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User Manual - Adaptive Wireless Solutions, Ltd

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1. 56 of 77 LON Protocol LON SNVT Comment Device SWRF_LON Device name of Spinwave Protocol Interface Analog Inputs Binary Inputs nvoCH1 ADDRESS Spinwave end device address e g sensor address nvoCH1 1 end device value e g space sensor temperature nvoCH1 AI2 2 end device value e g set point nvoCH1 nvoCH1 4 nvoCH1 5 1 Status nvoCH1 011 End device status Indicated communication timeout and or low battery see below for details End device binary value e g sensor override button status active inactive Channel 1 LON SNVTs represent values of wireless end device e g zone sensor An device is mapped to a channel using NQ software Analog Inputs nvoCH100_ADDRESS nvoCH100_Al1 nvoCH100_Al2 100 100 4 nvoCH100 5 100 Status Binary Inputs nvoCH100 DI1 Channel 50 Note all SNVTs are of type count inc F The 16 bit status register for each sensor node indicates a 2 min 6 min 24 min and 45 min communication timeout and or low battery condition Bit 2 indicates low battery value 2 decimal Bits 1 through 4 have the following communication timeout sensor has not communicated for xx minutes values 2 min timeout 0100 4 6 min timeout 1000 8 24 min timeout 1100 45 m
2. 62 Changing Battelleb va ed oec P RR 63 Wireless Communication tea Por po Pero dire 63 ioco eoe avi ES et EO ev 64 Hip ce 64 Troubleshooting Guide 25 550 Gr Dent ah bero et uU Debut 65 Appendix 67 Changing BMS Protocol Interface Parameters 67 Overview eid v 68 PC RequilemeblltS suani copus 68 i ee tt neal E ite ea tn 68 Sola tect a eux e ha 68 lInstallationvatid Seti ates dete a RD n dh 68 Changing the IP Address BACnet IP 69 A Wireless Sensor Network System User Manual 5 of 77 Connecting to a BMS Protocol Interface 69 hang IPAddress a a M na a Ba e a 69 Procedure to Change a BMS Interface s IP Address 69 Changing the Node ID BACNET IP MODBUS TCP 70 Changing Node ID and Baud Rate BACnet MS TP Modbus RTU 71 Spinwave Systems Inc 6 77 Chapter 1 Introduction The Spinwave A Product Line Wireless Sensors Transceivers Mesh Repeaters Routers Receivers Deployment Tools A Wireless Sensor Network System User Manual 7 of 77 The Spi
3. 31 Sensors and TranscelVels sius eu YR EN QUE bus 33 Sensor RESEUINSUUCTIONS vod eese va alude a vw Pon EYE x 35 SWS DPC Wireless Pulse 36 SWS 2PT100 RTD TRAMSCOIVERY suis cus gode 39 Conducting a Site SUrvey Cops em Ma ND RC eR 41 System Startup Sequence Duk 43 Spinwave Systems Inc 4 77 44 COMMISSIONING tho aea ere 44 Tp 45 g er n ael dw c a 46 Binding Sensors and Repeaters to a BMS I O 50 Binding Sensors and Repeaters to a BMS Protocol Gateway 52 Changing BMS Interface 53 Configuring Sensor Parameters cccccccccccecececceceeeceeeeceeeeeeceeeeeseeeeeeeeeeees 58 Configuring Repeater Router 59 Opening an Existing Project errori prx 59 Troubleshooting Sensor Networks 60 Documenting Network Configuration cesses 61 Chapter 62 Operation Maintenance
4. 1 Listening 5 Add 12803 Ch 3 520040 20040 1 Listening id Add 12803 Ch 10 520058 20058 Temp 1 Listening Add 12803 Ch 28 520046 20046 Temp 1 Listening 99 Add 12803 Ch 16 520050 20050 1 Listening 79 Add 12803 Ch 20 520036 20036 1 Listening Add 12803 Ch 6 520051 20051 Temp 1 Listening 3 49 Add 12803 Ch 21 520055 20055 1 Listening Ty xt Add 12803 Ch 25 520038 20038 1 Listening Add 12803 Ch 8 520041 20041 Temp 1 Listening 3 Add 12803 Ch ii 520037 20037 Temp 1 Listening 39 Add 12803 Ch 7 520044 20044 1 Listening 39 Add 12803 14 520034 20034 1 Listening Add 12803 Ch 4 520054 20054 1 Listening 3 Add 12803 Ch 24 520045 20045 Temp 1 Listening 7 Add 12803 Ch 15 520053 20053 1 Listening Add 12803 Ch 23 Probe 21803 Temp 1 Listening 3 97 Add 12803 31 520052 20052 Temp 1 Listening Add 12803 Ch 22 Receiver Devices 1 Name Address Type State PAN ID Gateway 12803 BN MB IP Gateway 2 Listening 3803 Wireless devices Sensors or Routers Repeaters in proximity that have not been previously bound to a BMS Interface Receiver Device will have a PAN 10 network 10 of zero 0 and will not display a Parent device or Bound To property Some sensor properties will populate only when you click on the sensor and select Properties To obt
