Xeta9 XetaWave Ethernet Bridge
Contents
1. Good Headers Rx 0 Good Headers Rx 0 ICMP frames 0 TCP frames 427 S E Good Data Rx 0 GoodDataRx 0 UDP frames _ 167 Frags 0 Frags 0 TCP frames 531 Consumed 0 Consumed 0 Broadcast frames Tx bridged 0 Tx bridged O ARP frames 9 ICMP frames 0 UDP frames 0 TCP frames 0 Other events 0 The statistics window opens in a new window and displays a table of the number of Ethernet frames counted by the device These are classified according to whether they were transmitted received for the local IP address or received as broadcast frames and divided into IP protocol types Since the values can continue to change the user can update the window by clicking on the Refresh button It is also possible to reset the counters if desired by clicking on Reset frame stats The ARP cache is also displayed and can be cleared by clicking on Delete ARP entries These are equivalent to the DOS commands arp a to display the local ARP cache and arp d to delete it Notice that when the ARP cache is deleted via the web page there will always remain one entry this being the PC which commanded the deletion of the ARP table and updated the table Due to the network activity it will always immediately be re entered 59 A HETAUJAVE 3 12 Diagnostics Radio Statistics A XetaWave Ethernet Bridge HETRUJAWE Radio Statistics Auto Refresh 30 Seconds Radio 1 Radio Temp2. Multi Point 5 Configure RF Network parameters and type The Network address is an identifier used to allow a group of radios to communicate and exclude non member radios In this example the number 2000 has been used The Network Radius indicates the maximum distance between the Master radio and the furthest remote The default unit is in kilometers KM but the units can be expressed as miles as in the example below The Upstream address should be set to the DevicelD of the Master radio Downstream Device ID s are not relevant for a radio configured as a Point to Multi Point slave and can be ignored Make sure the Network Type is set to Point to Multipoint and the Mode is set to slave Make sure the Network Type is set to Point to Multipoint and the Mode is set to slave Finally verify that the Protocol is set to Ethernet Firefox JS XetaWave Ethernet Bridge Radio Setup amp 192 168 0 3 Ucontig htm e E Google PO A Most Visited TechCrunch techrockies com VE VentureBeat o eCollege Login XetaWave Ethernet Bridge Radio 1 ID 2001 Master Ethernet Master v Reload List RF Band GISM OMAS Description Ethernet Master ISM MAS Band Start 902 0000 MHz Stop 928 0000 MHz Xmit Freq 952 206250 MHz Exclude Lower 0 MHz Upper 0 MHz Recv Freq 928 206250 MHz ISM Power 1000 mW MAS Power 2000 mW Hop Pattern 1 1110 kbps BPSK 1057 kbps 2FSK 1114 kbps
3. is set to 0 and the Master Repeat setting is set to 3 Master Transmit Rate 2651 kbps 8PSK multispeed multipoint Max Payload Bytes Master 1024 Slave 1024 Dynamic Off Beacon Rate Lz Network Address 2000 Network Radius 24 km v Upstream Device ID 2002 Downstream Device ID 2002 Network Type Point to Multipoint Mode Master v IDI ROS DALAI MMS MMS Hop Offset ES Master Repeat SA Serial Number E50112E4 Firmware Version 1 33 3079 19 Quick Start Multi Point 6 2 Most Visited D I TechCrunch techrockies com VE VentureBeat eCollege Login Configure RF Network parameters and type The Network address is an identifier used to allow a group of radios to communicate and exclude non member radios In this example the number 2000 has been used The Network Radius indicates the maximum distance between the Master radio and the furthest remote The default unit is in kilometers KM but the units can be expressed as miles as in the example below The Upstream and Downstream Device ID s are not relevant for a radio configured as a Point to Multi Point Master and can be ignored Make sure the Network Type is set to Point to Multipoint and the Mode is set to master Finally verify that the Protocol is set to Ethernet Firefox Y J XetaWave Ethernet Bridge Radio Setup 192 168 0 3 Uconfig htm E Google a XetaWave Ethernet Bridge Radio 1 ID 2001 M
4. 928 960 MHz requires a license from the governing regulatory authority 1 Navigate to the RF Transmission Settings page 2 Select the MAS band and configure the Xmit Freq which is the frequency the Master will use to Transmit and slave radios will use for receive Next configure the Recv Freq which is the frequency the Master will use to receive and slave radios will use to transmit Next set the output power of the radio s transmitter in milliwatts by specifying the MAS Power setting H XetaWave Ethernet Bridge Radio Setup amp 19216803 fight c B Googie PO A ge Most Visited D I TechCrunch techrockies com VE VentureBeat fr eCollege Login XetaWave Ethernet Bridge Badio 1 ID 2001 Master Ethernet Master y Reload List RF Band SME MS Description Ethernet Master ISM MAS Band Start 9020000 MHz Stop 928 0000 MHz Xmit Freq Hz Exclude Lower 0 MHz Upper 0 MHz Recv Freq Hz ISM Power 1000 mW MAS Power mw Hop Pattern 1 10 kbps BPSK 57 kbps 2FSK 114 kbps 2FSK JO Rips SKE 19 kbps 4FSK 12 5kHz 153 kbps 2FSK 229 kbps 4FSK 19 kbps 2FSK 25kHz Slave Transmit 305 kbps 4FSK 663 kbps 2FSK 20 kbps QPSK Rates 884 kbps BPSK 1768 kbps QPSK 31 kbps 8PSK 2651 kbps 8PSK 3535 kbps 16QAM 3535 kbps 16PSK 39 kbps 4FSK 25kHz 41 kbps 16QAM 7151 kbps 32QAM Master Transmit Rate 2651 kbps 8PSK multispeed multipoint MMS None e Max Payload Bytes Master 256 Slave 256 Dynamic of MMS Hop Offset o Beacon
5. Disable VLAN mode If selected this command disables VLAN mode and resets the device 63 Appendix A 5 Appendix A Serial Pin Assignments 5 1 Serial Pin Assignments for Enclosed Ethernet Radios The following diagram shows the Serial pin assignment enclosed Ethernet radios The Xeta9E serial ports have hardware to support RS 232 422 and 485 The following table shows the pin definitions for RS 232 422 and 485 Pin RS 232 RS 422 RS 485 1 DSR 2 DCD 3 DTR 4 GND GND GND 5 TXD RX B 6 RXD TX B 7 CTS TX B 8 RTS RX B 5 2 Serial Pin Assignments for Xeta9x E Emancipator The pin definitions above are the same for Xeta9x E with the exception that the Xeta9x E has 1 serial port Serial Pin Assignments pin 8 pin 1 64 Appendix B 6 Appendix B Status LEDs Enclosed Ethernet radios have PWR XMIT TX and MODE RCV RX LEDs The PWR LED shows radio power and link state A red PWR LED indicates that the radio has power but is not linked A green PWR LED indicates that the radio has power and is linked Radios configured to Point to Multipoint Master radio always show a green PWR LED All other radio configurations show a red PWR LED upon power up until the radio link is established When the link is established the PWR LED becomes green If the link is dropped then the PWR LED returns to red The XMIT TX LED flashes red every time the radio transmits data Dep
6. Occ This stands for Occupancy and indicates the of the time the radio went to transmit on the specified frequency and the noise measured was below the noise threshold specified on the RF Transmission Settings page 60 A HETAUJAVE 3 13 Terminal Server Statistics XetaWave Ethernet Bridge Terminal Server Statistics This page reports current connections and statistical information for the radio s terminal servers installed RF modules and local serial ports Received Serial Frames the number of serial frames determined by inter message delay or buffer thresholds that have been received on the interface Received Serial Bytes the number of serial bytes that have been received on the interface Transmitted TCP Frames the number of serial frames that have been transmitted by the terminal server that is servicing the interface Transmitted TCP Bytes the number of bytes that have been transmitted by the terminal server that is servicing the interface Received TCP Frames the number of TCP frames received by the terminal server that is servicing the interface Tx TCP Frames Dropped the number of frames dropped by the terminal server that is servicing the interface This is usually the result of not having a TCP connection Tranmitted Serial Bytes the number of serial bytes that have been transmitted on the interface 61 A HETAUJAVE Server Connections a running count of th
7. then setting the first radio to 0 and the second radio to 3 results in the radios transmitting at frequencies O and 3 for the first slot then frequencies 1 and 4 for the second slot 2 and 5 for the third slot 3 and 6 for the fourth slot 4 and 1 for the fifth slot and so on This permits frequency separation between the radios Note that the remote radios will be monitoring all of the RF transmits but will only synchronize when the network address and the master device ID match Thus each master radio on a MMS system must have a unique network address 49 The Master Repeat sets the maximum number of times the master will repeat a transmit packet in the absence of an acknowledgement from the remote unit This is applicable only for a Point to Multi Point network Thus if set to 3 then the master will repeat a packet up to three times unless the remote unit acknowledges receipt at which time the master will move to the next packet that there will be a near equal number of O bits and 1 bits If the data is not scrambled then there may be significantly more O or 1 bits which could affect performance The Protocol options are Serial and Ethernet and this is set based upon the type of data being carried on the network Due to the larger size of Ethernet frames additional RF overhead is needed to maintain the frame size The Serial data is passed as it is received with no assumed frami
8. 256 Dynamic Of 0O MMSerQffet Beacon Rate 1 Master Repeat Network Address 2000 Network Radius 15 Upstream Device ID Serial Number E50112E4 Downstream Device ID Firmware Version 1 33 3079 Network Type Point to Multipoint Mode Master Device ID 2001 _ Modify Radio Settings Retresh a Protocol Senal v f e Refresh Single Scan Delete List Serial Framing Byte Mode Diag T 20 8 RF Protocol Settings for an Ethernet network 4 Foran Ethernet network set the initial Max Payload Size for both the Master and Slave settings to 256 These settings can be modified later based on your traffic requirements Set Dynamic payloads to ON for an MAS network All radios in the network have to have the same setting Confirm that the Beacon Rate is set to 1 that the MMS setting is None MMS Hop Offset is set to 0 and the Master Repeat setting is set to 3 Master Transmit Rate 2651 kbps 8PSk v multispeed multipoint MMS Max Payload Bytes Master 256 Slave 256 Dynamic On y MMS Hop Offset io Beacon Rate ia Master Repeat a Network Address 2000 Network Radius 24 km se Upstream Device ID 2001 2 trell Device ID 2001 se GA Firmware Version 1 33 3113 Network Type Pointto Multipoint Mode Slave v 23 Quick Start Multi Point 5 Configure RF Network parameters and type The Network address is an identifier used to allow a group of radios to communicate and exclude n
9. 35 PA Temp 35 Bytes Tx 405953 Bytes Rx 12450 Xmit Rate Okbps Recv Rate 0 kbps Input Volt 4508 GE Success 100 Noise Signal EE EUA aa Min Min Avg ES Ra i Occ PA 20500000 115 4 a 2 85 85 96 80470000 ror ria m 1 84 as a5 oe 55 95 08 2 S 907100000 105 111 109 3 za 84 ES 909500000 107 113 109 30 61070000 ior 110 108189 a 84 1000 60 84 1009 59 XetaWave radios continuously monitor several important RF and radio operating parameters for each frequency channel it is utilizing These parameters are reported on this page Most of the values reported on this are self explanatory but clarification is provided for the following Xmit and Recv Rates These values report a very short running average and can effectively be considered instantaneous values As a result these numbers will generally be less than the maximum over the air data rate unless the measurements are taken during a sustained transmission Input Volt This reports the voltage in millivolts supplied by the Xeta9 E to the RF Module not the voltage supplied to Xeta9 E through its external power connector Fwd Pwr This is the radio s output power measured during transmission in milliwatts Rev_Pwr This is the power that is reflected back into the radio during transmission in milliwatts High values for Rev_Pwr are indicative of problems with RF cabling and or the antenna
10. ARP Once the MAC address of the default gateway is acquired the radio will periodically re ARP for the gateway to ensure connectivity is maintained in the event the default gateway is moved due to a redundancy protocol such as HSRP or VRRP Management VLAN internally XetaWave radios have a virtual Ethernet port to accept traffic destined for the radio s IP address The VLAN specified here is the one associated with this internal virtual Ethernet port In order to access the radio s IP address inbound traffic must enter the radio on the same VLAN as the radio s internal virtual Ethernet port The default setting is 1 Ethernet speed speeds of 10 Mbps 100 Mbps or auto negotiation speed and duplex can be set 41 A HETAUJAVE 3 2 1 VLAN Configuration VLAN Membership and Tagging XetaWave Ethernet radios function as 5 port Enterprise Ethernet switches by implementing 802 1q VLANs and trunks The five ports that participate in the Ethernet switching process are Port Interface Description Physical Ethernet interface which can function as an access Ethernet 1 port an 802 1q trunk or both Physical Ethernet interface which can function as an access Ethernet 2 port an 802 1q trunk or both Radio 1 Wireless interface which functions as an 802 1q trunk Radio 2 Wireless interface which functions as an 802 1q trunk Virtual Ethernet interface internal to the radio which Management functions a
