User Manual - B&B Electronics
Contents
1. 18 DS TT m 19 54 Connector chs 20 SNMP omm 20 uiia diodes 21 SNB dii dels m 23 S MEDI I dolgrc 23 VN FAUT 25 cA TOPO 30 SN NS NUM Eoo mm 30 SEN METUS reU 30 SM genug m mm 30 DUEB 30 5 7 3 5 Selecting the Binary Input Current uc oci ore neo hei Vd px SEN ENTE IS 31 5 7 2 5 tote n 32 38 59 39 6 0 Resetting or Rebooting the 41 y PME 42 ZU 42 Tu Conneurmne the 42 7 9 42 DO TOUS SIO OU NS 45 MNE 0 45 CUS CO eoreg t 46 Tm 46 FIGURE LIST Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig I ten A eee eee m DLE eee ee 9 2 Basic dim2. RS485 A 5 TxRx RS485 B 6 TxRx RS485 A 7 12 V EXT External power supply 8 12 V EXT External power supply Table 16 Connector pinout in RS 485 mode ATTENTION The power supply is selected on the module board using the jumpers 27 Data Flow Direction Input Output Input Output Input Output Input Output Note In RS 485 mode pins 3 and 5 and pins 4 and 6 are internally shorted together If galvanic separation is required the converter must use an external power supply SGND Equipment 5485 RS485 Equipment SGND Equipment 5485 RS485 SGND Equipment 5485 RS485 Pin 1 SGDN Pin 2 SGND Pin 3 RS485 Pin 4 RS485 Pin 5 RS485 Pin 6 RS485 Pin 7 12 EXT Pin 8 12V EXT Pin 1 SGND Pin 2 SGND Pin 3 RS485 Pin 4 RS485 Pin 5 RS485 Pin 6 RS485 Pin 7 12V EXT Pin 8 12V EXT Fig 29 Connection to the router with data cable length more than 10 m With an RS 485 data cable longer than 10m it is necessary to use overvoltage protection on the router side RS 422 Mode Pin No Mark Data Flow Direction SGND SGND RxD RxD TxD TxD 12V EXT 12V EXT LS Signal and power supply ground Signal and power supply ground Receive Data Output Receive Data 4 Output Transmit Data Input Transmit Data 4 Input External power supply Externa
3. SP No connect RTLTE 302 SP RS 232 RTLTE 304 SP RS 422 485 RTLTE 310 SP Ethernet RTLTE 311 SP Ethernet RTLTE 322 SP RS 232 RTLTE 324 SP RS 422 485 RTLTE 330 SP No connect RTLTE 300 W SP No connect RTLTE 310 W SP No connect RTLTE 320 W SP No connect RTLTE 330 W SP No connect RTLTE 340 W SP No connect Note W Models Are Wi Fi enabled Table 5 SPECTRE LTE model numbers for Sprint 11 3 5 DIMENSIONS Basic dimensions metal box 50 mm 1 97 inches Space for data connectors and data cables E 113 2 mm 4 46 inches 42 mm 80 3 mm 1 65 inches 3 16 inches DIN rail 35 mm 1 38 inches Fig 2 Basic dimensions metal box 12 40 MOUNTING RECOMMENDATIONS e The router may be placed on any flat level work surface e Clips are included for mounting the router a standard DIN rail The router may be installed in an industrial instrument panel For best performance please consider the following guidelines e When using the supplied whip antennas maintain a distance of 6 cm from cables and metal surfaces on every side When using an external antenna outdoors lightning protection should be used When mounting the router on a metal surface an external antenna should be used lf the router is installed in a metal instrument enclosure an external antenna must be used and it must be mounted outside of the metal enclosure Fig 3 Space around antenna The cables should b
4. cable is connected ETH Yellow Blinking Slowly Data transmission Off The network cable is not connected PORT Green LED functions for different router configurations appear in the charts below PORT Yellow LED functions for different router configurations appear in the charts below SIM1 Yellow On SIM card 1 is active SIM2 Yellow On SIM card 2 is active Table 7 Router status indication 17 5 2 1 AUXILIARY PORT STATUS INDICATORS 5 2 1 1 Ethernet Ports LED PORT INDICATOR Green LED e selected 100 Mbit s selected 10 Mbit s Yellow LED One the network cable is connected Blinking data transmission E the network cable is not connected Table 8 Ethernet LED status indication 5 2 1 2 RS 232 Ports Green LED Blinks on Receive data Yellow LED Blinks on Transmit data Table 9 RS 232 LED status indication 5 2 1 3 1 0 Ports Green LED Indicates binary input O Yellow LED Indicates binary input 1 Table 10 1 0 Port LED status indication 5 2 1 4 RS 485 422 Ports Green LED Blinks on Receive data Yellow LED Blinks on Transmit data Table 11 RS 485 422 LED status indication 5 2 1 4 Wi Fi Green LED Indicates Wi Fi Power On Yellow LED Always Off Table 12 Wi Fi LED status indication 18 5 3 POWER CONNECTOR 2 PIN PANEL SOCKET VCC Positive input of DC supply voltage 10 to 30 VDC 2 GND Negative input of DC supply voltage Table 13 Connection of power connector Fig 1
5. connect RT3G 310 W No connect RT3G 320 W No connect RT3G 330 W No connect RT3G 340 W RS 422 485 No connect Note W Models Are Wi Fi enabled Table 2 SPECTRE 3G model numbers SPECTRE LTE Wireless Routers Verizon Auxiliary Ports Model No RTLTE 300 VZ RTLTE 302 VZ RTLTE 304 VZ RTLTE 310 VZ RTLTE 311 VZ RTLTE 322 VZ RTLTE 324 VZ RTLTE 330 VZ RTLTE 300 W VZ RTLTE 310 W VZ RTLTE 320 W VZ RTLTE 330 W VZ 12 bit Al DI DO RTLTE 340 W VZ RS 422 485 Note W Models Are Wi Fi enabled Table 3 SPECTRE LTE model numbers for Verizon Port 1 No connect No connect No connect No connect Ethernet RS 232 RS 232 12 bit I O Al DI DO No connect Ethernet RS 232 No connect RS 232 RS 422 485 Ethernet Ethernet RS 232 RS 422 485 No connect No connect No connect No connect No connect No connect 10 SPECTRE LTE Wireless Routers AT amp T Auxiliary Ports Model No RTLTE 300 AT No connect RTLTE 302 AT RS 232 RTLTE 304 AT RS 422 485 RTLTE 310 AT Ethernet RTLTE 311 AT Ethernet RTLTE 322 AT RS 232 RTLTE 324 AT RS 422 485 RTLTE 330 AT No connect RTLTE 300 W AT No connect RTLTE 310 W AT No connect RTLTE 320 W AT RS 232 No connect RTLTE 330 W AT 12 bit I O Al DI DO No connect RTLTE 340 W AT RS 422 485 No connect Note W Models Are Wi Fi enabled Table 4 SPECTRE LTE model numbers for AT amp T SPECTRE LTE Wireless Routers Sprint Auxiliary Ports Model No RTLTE 300