5. Changing the Node ID default 11 A1 A2 A4 AS A6 A7 A8 Address Off Off Off Off Off Off Off Off 0 ON Off Off Off Off Off Off Off 1 Off ON Off Off Off Off Off Off 2 ON ON Off Off Off Off Off Off 3 Off Off ON Off Off Off Off Off 4 ON Off ON Off Off Off Off Off 5 Off ON ON Off Off Off Off Off 6 ON ON ON Off Off Off Off Off 7 Off Off Off ON Off Off Off Off 8 ON Off Off ON Off Off Off Off 9 Off ON Off ON Off Off Off Off 10 ON ON Off ON Off Off Off Off 11 Off Off ON ON Off Off Off Off 12 ON Off ON ON Off Off Off Off 13 Off ON ON ON Off Off Off Off 14 ON ON ON ON Off Off Off Off 15 Off Off Off Off ON Off Off Off 16 ON Off Off Off ON Off Off Off 17 Off ON Off Off ON Off Off Off 18 ON ON Off Off ON Off Off Off 19 Off Off ON Off ON Off Off Off 20 ON Off ON Off ON Off Off Off 21 Off ON ON Off ON Off Off Off 22 ON ON ON Off ON Off Off Off 23 Off Off Off ON ON Off Off Off 24 ON Off Off ON ON Off Off Off 25 Off ON Off ON ON Off Off Off 26 ON O
6. output on the SWRF IOR DDC 1 Interface will turn ON periodically or the Status network variable of the BMS Protocol Interface will be set to 2 respectively NQ will also provide information on the condition of individual sensors batteries Sensor batteries must be changed within a week of the first occurrence of the low battery signal to ensure uninterrupted operation It is recommended to change batteries of all zone sensors connected to the same BMS Interface Module Only use specified AA Lithium batteries or high end D Cell alkaline batteries SWS DPC SWS DI SWS 2PT100 as replacements Wireless Communication The dedicated Status output on the SWRF IOR DDC 1 0 Interface will also turn on for a configurable duration when a sensor has not communicated with the RF Receiver for more than 45 minutes The Status output should be configured as an alarm in the connected building automation system to alert for sensor communication problems The BMS Protocol Interface will set the Status network variable to 1 as Soon as a communication timeout occurs The variable is set to 2 if battery alarm condition occurs and it is set to 3 if both conditions occur NQ will provide more detailed information on the communication condition of individual sensors Loss of communication can happen if the RF environment in buildings changes significantly This can be caused by floor plan changes installation of metal
7. ON 228 ON Off ON Off Off ON ON ON 229 Off ON ON Off Off ON ON ON 230 A Wireless Sensor Network System User Manual A1 A2 A4 AS A6 A7 A8 Address ON ON ON Off Off ON ON ON 231 Off Off Off ON Off ON ON ON 232 ON Off Off ON Off ON ON ON 233 Off ON Off ON Off ON ON ON 234 ON ON Off ON Off ON ON ON 235 Off Off ON ON Off ON ON ON 236 ON Off ON ON Off ON ON ON 237 Off ON ON ON Off ON ON ON 238 ON ON ON ON Off ON ON ON 239 Off Off Off Off ON ON ON ON 240 ON Off Off Off ON ON ON 241 Off ON Off Off ON ON ON ON 242 ON ON Off Off ON ON ON ON 243 Off Off ON Off ON ON ON ON 244 ON Off ON Off ON ON ON ON 245 Off ON ON Off ON ON ON ON 246 ON ON ON Off ON ON ON ON 247 Off Off Off ON ON ON ON ON 248 ON Off Off ON ON ON ON ON 249 Off ON Off ON ON ON ON ON 250 ON ON Off ON ON ON ON ON 251 Off Off ON ON ON ON ON ON 252 ON Off ON ON ON ON ON ON 253 Off ON ON ON ON ON ON ON 254 ON ON ON ON ON ON ON ON 255 Page 77 of 77 Spinwave Systems Inc