11. PE 11 Yagi Larsen YA5900W 50 3 79 directional B tati PRO890 AR er 12 Yagi Wavelink 50 directional 12 B tati eee lla Yagi Laird YB8966 50 directional Base station gs Tubular Wavelink PRO902 8 50 omni directional vertical Base station 5 Tubular Wavelink PRO902 5 50 omni directional vertical en 5 ed Laird FG9023 50 omni directional vertical Base station 8 Tubular Laird FG9026 50 UL Notifications This equipment is suitable for use in Class I Division 2 Groups A B Cand D OR non hazardous locations only WARNING EXPLOSION HAZARD Do not disconnect equipment unless power has been removed or the area is known to be non hazardous WARNING EXPLOSION HAZARD Substitution of components may impair suitability for Class I Division 2 Input power shall be derived from a single Class 2 power source or equivalent The maximum operating temperature of the devices while subjected to the temperature test at a 85 C surrounding air temperature is in accordance with the temperature class of the table below Xeta9x9 E Xeta9 E Xeta9x3 E Xeta1 E Xeta1x1 E Xeta2 E Xeta2x1 E Xeta2x2 E Xeta3 E Xeta3x1 E Xeta3x2 E Xeta3x3 E Xeta4 E Xeta4x1 E Xeta4x2 E Xeta4x3 E Xeta4x4 E Xeta9 E Xeta9x1 E Xeta9x2 E Xeta9x4 E Xeta9m R Xeta9m T Xeta9 SB Xeta9m R4V Xeta9m T4V Xeta3m R Xetalm R Xetalm T Xeta2m R Xeta2m T Xeta3m T Xeta4m T Xeta4m R To maintain the unit within the tempe
12. RF modules it is necessary to select which module to use for the test Once the test is initiated it will attempt four pings at the RF protocol level and each successful ping will report signal and noise information for both the local and far side of the link With the utility it is possible to e Verify that a remote slave radio can be heard by the master radio e Verify a specific slave is connected to the master and able to communicate e Obtain link performace information at the master for a specific link 58 A HETAUJAVE o 3 11 Diagnostics LAN Statistics Ci A can xetaWave Ethernet Bridge Configur XetaWave Ethernet Bridge stats x an kaf e amp 192 168 0 101 Bstats htrm el Googie PA s Most Visited Getting Started Workspace Login EI Bookmarks a XetaWave Ethernet Bridge statistics HETAWAVE Radio 1 bridging Radio 2 bridging IP frame ARP statistics Bad Syncs Rx 0 Bad Syncs Rx 0 RX Number of frames Number of frames ARP entries in cache IF Bad Headers Rx 0 Bad Headers Rx 0 Total RX frames 712 Total TX frames 462 192 168 0 1 84 8f 69 d2 31 36 Ethernet Bad Data Rx 0 Bad Data Rx 0 Overruns 0 ARP frames 35 x Gs i Frag dropped 0 Frag dropped 0 Frames to us ICMP frames 0 ES Tx dropped 0 Tx dropped 0 ARP frames 5 UDP frames 0 k
13. Rate 1 Master Repeat 3 Network Address 2000 Network Radius 15 mies v Upstream Device ID 4 Serial Number E50112E4 Downstream Device ID Firmware Version 1 33 3079 Network Type Point to Multipoint Mode Master Device ID 2001 vu Radio Settin Refresh Al Protocol Sera gt e a Serial Framing Byte Mode ee Delete Diag Threshold 20 dem 22 Quick Start Multi Point 3 Configure Transmit rates While XetaWave radios support Multi speed Multi point for an initial configuration it is best to start with a single speed to simplify trouble shooting The ideal setting is a function of distance throughput required transmit power and radio noise in the area Firefox DE XetaWave Ethernet Bridge Radio Setup 3 19216803 Uconfio nt Eu Googie Most Visited EZ TechCrunch techrockiescom VI VentureBeat By eCollege Login V XetaWave Ethernet Bridge Radio 1 ID 2001 Master Ethernet Master v Reload List RF Band ISM 9 MAS Description Ethernet Master ISM MAS Band Start 902 0000 MHz Stop 928 0000 MHz Xmit Freg 952 206250 MHz Exclude Lower 0 MHz Upper 0 MHz Recv Freg 928 206250 MHz ISM Power 1000 mW Hop Pattern 1 10 kbps BPSK 57 kbps 2FSK 114 kbps 2FSK 153 kbps 2FSK 229 kbps 4FSK bs RE A 305 kbps 4FSK 11663 kbps 2FSK ude 884 kbps BPSK 11768 kbps QPSK en 712651 kbps 8PSK 13535 kbps 16QAM 3535 kbps 16PSK Master Transmit Rate 2651 kbps 8PSK multispeed multipoint Max Payload Bytes Master 256 Slave
14. a Serial network 6 Fora Serial network set the initial Max Payload Size for both the Master and Slave settings to 256 These settings can be modified later based on your traffic requirements Set Dynamic payloads to ON for an MAS network All radios in the network have to have the same setting Confirm that the Beacon Rate is set to 1 that the MMS setting is None MMS Hop Offset is set to O and the Master Repeat setting is set to 3 24 Quick Start Master Transmit Rate 2651kbps8PSK multispeed multipoint MMS None Multi Point Max Payload Bytes Master 256 Slave 256 Dynamic On y MMS Hop Offset ay Beacon Rate Master Repeat Sua Network Address 2000 Network Radius 24 km ov cll SSC e 2001 Serial N E5011CC1 Omsen DEVICE ID 2001 Firmware Version 1 33 3113 Network Type Pointto Multipoint Mode Slave v Device ID Modify Radio Settings Refresh All ee AR Ge 7 Refresh Single Scan Delete List Serial Framing Byte Mode v Diag Threshold 80 dBm 7 Configure RF Network parameters and type The Network address is an identifier used to allow a group of radios to communicate and exclude non member radios In this example the number 2000 has been used The Network Radius indicates the maximum distance between the Master radio and the furthest remote The default unit is in kilometers KM but the units can be expressed as miles as in the example
15. below The Upstream and Downstream Device ID s are not relevant for a radio configured as a Point to Multi Point Master and can be ignored Make sure the Network Type is set to Point to Multipoint and the Mode is set to master Next verify that the Protocol is set to Serial Finally set Serial Framing to Message Mode if you are running Modbus or other message oriented protocol and set Serial Framing to Byte Mode for everything else Otter Leer k Paso Seng mian B A Mow vetea D Ven oeh tectroctiescom YE Venturetest Oy ofge Login EZ XetaWave Ethernet Bridge Fado 1D 2001 Mester Ederret Master z eco Leg ISM 9 MAS Description Eset Master Su MAS Banc Stat 902000 MHz Stop 90250000 MHz Xm Freq 05220020 MHz Exciude Lower o MHz Upper 0 Mhz Recv Freq 108206750 MHz ISM Power 1000 mW MAS Power 2000 mW Hop Pattern 10 kbps BPSK 57 kbps 2FSK 114 kbps 2FSX 10 Kops 2P8K D V 19 kbps 4SK 12 Ee 153 kbps 2F5K 229 kbps AP SK 19 kbps 2FSK 2SkHz 305 kbps 4FSK 663 kbps 2FSK oa 824 kbps BPSK 1768 kbps QPSK rio 2651 kbps GSK 3535 kbps 16QAM 39 kbps 4FSK 2 3535 kbps 1698K pride 7 51 kbps 320AM Master Transmit Rate 20511165 BPSK mullspeed multipoint MARS Noe Max Payicas Bytes Master 246 Stave 2 Dynamic of MMS Hop Offset H Beacon Rate Master Repeat 3 1 Network Address Network Radus wien e Upstream Device 10 e veer a Mose moden ce 25 Quick Start Multi Point 2 2 Rem
16. disconnected from the radio In addition to being powered off temporarily an RF module can be disabled by un checking the Enabled checkbox and pressing the Save Enable Disable button If an RF module is disabled it will remain powered off even through reboots and power cycles until it is manually enabled again on this page 44 A KETAUJAVE 3 4 RF Settings XetaWave Ethernet Bridge Radio 1 ID 2002 Slave Ethernet Slave _ ISM O MAS ISM v Reload List Description Ethernet Slave MAS Band Start 902 0000 MHz Stop 928 0000 MHz Xmit Freq 952 206250 MHz Exclude Lower 0 MHz Upper 0 ISM Power 1000 mW Hop Pattern 1 57 kbps 2FSK 114 kbps 2FSK 11153 kbps 2FSK 229 kbps 4FSK Slave Transmit 1305 kbps 4FSK 663 kbps 2FSK Rates 1884 kbps BPSK 1768 kbps QPSK 2651 kbps 8PSK 3535 kbps 16QAM 3535 kbps 16PSK Master Transmit Rate 2651 kbps 8PSK v multispeed multipoint Max Payload Bytes Master 256 Slave 256 Dynamic On v Beacon Rate 1 Network Address 2000 Network Radius 24 km v Upstream Device ID 2001 Downstream Device ID 2001 MHz Recv Freq 928 206250 MHz MAS Power 2000 mW 110 kbps BPSK 110 kbps 2FSK 12 5kHz 149 kbps 4FSK 12 5kHz 149 kbps 2FSK 25kHz 20 kbps QPSK 31 kbps 8PSK 39 kbps 4FSK 25kHz 41 kbps 16QAM 51 kbps 32QAM veger MMS Hop Offset 0 Master Repeat 3 Serial Number E5011CB1 Firmware Version
17. is set to master Next verify that the Protocol is set to Serial Finally set Serial Framing to Message Mode if you are running Modbus or other message oriented protocol and set Serial Framing to Byte Mode for everything else BE XetaWave Ethernet Bridge Radio Setup amp 1916803 f c B a Most Visited D TechCrunch techrockies com VE VentureBeat r eCollege Login XetaWave Ethernet Bridge Radio 110 2001 Master Ethernet Master y Reload List 9 ISM MAS Description Ethernet Master ISM MAS Band Start 902 0000 MHz Stop 928 0000 MHz Xmit Freq 952 206250 MHz Exclude Lower 0 MHz Uppero MHz Recv Freq 923 206250 MHz ISM Power 1000 mW MAS Power 2000 mW Hop Pattern 1 10 kbps BPSK 57 kbps 2FSK 114 kbps 2FSK BO SERS ENE 19 kbps 4FSK 12 5kHz 153 kbps 2FSK 1229 kbps 4FSK basiller 305 kbps 4FSK 11663 kbps 2FSK 884 kbps BPSK 1768 kbps QPSK 3 Ss Se v 2651 kbps 8PSK 3535 kbps 16QAM 3535 kbps 16PSK 39 kbps 4FSK 25kHz 41 kbps 16QAM V 51 kbps 32QAM Master Transmit Rate 2651 kbps 8PSK multispeed multipoint MMS Max Payload Bytes Master 256 Slave 256 Dynamic of MMS Hop Offset Beacon Rate Master Repeat 1 Network Address 2005 Network Radius mies gt Upstream Device ID Serial Number 50112E4 Downstream Device ID Firmware Version 1 33 3079 Network Type Mode Device ID Protocol Serial Framing 21 Quick Start Multi Point 2 1 2 2 MAS Settings Note Operating the radio in the MAS spectrum
18. to support functional access over slow speed links The IP address of the radio can be changed by the user at anytime thus if the IP address of the unit is not known then one must use the serial COM interface to either discover the IP address or to reset the unit back to factory 192 168 0 3 condition Due to slightly different behaviour among web browsers it may occasionally be necessary to manually refresh a page or click on the link on the left navigation bar to reload a page 37 3 1 Main Menu XetaWave Ethernet Bridge Device Name XetaWave Device ID 2001 IP Address 192 168 0 3 Ethernet Firmware 2 03 3118 Name Ethernet Master Radio 1 ID 2001 Point to multipoint Master Firmware 1 33 3115 Radio 2 Not Present MAC Address 70 1 e5 01 1e 24 Serial Number E5 01 1E 24 Save Device Name Validate Settings Device name user definable name to permit easier user identification with the device When Save Device ID name is clicked the new value is also saved in the internal flash for use after the next reset or power Up Device ID the Device ID is used to uniquely identify radio nodes in a XetaWave RF network This value currently displays the Device ID configured for the first installed RF module IP address displays the IP address configured on the Network Settings page Ethernet firmware displays the version number for the currently running Ethernet firmware Radio 1 displays inf
19. whether the radio is operating within the unlicensed ISM or licensed MAS spectrum The RF settings will also differ slightly if the radio is operating within an Ethernet or Serial wireless network The following sections will cover each case 2 1 2 1 ISM Settings 1 Navigate to the RF Transmission Settings page 2 Select the ISM band and configure the Start and Stop frequencies within the ISM band that are will be used by the radio network Typically these values will be set to 902 000 and 928 0000 respectively for an initial setup 17 Quick Start Multi Point 3 J XetaWave Ethernet Bridge Radio Setup 3 19216803 0c0nfig hv e E Googie PBD A e E Most Visited E TechCrunch techrockies com VI VentureBeat y eCollege Login E XetaWave Ethernet Bridge Radio 1 ID 2001 Master Ethernet Master Reload List Description Ethernet Master RF Band Gsm MAS ISM MAS Band Stat 902 0000 MHz Stop 9280000 MHz Xmit Freq 952206250 MHZ Exclude Lower 0 MHz Upper 0 MHz Recv Freq 928 206250 MHz ISM Power 1000 mW MAS Power 2000 mW Hop Pattern 1 10 kbps BPSK 57 kbps 2FSK 114 kbps 2FSK Hee RNS do 19 kbps 4FSK 12 5kHz 153 kbps 2FSK 229 kbps 4FSK 19 kbps 2FSK 25kHz Slave Transmit 305 kbps 4FSK 663 kbps 2FSK 20 kbps QPSK Rates 884 kbps BPSK 1768 kbps QPSK 31 kbps 8PSK 7 2651 kbps 8PSK 3535 kbps 16QAM 7 3535 kbps 16PSK 39 kbps 4FSK 25kHz 41 kbps 16QAM 7151 kbps 32QAM Master Transmit Rate 2651 kbps
20. 01 Master Ethernet Master ISM OMAS ISM Band Start Exclude Lower 0 MHz Upper 0 ISM Power 1000 mW Hop Pattern 1 57 kbps 2FSK 153 kbps 2FSK 305 kbps 4FSK 114 kbps 2FSK 229 kbps 4FSK 663 kbps 2FSK 1768 kbps QPSK 3535 kbps 16QAM vlaster Transmit Rate Max Payload Bytes 57 kbps 2FSK 114 kbps 2FSK Beacon Rate 153 kbps 2FSK Network Address 229 kbps 4FSK 305 kbps 4FSK 663 kbps 2FSK Network Type S Mode Master Device ID Protocol RF Protocol Settings for an Ethernet network 9020000 MHz Stop 928 0000 MHz Xmit Freq MHz Recv Freq Reload List Description Ethernet Master MAS 952 206250 MHz 928 206250 MHz MAS Power 2000 mW 10 kbps BPSK 10 kbps 2FSK 12 5kHz 19 kbps 4FSK 12 5kHz 19 kbps 2FSK 25kHz 20 kbps QPSK 31 kbps 8PSK 39 kbps 4FSK 25kHz 41 kbps 16QAM 7151 kbps 32QAM MMS None MMS Hop Offset D Master Repeat 3 Serial Number E50112E4 Firmware Version 1 33 3079 Modfy Radio Settngs Refresh Al Refresh Single Scan Delete List Diag Threshold 20 dBm 5 Foran Ethernet network set the initial Max Payload Size for both the Master and Slave settings to 1024 These settings can be modified later based on your traffic requirements Set Dynamic payloads to Off for an ISM network This setting can provide some improved performance on and ISM network but it is not a backward compatible setting All radios in the network have to have the same setting Confirm th