6. is 5 5 W For correct operation the power source must be able to supply a peak current of 1A 7 2 CONFIGURING THE ROUTER Attention The cellular carrier and network must be configured in the router prior to use For UMTS and LTE networks the router will not operate without a SIM card The SIM card must be provisioned for the necessary network LTE HSPA UMTS EDGE GPRS For 3G CDMA networks the router is provisioned over the air Refer to the Configuration manual for details on configuring the router based on the cellular carrier and network Configuration over Web browser Monitoring of the status configuration and administration of the router can be done via the Web interface The default IP address of the router is 192 168 1 1 The username is root The password is root A detailed description of configuring the router via the Web interface can be found in the configuration manual Configuration over Telnet Monitoring of status configuration and administration of the router can be performed by means of the Telnet interface The default IP address of the router is 192 168 1 1 The username is root The password is root A detailed description of configuring the router via Telnet can be found in the configuration manual 7 3 TECHNICAL PARAMETERS SPECTRE CELLULAR ROUTER EE Complies with standards EN 301 511 v9 0 2 EN 301 908 1 amp 2 v3 2 1 ETSI EN 301 489 1 V1 8 1 EN 60950 1 06 ed 2 A11 09 A1 10 UL CLASS D
7. of 5V DC supply voltage 2 USB data USB data signal negative pole Input Output 3 USB data USB data signal positive pole Input Output 4 GND Negative pole of DC supply voltage Table 20 Connection of USB connector Fig 35 USB connector Example of connecting devices with a serial interface to the USB router PLC Transmitter USB RS232 Fig 36 USB connector Connecting a USB flash drive to the USB router 38 USB Fig 37 Connecting a USB memory stick to the router 5 9 1 0 PORT 3 PIN PANEL SOCKET 1 BINO Binary input Input 2 GND Signal ground 3 OUTO Binary output Output Table 21 I O port connection lel Fig 38 I O connection The user interface I O is for the processing of binary input signals and for control settings of binary output signals Binary output is not switched to ground in the default configuration The maximum load for the binary output is 30V 100mA The constant current supplied by the binary input is 3 mA Connect the cable s I O connector to the router s I O port and tighten locking screws See Fig 35 39 Fig 39 Connection I O cable Circuit example of a binary input or output connected to the router LC Fig 40 Connection of binary input and output of router 40 6 0 RESETTING OR REBOOTING THE ROUTER It is important to distinguish between resetting and rebooting the router Action _ Router Behavior Actions O O Reboot Turn
8. of USB 38 CONNEC UO MN 39 Table 22 Ways to reset or restart the router esssesssessseeresrressrrrresrrrsssrereserressrereserreserereserreserereserresse 41 Table 23 General SDECIHCAOEIOTIS esca ee ETE T NEUE ME CM DEUS EUMD 43 Table 24 Cellular Module dA Se Ebr o FRE t 43 Table 25 Processor 44 ela cA gems 44 TADE 7 ales 44 ABOUT GPL license Source codes under GPL license are available free of charge by sending an email to support bb elec com Router version The properties and settings associated with the cellular network connection are not available in non cellular SPECTRE RT routers PPPoE configuration is only available on SPECTRE RT routers It is used to set the PPPoE connection over Ethernet gt A Declared quality system 160 9001 4 5 9705030 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 and 2 this device must accept any interference received including interference that may cause undesired operation 2 0 SAFETY INSTRUCTIONS 2 1 COMPLIANCE PLEASE OBSERVE THE FOLLOWING INSTRUCTIONS THIS EQUIPMENT IS SUITABLE FOR USE IN CLASS DIVISION 2 GROUPS A B C AND D HAZARDOUS LOCATIONS OR NON HAZARDOUS LOCATIONS ONLY WARNING EXPLOS
9. off e Check signal power If signal power is weak you will need a better antenna If the neighboring cells have a similar signal strength you will need to use a directional antenna For proper operation the signal levels have to be in the range from 50dBm to 90dBm It is necessary to set ping which will check the connection and in the case of failed ping restart the connection Q PPP connection cannot be established DAT LED off e Recheck GPRS settings name password and IP address e Try to enter PIN verify if the SIM card has the PIN code set e private APN switch the DNS server send off Switch the system log on and observe where the error occurs Q FTP doesn t function Router doesn t support active FTP mode It supports passive mode only Q RS 232 doesn t function e Verify that the router supports RS 232 communications Also verify the RS 232 communication settings To do so open the router s configuration menu via the web browser select the appropriate expansion port and verify the settings in the configuration menu Q L2TP or IPSec isn t establishing e Check the system log for error messages Q switched the router to offline mode by SMS message but the router is in online mode after restart e SMS messages do not change the router configuration They remain in effect only until the router is restarted 45 9 0 CUSTOMER SUPPORT Up to date information product information is on the w