8. Off ON ON 196 ON Off ON Off Off Off ON ON 197 Off ON ON Off Off Off ON ON 198 ON ON ON Off Off Off ON ON 199 Off Off Off ON Off Off ON ON 200 ON Off Off ON Off Off ON ON 201 Off ON Off ON Off Off ON ON 202 ON ON Off ON Off Off ON ON 203 Off Off ON ON Off Off ON ON 204 ON Off ON ON Off Off ON ON 205 Off ON ON ON Off Off ON ON 206 ON ON ON ON Off Off ON ON 207 Off Off Off Off ON Off ON ON 208 ON Off Off Off ON ON ON 209 Off ON Off Off ON Off ON ON 210 ON ON Off Off ON ON ON 211 Off Off ON Off ON Off ON ON 212 ON Off ON Off ON Off ON ON 213 Off ON ON Off ON Off ON ON 214 ON ON ON Off ON Off ON ON 215 Off Off Off ON ON Off ON ON 216 ON Off Off ON ON Off ON 217 Off ON Off ON ON Off ON ON 218 ON ON Off ON ON Off ON ON 219 Off Off ON ON ON Off ON ON 220 ON Off ON ON ON Off ON ON 221 Off ON ON ON ON Off ON ON 222 ON ON ON ON ON Off ON ON 223 Off Off Off Off Off ON ON ON 224 ON Off Off Off Off ON ON 225 Off ON Off Off Off ON ON ON 226 ON ON Off Off Off ON ON ON 227 Off Off ON Off Off ON ON
9. continuous commissioning monitoring and verification Spinwave Systems Inc 8 77 Wireless Sensors and Transceivers SWS xxx Wireless Sensors and Transceivers are available in a variety of form factors e g zone outdoor and for measuring different variables like temperature relative humidity voltage dry contact and meter pulses List of available sensors and transceivers Part Number Description SWS T SWS TEXT SWS T 2EXT SWS 3TEXT SWS 2PT100 SWS 2PT100 N4BAT SWS 2PT100 NAPSI SWS TRH SWS TRH 2TEXT SWS 3AI SWS DPC SWS DPC N4BAT SWS DPC NAPSI SWS DPC N4BAT IOR D SWS DI SWS DI N4BAT SWS DI N4PSI Wireless Sensors Transceivers Temperature Wireless temperature sensor on board thermistor Wireless transceiver with external 10K type III thermistor 10 leads included Wireless transceiver with on board thermistor and 2 external 10K type III thermistors 10 leads and mounting magnets included Wireless transceiver with 3 external external 10K type III thermistors 10 leads and mounting magnets included Wireless 2xRTD PT100 not included transceiver Wireless 2xRTD PT100 not included transceiver in NEMA4X outdoor enclosure with battery holders Wireless 2xRTD PT100 not included transceiver in NEMA4X outdoor enclosure with 120VAC 9VDC supply Wireless Sensors Transceivers Relative Humidity Wireless zone temperature amp relative humidity sensor 1 8 R
10. sensor data is displayed including Sensor Name Address Type State Device Data sensor variables Communication Timeout TO True or False Parent and Binding Information The values are wirelessly retrieved from sensors repeaters routers and Interface modules and are updated in the Device List as soon as they are acquired This process may take several minutes to complete Devices that have been completely discovered will be in the status of Listening Device List Sensor Devices 33 Name Address Type State Device Data Bound To Pulse_Ctr 33026 Pulse 32 Listening 0 0 Add 12803 Ch 32 520047 20047 Temp 1 Listening T272 8 F Add 12803 Ch 17 520048 20048 Temp 1 Listening T 73 2 F Add 12803 Ch 18 520056 20056 1 Listening T 72 9 F Add 12803 Ch 26 520049 20049 1 Listening T272 8 F Add 12803 Ch 19 520035 20035 Temp 1 Listening T 73 F Add 12803 Ch 5 520042 20042 1 Listening T 73 F Add 12803 Ch 12 520033 20033 1 Listening T272 7 F Add 12803 Ch 33 sws t 13008 Temp 1 Listening T 74 3 F Add 12803 Ch 1 520043 20043 1 Listening T272 1 F Add 12803 Ch 13 520060 20060 Temp 1 Listening T272 7 F Add 12803 Ch 30 520031 20031 Temp 1 Listening 8 Add 12803 Ch 2 520032 20032 1 Listening Add 12803 Ch 3 520057 20057 Temp 1 Listening 45 Add 12803 Ch 27 520059 20059 Temp 1 Listening 251 Add 12803 Ch 29 520039 20039