21. 1 33 3115 Network Type Pointto Multipoint Mode Slave Device ID 2002 Protocol Serial v Serial Framing Message Mode v Modify Radio Settings Refresh All Refresh Single H Scan Delete List Diag Threshold 80 dBm The upper portion of the RF Transmission page defines the frequencies and modulation used by the radio and the lower portion defines the networking parameters and how the radio works inside a network 3 4 1 RF Parameters The RF Band allows the radio to operate in the ISM 902 928MHz band or the MAS 928 960MHz band MAS is a licensed band and one is not permitted to use this band without an appropriate license The power levels of the ISM and the MAS if permitted bands are set in units of milli Watts from 10mW to 1000mW for ISM and from 10mW to 4000mW for MAS depending upon specific frequency Once the band is set the specific frequencies used must be defined For ISM a range of frequencies is used and the radio may hop between frequencies within the range For MAS specific frequencies are used for transmit and for receive and the radio maintains those frequencies at all times The ISM input requires a Band Start and a Stop frequency which must be no wider than 902MHz and 928MHz Additionally a range of frequencies within the band may be excluded Care must be taken so that enough frequencies are available for the radio to 45 hop within the required regulations In part
22. 1 level high will send a message when the level becomes high The message can be a one time only message or can repeat every hour while the state is high or low Finally the operation can be tested using the High and Low buttons The message format is shown below for the High and the Low cases lt 13 gt 1 192 168 0 54 Xeta9 E DIL is high 1 lt 13 gt 1 192 168 0 54 Xeta9 E DIl is low 0 3 7 1 I O and Advanced Settings for Xeta9x E Emancipator The settings above do not apply for the Xeta9x E because the Xeta9x E does not have the option for I O 55 A HETAUJAVE 3 8 System Administration XetaWave Ethernet Bridge Here you can change your user name and password and modify security settings Modify your user name if desired ADMIN Verify your present password Needed for changes and commands on this page Enter a new password A new password must be entered to modify user name Confirm your new password Must be identical to new password HTTP server authentication Enable login on to web server Trusted IP address 0 0 0 0 Set non zero to allow maintenance only from a trusted address 9 No action Modify and save user name password Desired Action Modify and save security settings O Restore factory settings Reset Reboot device Perform desired action Actions on this page are only accepted if the present password has also been entered correctl
23. 192 168 0 4 L Most visited E TechCrunch techrockiescom VE VentureBeat eCollege Login XetaWave Ethernet Bridge Radio 1 ID 2001 Master Ethernet Master H Description Ethernet Master ISN MAS Band Start 9020000 MHz Stop 9280000 MHz Xmit Freq 9522062 MHz Exclude Lower 0 MHz Upper 0 MHz Recv Freq 9282062 MHz ISM Power 1000 mW MAS Power 1000 mW Hop Pattern 1 57 kbps 2FSK 153 kbps 2FSK 305 kbps 4FSK RF Band 9 1SM MAS 114 kbps 2FSK 229 kbps 4FSK 663 kbps 2FSK 10 kbps 2FSK 12 5kHz 19 kbps 4FSK 12 5kHz Slave Transmit 19 kbps 2FSK 25kHz Rates 884 kbps BPSK 1768 kbps QPSK 7139 kbps 4FSK 25kHz v 2651 kbps BPSK 3535 kbps 16QAM 3535 kbps 16PSK Master Transmit Rate 2651kbps8PSK multispeed multipoint MMS None Max Payload Bytes Master 1024 Slave 1024 MMS Hop Offset 0 Beacon Rate Master Repeat 3 Device ID Modify Radio Setengs Refresh Protocol Network Address 29 Network Radius miles gt Upstream Device ID Downstream Device D Famware Version 1 322624 Sr CR S Diag Threshold 20 dBm RF Protocol Settings for a Serial network 5 For a Serial network set the initial Max Payload Size for both the Master and Slave settings to 256 These settings can be modified later based on your traffic requirements Set Dynamic payloads to Off for an ISM network This setting can provide some improved performance on and ISM network but it is not a bac
24. 2651 kbps 8PSK multispeed multipoint Max Payload Bytes Master 256 Slave 256 Dynamic On Beacon Rate 1 Network Address 2000 Network Radius 24 km y Upstream Device ID 2002 Downstream Device ID 2002 Network Type Point to Multipoint Mode Master p Device ID 2001 Protocol Ethernet Band Start 9020000 MHzStop 9280000 MHz Xmit Freq Exclude Lower Hz Upperd MHz Recv Freq 928206250 MHz ISM Power w MAS Power 2000 mW 952206250 MHz 10 kbps BPSK 10 kbps 2FSK 12 5kHz 19 kbps 4FSK 12 5kHz 19 kbps 2FSK 25kHz 20 kbps QPSK 131 kbps 8PSK 39 kbps 4FSK 25kHz 41 kbps 16QAM 7151 kbps 32QAM MMS None MMS Hop Offset 0 Master Repeat 3 Serial Number E50112E4 Firmware Version 1 33 3079 Modify Radio Settings Refresh All Refresh Single Scan Delete List Diag Threshold 80 dBm 29 Quick Start 4 Configure Slave and Master Transmit rates While XetaWave radios support Multi Point P Sa Multi speed Multi point for an initial configuration it is best to start with a single speed for remote radios to simplify trouble shooting The ideal setting is a function of distance throughput required transmit power and radio noise in the area Selecting a speed between 884 Kbps and 2 6 Mbps is often adequate for most links Firefox JE XetaWave Ethernet Bridge Radio Setup 1916803 B Most Visited D I TechCrunch techrockiescom VR VentureBeat fy eCollege Login Sa XetaWave Ethernet Bridge Radio 1 ID 20
25. 2FSK EO epee Res Ua 1153 kbps 2FSK 11229 kbps 4FSK ET ope SKE NE p SEN 19 kbps 2FSK 25kHz Slave Transmit 11305 kbps 4FSK 11663 kbps 2FSK 20 kbps QPSK Rates 11884 kbps BPSK 111768 kbps QPSK Pa GE 8PSK 712651 kbps 8PSK 113535 kbps 16QAM Sag 13535 kbps 16PSK 39 kbps 4FSK 25kHz 1141 kbps 16QAM 151 kbps 32QAM Master Transmit Rate 2651 kbps 8PSK multispeed multipoint MMS None Max Payload Bytes Master 1024 Slave 1024 Dynamic Off v MMS Hop Offset 0 Beacon Rate 1 Master Repeat 3 Network Address 2000 Network Radius 15 miles a Upstream Device ID Serial Number E50112E4 Downstream Device ID MS Firmware Version 1 33 3079 Network Type Mode Master e Device ID 2001 Modify Radio Settings Refresh All Protocol Ethemet v Refresh Single H Sen Delete List Diag Threshold 80 dBm Go back to menu page RF Protocol Settings for a Serial network 4 Fora Serial network set the initial Max Payload Size for both the Master and Slave settings to 256 These settings can be modified later based on your traffic requirements Set Dynamic payloads to ON for an MAS network All radios in the network have to have the same setting Confirm that the Beacon Rate is set to 1 that the MMS setting is None MMS Hop Offset is set to O and the Master Repeat setting is set to 3 35 Quick Start M u Iti a P oi nt Master Tra
26. 8PSK multispeed multipoint MMS None v Max Payload Bytes Master 256 Slave 256 Dynamic On MMS Hop Offset 0 Beacon Rate 1 Master Repeat 3 Network Address 2000 Network Radius 24 km Upstream Device ID 2002 Downstream Device ID 2002 Seeerei Network Type Point to Multipoint Mode Master h Device ID 2001 Modfy Radio Settngs Retresh Al Protocol Ethernet H Refresh Single Scan Delete List Diag Threshold 20 dBm Configure Exclusion zone ISM Output Power and the Hop Pattern Initially it is common that there is no exclusion zone configured In this case both the Lower and Upper values should be set to zero The ISM Power should be set to a value between 100 and 1000 mW depending on the deployment The Hop pattern should be set to 1 to enable a pseudo random hopping sequence J XetaWave Ethernet Bridge Radio Setup amp 19216803 e E Google PD A e Most Visited re TechCrunch techrockies com VR VentureBeat r eCollege Login V XetaWave Ethernet Bridge vs Radio 1 ID 2001 Master Ethernet Master Reload List RF Band ISM MAS Description Ethernet Master ISM MAS Hop Pattern 57 kbps 2FSK 114 kbps 2FSK 153 kbps 2FSK 229 kbps 4FSK Slave Transmit 305 kbps 4FSK 663 kbps 2FSK Rates 884 kbps BPSK 1768 kbps QPSK v 2651 kbps 8PSK 3535 kbps 16QAM 3535 kbps 16PSK Master Transmit Rate 2651 kbps 8PSK multispeed multipoint Max Payload Bytes Master 256 Slave 256 Dynamic On B
27. 9 kbps 4FSK 25kHz 41 kbps 16QAM TIO E 7151 kbps 32QAM ee Master Transmit Rate 2651 kbps 8PSK v multispeed multipoint MMS None v Max Payload Bytes Master 256 Slave 256 Dynamic On MMS Hop Offset 0 Beacon Rate 1 Master Repeat 3 Network Address 2000 Network Radius 24 km Upstream Device ID 2002 Downstream Device ID 2002 Seeerei Network Type Point to Multipoint Mode Master h Device ID 2001 Modify Radio Settings Refresh All Protocol Ethernet X Refresh Single Scan Delete List Diag Threshold 20 dBm Configure Exclusion zone ISM Output Power and the Hop Pattern Initially it is common that there is no exclusion zone configured In this case both the Lower and Upper values should be set to zero The ISM Power should be set to a value between 100 and 1000 mW depending on the deployment The Hop pattern should be set to 1 to enable a pseudo random hopping sequence J XetaWave Ethernet Bridge Radio Setup amp 19216803 e E Google PD A e Most Visited re TechCrunch techrockies com VR VentureBeat r eCollege Login V XetaWave Ethernet Bridge vs Radio 1 ID 2001 Master Ethernet Master Reload List RF Band ISM MAS Description Ethernet Master ISM MAS Hop Pattern 57 kbps 2FSK 114 kbps 2FSK 153 kbps 2FSK 229 kbps 4FSK Slave Transmit 305 kbps 4FSK 663 kbps 2FSK Rates 884 kbps BPSK 1768 kbps QPSK v 2651 kbps 8PSK 3535 kbps 16QAM 3535 kbps 16PSK Master Transmit Rate
28. K en 712651 kbps 8PSK 13535 kbps 16QAM 3535 kbps 16PSK Master Transmit Rate 2651 kbps 8PSK multispeed multipoint Max Payload Bytes Master 256 Slave 256 Dynamic Of 0O MMSerQffet Beacon Rate 1 Master Repeat Network Address 2000 Network Radius 15 Upstream Device ID Serial Number E50112E4 Downstream Device ID Firmware Version 1 33 3079 Network Type Point to Multipoint Mode Master Device ID 2001 _ Modify Radio Settings Retresh a Protocol Senal v f e Refresh Single Scan Delete List Serial Framing Byte Mode Diag T 20 8 RF Protocol Settings for an Ethernet network 4 Foran Ethernet network set the initial Max Payload Size for both the Master and Slave settings to 256 These settings can be modified later based on your traffic requirements Set Dynamic payloads to ON for an MAS network All radios in the network have to have the same setting Confirm that the Beacon Rate is set to 1 that the MMS setting is None MMS Hop Offset is set to 0 and the Master Repeat setting is set to 3 Master Transmit Rate 2651 kbps 8PSk v multispeed multipoint MMS Max Payload Bytes Master 256 Slave 256 Dynamic On y MMS Hop Offset io Beacon Rate ia Master Repeat a Network Address 2000 Network Radius 24 km se Upstream Device ID 2001 2 trell Device ID 2001 Se GA Firmware Version 1 33 3113 Network Type Pointto Multipoint Mode Slave v 34 Quick Start
29. LAN 1 4 Next an orange warning screen will appear as a safeguard from accidental changes Confirm your changes by selecting a validation period from the dropdown box and press the Continue with Save button Firefox J Critical Change Warning amp 192 168 0 3 3Lan htm c 70 f1 e5 01 17 148 amp 1i 192 168 0 3815 255 255 255 08 amp 19 192 16i I zi ve B Google Most Visited TechCruncl techrockies com VE VentureBeat eCollege Login Cancel Go to menu page 5 min validation period CONTINUE WITH SAVE 5 Next enter the radio s new IP address in the address bar of your web browser and load the page Note Depending on your computer s configuration it may be necessary to change or add an IP address on your computer to be on the radio s new subnet 27 Quick Start Multi Point 6 Once on the radio s Main page loads it will necessary to confirm your settings are functional by pressing the red Validate Settings button on the page BE XetaWave Ethernet Bridge e e amp 192 16803 0Menu C E Google PBD e B Most Visited TechCrunch gt techrockies com VE VentureBeat eCollege Login TA XetaWave Ethernet Bridge Device Name XetaWave Device ID 0 IP Address 192 168 0 3 Ethernet Firmware 2 03 3083 Radio 1 Checking Radio 2 Checking MAC Address 70 41 e5 01 17 14 Serial Number E5 01 17 14 Save Devic
30. Xeta9 XetaWave Ethernet Bridge User s Manual June 17 2014 Firmware version 2 03 build 3166 and above Models Xeta9 E Xeta9x9 E Xeta9x E Emancipator LY N RE IAUJAVE Table of Contents Contents Wara 1 FCC ee et 2 Antenna installations c ccicscctestseesdecsvsceesenseesnstevinevesasessusessunsivesuse onsdosonsevssaselacwsonneesustenvelece 5 UL NOtifiCationssissscceecsticecestiedeesetaiet a ikea histor bie RS eee ete 8 1 Mechanical Physical Design 12 1 1 Enclosed Ethernet Radios Xeta9 E and veta vg El 12 1 2 Unenclosed Emancipator DNeta sv EI 12 2 Quick Start Guide Point to Multi Point ernraronnvnnonvvnrnvrnnnnrnnennnnnerrnrnnrnnennensenvnnen 15 2 1 AP Master Radio Confteuration asana a 15 2 1 1 IP COMM BUATI ON ata eel Skee 15 2 1 2 RF Configuration cuicos 17 2 2 Remote Slave Radio Confieuration 26 2 2 1 IP COMMBUGAUI Osc ve 26 2 2 2 RF Configuration za ceeds se iaa cad idad dada 28 3 Web Interface OVerview rnnrnrrnannrannnvnnnnrrnnrnranennnnsenvnnrrrresnnrasennensenenesrreenrassnnnneennee 37 3 1 Miam TE UE 38 3 2 Network Setting S isse ese erorten eei ee a EE SEEN 40 3 2 1 VLAN Confteuration 42 3 3 RE MOAUIGS usar ti died 44 3 4 RE S ttin AE E A E E E E E E E A E 45 3 4 1 RF Paramet e Socr A eee 45 3 4 2 REPTILE 47 3 4 3 Hop takes NT 50 3 4 4 Modulation and Packet Size Tradeoffs AAA 50 3 4 5 RF Settings for Xeta9x E Emancipator rnnrorvrrrrroronnnnrnvvnnrrrsrnnnnnvn