10. 0 Power connector The router requires 10 V to 30 V DC supply Protection against reversed polarity is built into the router The power consumption during receiving is 2 3W The peak power consumption during data sending is 5 5W For correct operation the power source must be able to supply a peak current of 1A The power cable connects to the router via locking screws See Fig 21 Fig 11 Connection of power supply connector Circuit example Router PIN 1 VCC PIN 2 GND Fig 12 Connection of power supply 19 5 4 The two large cellular antennas are connected to the router using the standard SMA antenna connectors on the front panel The main cellular antenna connection is labeled ANT The router cannot operate without a main antenna The receive diversity antenna connection is labeled DIV This antenna improves the receive sensitivity of the router and should be used in areas with weak signal strength On SPECTRE Cellular routers with Wi Fi a third antenna is connected to the AUX antenna connector on the front panel The AUX connector on the Wi Fi units is a reverse polarity SMA connector and should only be used with the smaller Wi Fi antenna Do not attempt to connect the cellular antennas to this connector as it can damage the connector and the antennas Example of antenna Fig 13 External antenna Connect the antenna s SMA connector to the router s SMA connec
11. 01 0x1002 0x1003 0x1004 0x1005 0x1006 0x1007 0x1008 0x1009 0 100 bit1 active level on input BIN2 e 0 2 active level on input BIN3 e bit 3 active level on input BINA e bit4 analog input lower limit overrun AN1 e bit5 analog input upper limit overrun AN1 e bit 6 analog input lower limit overrun AN2 bit 7 analog input upper limit overrun AN2 bit 8 limit frequency overrun CNT1 bit9 limit frequency overrun CNT2 Binary inputs status bitO level on input BIN1 e bit 1 level on input BIN2 e bit2 level on input BIN3 e bit3 level on input BINA e bit 6 level on output BOUT1 Recalculate AN1 value with sign Recalculate AN2 value with sign Upper 16 bits CNT1 Lower 16 bits CNT1 Prompt frequency CNT1 Average frequency CNT1 Minimal frequency CNT1 Maximal frequency CNT1 Upper 16 bits of counter CNT2 value Lower 16 bits of counter CNT2 value Prompt frequency CNT2 Average frequency CNT2 Minimal frequency CNT2 Maximal frequency CNT2 log upper 16 bits of log number log lower 16 bits of log number log upper 16 bits of time stamps log lower 16 bits of time stamps log alarms status log binary inputs status log recalculate value AN1 with sign log recalculate value AN2 with sign log upper 16 bits CNT1 log lower 16 bits CNT1 ES m ENS EN NES NES NN E EN log prompt frequ
12. CNT1 CNT2 0 0004 R Maximum log entries in buffer 0 0005 R W Marker of log launching and alarms work 0 0006 R W Upper 16 bits of current time in seconds numbered from 1 1 1970 0x0007 R W Lower 16 bits of current time in seconds numbered from 1 1 1970 0 0008 R W Upper 16 bits of log entry timestamp 0 0009 R W Lower 16 bits of log entry timestamp Ox000A R Alarm actual status 0x0100 R Binary input status 0x0200 R W Binary output status 0x0300 R Recalculate value of analog input AN1 with sign 0 0400 Recalculate value of analog input AN2 with sign 0 0500 R W Upper 16 bits of counter CNT1 value 0x0501 R W Lower 16 bits of counter CNT1 value 0x0502 R Prompt frequency CNT1 0x0503 R Average frequency CNT1 0x0504 R Minimum frequency CNT1 0x0505 R Maximum frequency CNT1 0 0601 R W Upper 16 bits of counter CNT2 value 0 0601 R W Lower 16 bits of counter CNT2 value 0x0602 R Prompt frequency CNT2 0x0603 R Average frequency CNT2 0 0604 R Minimum frequency CNT2 0 0605 Maximum frequency 2 OxOFOO R 0x0000 always 1 R 0 0000 always 2 R Upper 16 bits of seconds number from 1 1 1970 OxOF03 R Lower 16 bits of seconds number from 1 1 1970 4 Alarms status e bit O active level on input BIN1 34 OxOFO5 OxOFO06 OxOFO7 8 OxOFO9 OxOFOA OxOFOB OxOFOC OxOFOD OxOFOE OxOFOF OxOF10 OxOF11 OxOF12 OxOF13 0x1000 0x10
13. F405 OxF406 OxF500 OxF501 OxF502 OxF503 AN1 samples period sec AN1 multiplicative constant with sign AN1 additive constant with sign AN1 hysteresis value with sign AN1 lower limit with sign AN1 upper limit with sign bits 7 3 AN1 metering circuit switch time e 0 1 64 sec e 1 2 64 sec Pre 30 31 64 sec bits 2 0 AN1 samples number for average e O0 1sample e 1 2samples 2 gt 4 samples e 4 8 samples e 0 16 samples AN2 samples period sec AN2 multiplicative constant with sign AN2 additive constant with sign AN2 hysteresis value with sign 2 lower limit with sign 2 upper limit with sign bits 7 3 2 metering circuit switch time e 0 1 64 sec e 1 2 64 Ves 30 31 64 sec bits 2 0 AN2 samples number for average e O0 1sample e 1 2 samples e 2 gt 4 samples 4 8 samples e 5 16 samples CNT1 multiplicative constant CNT1 upper limit CNT1 time of limit overrun sec CNT1 time for metering reset sec 37 OxF600 W CNT2 multiplicative constant OxF601 W CNT2 upper limit OxF602 N CNT2 time of limit overrun sec OxF603 CNT2 time for metering reset sec OxFFFF Switch main supply off on set time min Table 19 MODBUS input output address space 5 8 USB PORT PANEL SOCKET USB A Pin No Signal Mark Description Data Flow Direction __ 1 5 Positive pole