11. A Wireless Sensor Network System User Manual 29 of 77 LED1 RESET LED2 ol Digital Outputs Analog Outputs Receiver Port 25VA Line 32VDC max 300mA max 0 5VDC 0 10VDC 20mA max Analog outputs 1 to 4 Analog sensor values e g temperature relative humidity voltage can be mapped to analog outputs The sensor values are represented as 0 5VDC or 0 10VDC signals scaling is user configurable through program Digital outputs S1 to S4 Digital sensor values e g pulse counter digital input can be mapped to digital outputs Outputs are solid state dry contacts and switch to ground Outputs can be directly connected to building automation controllers dry contact input Connecting to digital PLC inputs usually requires a pull up resistor The output behavior can be configured using NQ Spinwave Systems Inc Page 30 of 77 Status output This output indicates low battery condition or communication time out of connected sensors gt 45 minutes The status output behavior latched or pulse can be configured through NQ LEDs LED Description LED1 Flashes green when a packet is received transmitted by the receiver radio LED2 Stays green during device operation When device is rebooted it turns off and turns on again LED3 Turns red when the receiver radio cable is unplugged LED4 Stays green indicating good 3 3V power LEDS Stays
12. Ch 4 20054 Temp 1 Listening Fase Add 12803 Ch 24 20045 1 Listening False Add 12803 Ch 15 520050 20053 Temp 1 Listening Fase Add 12803 Ch 23 21803 Temp 1 Listening False Add 12803 Ch 31 20052 Temp 1 Listening Fase Add 12803 Ch 22 Router Repeater Devices 0 Address State PAN ID Gateway Receiver Devices 1 Address Type State PAN ID 12803 BN MB IP Gateway 2 Listening 3803 A Wireless Sensor Network System User Manual 53 of 77 Changing BMS Interface Properties A right click on the BMS Protocol Interface icon allows viewing its properties Gateway Properties GERE MB Gateway 2 D D The Device Name PAN ID and Measurement Conversions of the BMS Protocol Interface can be changed after clicking the Edit button Spinwave Systems Inc 54 of 77 11 characters max PAN ID Measurement Conversions TEMPERATURE Select Conversion Type Select Conversion Celsius Fahrenheit Custom Conversions for the most common measurement types are pre configured e g Celsius and Fahrenheit for Temperature The Scale and Offset entries allow accommodating custom or unusual conversions example There are many different possible measurement units for pressure A Wireless Sensor Network System User Manual BA
13. IP 128 0 0 1 to 191 255 255 254 Netmask 255 255 0 0 Class C IP 192 0 0 1 to 223 255 255 254 Netmask 255 255 255 0 Do not use broadcast IP address ending on 255 This IP address is reserved as a target IP address when a device wants to send a message to all other devices on the network Spinwave Systems Inc 70 of 77 Changing Node ID MODBUS TCP The default Node ID for all receiver gateways is 11 It is possible to assign a different node id by changing the protocol modules config csv file The config csv file can be uploaded from the protocol module and saved to a PC using RUINET In oder to change the Node ID locate the file on your PC and open it with NOTEPAD never use EXCEL Li Common Information Bridge Title system_Node_Id CN00229 Spinwave 1 01 11 Server Side Nodes BACnet IP Nodes Node_Name Node_ID Protocol SWRF_BACNET_IP 11 Bacnet_IP Change the Node 10 from 11 to the desired value in TWO places highlighted in red Save the file and load it into the protocol module Restart the Protocol Gateway to activate the change A Wireless Sensor Network System User Manual 71 of 77 Changing Node ID and Baud Rate BACnet MS TP Modbus RTU Reset Button Node ID Switch SYS ERR LED COMM ERR LED Config ERR LED Node Offline LED RS 485 Net