31. aster Ethernet Master Y RF Band ISM OMAS Description Ethernet Master ISM MAS Band Start 902 0000 MHz Stop 928 0000 MHz Xmit Freq 952 206250 MHz Exclude Lower 0 MHz Upper 0 MHz Recv Freq 928 206250 MHz ISM Power 1000 mW MAS Power 2000 mW Hop Pattern 1 1710 kbps BPSK 110 kbps 2FSK 12 5kHz 119 kbps 4FSK 12 5kHz 119 kbps 2FSK 25kHz 1120 kbps QPSK 1131 kbps 8PSK 39 kbps 4FSK 25kHz 41 kbps 16QAM 51 kbps 32QAM Master Transmit Rate 2651 kbps 8PSK v multispeed multipoint MMS Max Payload Bytes Master 1024 Slave 1024 Dynamic Off MMS Hop Offset 0 Beacon Rate 1 Master Repeat 3 Network Address 2000 Network Radius 18 mies gt Upstream Device D BE Serial Number E50112E4 Downstream Device ID Bn Firmware Version 1 33 3079 Network Type Mode Master Y Device ID Modify Radio Settings Refresh All Protocol Peng e Refresh Single Scan Delete List Diag Threshold 20 dBm 157 kbps 2FSK 17114 kbps 2FSK 1153 kbps 2FSK 17229 kbps 4FSK Slave Transmit 11305 kbps 4FSK 1 1663 kbps 2FSK Rates 11884 kbps BPSK 111768 kbps QPSK 112651 kbps 8PSK 3535 kbps 16QAM 113535 kbps 16PSK Go back to menu page RF Protocol Settings for a Serial network 5 For a Serial network set the initial Max Payload Size for both the Master and Slave settings to 256 These settings can be modified later based on your traffic requirements Set Dynamic payloads to Off for an ISM network This
32. at 3 Modify Radio Settings Refresh Diag Threshold 380 dBm 32 Quick Start Multi Point 2 2 2 2 MAS Settings Note Operating the radio in the MAS spectrum 928 960 MHz requires a license from the governing regulatory authority 1 Navigate to the RF Transmission Settings page 2 Select the MAS band and configure the Xmit Freq which is the frequency the Master will use to Transmit and slave radios will use for receive Next configure the Recv Freq which is the frequency the Master will use to receive and slave radios will use to transmit Next set the output power of the radio s transmitter in milliwatts by specifying the MAS Power setting H XetaWave Ethernet Bridge Radio Setup amp 19216803 fight c B Googie PO A ge Most Visited D I TechCrunch techrockies com VE VentureBeat fr eCollege Login XetaWave Ethernet Bridge o Badio 1 ID 2001 Master Ethernet Master Reload List RF Band SME MS Description Ethernet Master ISM MAS Band Start 9020000 MHz Stop 928 0000 MHz Xmit Freq Hz Exclude Lower 0 MHz Upper 0 MHz Recv Freq Hz ISM Power 1000 mW MAS Power mw Hop Pattern 1 10 kbps BPSK 57 kbps 2FSK 114 kbps 2FSK JO Rips SKE 19 kbps 4FSK 12 5kHz 153 kbps 2FSK 229 kbps 4FSK 19 kbps 2FSK 25kHz Slave Transmit 305 kbps 4FSK 663 kbps 2FSK 20 kbps QPSK Rates 884 kbps BPSK 1768 kbps QPSK 31 kbps 8PSK 2651 kbps 8PSK 3535 kbps 16QAM 3535 kbps 16PSK 39 kbps 4FSK 25kHz 41 kbp
33. at the Beacon Rate is set to 1 that the MMS setting is None MMS Hop Offset is set to 0 and the Master Repeat setting is set to 3 Master Transmit Rate 2651 kbps 8PSK multispeed multipoint Max Payload Bytes Master 1024 Slave 1024 Dynamic Off Beacon Rate Lz Network Address 2000 Network Radius 24 km b Upstream Device ID 2002 Downstream Device ID 2002 Network Type Point to Multipoint Mode Master v IDI ROD DLQGUAIVI MMS MMS Hop Offset Master Repeat Serial Number E50112E4 Firmware Version 1 33 3079 30 Quick Start Multi Point 6 Configure RF Network parameters and type The Network address is an identifier used to allow a group of radios to communicate and exclude non member radios In this example the number 2000 has been used The Network Radius indicates the maximum distance between the Master radio and the furthest remote The default unit is in kilometers KM but the units can be expressed as miles as in the example below The Upstream address should be set to the DevicelD of the Master radio Downstream Device ID s are not relevant for a radio configured as a Point to Multi Point slave and can be ignored Make sure the Network Type is set to Point to Multipoint and the Mode is set to Slave Finally verify that the Protocol is set to Ethernet XetaWave Ethernet Bridge J XetaWave Ethemet Bridge Radio Se x
34. ata is sent in frames that may be larger than the RF packet size special handling must occur when using Ethernet data Once all parameters are set then the Modify Radio Settings is clicked and the settings are stored to the radio Multi Speed Multi Point MSMP When configured as part of a XetaWave multi point network all radios in the network are not required to communicate at the same data rate This enables remote radios that are closer to the master or are in a better RF environment to communicate at faster data rates than remotes that are further away or are in high noise areas There are two additional steps to configuring a Multi Speed Multi Point network 48 e Set the speed that the master radio will use to transmit e Set the speeds that the remote radios may use to transmit Since transmissions from the master radio must be received by all remotes in the network irrespective of distance or RF conditions the master radio is limited to a single data rate that is selected in the Master Transmit Mode drop down box Remote radios must also be configured with the data rate the master will use to communicate Remote radios in a MSMP network independently and dynamically select the optimal data rate The list of data rates is selected by checking the corresponding check boxes on the remote radio Data rates which remote radios may use to communicate must also be defined on the master radio Thus the configuration should match b
35. ate at Thus the Master Transmit Rate must be set for a multi point network Note that all radios on the network must have the same settings thus remote radios must have the Master Transmit Rate set and the Master Radio must have all of the receive rates set that correspond to the remote radios Point to Point P P A point to point network consists of two radios a master and a remote slave The operating mode of the radio is set by the Mode menu which offers Master Repeater or Slave The master sends a beacon message to the remote and the remote unit responds Data may be transferred in either direction but the master will tend to broadcast more often than the remote The remote radio will link to the master Address and the Master radio must be programmed with the slave radio s address in the Downstream Device ID Likewise the remote radio must be programmed with 47 the master radio s address in the Upstream Device ID address The Device IDs are 16 bit numbers from 1 to 65 535 and may be reused if on different Networks The number of bytes of the user payload is input in Max Payload Bytes and is NOT necessarily the number of bytes in the payload The payload may vary from 64Bytes to 1024Bytes and does not have to be the same for the master to slave direction downstream as for the slave to master direction upstream When using the multi speed operation the payload is set so that a
36. attern of 0 is used for DTS the constant frequency is set as ISM Freq however note that this should only be set if using a DTS mode Radio Receive Modes Remote Transmit Modes The ISM Slave Transmit Rates Master Receieve Modes may be set with multiple selections The radio will start operation at the lowest speed and if successful will increase to the next selected speed Thus the radio dynamically changes the data rate based upon signal quality measures It is suggested that no more than three different receive modes rates are selected for any radio The available modulations range from the FHSS modes of 57kbps 305kbps to the DTS modes of 663kbps 3535kbps The primary difference between the modes is the bandwidth of the signal and the required strength of signal received at the radio Since modulation and packet size are related to the required sensitivity there is more detail on choosing the optimal receive mode elsewhere in the manual As a general rule as the data rate increases the required signal strength at the receiving radio also increases Thus for long distance low signal installations a lower data rate will be more successful than a high data rate If the signal is strong with little interference then any rate may be chosen however there are still interactions based on 46 A RETRUJAVE A HETAUJAVE Specifically the 16QAM mode at 3 535kbps should only be used for short distance st
37. d the receiver FCC Continued 3 Connect the equipment to an outlet on a circuit different from that to which the receiver is connected 4 Consult the dealer or an experienced RF radio Electronics professional for help Note Whenever any XetaWave LLC module is placed inside an enclosure a label must be placed on the outside of that enclosure which includes the module s FCC ID and IC ID Model Xeta9 Serial 0123456789 FCC ID PEJ 93829283 MSD9 IC 1D 1169a Xeta9 Input Voltage 4 5 5 0 This device complies with Part 15 of the FCC rules Operation is subject to the following two conditions 1 this device may not cause harmful interference 2 this device must accept any interference received including interference that may cause undesired operation Made in the USA by XetaWave LLC Boulder CO 80301 303 447 2745 www xetawave com WARNING These radio systems shall be installed by a RF radio professional familiar with the applicable rules Installation of all antennas shall be performed in a manner that will provide at least the MPE Distance from the direction of maximum radiation to any user or member of the public and consistent with the settings in the applicable antenna installation compliance section below Exposure Compliance FCC ID PEJ 93829283 XETA9 IC ID It is the responsibility of the licensee or user to guarantee compliance with the appropriate MPE regulations when operating this device in a way ot
38. e The default setting for Ethernet ports is NATIVE The default setting for radio interfaces is ALL When set to NATIVE an Ethernet port will only allow frames associated with its native VLAN to enter or leave the radio It is not possible to set a radio interface to NATIVE When set to ALL an Ethernet port or radio interface will allow any valid frame to enter or leave the radio When set to LIST an Ethernet port or radio interface will only allow those VLANs specifically identified in the Allowed List to enter or leave the radio This feature can be used to associate VLANs to a specific radio interface and segment traffic over the wireless network if necessary Allowed List this list is used in combination when the Allowed VLANS is set to LIST to specifically identify which VLANs can enter or leave the radio over a physical Ethernet port or wireless radio interface The maximum number of VLANs that can be specified across all ports and interfaces is 12 43 A HETRUJAVE 3 3 RF Modules XetaWave Ethernet Bridge Radio Power State Radio 1 ON Radio 2 OFF Enabled Y Enabled Save Enable Disable Go backto menu page This page graphically displays the current state of each installed radio Click a Radio button to toggle power to a radio A radio that is powered off will be automatically powered back on after a 2 minute interval to prevent inadvertently being
39. e Name 2 2 2 RF Configuration The RF settings will differ depending on whether the radio is operating within the unlicensed ISM or licensed MAS spectrum The RF settings will also differ slightly if the radio is operating within an Ethernet or Serial wireless network The following sections will cover each case 2 2 2 1 ISM Settings 1 Navigate to the RF Transmission Settings page 2 Select the ISM band and configure the Start and Stop frequencies within the ISM band that are will be used by the radio network Typically these values will be set to 902 000 and 928 0000 respectively for an initial setup 28 Quick Start Multi Point 3 J XetaWave Ethernet Bridge Radio Setup 3 19216803 0c0nfig hv e E Googie PBD A e E Most Visited E TechCrunch techrockies com VI VentureBeat y eCollege Login E XetaWave Ethernet Bridge Reload Lst Description Ethernet Master ISM MAS Radio 1 ID 2001 Master Ethernet Master RF Band Gsm MAS Band Start 902 0000 MHz Stop 9280000 MHz Xmit Freq 952 206250 MHz Exclude Lower 0 MHz Upper 0 MHz Recv Freq 928 206250 MHz ISM Power 1000 mW MAS Power 2000 mW Hop Pattern 1 10 kbps BPSK 57 kbps 2FSK 114 kbps 2FSK Hee RNS do 19 kbps 4FSK 12 5kHz 153 kbps 2FSK 229 kbps 4FSK 19 kbps 2FSK 25kHz Slave Transmit 305 kbps 4FSK 663 kbps 2FSK 20 kbps QPSK Rates 884 kbps BPSK 1768 kbps QPSK 31 kbps 8PSK 7 2651 kbps 8PSK 3535 kbps 16QAM 7 3535 kbps 16PSK 3