14. ION HAZARD DO NOT DISCONNECT EQUIPMENT UNLESS POWER HAS BEEN REMOVED OR THE AREA IS KNOWN TO BE NON HAZARDOUS WARNING EXPLOSION HAZARD SUBSTITUTION OF ANY COMPONENTS MAY IMPAIR SUITABILITY FOR CLASS DIVISION 2 CET QUIPEMENT EST CONVENABLE EN CLASSE 1 DIVISION 2 GROUPES A B C ET D ENDROITS DANGEREUX OU ENDROITS NON DANGEREUX SEULEMENT AVIS RISQUE D EXPLOSION NE D CONNECTEZ PAS L QUIPEMENT SAUF SI L ALIMENTATION A COUP E OU SI L ENVIRONMEMENT EST CLASS NON DANGEREUX AVIS RISQUE D EXPLOSION SUBSTITUTION DE TOUTE COMPOSANTE RISQUERAIT LA QUALIT POUR CLASSE 1 DIVISION 2 These devices are open type devices that are to be installed in an enclosure suitable for the environment The router must be used in compliance with all applicable international and national laws and in compliance with any special restrictions regulating the use of the router in prescribed applications and environments To prevent possible injury and damage to appliances and to ensure compliance with all relevant provisions use only the original accessories Unauthorized modifications or the use of unapproved accessories may result in damage to the router and a breach of applicable regulations Unauthorized modifications or use of unapproved accessories may void the warranty Caution The sim card could be swallowed by small children Input voltage must not exceed 30v dc max Do not expose the router to extreme ambient condit
15. IS SAME AS oem CONNECTION OF INPUTS 3 AND 4 SIGNAL ORCUND OUTPUT COUNTER BINARY INPUTS CONNECT mz DE ANALOGUE INPUT ONLY AGAINST GROUND 8 AN2 ANALOGUE INPUT2 DA 12VDC 12VDC SIGNAL TERMINAL ff 2 ef BLOK H E D GND INPUTS OUTPUT UE Y ST Y 5 2 0 8 NS EPOR IN amp 2x COUNTER INPUT 2x ANALOGUE SENSOR gt CURRENT LOOP 4 20mA EC OPTOSENSOR 150 12 ATP METRE BINARY INPUTS AND OUTPUTS VIA RELAY INTERFACE Fig 34 Connection of the I O Port circuitry The I O Port registers are read and written using MODBUS ASCII slave protocol over serial port 1 Using this protocol it is possible to configure the 1 0 board read the input status and control the output The port communicates at 9600 baud 8 bits no parity and 1 stop bit 8N1 ADDRESS SPACE Address Access Description 0x0000 R Firmware type 0 0001 Upper 16 bits of firmware version 0x0002 R Lower 16 bits of firmware version 0x0003 R Supports firmware characteristics bitO Analog input AN1 bit 1 Analog input AN2 e bit 2 Counter input CNT1 e bit 3 Counter input CNT2 bit 4 Binary input BIN1 bit 5 Binary input BIN2 bit 6 Binary input BIN3 bit 7 Binary input e bit 8 Binary output OUT1 33 e bit9 Automatic feeder control e bit 10 Full duplex counter
16. IV 2 GROUPS A C AND D Temperature range Function 30 C to 60 C 42 Protection Supply voltage Consumption Dimensions Weight Antenna connector SIM Card Interface User interface Storage 40 C to 85 C IP20 10 to 30 V DC Class 2 Power Supply Only Receive Mode 2 3W Transmit GPRS to 3 5 W GPRS transmission Transmit to 5 5 W UMTS HSDPA LTE transmission UMTS HSDPA EVDO 42x76x113 mm DIN 35mm 280g SMA 50 Ohm 1 8V and 3 3V Mini SIM Cards ETH Ethernet 10 100 Mbit s USB USB 2 0 type A host PORT 1 Model Dependent PORT 2 Model Dependent Table 23 General specifications CELLULARMODE LTE parameters HSPA parameters UMTS parameters GPRS parameters Transmit power Supported channels Bit rate 100 Mbps DL 50 Mbps UL 3GPP rel 8 standard Supported bandwidth 5 Mhz 10 Mhz 20 Mhz bit rate 21 1 Mbps 5 76 Mbps 3GPP rel 7 standard UE CAT 1 to 6 8 10 12 14 Data compress 3GPP PS bitrate 384 384 kbps CS bitrate 64 64 kbps W CDMA FDD standard bit rate 236 kbps 236kbps GPRS multi slot class 10 CS 1 to 4 EGPRS multi slot class 10 CS 1 to 4 MCS 1 to 9 UMTS HSUPA HSDPA HSPA 20dBm EGSM900 GSMS50 Class 4 33dBm GSM1800 1900 Class 1 30dBm GSM GPRS EDGE 850Mhz 900Mhz 1800Mhz 1900Mhz UMTS HSDPA HSUPA HSPA 800Mhz 850Mhz 900Mhz 1900Mhz 2100Mh LTE 800 900 1800 2100 2600 Mhz Table 24 Cellular module specifications 43 32b ARM Microprocessor
17. Memory 512 Mb DDR SDRAM 128 Mb FLASH 1 Mb MRAM Interface Serial interface RS 232 Ethernet interface 10 100Mbit s USB 2 0 interface Table 25 Processor specifications Input Output Binary input reed contact with trigger level 1 3 up to 1 4V Binary output 120 mA max 30 V Table 26 I O port specifications WI FI Specifications Power supply Internal 3 3V Environment Operating temperature 15 65 Storage temperature 20 85 C Standards Emission EN 55022 B Immunity ETS 300 342 Safety EN 60950 Isolation EN 60747 WI FI specifications RX Sensitivity 11b 11Mbps 85 dBm 802 11 b g n 11g 54Mbps 70 dBm HT20 11n MSC7 66 dBm HT20 11n MSC7 62 dBm TX Output 11b 11Mbps 19 dBm power 11g 54Mbps 16 dBm 802 11n HT20 15 dBm 802 11n HT20 15 dBm Internal Antenna Impedance 500 Frequency band 2 4GHz Table 27 Wi Fi specifications 8 0 TROUBLESHOOTING 9 1 FAQ Q have NAT enabled My equipment is not connecting to the network The device s gateway has to be configured as the router Q The router resets itself and the Ethernet connection fails e The router will not function without an antenna Keep the antenna as far as possible from the power supply Q can t access the Web server over e The remote http access the router has to be disabled the default server address has to be your web server and the gateway of the web server has to be the IP of the router Q PPP connection fails DAT LED