14. Off ON 138 ON ON Off ON Off Off Off ON 139 Off Off ON ON Off Off Off ON 140 ON Off ON ON Off Off Off ON 141 Off ON ON ON Off Off Off ON 142 ON ON ON ON Off Off Off ON 143 Off Off Off Off ON Off Off ON 144 ON Off Off Off ON Off Off ON 145 Off ON Off Off ON Off Off ON 146 ON ON Off Off ON Off Off ON 147 Off Off ON Off ON Off Off ON 148 ON Off ON Off ON Off Off ON 149 Off ON ON Off ON Off Off ON 150 ON ON ON Off ON Off Off ON 151 Off Off Off ON ON Off Off ON 152 ON Off Off ON ON Off Off ON 153 Off ON Off ON ON Off Off ON 154 ON ON Off ON ON Off Off ON 155 Off Off ON ON ON Off Off ON 156 ON Off ON ON ON Off Off ON 157 Off ON ON ON ON Off Off ON 158 ON ON ON ON ON Off Off ON 159 Off Off Off Off Off ON Off ON 160 ON Off Off Off Off ON Off ON 161 Off ON Off Off Off ON Off ON 162 ON ON Off Off Off ON Off ON 163 Off Off ON Off Off ON Off ON 164 ON Off ON Off Off ON Off ON 165 Off ON ON Off Off ON Off ON 166 ON ON ON Off Off ON Off ON 167 Off Off Off ON Off ON Off ON 168 ON Off Off ON Off ON Off ON 169 Off ON Off ON O
15. Off Off Off Off ON ON ON Off 112 ON Off Off Off ON ON ON Off 113 Off ON Off Off ON ON ON Off 114 ON ON Off Off ON ON ON Off 115 Off Off ON Off ON ON ON Off 116 ON Off ON Off ON ON ON Off 117 Off ON ON Off ON ON ON Off 118 ON ON ON Off ON ON ON Off 119 Off Off Off ON ON ON ON Off 120 ON Off Off ON ON ON ON Off 121 Off ON Off ON ON ON ON Off 122 ON ON Off ON ON ON ON Off 123 Off Off ON ON ON ON ON Off 124 ON Off ON ON ON ON ON Off 125 Off ON ON ON ON ON ON Off 126 ON ON ON ON ON ON ON Off 127 Off Off Off Off Off Off Off ON 128 ON Off Off Off Off Off Off ON 129 Off ON Off Off Off Off Off ON 130 ON ON Off Off Off Off ON 131 Off Off ON Off Off Off Off ON 132 ON Off ON Off Off Off Off ON 133 Off ON ON Off Off Off Off ON 134 ON ON ON Off Off Off Off ON 135 Off Off Off ON Off Off Off ON 136 ON Off Off ON Off Off Off ON 137 A Wireless Sensor Network System User Manual A1 A2 A4 AS A7 A8 Address Off ON Off ON Off Off
16. being able to permeate most building materials Mesh Repeaters Routers significantly extend the range and node count of wireless sensor networks Repeaters Routers are compatible with all receiver options and provide alternate wireless communication paths from Sensors to other Repeaters to RF Receiver Modules thus improving the network s ability to cope with obstacles The wireless network automatically heals and reconfigures itself if a communication path is obstructed Repeaters Routers feature high power radios 20dBm requiring an external 5VDC power supply e g SWPSUP 2 A Wireless Sensor Network System User Manual 11 of 77 Receivers SWRF xxx BMS Protocol Gateway The BMS Protocol Gateway easily connects Spinwave s wireless sensors to open protocol systems BMS PLCs SCADA and monitoring software Up to 50 separate wireless devices sensors and or repeaters are supported per Protocol Interface Available versions are SWRF BACNET IP Receiver BACnet IP gateway SWRF BACNET MSTP Receiver BACnet MS TP gateway SWRF MODBUS TCP Receiver Modbus TCP gateway SWRF MODBUS RTU Receiver Modbus RTU gateway SWRF LON Receiver LON gateway SWRF SNMP Receiver SNMP gateway Sensor data and device health status are mapped to network variables and are presented to the automation monitoring system as native BACnet objects LON SNVTs or Modbus registers Multiple BMS Protocol Gateways can exist in pro