40. e liable for any damages arising from the use of or the inability to use this product This includes business interruption loss of business information or other loss which may arise from the use of this product XetaWave LLC transceivers should not be used in situations where failure to transmit or receive data could result in damage of any kind to the user or any other party including but not limited to personal injury death or loss of property XetaWave LLC accepts no responsibility for damages of any kind resulting from delays or errors in data transmitted or received using the XetaWave transceiver or for the failure of such transceiver to transmit or receive such data Warranty policy may not apply 1 If product repair adjustments or parts replacements is required due to accident neglect or unusual physical electrical or electromagnetic stress 2 If product is used outside of XetaWave specifications 3 If product has been modified repaired or altered by Customer unless XetaWave specifically authorized such alterations in each instance in writing The warranty period begins from the date of shipment and is defined per the standard warranty policy stated above Information in this document is subject to change without notice The information contained in this document is proprietary and confidential to XetaWave LLC This manual is for use by purchasers and other authorized users of the XetaWave wireless data transceiver only N
41. e number of server connections made to the terminal server that is servicing the interface Client Connections a running count of the number of client connections initiated by the terminal server that is servicing the interface 62 Recovery 4 Modem Recovery The COM1 serial port of the radio may be connected to a computer so that during power up the current IP and MAC address of the Ethernet board can be monitored At power up COM 1 uses these settings 115200 baud 8N1 no flow control In addition to showing current configuration settings a user can reset the radio to factory default settings To reset the radio to factory default settings you must interrupt the terminal server start up sequence by entering these commands within ten seconds of power up Ctrl R to interrupt terminal server start up sequence 1 to select Restore factory settings 3 Y to confirm that you wish to restore factory default settings or enter any other character to cancel Once Restore factory settings is confirmed the device automatically restarts If cancelled or ifthe terminal server start up sequence is not interrupted the terminal servers automatically start after ten seconds To disable VLAN mode from COM1 you must interrupt the terminal server start up sequence by entering these commands within ten seconds of power up 1 Ctrl R to interrupt terminal server start up sequence 2 2 to select
42. eacon Rate 1 Network Address 2000 Network Radius 24 km y Upstream Device ID 2002 Downstream Device ID 2002 Network Type Point to Multipoint Mode Master p Device ID 2001 Protocol Ethernet Band Start 9020000 MHzStop 9280000 MHz Xmit Freq Exclude Lower Hz Upperd MHz Recv Freq ISM Power w MAS Power 2000 mW 952206250 MHz 928 206250 MHz 10 kbps BPSK 10 kbps 2FSK 12 5kHz 19 kbps 4FSK 12 5kHz 19 kbps 2FSK 25kHz 20 kbps QPSK 131 kbps 8PSK 39 kbps 4FSK 25kHz 41 kbps 16QAM 7151 kbps 32QAM MMS None MMS Hop Offset 0 Master Repeat 3 Serial Number E50112E4 Firmware Version 1 33 3079 Modify Radio Settings Refresh All Refresh Single Scan Delete List Diag Threshold 80 dBm 18 Quick Start e 4 Configure Slave and Master Transmit rates While XetaWave radios support Multi Point B Se Multi speed Multi point for an initial configuration it is best to start with a single speed for remote radios to simplify trouble shooting The ideal setting is a function of distance throughput required transmit power and radio noise in the area Selecting a speed between 884 Kbps and 2 6 Mbps is often adequate for most links Firefox JE XetaWave Ethernet Bridge Radio Setup 1916803 B Most Visited D I TechCrunch techrockiescom VR VentureBeat fy eCollege Login Sa XetaWave Ethernet Bridge Radio 1 ID 2001 Master Ethernet Master ISM OMAS ISM Band Start 9020000 MHz Stop 9280000 MHz Xmit F
43. ed Make sure the Network Type is set to Point to Multipoint and the Mode is set to slave Next verify that the Protocol is set to Serial Finally set Serial Framing to Message Mode if you are running Modbus or other message oriented protocol and set Serial Framing to Byte Mode for everything else Firefox XetaWave Ethernet Bridge 4 XetaWave Ethernet Bridge Radio Se X 19216804 VE Most Visited TechCrunch techrockiescom VW VentureBeat eCollege Login RF Band ISM MAS ISM ISM Power 1000 mW 3535 kbps 16PSK Max Payload Bytes Master 1024 Slave 1024 Beacon Rate 1 Network Address Device ID Protocol Serial Framing a XetaWave Ethernet Bridge Radio 1 ID 2001 Master Ethernet Master X Band Start 3020000 MHz Stop 928 0000 MHz Xmit Freq 9522062 MHz Exclude Lower 0 MHz Upper 0 2000 Network Radius mies gt Upstream Device ID Serial Number Downstream Device ID pla aber de Description Ethemet Master MAS MHz Recv Freq 9282062 MHz MAS Power 1000 mW Hop Pattem 1 57 kbps 2FSK 114 kbps 2FSK 10 kbps 2FSK 12 5kHz 153 kbps 2FSK 229 kbps 4FSK 19 kbps 4FSK 12 5kHz Slave Transmit 305 kbps 4FSK 663 kbps 2FSK 19 kbps 2FSK 25kHz Rates 884 kbps BPSK 1768 kbps QPSK V 39 kbps 4FSK 25kHz 2651 kbps 8PSK 3535 kbps 16QAM Master Transmit Rate 2651kbps8PSK multispeed multipoint MMS None p MMS Hop Offset 0 Master Repe
44. ending on the specific model and age of the radio this LED may say XMIT or TX The functionality remains the same across all different names The MODE RCV RX LED flashes green when the radio is receiving and decoding an RF packet Depending on the specific model and age of the radio this LED may show MODE RCV or RX The functionality remains the same across all different names Because of the high speed of the embedded microprocessor and communications all status LEDs can turn on and off very quickly In some cases the LEDs turn on and off so quickly that the LEDs appear to be on but dimly lit This behaviour indicates that events are happening in very quick succession A good example is the TX LED changing intensity from dim red to bright red to off This indicates many small packets in quick succession dim red followed by many large packets with almost continuous transmissions bright red then no transmissions off 6 1 Status LEDs for Xeta9x E Emancipator The Xeta9x E Emancipator has all the LEDs that enclosed Ethernet radios have In addition to those listed above the Xeta9x E has a UP OK LED The UP OK LED indicates that the microprocessor is running 65
45. er mW DutyCycle AntennaGain 47 ExposureLimt mW 1 cm MPED eq 2 Where MPED is Maximum Permissible Exposure Distance or safe distance All quantities are calculated in linear or numeric quantities The exposure limit MPED and conducted power units must be consistent mW and cm for this case Duty cycle is set using packet sizes for master and slave The highest duty cycle 91 that can be set is 1024 transmit and 64 receive using a modulation of 305 kbps 4FSK Packet settings are set in the radio Network Configuration Menu If the radio is a master then master packet size is set to 1024 and slave packet size is set to 64 All radios in the link must have the same master and slave settings At Power up and with no data transmitting the radios will transmit or beacon with a duty cycle of 6 to 10 depending upon modulation setting FCC The limits for Industry Canada are in Watts per square meter and easily calculated from Continued equations 2 and then 1 above Table of MPE Safe Distance vs Antenna Gain and Power Output Setting Power Duty Antenna Antenna FCC MPE Safe Out Cycle Gain Gain Limit Distance Setting linear dBi linear mW cm cm mW 100 0 91 2 00 EEE 3 80 100 0 91 pe 3 98 RAE 5 37 rl The worst case is 4000 mW and an antenna with 6 dBi gain or greater or 33 96 cm as power output is reduced as required by the appropriate regulating authority Antenna installation US FCC antenna co
46. etween the master radio and each of the remote radios Note that the master radio does not need to have downstream radios defined since there will be multiple downstream radios However each remote radio must have the upstream radio identified as the master radio Multi Master Sync On the right side of the dialog are the parameters for the MMS Multi master sync This function allows multiple master radios to synchronize their transmit and receive times so that all radios transmit at the same time reducing noise and interference during the receive process If the radios are set up with the same modulation and packet sizes then the transmit receive and slot timings are all the same The synchronization between radios is performed by a one pulse per second signal applied to the I O connector on the side of the radio The first pin towards the front is the ground and second pin is the electrical input which requires a 5V square wave 1 Hz waveform The duty cycle is not critical and should be between 10 and 90 The MMS may operate in one of two modes External input slaved or internally Generate master the 1Hz signal for other slaves If an external pulse generator is used such as from a GPS receiver than all radios would be set to External Additionally the MMS Hop Offset may be set so that each of the radios operate at a different location in the hop table For example if there are 6 frequencies in the hop table
47. her than described herein The installer of this equipment must ensure the antenna is located or oriented such that it does not emit an RF field in excess guidelines as posted in the Canadian RSS 102 Safety Code 6 of Health Canada 47 CFR Bulletin 65 47CFR 1 1310 of the Federal Communications Commission or the Council of European Union as appropriate The XetaWave XETA9 uses a low power radio frequency transmitter The concentrated energy from an antenna may also pose a health hazard in the near field People should not be near the antenna when the radio link is operating as general practice and maintain a safe distance as calculated below FCC Continued Note Industry Canada and the US FCC use the same RF power density level for their limits but express them in different units The US FCC OSHA ANSI use milliwatts per square centimeter mW cm2 and Industry Canada uses Watts per square meter W m2 W m 10mW cm eq 1 The following calculations are based off of the Maximum Permissible Exposure requirements as outlined by the FCC and IC The MPE Maximum Permissible Exposure distance is calculated based on the limits for a General Population Uncontrolled Exposure 900 MHz frequency band A conservative MPE limit of 0 6 mW cm or 6 W m was used for the calculations of the Table The table provides safe distance for several power levels and antennas besides the worst case for convenience To calculate safe distance C onductedPow
48. ible ports as is standard for serial communications The baud rate can independently 3 5 1 Serial Port Binding By default the two local serial ports on the Xeta9 E radio are connected or bound internally to two of the radio s four terminal servers This is indicated in the Binding column of the local serial port settings as TS1 and TS2 respectively This enables TCP IP connections to terminate on the Xeta9 E for serial communications through the local serial ports as well as the installed RF modules if their protocol setting is set to Serial However the built in terminal servers do not allow serial communications between local serial ports and the installed RF modules If serial data communications are required between the Xeta9 E s local serial ports and installed RF modules using the Serial protocol the port s binding setting can be changed For example setting the binding for the Local S1 port to Radio1 will connect the serial port directly to the radio The radio will prompt for a restart after this change before taking affect Once the binding change is applied the terminal servers for both the local serial port and the installed RF module involved will be disabled 3 5 2 Serial Communications for Xeta9x E Emancipator The same settings above apply for the Xeta9x E with the exception that the Xeta9x E has only 1 serial port 53 las KETAUJAVE 3 6 Security Settings XetaWave Ether
49. icular under FHSS rules less than 663kbps the radio must have enough frequency bandwidth as required under FCC rules Under DTS rules greater than or equal to 663kbps there is no limit on the minimum bandwidth for the radio it may operate on one frequency As an example the lower and upper edge of the band may be reduced if the full 902 to 928MHz ISM range is not needed Additionally if an internal band is to be excluded from the transmission it may be added in the Exclude range Thus if the frequency range to be transmitted is 905 910 and 915 920 then the Band Start will be set to Upper set to 915 The MAS input requires a Xmit Freq and a Recv Freq which will correspond to the frequencies that have been approved by the licensing authority In both ISM and MAS the transmit power must be set in units of milli Watts The ISM rules require that the power not exceed 1000mW with additional restrictions based upon the antenna while the MAS rules are specified in the license granted and typically run no higher than 5000mW For FHSS rules less than 633kbps the Hop Pattern should be set to 1 whereas for DTS the Hop Pattern may be set from Oto 9 The setting of 1 creates a pseudo random sequence of frequencies a setting of 2 9 is a uniform step through the allowed frequencies For FHSS data rates lt 663kbps the Hop pattern must be set to 1 For DTS modes any Hop pattern may be set Additionally if a hop p