18. PWR 2 pin Power supply ETH RJ45 Connection to the local computer network PORT1 RJ45 RS 232 422 485 ETHERNET or I O PORT 2 RJ45 RS 232 422 485 or ETHERNET ANT SMA Main cellular antenna DIV SMA Diversity cellular antenna AUX RP SMA Wi Fi antenna USB USB A Host USB connector I O 3 pin Binary input and output SIM1 SIM card holder SIM2 SIM card holder 2 Table 6 Front panel description DIV OUT IN USR SIM2 SIM1 WAN DAT PWR RST BBO ADDS Out L In I O t PWR PORT2 PORT1 CJ Fig 8 Front panel SPECTRE LTE 16 OUT IN USR SIM2 SIM1 WAN DAT PWR Fig 9 Front panel SPECTRE LTE with Wi Fi 5 2 STATUS INDICATORS Label Color____ State_ Blinking Slowly Router is ready PWR Green Blinking Quickly Firmware Update On Router is initializing WAN Red Blinking Communication in progress Flashing PPP connection established Signal strength is from 50 dBm to 69 dBm second DAT Yellow 2 x flash per Signal strength is from 70 dBm to 89 dBm or the second difference between neighboring cells is exactly 3 dBm 3x flash per Signal strength is from 90 dBm to 113 dBm or the second difference between neighboring cells is smaller than 3 dBm USR Yellow Function selected by user OUT Green On Binary output active IN Green On Binary input active On Selected 100 Mbit s zi oreen Off Selected 10 Mbit s On The network
19. SPECTRE Router USER MANUAL B BSB ELECTRONICS B BEB ELECTRONICS International Headquarters B amp B Electronics Mfg Co Inc 707 Dayton Road Ottawa IL 61350 USA Phone 815 433 5100 General Fax 815 433 5105 Website www bb elec com support bb elec com European Headquarters B amp B Electronics Westlink Commercial Park Oranmore Co Galway Ireland Phone 353 91 792444 Fax 353 91 792445 Website www bb europe com techsupport bb elec com Document SPECTRE User Manual R5_1414m 2014 B amp B Electronics Mfg Co Inc No part of this publication may be reproduced or transmitted in any form or by any means electronic or mechanical including photography recording or any information storage and retrieval system without written consent Information in this manual is subject to change without notice and does not represent a commitment on the part of B amp B Electronics Mfg Co Inc B amp B Electronics Mfg Co Inc shall not be liable for incidental or consequential damages resulting from the furnishing performance or use of this manual All brand names used in this manual are the registered trademarks of their respective owners The use of trademarks or other designations in this publication is for reference purposes only and does not constitute an endorsement by the trademark holder This device complies with part 15 of the FCC Rules Operation is subject to the following two condition
20. ate a pulse from 125 to 8000ms in length It is also possible to configure the unit so that the output will become active when counter 1 CNT1 reaches a threshold 30 5 7 3 5 SELECTING THE BINARY INPUT CURRENT The input threshold for detecting a logic 1 can be set at either 8uA or 20mA using a jumper on the module board When jumper is shorted the threshold current level is 20 mA When jumper is not shorted the threshold current level is 8 A threshold current value of 20mA has a higher resistance to noise on the input but also dissipates more power fous fgg EX Fig 32 CNT Jumper J4 31 5 79 5 PANEL SOCKET 45 Pin No Signal Mark Data Flow Direction CON DM BR WN LS INPUT OUTPUT CONNECTOR BIN1 CNT1 BIN2 CNT2 BIN3 BIN4 GND OUT1 AN1 AN2 Binary input counter input Binary input counter input Binary input Binary input Signal ground Binary output open collector Analog Current input Analog Current input Table 18 Input Output connector pinout Fig 33 CNT connector 32 Input Input Input Input Output Input Input Typical connection of the I O port circuits 12VDC 12V0C DA4 COMZ XC CNT Pt PIN NAME DA4 XCCNT1 ADR O 2525 ee me INPUTI COUNTERS INPUTS 1 AND 2 CAN WEIDMULLER COUNTER BIN INPUT2 BE USED ALSO AS BINARY 3 BIN3 BINARY INPUT3 gt 4 BLUE WHITE 2 INPUTA THEIR CONNECTION
21. e tied together and routed away from the antennas to avoid coupling RF noise onto the cables e Length The combination of power supply and data cables can be a maximum of 1 5 meters the length of the data cables exceeds 1 5 meters or if the cable leads towards the switch panel we recommend installing overvoltage protectors surge suppressors Do not bundle the data cables with 120 230V power cables e All wiring to sensors should use shielded twisted pairs 13 Fig 4 Cable routing Leave enough space around the connectors for the routing of cables Fig 5 Space in front of connectors We recommend using the instrument panel s earth ground for grounding the router s power supply data cables and antenna 14 41 MOUNTING THE ROUTER ON A DIN RAIL Attach the DIN rail clip to the rear of the router using the 4 supplied screws The spring clips should be mounted towards the bottom of the router D a Fig 6 DIN rail clip Attach the bottom of the DIN rail clip to the DIN rail Push up on the router and tilt the router toward the rail to attach the top of the clip to the DIN rail To remove the router from the DIN rail push the router up slightly so that the top part of the clip disengages and then gently tilt the router off of the DIN rail See Figure 7 DIN 9 DIN t DIN EDS EU E to es Fig 7 Removing the router 15 5 0 USER INTERFACES 5 1 CONNECTORS FRONT PANEL
22. ebsite http www bb elec com For Technical Support Call 815 433 5100 MAINTENANCE Handle the SIM card carefully Do not bend scratch or expose the card to static electricity Do not clean the router with harsh chemicals solvents or abrasive cleaners B amp B Electronics hereby declares that the router described in this user s guide fits all basic demands of directive 1999 5 EC R amp TTE Router fits values of coefficient SAR defined by association ICNIRP and values of About protection of health from non ionized radiation C Declaration of conformity was issued and may be viewed on the accompanying CD or acquired from the manufacturer 46