17. furniture etc It might be necessary to add wireless repeaters to accommodate for those changes Spinwave Systems Inc 64 of 77 Appendix Troubleshooting Troubleshooting Guide A Wireless Sensor Network System User Manual 65 of 77 Troubleshooting Guide Problem NQ software is launched but no devices show up in the device list Possible Cause Wrong COM port Resolution Check NQ cable Verify COM port number under device properties to ensure the correct COM port is entered in NQ gt Network gt Preferences Sensor does not communicate with receiver Sensor is out of range Move sensor closer to receiver or install repeater Note Sensor batteries will drain faster if sensor is out of range Sensor was bound to a network and moved to another network without re commissioning Sensor is in a slow retry mode to communicate with receiver resulting from a prolonged absence of the receiver Unbind the sensor from the original network two button reset Sensor will automatically show up in Bind the sensor to the new network Press the RESET button on the sensor to reboot the device and force communication Battery problems Measure battery voltage with a voltmeter New Lithium AA batteries have a voltage of 1 75V The battery voltage for the digital pulse counter needs to be minimum 3 6V below which it will send a low battery alarm Low bat
18. it is possible to run multiple instances of RuiNet at the same time If RuiNet is run without specifying a target it will provide a list of the BMS Interfaces on the network Pick the required BMS Interface from the list Change IP Address From the main menu press I to enter the Edit IP Address Settings menu Procedure to Change a BMS Interface s IP Address Press 1 to modify the IP address Type in a new IP address such as 192 168 0 35 and press Enter Wait for RuiNet s response Type Appropriate Key for Selection f necessary press 2 and change the netmask If necessary press 3 and change the gateway address Restart the BMS Interface using the command 1 Ni IP Address 192 168 0 252 2 Ni Netmask 255 255 255 3 Gateway 1 192 168 0 1 4 Ni DHCP Client State DISABLED 5 Ni DHCP Server State DISABLED 6 N2 IP Address 192 168 4 251 7 N2 Netnask 255 255 255 8 8 N2 Gateway 1 192 168 8 1 9 N2 DHCP Client State DISABLED A N2 DHCP Server State DISABLED Press of the keys from 1 to A to change various IP address settings NOTE If the IP address screen does not have 10 entries like the ones shown here then the IP address cannot be changed from this screen and RuiBoot must be used Keys Type Appropriate Key for Selection Common IP address ranges and netmasks Class A IP 1 0 0 1 to 126 255 255 254 Netmask 255 0 0 0 Class B
19. s reset button to join the correct receiver Spinwave Systems Inc 36 of 77 SWS DPC Wireless Pulse Counter Spinwave Systems Pulse Counters are used to wirelessly transmit electric water gas meter values accumulated pulses and pulses per time and make them available as BACnet LON or Modbus variables using Spinwave s BMS Protocol Interface or as digital outputs pulse replication using a BMS 1 0 Interface The Pulse Counter consists of a high power radio and a signal conditioning module The radio is connected through a standard CAT5 cable to the signal conditioning module providing signal and power to the radio Pulse Counters can be battery or line powered A set of 6 D Cell batteries 2 sets of 3 D cells in parallel will last for up to 8 years Pulse counters are suited for both indoor and outdoor applications when mounted in weather proof enclosure Up to 50 pulse counters can be wirelessly connected to a single BMS protocol gateway SWRF MODBUS TCP SWRF MODBUS RTU SWRF BACNET IP SWRF BACNET MSTP SWRF LON for remote metering applications Up to 4 pulse counters can be wirelessly connected to a single BMS 1 0 interface SWRF IOR SWRF IOR D for wireless pulse replication Wireless Repeaters Routers are available to cover large indoor or outdoor areas Wireless pulse counters can be used in conjunction with any other Spinwave sensor on the same wireless network A Wireless Sensor