50. kward compatible setting All radios in the network have to have the same setting Confirm that the Beacon Rate is set to 1 that the MMS setting is None MMS Hop Offset is set to 0 and the Master Repeat setting is set to 3 31 Quick Start Multi Point Master Transmit Rate 2651 kbps 8PSK v multispeed multipoint Max Payload Bytes Master 256 Slave 256 Dynamic On Beacon Rate Network Address 2000 Network Radius 24 km v Upstream Device ID 2001 Downstream Device ID 2001 Network Type Pointto Multipoint Mode Slave v Device ID 2002 Protocol Serial v Serial Framing Byte Mode v MMS MMS Hop Offset io su Master Repeat Serial Number E5011CC1 Firmware Version 1 33 3113 Modify Radio Settings Refresh All Refresh Single Scan Delete List Diag Threshold 80 dBm Configure RF Network parameters and type The Network address is an identifier used to allow a group of radios to communicate and exclude non member radios In this example the number 2000 has been used The Network Radius indicates the maximum distance between the Master radio and the furthest remote The default unit is in kilometers KM but the units can be expressed as miles as in the example below The Upstream address should be set to the DevicelD of the Master radio Downstream Device ID s are not relevant for a radio configured as a Point to Multi Point slave and can be ignor
51. lse J XetaWave Ethernet Bridge Radio Setup amp 19216803 t c p E Most Visited EZ TechCrunch techrockiescom VE VentureBeat y eCollege Login XetaWave Ethernet Bridge Radio 1 ID 2001 Master Ethernet Master Reload List 9 ISM MAS Description Ethernet Master ISM MAS Band Start 902 0000 MHz Stop 928 0000 MHz Xmit Freq 952 206250 MHz Exclude Lower 0 MHz Upper 0 MHz Recv Freq 923 206250 MHz ISM Power 1000 mW MAS Power 2000 mW Hop Pattern 1 10 kbps BPSK 57 kbps 2FSK 114 kbps 2FSK 10 kbps 2FSK 12 5kHz 19 kbps 4FSK 12 5kHz rte ek onde 19 kbps 2FSK 25kHz 305 kbps 4FSK 663 kbps 2FSK 884 kbps BPSK 1768 kbps QPSK ey bees ORSR v 2651 kbps 8PSK 3535 kbps 16QAM pi Koper 3535 kbps 16PSK 39 kbps 4FSK 25kHz 41 kbps 16QAM v 51 kbps 32QAM Master Transmit Rate 2651 kbps 8PSK multispeed multipoint MMS None Max Payload Bytes Master 256 Slave 256 Dynamic off MMS Hop Offset 0 Beacon Rate 1 Master Repeat 3 Network Address 2000 1 Network Radius mies gt Upstream Device ID Serial Number E50112E4 Downstream Device ID Firmware Version 1 33 3079 Network Type Mode Device ID Protocol Serial Framing 36 Interface Overview 3 Web Interface Overview XetaWave Ethernet radios can be quickly configured using a web based interface The default IP address to access the web administration pages is 192 168 0 3 While XetaWave radios are capable of multi megabit data rates web administration pages have been developed
52. mpliance Since professional installation is required standard RF connectors are used Adapters or custom coaxial cables may be required to connect the radio output connector to the desired antenna Any antenna from a reputable manufacturer with desired bandwidth gain pattern coverage and have an input surge impedance of approximately 50 ohms can be used provided the requirements of Title 47 CFR Part 51 247 a b and c are met i e conducted power of 1W 30 dBm or EIRP of 4W 36 dBm maximum and if the antenna FCC gain is greater than 6 dBi the power setting shall be reduced by the amount the gain of Continued the antenna exceeds 6 dBi In other words the EIRP cannot exceed 4W or 36 dBm XetaWave has successfully tested the Xeta9 with the following antennas 1 Device connected 3 dBi Omni Directional Vertical Antenna LCOM Rubber Duck p n HG903RD SM The power setting for a 3 dBi antenna is 1000 mW 2 Directional antenna 11 dBi Directional Yagi vertical antenna Larson p n YA5900W The radio power must be reduced by 5 dB to satisfy 47 CFR Part 15 247 a b and c for antenna gain greater than 6 dBi The power setting for this antenna is 316 mW Industry Canada antenna compliance Under Industry Canada regulations this radio transmitter may only operate using an antenna of a type and maximum or lesser gain approved for the transmitter by Industry Canada To reduce potential radio interference to other users the antenna t
53. n orange warning screen will appear as a safeguard from accidental changes Confirm your changes by selecting a validation period from the dropdown box and press the Continue with Save button Firefox Y B Critical Change Warning 192 168 0 3 3Lan htm 2c 70 f1 e5 01 17 148i 192 168 0 38ds 255 255 255 089 192 16 ve B Google PD 4 Most Visited D I TechCrunch techrockies com VB VentureBeat eCollege Login 5 min validation period CONTINUE WITH SAVE Quick Start 5 Next enter the radio s new IP address in the address bar of your web browser Multi Point and load the page Note Depending on your computer s configuration it may be necessary to change or add an IP address on your computer to be on the radio s new subnet 6 Once on the radio s Main page loads it will necessary to confirm your settings are functional by pressing the red Validate Settings button on the page BE XetaWave Ethernet Bridge amp 192 168 0 3 0Menu C BH Google PBD A A B Most Visited TechCrunch techrockies com VB VentureBeat eCollege Login X XetaWave Ethernet Bridge Device Name XetaWave Device ID 0 IP Address 192 168 0 3 Ethernet Firmware 2 03 3083 Radio 1 Checking Radio 2 Checking MAC Address 70 41 e5 01 17 14 Serial Number E5 01 17 14 Save Device Name Validate Settings 2 1 2 RF Configuration The RF settings will differ depending on
54. n up a web browser and enter the IP address of the radio The default IP address of a Xeta9 E is set to 192 168 0 3 at the factory Firefox A XetaWave Ethernet Bridge 192 168 0 3 C BH Google PO A Most Visited J TechCrunch techrockies com VB VentureBeat y eCollege Login XetaWave Ethernet Bridge Device Name XetaWave Device ID 2001 IP Address 192 168 0 3 Ethernet Firmware 2 03 3083 Name Ethernet Master Radio 1 ID 2001 Point to multipoint Master Firmware 1 33 3079 Radio 2 Not Present MAC Address 70 f1 e5 01 17 14 Serial Number E5 01 17 14 Save Device Name 15 Quick Start 2 Enter a Device Name for the AP radio in the text box on the Main screen and Multi Point press the Save Device Name button to save 3 Navigate to the Network Settings page and configure the IP address Subnet Mask and Default Gateway for the radio VLAN settings can also be set on this page if your organization utilizes VLANs Press the Submit button to save your changes B XetaWave Ethernet Bridge LAN Config vi 192 168 03 3Lan him C BH Googie PO A A Most Visited D I TechCrunch techrockies com VB VentureBeat eCollege Login A TN XetaWave Ethernet Bridge Network Settings MAC Address 70 f1 e5 01 17 14 IP Address 19216803 Subnet Mask 2552552580 Default Gateway 19216801 Management VLAN 1 4 Next a
55. net Bridge AES Encryption Enable AES Y Key Enter Key Enter as hexadecimal dashes can be used between four byte blocks Example FFFFFFFF FFFFFFFF FFFFFFFF FFFFFFFF FFFFFFFF FFFFFFFF FFFFFFFF FFFFFFFF The radio may encrypt all over the air transmissions between Xeta9 E or Xeta9x9 E radios using the AES 256 algorithm If encryption is not desired then all radios on the network should have the Enable AES box unchecked if the box is checked then ALL radios must be checked The 256 bit key should be entered in hex 4 bits per character as a 64 character string Dashes may be used but will be ignored The key must be the same on all radios on the network 54 A HETAUJAVE 3 7 I O and Advanced Settings XetaWave Ethernet Bridge Level Change Alerts Alert Dest IP 192 168 0 100 Alert Dest Port 514 On DI level low send Never e On DI1 level high send Never e Test Message The I O connector on the side of the radio may be used to monitor a signal level and send an IP message based on the signal changing Currently one Digital Input is configurable The Alert Dest IP and Alert Dest TCP Port are the IP address and port that the message will be sent to after a change of state of the input occurs The action can be set to either send a message when the level changes from low to high or high to low On DI1 level low will send a message when the level becomes low while On DI
56. ng Finally if any data is changed the Modify Radio Settings button must be selected which will copy the data into the radio and reset the radio to the new conditions Following this the data on the screen must be refreshed from the radio 3 4 3 Hop Tables Hop tables are generated automatically based upon the modulation mode chosen and the frequency range s in use For low speed 150kHz bandwidth modes 57kbps 114kbps 229kbps the radio is capable of using 159 RF channels which is above the legal requirements For mid speed 225kHz bandwidth modes 153kbps and 305kbps 105 channels are available For the high speed DTC modes 20 channels are available for speeds of 886kbps or faster and 25 channels are available for the 663kbps DTS mode 3 4 4 Modulation and Packet Size Tradeoffs The choices of modulation and packet size are closely coupled due to their interaction with the required signal strength Quoted sensitivity numbers are based on an error rate of 10 or one bit error out of 10 000 bits If the radio transmits each bit individually then this would be the raw error rate that the user would experience However since bits are combined into a packet and the whole packet is either good or bad the error rate changes in how it impacts the experienced data rate For example if the packet size 1024 Bytes approximately 10 000 bits then on average there will be one bit error in every packets ON AVERAGE this means that no succe
57. nsmit Rate 2651 kbps 8PSK v multispeed multipoint MMS Max Payload Bytes Master 256 Slave 256 Dynamic On y MMS Hop Offset D Beacon Rate Master Repeat Sua Network Address 2000 Network Radius 24 km v Upstream Device ID 2001 i Downstream Device ID 2001 sile VES ds 3 Network Type Pointto Multipoint e Mode Slave v EN 7 Se Modify Radio Settings Refresh All ammo Rete sie Diag Threshold 80 dBm 5 Configure RF Network parameters and type The Network address is an identifier used to allow a group of radios to communicate and exclude non member radios In this example the number 2000 has been used The Network Radius indicates the maximum distance between the Master radio and the furthest remote The default unit is in kilometers KM but the units can be expressed as miles as in the example below The Upstream address should be set to the DevicelD of the Master radio Downstream Device ID s are not relevant for a radio configured as a Point to Multi Point slave and can be ignored Make sure the Network Type is set to Point to Multipoint and the Mode is set to slave Make sure the Network Type is set to Point to Multipoint and the Mode is set to master Next verify that the Protocol is set to Serial Finally set Serial Framing to Message Mode if you are running Modbus or other message oriented protocol and set Serial Framing to Byte Mode for everything e
58. o part of this document may be reproduced or transmitted in any form or by any means electronic or mechanical or for any purpose without the express written permission of XetaWave LLC This product is licensed by the United States Diversion contrary to U S law is prohibited Shipment or re export of this product outside of the United States may require authorization by the U S Bureau of Export Administration Please contact XetaWave LLC for assistance and further information FCC Notifications This device complies with Title 47 CFR Parts 1 15 101 of the federal code along with Industry Canada RSS 102 Radio Frequency RF Exposure Compliance of Radio communication Apparatus All Frequency Bands and Safety Code 6 of Health Canada Specifically 47CFR 1 1310 Table 1 Limits for General Population Uncontrolled Exposure and RSS 102 Radio Frequency RF Exposure Compliance of Radio communication Apparatus All Frequency Bands Table 4 2 RF Field Strength Limits for Devices Used by the General Public Uncontrolled Environment Operation is subject to the following two conditions 1 This device may not cause harmful interference and 2 this device must accept any interference received including interference that may cause undesired operation This device must be operated as supplied by XetaWave LLC Any changes or modifications made to the device without the express written approval of Xetwave LLC may void the user s authorit
59. oad page permits the user to install updated software to the radio and Ethernet board Click on Browse to select a file from the local file system Click Upload new software to upload and program the device NOTE the file name should begin with lower case z After the new software loads the device automatically restarts with the new software Once the software has been updated the previous version of software is not available After the local radios have been upgraded this radio may upgrade other radios If this radio is a master with remote serial radios below it then you may also upgrade all or one of the remote serial radios by choosing the Upgrade serial sub network option The Upgrade button will then upgrade all serial radios in the sub network once the master has been upgraded 57 A HETAUJAVE 3 10 Utilities RF Ping XetaWave Ethernet Bridge RF Ping Radio 1 Radio 2 2002 Device ID Remote Signal Remote Noise Local Signal Local Noise Name 91 93 89 Ethernet Slave 91 93 Ethernet Slave 91 93 Ethernet Slave 91 92 Ethernet Slave This utility enables the direct testing of connectivity and link quality between a master and a remote slave radio and can be initiated from either side of the link In order to use this utility enter the DevicelD for the radio on the far side of the link you wish to test and press the Start button Note If the unit has two installed