23. ency CNT1 35 Ox100B R 1 log average frequency CNT1 Ox100C R 1 log minimal frequency CNT1 Ox100D R 1 log maximal frequency CNT1 Ox100E R 1 log upper 16 bits of counter CNT2 value Ox100F R 1 log lower 16 bits of counter CNT2 value 0x1010 R 1 log prompt frequency CNT2 0x1011 R 1 log average frequency CNT2 0x1012 R 1 log minimal frequency CNT2 0x1013 R 1 log maximal frequency CNT2 0x1100 R 2 log 0x1200 R 3 log m OxEFOO R 224 log W Samples stores period min 1 W Allowed e bitO active level on input BIN1 e bit 1 active level on input BIN2 e bit 2 active level on input BIN3 e bit 3 active level on input BINA e bit4 analog input AN1 lower limit overrun e bit5 analog input AN1 upper limit overrun e bit6 analog input AN2 lower limit overrun e bit7 analog input AN2 upper limit overrun bit8 limit frequency CNT1 overrun e bit9 limit frequency CNT2 overrun OxF100 W Binary inputs negative logical bitO input bit 1 input BIN2 e bit2 input BIN3 e bit3 input BINA OxF200 W Binary outputs normal level bitO output OUT1 OxF201 W Feeder impulse number on input BIN1 CNT1 OxF202 W Feeder impulse length on output OUT1 1 8 sec 36 OxF300 OxF301 OxF302 OxF303 OxF304 OxF305 OxF306 OxF400 OxF401 OxF402 OxF403 OxF404 Ox
24. ensions metal 12 3 Space around antenna 13 2 Cane TOBEIDE a 14 5 Space In Tront ol CODPBeCLOETS 14 o esta ean tetas 15 7 Removing 15 Front panel SPECTRE LTE i nuevos 16 9 Front panel SPECTRE LTE with Wi Fi eese nnn nnne nennen nennen na 17 10 Power TNT 19 11 Connection of power supply connector 19 12 Connection of power SUDDIV 19 13 External Ma dva 20 14 Connecting the antenna 20 15 Ejected SIM card EE 21 T6 Ethernet CONNECTOT 21 17 Ethernet cable COMMOTION MR TUN MEN 22 18 9 m Om 22 19 857232 DOFL CODGELUDES eee Lp EM LU ree 23 20 Meter connector to TOULE ceno 24 ZA PC COMMBC T T eee 24 22 RS 232 equipment connection to 24 23 Jumper Position for external power 25 24 Jumper position TON BS ese
25. ions Protect the router against dust moisture and high temperature The router should not be used in locations where flammable and explosive materials are present including gas stations chemical plants or locations in which explosives are used Switch off the router when travelling by plane Use of the router in a plane may endanger the operation of the plane or interfere with the mobile telephone network and may be unlawful When using the router in the close proximity of personal medical devices such as cardiac pacemakers or hearing aids proceed with heightened caution The router may cause interference when in the close proximity of tv sets radio receivers or personal computers 2 2 PRODUCT DISPOSAL INSTRUCTIONS The WEEE Waste Electrical and Electronic Equipment 2002 96 EC directive has been introduced to ensure that electrical electronic products are recycled using the best available recovery techniques to minimize the impact on the environment This product contains high quality materials and components which can be recycled At the end of its life this product MUST NOT be mixed with other commercial waste for disposal Check the terms and conditions of your supplier for disposal information 3 0 ROUTER DESCRIPTION 3 1 DESCRIPTION The SPECTRE Cellular industrial router is used to wirelessly connect Ethernet equipment and other devices to the Internet or intranet Thanks to the high data transfer speed of up to 100 Mbit s d
26. l power supply Table 17 Connector pinout in RS 422 mode 28 ATTENTION The power supply is selected on the module board using the jumpers If galvanic separation is required the converter must use an external power supply SGND TxD Equipment TxD RxD RxD SGND TxD Equipment TxD RxD RxD Fig 31 Connection to the router with data cable length more than 10 m With a RS422 data cable more than 10m long it is necessary to use overvoltage protection on the router side Pin 1 SGDN Pin 2 SGND Pin 3 RxD C Pin 4 RxD Pin 5 TxD Pin 6 TxD Pin 7 12V EXT Pin 8 12V EXT 29 Pin 4 SGND Pin 2 SGND Pin 3 RxD Pin 4 RxD Pin 5 TxD Pin 6 TxD Pin 7 12VEXT Pin 8 12V EXT 5 7 3 PORT The 1 0 port user interface is used to monitor analog and binary input signals and to control binary output signals The interface has 6 inputs and 1 output Two of the inputs can be configured as binary counter inputs or general purpose binary inputs There are also 2 dedicated binary inputs 2 analog current inputs and 1 open collector output The options for the 1 0 port are configured by writing to register values on the I O board using the MODBUS ASCII protocol The unit can periodically store the values of the inputs in memory These log entries can be read by reading the individual memory locations Up to 224 l
27. off and then turn on router Disconnect and connect the power Press the reboot button in the Web configuration page Reset Restore the factory default configuration and Press RST button reboot the router Table 22 Ways to reset or restart the router After the green LED starts to blink you may restore the router s initial settings by pressing button RST on front panel The router will restore its factory default configuration and reboot The green LED will be on To reset use a narrow screwdriver See Fig 37 Fig 41 Router reset We recommend backing up your router configuration before resetting See the separate configuration manual A router reset will erase your configuration and return the router to its default settings 41 7 0 FIRST USE Before you can set up the router you will need to make all of the necessary connections The router cannot operate without a connected antenna SIM card for UMTS networks and a power supply Operating the router without an antenna can damage the router 7 1 STARTING THE ROUTER Connect power to the router In the default setting the router will start to login automatically to the preset APN The Ethernet port DHCP server will assign device addresses The behavior of the router can be modified by means of the Web or Telnet interface as described in the configuration manual The power consumption during receiving is 2 3W The peak power consumption during data transmission