20. B Configuration Cable SWNQCBL can be connected to the Console Port of any wireless sensor SWRF IOR or Protocol Gateway Open field range between devices Device A Device B Nm Range SWS T SWS TEXT SWS 3TEXT SWS T 2EXT SWRP SWRF xxx 1 000 feet SWS TRH SWS TRH 2TEXT SWS 3AI SWS DPC SWS DI SWS 2PT100 SWRP SWRF xxx 3 500 feet SWRP SWRP SWRF xxx 3 500 feet Spinwave Systems Inc 14 of 77 Chapter 2 Application Overview Open Protocol Interface Wireless I O Replication A Wireless Sensor Network System User Manual 15 of 77 Application Overview Spinwave Systems wireless mesh network has been designed specifically for the building automation and monitoring markets Products are easy to install integrate commission and maintain No wires means that sensors can be easily mounted and relocated as system requirements change or floor plans evolve There are no wires or conduit to deal with thus dramatically reducing installation or reconfiguration time and cost Applications for wireless sensor networks include Retrofit projects High installation cost locations Unique difficult to wire installations Fast track projects Improved zone control Energy services Demand Response Continuous commissioning Condition monitoring Data Center Monitoring Warehouse Monitoring Green buildings Utility Metering Spinwave Systems I
21. Cnet Protocol Map Page 55 of 77 Beceri objesi BACnet Object Name Comment Type Device SWRF_BACNET_IP Device name of Spinwave Protocol Interface Analog Inputs CH1 ADDRESS Spinwave end device address Channel 1 e g sensor address CH1 1 1 end device value e g space BACnet objects sensor temperature represent values of a CH1 AI2 2 end device value e g set wireless end device point e g zone sensor CH1 AI3 CH1 4 An device is CH1 AIS mapped to a channel CH1 Status End device status Indicated Using NQ software communication timeout and or low battery see below for details Binary Inputs DI1 End device binary value e g sensor override button status active inactive Analog Inputs Binary Inputs CH100_ADDRESS CH100 Al1 CH100 AI2 CH100 AI3 CH100_Al4 CH100 15 CH100 Status CH100 011 Note The BACnet MS TP baud rate is 38400 bps The BACnet ID is 11 Channel 100 The 16 bit status register for each sensor node indicates a 2 min 6 min 24 min and 45 min communication timeout and or low battery condition Bit 2 indicates low battery value 2 decimal Bits 1 through 4 have the following communication timeout sensor has not communicated for xx minutes values 2 min timeout 0100 4 dec 6 min timeout 1000 8 dec 24 min timeout 1100 12 dec 45 min timeout 1101 13 dec Spinwave Systems
22. H Wireless transceiver with on board temperature amp relative humidity sensor 1 8 RH and 2 external 10K type III thermistors 10 leads and mounting magnets included Wireless Sensors Analog Inputs Wireless analog input module with three 0 5VDC inputs Wireless Sensors Digital Pulse Counter Wireless Digital Pulse Counter Wireless Digital Pulse Counter in NEMA4X fiberglass enclosure with battery holders Wireless Digital Pulse Counter Repeater in NEMAAX fiberglass enclosure with internal 9VDC power supply Configured kit SWS DPC N4BAT SWRF IOR D SWPSUP 24 Wireless Sensors Digital Input Wireless Digital Input dry contact Wireless Digital Input in NEMA4X fiberglass enclosure with battery holders Wireless Input Repeater in fiberglass enclosure with internal 9VDC power supply A Wireless Sensor Network System User Manual 9 of 77 Sophisticated power management results in long battery 2 to 8 years depending on transmission intervals Sensor Transmission Interval Battery Life 10 sec 2 years 21 sec 3 years 42 sec 5 years 84 sec 8 years Sensors are usually battery powered a line voltage power option is available for difficult to service locations When a sensor detects the presence of a power supply it automatically functions as a repeater router Spinwave Systems Inc Page 10 of 77 Mesh Repeaters Routers SWRP m In addition to