60. on member radios In this example the number 2000 has been used The Network Radius indicates the maximum distance between the Master radio and the furthest remote The default unit is in kilometers KM but the units can be expressed as miles as in the example below The Upstream and Downstream Device ID s are not relevant for a radio configured as a Point to Multi Point Master and can be ignored Make sure the Network Type is set to Point to Multipoint and the Mode is set to master Finally verify that the Protocol is set to Ethernet Aria Terre Greige fado Setup gt aima B BD Moet ves D Zen ren tectroctoeicom Ve Verturbest By eCotiege Loge Ss XetaWave Ethernet Bridge Rade 10 2001 Master Ethernet Master gt Feed vet SMe MAS Description erer Maer MAS AS Band Stet sor 0000 MHz Step 440000 MHz Nmt Freq 20 MHZ Excuoe Lower 0 MHz Upper 0 MHz Recv Freq van 700750 MHZ SM Power me mi MAS Power 2000 W Hop Pattern t 10 kbps BPSK a 57 k pe 293 114 Kops 255 eer ee 183 kbps 2FSK 229 kbps 4F SK i 306 kbps AC r 443 kbps FSK EH en BPSK 1768 keen QPSK Y 2451 kbps SPSK 3535 keen 16CAM 3535 kbps 16P5K Mester Transmit Rate 2051 es 105 MUDSIPOGT mutipolrt Max Payicas Bytes Mester 1034 Sieve 14 Dynamic OF Beacon Rate 1 Network Address Network Rodus Upstream Device ID Oownstreen Device O Network Type Mode Device ID Protocol RF Protocol Settings for
61. ormation about RF Module 1 When the web interface is accessed immediately after a power cycle or reboot the radio firmware values will 38 A HETAUJAVE display checking for up to 15 seconds while configuration information is being read from installed RF modules Radio 2 if a second RF module is installed this row will display information about RF Module w If a second RF module is not installed this value will display Not Present MAC device MAC address which is set at the factory and cannot be changed Serial number unique identifier which is the same as the right most four byes of the device s MAC address Validate Settings this button appears whenever changes requiring validation are pending In order to prevent a user from inadvertently locking themselves out of a radio several connectivity related changes require validation within a user specified time limit If changes are not validated within the specified time limit the radio assumes connectivity with the user has been lost and will revert back to its previous configuration 39 las HETAUJAVE 3 2 Network Settings XetaWave Ethernet Bridge Network Settings MAC address 70 11 e5 00 01 0c IP address 192 168 0 3 Subnet mask 255 255 255 0 Default gateway 192 168 0 1 Management VLAN 1 Ethernet speed 100 10 Auto negotiate VLAN Membership and Tagging Clear Saving of new settings cause
62. os The right side of the radio has one or two female TNC connectors for the one internal radio in Xeta9 E or two internal radios in Xeta9x9 E Radio 1 is the connector closest to the front of the radio The left side of the radio may have I O connectivity as an option 1 2 Unenclosed Emancipator Xeta9x E XetaWave Emancipator radio has 1 serial port and 1 Ethernet port in a dual RJ45 connector side access to SMA RF connector and the same 2 pin power connector as all other XetaWave products The following diagram shows the Xeta9x E Emancipator In the perspective shown the Serial RJ45 connector is on left The Ethernet RJ45 connector port is on the right 12 13 UN SuEMEISN SSES WOO SNOLYDINNNNO LINNIHLI SSI TIM JIVIN33ON_L Mechanical Design Enclosed Ethernet Radios Mechanical o 8 Oo E S66 0 00000 OG97 0 XA 00790 MO dn 0078 0 037 oipe jara pleog Soro I osog L OSL 0055 eoid saoejd p Mans Op p JOH Ped GZ 30H JAWE ZL Design Board Level Emancipator Radio 14 Quick Start Multi Point 2 Quick Start Guide Point to Multi Point This guide provides step by step instructions to configure a basic Point to Multi Point network using either the 900 MHz ISM or MAS band Detailed information on addition configuration options is provided in the web interface overview section 2 1 AP Master Radio Configuration 2 1 1 IP Configuration 1 Ope
63. ote Slave Radio Configuration 2 2 1 IP Configuration 1 Open up a web browser and enter the IP address of the radio The default IP address of a Xeta9 E is set to 192 168 0 3 at the factory Firefox Y A XetaWave Ethernet Bridge be 192 168 0 3 C E Google Most Visited D I TechCrunch techrockies com VB VentureBeat My eCollege Login XetaWave Ethernet Bridge Device Name XetaWave Device ID 2001 IP Address 192 168 0 3 Ethernet Firmware 2 03 3083 Name Ethernet Master Radio 1 1D 2001 Point to multipoint Master Firmware 1 33 3079 Radio 2 Not Present MAC Address 70 f1 e5 01 17 14 Serial Number E5 01 17 14 Save Device Name 2 Enter a Device Name for the remote slave radio in the text box on the Main screen and press the Save Device Name button to save 3 Navigate to the Network Settings page and configure the IP address Subnet Mask and Default Gateway for the radio VLAN settings can also be set on this page if your organization utilizes VLANs Press the Submit button to save your changes 26 Quick Start Multi Point P XetaWave Ethernet Bridge LAN Config 192 168 0 3 3Lan ntm Lv el B Googie 2 D f NS Most Visited D I TechCrunch techrockies com VB VentureBeat fr eCollege Login las XetaWave Ethernet Bridge Network Settings MAC Address 70 f1 5 01 17 14 IP Address Subnet Mask Default Gateway 19216801 Management V
64. rature class listed above the transmit and receive duty cycles must be set per the directions and table below TX packet size must be less than or equal to the value shown Rx packet size must be greater than or equal to the value shown Model Number Tx Packet Size Rx Packet Size Approximate Duty Cycle Continued Radio 2 1024 Xeta4 E Xeta4m R Xeta4m T Xeta4x1 E Radio 1 Radio 2 Xeta4x2 E Radio 1 Radio 2 Xeta4x3 E Radio 1 Radio 2 Xeta4x4 E Radio 1 Radio 2 Xeta9 E 4 Watts Xeta9 E 1 Watt Xeta9m R 1 Watt MAS Xeta9m R 1 Watt ISM 10 Continued 200 os E MN ic ES Xeta9x3 E Radio 1 Radio 2 Xeta9x4 E Radio 2 Xeta9x9 E Radio 1 4 Watts ai er A OE Gs sl REA ST 11 Mechanical Design 1 Mechanical Physical Design 1 1 Enclosed Ethernet Radios XetaWave enclosed Ethernet radios all have the same design with front access to communication ports side access to RF connections and I O connections The radio may be DIN rail mounted or left on a surface The top of the radio or side if side mounted is a heat sink surface needed for high power dual radio applications the heat sink surface should be left clear of any materials The front of the radio includes from left to right the 12V DC power connector the two serial COM port connectors RJ 45 the two Ethernet ports connectors RF 45 a USB connector for future power use and two columns of indicator lights for the two radi
65. req MHz Recv Freq 928 206250 MHz Exclude Lower 0 MHz Upper 0 ISM Power 1000 mW Hop Pattern 1 57 kbps 2FSK 153 kbps 2FSK 305 kbps 4FSK 114 kbps 2FSK 229 kbps 4FSK 663 kbps 2FSK 1768 kbps QPSK 3535 kbps 16QAM vlaster Transmit Rate Max Payload Bytes 57 kbps 2FSK 114 kbps 2FSK Beacon Rate 153 kbps 2FSK Network Address 229 kbps 4FSK 305 kbps 4FSK 663 kbps 2FSK Network Type S Mode Master Device ID Protocol RF Protocol Settings for an Ethernet network Reload List Description Ethernet Master MAS 952 206250 MHz MAS Power 2000 mW 10 kbps BPSK 10 kbps 2FSK 12 5kHz 19 kbps 4FSK 12 5kHz 19 kbps 2FSK 25kHz 20 kbps QPSK 31 kbps 8PSK 39 kbps 4FSK 25kHz 41 kbps 16QAM 7151 kbps 32QAM MMS None MMS Hop Offset D Master Repeat 3 Serial Number E50112E4 Firmware Version 1 33 3079 Modfy Radio Settngs Refresh Al Refresh Single Scan Delete List Diag Threshold 20 dBm 5 Foran Ethernet network set the initial Max Payload Size for both the Master and Slave settings to 1024 These settings can be modified later based on your traffic requirements Set Dynamic payloads to Off for an ISM network This setting can provide some improved performance on and ISM network but it is not a backward compatible setting All radios in the network have to have the same setting Confirm that the Beacon Rate is set to 1 that the MMS setting is None MMS Hop Offset
66. respond to the COM Port 1 and COM Port 2 connections at the front of the radio while the Radio 1 and Radio 2 correspond to the one or two internal RF modules The terminal servers may be set in Server Mode whereby they listen on the TCP port that is set If the terminal server observes traffic on that port then it creates a session to manage the data The session will end if commanded or if the Idle Timeout time is reached with no traffic on the port The terminal server may also operate in Client Mode where the port initiates a session to the specified IP address and TCP port number Thus data present on the serial port will be sent to the destination IP address Again there is an Idle timeout specified so that if the destination stops responding the session will be terminated Trigger Thresholds should normally be left at 1024 bytes and 2 character idle time The thresholds determine when to send data to the radio for the RF link If the Buffer Input is filled by the serial data then the data is sent to the radio however if an idle time is detected before the buffer is full then only that portion of the buffer is sent to the radio for immediate transmission 52 A XETRUJAWE Any changes to this table will take effect when the Save Terminal Services is pressed The Local Serial Interfaces sets the physical electrical interface parameters for the two user access
67. rong signal links The MAS Receive Modes are based upon the bandwidth of the permitted license Either 12 5kHz or 25 0kHz bandwidth modulations are supported 3 4 2 RF Protocol The Network Type defines how this radio operates with other radios in the network the common options are Point to Point and Point to Multi Point For all cases the radio will be either a Master radio initiating contact with other radios a Remote Slave waiting for a Master radio to start communicating or a Repeater waiting for a Master and then repeating the message to another remote slave If the Network is a point to point network then the transmit rate is the same as the receive rate and will adjust based on signal quality However if the network is point to multi point then the master radio can use a different modulation for transmission than the remote slave radios thus the master and the slave radios may use different modulation methods The advantage of this is to allow radios that have a good RF connection to maintain a high speed link to the master while radios on the same network that have a poor RF connection can still maintain a link at a slower data rate without penalizing the good link radios The one limiting factor is that all remote radios must be able to receive the master thus the master must transmit at a rate that allows all remote radios to receive this is typically a slower rate than many of the remotes could oper
68. s 16QAM 7151 kbps 32QAM Master Transmit Rate 2651 kbps 8PSK multispeed multipoint MMS None e Max Payload Bytes Master 256 Slave 256 Dynamic of MMS Hop Offset o Beacon Rate 1 Master Repeat 3 Network Address 2000 Network Radius 15 mies v Upstream Device ID Downstream Device ID Fimware Versjon 1 33 3079 Network Type Point to Multipoint Mode Master EG e Coen rado Senngs Reven a rotor Senal p Serial Framing GE z Refresh Singe Scan Delete List Diag Threshold 20 dem 33 Quick Start Multi Point 3 Configure Transmit rates While XetaWave radios support Multi speed Multi point for an initial configuration it is best to start with a single speed to simplify trouble shooting The ideal setting is a function of distance throughput required transmit power and radio noise in the area Firefox DE XetaWave Ethernet Bridge Radio Setup 3 19216803 Uconfio nt Eu Googie Most Visited EZ TechCrunch techrockiescom VI VentureBeat By eCollege Login V XetaWave Ethernet Bridge Radio 1 ID 2001 Master Ethernet Master v Reload List RF Band ISM 9 MAS Description Ethernet Master ISM MAS Band Start 902 0000 MHz Stop 928 0000 MHz Xmit Freg 952 206250 MHz Exclude Lower 0 MHz Upper 0 MHz Recv Freg 928 206250 MHz ISM Power 1000 mW Hop Pattern 1 10 kbps BPSK 57 kbps 2FSK 114 kbps 2FSK 153 kbps 2FSK 229 kbps 4FSK bs RE A 305 kbps 4FSK 11663 kbps 2FSK ude 884 kbps BPSK 11768 kbps QPS
69. s an access port Native VLAN this is the primary VLAN ID associated with a physical Ethernet port By convention untagged Ethernet frames entering the radio via a physical Ethernet port are assigned to the native VLAN specified for that port Any untagged frames leaving an Ethernet port are also associated with the port s native VLAN The default setting is 1 Port Tagging this value controls the VLAN tagging behaviour for an Ethernet port The default setting is NONE e When set to NONE an Ethernet port does not add VLAN tags to any frame leaving the port and only untagged frames are allowed to enter the radio One exception to this rule tagged frames belonging to the native 42 VLAN are accepted by the radio All packets entering and leaving the radio are associated with the native VLAN When set to EXCLUDE NATIVE the port acts as a VLAN trunk and will tag all frames leaving the port except those belonging to the native VLAN Traffic entering the port can be tagged or untagged with all untagged frames automatically being associated with a port s native VLAN When set to ALL the port acts as a VLAN trunk and will tag all frames leaving the port including those belonging to the native VLAN Traffic entering the port must be tagged Any untagged frames entering a port are dropped Allowed VLANS this value defines which VLANs are allowed to enter or leave an Ethernet port or radio interfac