28. og entries may be stored The logging interval can range from 1 65535 minutes 5 7 3 1 ANALOG INPUTS The analog current inputs have a range from to 20mA The input impedance is 100 and the ADC resolution is 12 bits The averaging and sampling period may be adjusted by the user Also alarms thresholds may be set for each input The ADC value stored in memory is calculated using the following equation ADC Value 12b value addit constant multiplic constant 1000 where the constants are programmed into memory by the user BINARY INPUT The binary input is sampled 8x per second with a sampling period of 1 64 seconds The active level for each binary input may be set to either a logic O or logic 1 The inputs may be configured to generate an alarm when they become active The input threshold for detecting a logic 1 can be set at either 8uA or 20mA using a jumper on the module board 5 7 3 3 COUNTER INPUT The counter inputs have a maximum input frequency of 100 Hz The minimum input pulse width is 1ms The counter input may be configured to generate an alarm when a threshold is reached 5 7 3 4 BINARY OUTPUT The binary output is a transistor with an open collector output In the inactive state logic O the transistor is off In the active state log 1 the transistor is on and will connect the output signal to ground GND The output transistor is rated at 100 mA and 30V The output may be configured to gener
29. ownload LTE models and 50 Mbit s upload LTE models it is an ideal wireless solution for traffic and security camera systems individual computers LAN networks automatic teller machines ATM and other self service terminals The standard configuration includes one 10 100 Ethernet port one USB Host port one binary Input output I O port and dual SIM card holders Network redundancy is provided by the second SIM card holder It also contains 2 auxiliary ports for connecting to other types of networks such as RS 232 RS 485 422 Digital Analog 1 0 or they can be configured to provide additional switched Ethernet ports The function of each port is dependent upon the specific router model Configuration of the router may be done via a password protected Web interface The router supports the creation of VPN tunnels using IPsec OpenVPN and L2TP to ensure safe communication The Web interface provides detailed statistics about the router s activities signal strength etc The router supports DHCP NAT NAT T DynDNS NTP VRRP control by SMS and many other functions The router provides diagnostic functions which include automatically monitoring the PPP connection automatic restart in case of connection losses and a hardware watchdog that monitors the router status The user may insert Linux scripts to control various router functions and create up to four different configurations for the same router These configuration files can include diffe
30. rent SMS functionality and binary input configurations You may switch between different configurations whenever necessary The router can automatically upgrade its configuration and firmware from your central server This allows for mass reconfiguration of numerous routers at the same time 3 2 EXAMPLES OF POSSIBLE APPLICATIONS e Mobile office e Fleet management e Security system e Telematics e Telemetrics e Remote monitoring e Vending and dispatcher machines 3 3 CONTENTS OF PACKAGE The basic router package includes e Router e Power supply e Crossover UTP cable e External antennas e Clips for the DIN rail e Documentation CD e Quick Start Guide Q OW BsBEvecrrmowcs Spectre LTE z OUT IN USR SIM2 51 1 DAT PWR C 4 EX J m E In PORT2 PORT1 Fig 1 SPECTRE LTE router with Wi Fi 3 4 MODEL NUMBERS Standard Features on SPECTRE Routers 10 100 Ethernet USB Host Port Binary I O Port Dual SIM Card slots Auxiliary Port Functions Model Dependent The Ports Can Be Connected As Follows PORT 1 RS 232 RS485 422 ETHERNET CNT XC SW in combination with PORT 2 PORT 2 RS 232 RS485 422 XC SW together with PORT 1 Table 1 Auxiliary port possibilities SPECTRE 3G Wireless Routers Auxiliary Ports Model No RT3G 300 No connect RT3G 302 RS 232 RT3G 304 RS 422 485 RT3G 310 Ethernet RT3G 311 Ethernet RT3G 314 RS 422 485 RT3G 322 RS 232 RT3G 324 RS 422 485 RT3G 330 No connect RT3G 300 W No
31. s 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 complies with Industry Canada license exempt RSS standard s Operation is subject to the following 2 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 c nc o 4 E E 5 PO 6 2 0 Safety P T TN 6 2A CCMA nie ERR nmm 6 2 2 Product Disposal Instructions ccccccesccccsecccenececeneceeesceceeecsceueceeeueeeeenseeeueceseueceeeueseeeasesees 7 20 co u gB edieuneae m T 8 L DESCHID Ee 8 3 2 Examples of Possible Applications ccccccccccesecccssececssceceeecsceecseeueeeeeeeeseusceseueceeeueeeeeneeeees 8 3 9 Contents OT e Foy n UENF S DIL 9 34 Model NUME S pi dn rosa rese t dos ossa sesso ins rra iiS 10 39 12 4 0 Mounting 5 13 S0 User HIN NETT 16 JA CONNECCION ee 16 S SUIS ETT TOT 17 5 2 1 Auxiliary Port Status
