platform applications. The radio node moves to the next state (State 5) when it establishes connectivity with the service node. 5. Running Green Solid The operating system is running.
SpiderCloud Radio Node - SCRN-200 Hardware Installation Guide The SpiderCloud Documentation Set The SpiderCloud documentation set includes: • The SpiderCloud System Description provides an overview of how the SpiderCloud system fits within an operator’s network and in an enterprise, describes key features of the system, and provides specifications for the services and radio nodes.
SpiderCloud Radio Node - SCRN-200 Hardware Installation Guide Appendix, Antenna Patterns 0º UMTS Band Antenna Patterns 90º Up Front 0o 3 dB -30o 30o 0 -3 -6 -60o 60o -9 -12 -15 90º -90o 9 0o -15 0º -12 -9 -6 -120o Front 120o 90o 3 dB 120o -3 0 -150o 60o 0 -3 150o 3 dB -6 150o 180o 1 30o -9 AUT = 2140 MHz : Max Gain = 2.59 dBi at 90 o 1 AUT = 2140 MHz : Max Gain = -0.
SpiderCloud Radio Node - SCRN-200 Hardware Installation Guide UMTS Low Band Antenna Patterns 0º 90º Up 0o Front 3 dB -30o 30o 0 -3 -6 -60o 60o -9 -12 -15 90º o 9 0o 0º -15 -12 -9 Front -6 -120o 120o 90 o 3 dB 120o -3 0 -150o -3 150o 3 dB -6 150o 30o -9 180o -12 AUT = 915 MHz : Max Gain = -0.38 dBi at 30o 1 1 -15 AUT = 915 MHz : Max Gain = -0.
SpiderCloud Radio Node - SCRN-200 Hardware Installation Guide PCS Band Antenna Patterns 0º 90º Up 0o Front 3 dB -30o 30o 0 -3 -6 -60o 60o -9 -12 -15 -90o 9 0o 90º -15 -12 0º -9 -6 -120o 120o -3 90o Front 3 dB 120o 0 -150o 60o 0 -3 150o 3 dB -6 150o 180o AUT = 1960 MHz : Max Gain = 4.
SpiderCloud Radio Node - SCRN-200 Hardware Installation Guide DCS Band Antenna Patterns 0º 90º Up Front 0o 3 dB -30o 30o 0 -3 -6 -60o 60o -9 -12 90º -15 -90o 9 0o 0º -15 -12 -9 90o Front -6 -120o 3 dB 120o 120o -3 0 -150o 60o 0 -3 150o 3 dB -6 150o 30o -9 180o -12 AUT = 1844 MHz : Max Gain = 3.55 dBi at 54 o 1 1 -15 AUT = 1844 MHz : Max Gain = 0.
Index A L activity LED 9 altitude range 7 antenna external 6 external orientation 17 ports 10 antennas 9 LED boot sequence 20 management 21 length 7 link LED 9, 10 locating 12 B boot sequence LED 20 bottom view 6 M mount bracket 13 N NRTL Marking 8 C cabling guidelines 14 CB certification 8 CE marking 8 compliance 8 connector, TNC 6 D O operating humidity range 7 operating temperature range 7 P detaching 18 DHCP request 19 pedestal base 13 ports 9 ports, antenna 10 power 7 E R environmental r
Index U UMTS bands 7 W weight 7 width 7 28 SpiderCloud Wireless, Inc.