70. s an immediate reset and must be validated otherwise the original settings will be returned This ensures that invalid settings do not render a device unreachable Go back to menu page This page allows for the setting of the IP address and Subnet mask It is critical that these values are set correctly and are compatible with other radios and devices on the network Due to the risk of losing connectivity with the device after changing IP address and VLAN settings a safe guard is built in that requires the user to validate changes on this page after they have been implemented before they become permanently stored in memory See Validate settings under the main menu section 3 1 for more information MAC address device MAC address for Ethernet communications The MAC address is set at the factory and cannot be changed IP address PV4 address used to communicate with or connect to the XetaWave radio The address specified is used to access the web based graphical user interface and establish communications with serial devices through the radio s built in terminal server capabilities 40 vA HETAUJAVE Subnet mask mask applied to the IPV4 address to identify the network segment containing the radio and when forwarding traffic to the default gateway is required radio s IP subnet If a default gateway is configured the radio will periodically attempt to resolve the MAC address of the default gateway via
71. s as more data is sent in a packet per slot time the utilization increases For example at BPSK 883kbps the user rate will vary from 719kbps to 788kbps as the packet size changes from 64 Byte to 1024 Byte 89 efficiency In contrast at 16QAM 3 5Mbps the user rate will vary from 2 0Mbps to 2 5Mbps 71 efficiency Since 16QAM is four times faster than BPSK one could expect the user rate to be 4 x 788kbps or 3 15Mbps but due to the overhead time the actual user rate is only 2 5Mbps If a targeted data rate is desired there are multiple options of packet size and modulation that will result with the data rate The choice of shorter packets with more complex modulation or longer packets with simpler modulation will be determined by the type of noise in the environment More noise interference generally requires shorter packets with resulting more complex modulation 3 4 5 RF Settings for Xeta9x E Emancipator The Xeat9x E Emancipator supports modulations only supports modulations up to and including 2651 kbps 8PSK 51 las HETAUJAVE 3 5 Serial Communications XetaWave Ethernet Bridge Terminal Server Configuration There are two sets of terminal servers that need to be set one pair for the user accessible ports on the enclosure and a second server s for the radio either one terminal server for one radio or two terminal servers for the two radio configuration The Local Serial 1 and Local Serial 2 cor
72. setting can provide some improved performance on and ISM network but it is not a backward compatible setting All radios in the network have to have the same setting Confirm that the Beacon Rate is set to 1 that the MMS setting is None MMS Hop Offset is set to 0 and the Master Repeat setting is set to 3 20 Quick Start M u Iti ml P oi nt Master Transmit Rate 2651 kbps 8PSK v multispeed multipoint MMS Max Payload Bytes Master 256 Slave 256 Dynamic On y MMS Hop Offset D Beacon Rate Master Repeat Sua Network Address 2000 Network Radius 24 km v Upstream Device ID 2001 3 t Downstream Device ID 2001 ae VES rs 3 Network Type Pointto Multipoint Mode Slave v EN 7 Se Modify Radio Settings Refresh All a aso eegen scan Gas Diag Threshold 80 dBm 6 Configure RF Network parameters and type The Network address is an identifier used to allow a group of radios to communicate and exclude non member radios In this example the number 2000 has been used The Network Radius indicates the maximum distance between the Master radio and the furthest remote The default unit is in kilometers KM but the units can be expressed as miles as in the example below The Upstream and Downstream Device ID s are not relevant for a radio configured as a Point to Multi Point Master and can be ignored Make sure the Network Type is set to Point to Multipoint and the Mode
73. ssful packets would be transmitted In reality some packets may have multiple errors and other packets may have no errors However this demonstrates that a single bit error may result in the loss of multiple bits The radio is designed to recover from errors by multiple methods such as repeating the data until the receiving radio acknowledges successful receipt This effectively reduces the data rate since the same data is now sent multiple times Thus the optimal packet size setting is a function of the number 50 A HETAUJAVE and type of errors that the radio receives And this in turn is a function of the noise and interference between the transmit antenna and the receiver antenna As a general rule as the packet size increases the required signal strength or received signal versus sensitivity must also increase for comparable performance Since sensitivity measurements are done at 10 error rates approximately 10 of the packets will be lost at 128 byte packets 1024 bits when operating at the sensitivity point If the lost due to at least one error in the packet Thus the signal strength must be increased to maintain the same 10 packet loss rate Likewise for very noise environments small packets will be more successful than large packets To achieve high user data rates larger packets and higher modulation levels are desired In one slot time there are fixed delays that are not a function of packet size or data rate thu
74. t the highest speed modulation the full payload is used and as the modulation speed is decreased the payload is decreased As an example if a 1024 byte payload is set for 1 7Mbps QPSK but the radio drops to BPSK at 0 88Mbps half the QPSK rate then the payload will drop to approximately 512 bytes Due to fixed time delays the payload is not exactly proportional to the data rate Details about choosing packet size and modulation methods are described later The Network Radius is the physical line of sight distance between the two radios Setting this number larger than actual is fine Setting this number too small may cause the radios to not operate All radios in the network must have the same network radios configured The Beacon Rate sets the number transmission slots that the master radio may skip if it has nothing to transmit or to acknowledge When set to 0 then every slot that the master can transmit will be used to send the header information and or payload When set to 1 then after a successful transmit if there is no data to send and if there is no remote data to acknowledge then the master will not transmit for that time slot and will resume transmitting the second time slot The use of this is to reduce the amount of RF noise in an environment when there is no benefit of the transmission Lastly the type of data to be transmitted must be identified as either Ethernet or Serial data Due to the fact that Ethernet d
75. vsnnsnnn 51 3 5 Serial COMMUNICATIONS nrnnnnrrnannrnnnnvnnnnvrnnnnranennnnsenennnnranennrnssnnnnsnrsnennrasennensennee 52 3 5 1 Serial Port Bindingstid a a Ea EEE a EE 53 3 5 2 Serial Communications for Xeta9x E Emancipator srrerronnrvvrrrnarrerrennr 53 3 6 Security Settings ii aria 54 3 7 I O and Advanced Gettngs 55 3 7 1 I O and Advanced Settings for Xeta9x E Emancipator ccceceeseeeees 55 3 8 System Administration 56 3 9 System Firmware Upgarde 57 3 10 Utilities RF Ping c c cccicesessessnscteccsoseesessnsscectsoseesensnsstesvenseesesnsereensesuesseaeacteass 58 3 11 Diagnostics LAN Statistics rrrrrrnrvrnvnrnvvrnsnrnsnvnsnvernsnsnsnsnsnsnsnsnsnsnsnsnsnsnsnsnsnsnsesen 59 3 12 Diagnostics Radio Statistics 60 3 13 Terminal Server Statlstics 61 Modem Recover ii 63 Additional Information oococnnnniconicnnoncncnonnnonanonanononnnnnrnonnnnnn cnn cnn nn nr arrancan cnn 64 5 1 COM1 and COM2 Pin Aeslgnments Error Bookmark not defined 5 2 Serial Pin Assignments for Xeta9x E Emancdpatorz sesssssesssssrresssersssrrrssreee 64 Warranty XetaWave LLC warrants your XetaWave wireless data transceiver against defects in materials and manufacturing for a period of two years from the date of purchase In the event of a product failure due to materials or workmanship XetaWave will at its discretion repair or replace the product In no event will XetaWave LLC its suppliers or its licensors b
76. y Operating Running time lo Days 2 08 14 Default password ADMIN The HTTP server can be configured to require basic authentication requiring the user name and password when a new connection is established A Trusted IP Adress may be set to allow access only from that IP address The previous settings are modified and saved by setting the desired action to Modify and save server settings and clicking on Perform desired action A further action is Restore factory settings which returns the device to default settings This also provokes a reset of the device and if the default settings cause the network values to be modified it will automatically start a three minute validation period meaning that it will also be necessary to establish a connection using the factory settings and validate them before the original ones will become permanent This is again to ensure that there is no danger of losing contact with a remote device The default device IP address is 192 168 0 3 The last action is a simple reboot of the device 56 A XETAUJAWE 3 9 System Firmware Upgarde XetaWave Ethernet Bridge Upload and program new Software to the XetaWave Ethernet Bridge No file chosen Upload new software Upgrade serial sub network radio firmware Upgrade serial sub network Upgrade radio Device ID Through Radio 1 Radio 2 Upgrade Go back to menu page The software upl
77. y to operate the device pose violations and liabilities This device complies with Industry Canada license exempt RSS standard s Operation is subject to the following two conditions 1 this device may not cause interference and 2 this device must accept any interference including interference that may cause undesired operation of the device Caution The model number XETA9 has a maximum transmitted output power of 4000 mW when used in the 928 960MHz band and 1000mW when used in the 902 928MHz band The transmit antenna shall be kept at least 33 96 cm from psychical space where humans may exist Additional details may be found in the RF Exposure Calculations at the end of this section This equipment has been tested and found to comply with the limits for a Class B digital device pursuant to Title 47 CFR Part 15 and ICES 003 These limits are designed to provide reasonable protection against harmful energy and if not installed and used in accordance with the instructions may cause harmful interference to radio communications However there is no guarantee that interference will not occur ina particular installation If this equipment does cause harmful interference which can be determined by turning the equipment off and on the user is encouraged to try to correct the interference by one or more of the following measures 1 Reorient or relocate the devices and or antennas 2 Increase the separation between the equipment an
78. ype and its gain should be so chosen that the equivalent isotropic radiated power E I R P is not more than that necessary for successful communication This radio transmitter identify the device by certification number or model number if Category II has been approved by Industry Canada to operate with the antenna types listed below with the maximum permissible gain and required antenna impedance for each antenna type indicated Antenna types not included in this list having a gain greater than the maximum gain indicated for that type are strictly prohibited for use with this device The installer of this radio equipment must ensure that the antenna is located or pointed such that it does not emit RF field in excess of Health Canada limits for the general population consult Safety Code 6 obtainable from Heath Canada s website www hc sc gc ca rpb FCC Continued The following antennas are approved for Canadian use as detailed below omni directional vertical Gain Impedance Radio Power Setting Part lt 10 Out gt 10 Out Type dBi Antenna Manuf Number Input Q mw mw Small radio RUBBA DUCK connected 3 lenve LCOM eer 50 10 500 Ges dipole SM omni directional 8 vertical Base station 51 Tubular Commscop DB583 Y 50 10 309 omni directional vertical e Andrew Base station 11 1 Tubular Commscop DB589 Y 50 3 79 omni directional vertical e Andrew B tati
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