32. s eser nens 10 Table 3 SPECTRE LTE Model numbers for Verizon 10 Table 4 SPECTRE LTE Model numbers for 11 Table 5 SPECTRE LTE Model numbers for Sprint eese nnne nnne 11 Table 6 Front panel description TE IT 16 Table 7 Router status 17 Table 8 Ethernet LED status indication 18 Table 9 RS 232 LED status indication 18 Table 10 Port LED status 18 Table 11 RS 485 422 LED status e nest en eren 18 Table 12 Wi Fi LED status indication KY PEU S o aO S Gu VE secet 18 Table 13 Connection of power CONNECTHOL cccccceeeccceeececesecceecsceuececeuececeueceeeueeseueceseueceesuecensueeeeensess 19 Table 21 Table 15 RS 232 connector P INOUE o 23 Table 16 Connector Pinout in RS 485 Mode sees eene enm nennen nnns 27 Table 17 Connector Pinout in RS 422 28 Table 18 Input Output Connector 32 Table 19 MODBUS Input Output Address space 38 Table 20 Connection
33. t 26 25 Jumper position for internal power supply 26 26 Jumper position for 422 um 27 27 28 Connection to the router with data cable length less than 10 28 29 Connection to the router with data cable length more than 10 28 30 Connection to the router with data cable length less than 10 29 31 Connection to the router with data cable length more than 10 m 29 31 1 dT 32 34 Connection of the I O Port circuitry 33 U E CONNELL ae TT 38 Log Bh TET 38 37 Connecting a USB memory stick to the eeeccceseccceeecccenseceeececeuecseeueceeeueseeeeeeeenss 39 Ss W O COP CCU ON A 39 39 Connection VO cable 40 40 Connection of binary input and output of 40 2I ROUCO SE as cee tsetse etree scenes cee Src 41 Table 1 Auxiliary port Dossibilities ccccccccscscccscsensssrecavasecacasecacacacaesenauarenacasaracasecavaseceusuauavanavares 10 Table 2 SPECTRE 3G Model numbers eese emen nennen sn
34. tion to router 24 5 7 2 RS 485 422 PORTS The RS 485 422 ports can be powered using the internal 3 3V supply or by connecting an external power supply to the port connector External or internal power is selected by jumpers J2 and J3 on the RS 485 module daughter board To use internal power place jumpers J2 and J3 across pins 2 and 3 To select external power jumpers J2 and J3 must be on pins 1 and 2 Interface behavior of module Expansion port RS485 RS422 can be made by wiring Jumpers J5 and J6 on the RS 485 module select the mode of the port either RS 485 or RS 422 mode If RS485 is required jumpers J4 and J5 must be connected and jumper J6 disconnected If RS422 is required jumpers J4 and J5 must be disconnected and jumper J6 connected Jumper placement can be seen in the picture below RS 485 module is viewed from the top Internal power supply should only be used in the event that it is not possible to provide an external power supply Jumper J3 Jumper J2 Fig 23 Jumper Position for external power supply 25 Jumper and J5 Fig 24 Jumper position for RS 485 Jumper J3 Jumper J2 Fig 25 Jumper position for internal power supply 26 Jumper Fig 26 Jumper position for RS 422 Connector Pinout Fig 27 RS 485 422 connector RS 485 Mode PinNo Signal Mark Description 1 GND Signal and supply ground 2 GND Signal and supply ground 3 TxRx RS485 B 4
35. tor See figure below Fig 14 Connecting the antenna The diversity antenna improves the wireless features of the router 5 5 SIM CARD READER The SIM card reader supports 3 V and 1 8 V Mini SIM cards It is located on the front panel of the router The router will not operate on UMTS or LTE networks unless an activated SIM card with an unblocked PIN is in the reader The SIM cards may use different access point names APN Changing the SIM card 20 Press the small button on the right hand side of the SIM reader slot to eject the SIM card holder Insert the SIM card into the holder and slide it in the reader See Fig 25 Fig 15 Ejected SIM card holder 5 6 ETHERNET PORT PANEL SOCKET RJ45 Pin No Signal Mark Description 1 TXD Transmit Data positive pole Input Output 2 TXD Transmit Data negative pole Input Output 3 RXD Receive Data positive pole Input Output 4 e 5 ER aoe 6 RXD Receive Data negative pole Input Output 7 ze 9 Table 14 Ethernet connector Fig 16 Ethernet connector ATTENTION The Ethernet port is not POE Power over Ethernet compatible Ethernet cable plugs into the RJ45 connector labeled as ETH Fig 17 Ethernet cable connection The Ethernet router connection Switch Router IO PORT2 PORT ETH PWR Fig 18 Example of router connection 22 5 7 ETHERNET PORT Port 1 Port One ma
36. y configured for Ethernet serial communications RS 232 485 422 CNT based on the router model number Port Two may be configured for serial communications RS 232 485 422 or CNT Either port can be fitted with internal switch XC SW Port 2 Port 2 may be configured for serial communications RS 232 485 422 or 1 0 CNT Either port can be fitted with internal switch XC SW 5 7 1 RS 232 PORTS The RS 232 port is configured as a Data Communication Equipment DCE A KD2 adapter cable can be used to convert the RJ 45 connector to a standard DB9 serial connector Fig 19 RS 232 port connector 1 Request To Send Input 2 Clear To Send Output 3 DTR Data Terminal Ready Input 4 DSR Data Set Ready Output 5 GND Signal ground 6 RXD Receive Data Output 7 CD Carrier Detect Output 8 TXD Transmit Data Input Table 15 RS 232 connector pinout 23 Example of connecting meter to the router Fin 1 RTS Fin2 CTS Pin 3 DTR Fin 4 DSR Pin 5 GND Fin 6 RXD Fin 7 CD Pin 8 TAD Pin 1 GND Pin 2 RXD Pin 3 TAD Fig 20 Meter connection to router Example of a PC connection to the router Router Cable KD 2 Fig 21 PC connection to router e Cable KD2 is connected to serial port PC example COM1 Example of the RS 232 equipment connection to router possibility to use all RS 232 ports Router Cable KD 2 Fig 22 RS 232 equipment connec
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