23. N Off ON ON Off Off Off 27 Off Off ON ON ON Off Off Off 28 ON Off ON ON ON Off Off Off 29 Off ON ON ON ON Off Off Off 30 ON ON ON ON ON Off Off Off 31 Off Off Off Off Off ON Off Off 32 ON Off Off Off Off ON Off Off 33 Off ON Off Off Off ON Off Off 34 ON ON Off Off Off ON Off Off 35 Off Off ON Off Off ON Off Off 36 ON Off ON Off Off ON Off Off 37 Off ON ON Off Off ON Off Off 38 ON ON ON Off Off ON Off Off 39 Off Off Off ON Off ON Off Off 40 ON Off Off ON Off ON Off Off 41 Off ON Off ON Off ON Off Off 42 ON ON Off ON Off ON Off Off 43 Off Off ON ON Off ON Off Off 44 A Wireless Sensor Network System User Manual A1 A2 A4 AS A6 A7 A8 Address ON Off ON ON Off ON Off 45 Off ON ON ON Off ON Off Off 46 ON ON ON ON Off ON Off Off 47 Off Off Off Off ON ON Off Off 48 ON Off Off Off ON ON Off Off 49 Off ON Off Off ON ON Off Off 50 ON ON Off Off ON ON Off Off 51 Off Off ON Off ON ON Off Off 52 ON Off
24. N Off ON Off 85 Off ON ON Off ON Off ON Off 86 ON ON ON Off ON Off ON Off 87 Off Off Off ON ON Off ON Off 88 ON Off Off ON ON Off ON Off 89 Off ON Off ON ON Off ON Off 90 Page 73 of 77 Spinwave Systems Inc 74 of 77 A1 A2 A4 AS A6 A7 A8 Address ON ON Off ON Off 91 Off Off ON ON ON Off ON Off 92 ON Off ON ON ON Off ON Off 93 Off ON ON ON ON Off ON Off 94 ON ON ON ON ON Off ON Off 95 Off Off Off Off Off ON ON Off 96 ON Off Off Off Off ON ON Off 97 Off ON Off Off Off ON ON Off 98 ON ON Off Off Off ON ON Off 99 Off Off ON Off Off ON ON Off 100 ON Off ON Off Off ON ON Off 101 Off ON ON Off Off ON ON Off 102 ON ON ON Off Off ON ON Off 103 Off Off Off ON Off ON ON Off 104 ON Off Off ON Off ON ON Off 105 Off ON Off ON Off ON ON Off 106 ON ON Off ON Off ON ON Off 107 Off Off ON ON Off ON ON Off 108 ON Off ON ON Off ON ON Off 109 Off ON ON ON Off ON ON Off 110 ON ON ON ON Off ON ON Off 111
25. Network System User Manual Page 37 of 77 The pulse counter can count pulses dry contact closures of up to 90Hz The minimum pulse width is 10ms The pulse counter has to be powered by a 3 6V to 9V DC power source batteries or power supply The radio will automatically assume repeater router functionality above 5 5VDC and the power consumption will increase significantly When using battery power it is recommended to power the device by 3 D Cells wired in series A second set of 3 D Cells should be wired in parallel for prolonged battery life up to 8 years and the ability to change batteries without disrupting operation The accumulated counter value is stored in the pulse counter s RAM and transmitted periodically This ensures that correct counter values will be received by the BMS interface even in bad RF environments When used in conjunction with a BMS Protocol Interface LON BACnet or Modbus 4 different values are accessible per pulse counter Periodic Count Float Low_Count Float High Count Float Status Integer All count values are of floating point type Note occupy 2 Modbus registers each In order to compute the total accumulated pulses use the following formula Total accumulated Pulses Low Count 65536 Hi Count The maximum pulse count can be 22 1 When the pulse counter is used in conjunction with the BMS Direct 1 Interface the pulse input is mapped to one of the I O Interface s d
26. ON Off ON ON Off Off 53 Off ON ON Off ON ON Off Off 54 ON ON ON Off ON ON Off Off 55 Off Off Off ON ON ON Off Off 56 ON Off Off ON ON ON Off Off 57 Off ON Off ON ON ON Off Off 58 ON ON Off ON ON ON Off Off 59 Off Off ON ON ON ON Off Off 60 ON Off ON ON ON ON Off Off 61 Off ON ON ON ON ON Off Off 62 ON ON ON ON ON ON Off Off 63 Off Off Off Off Off Off ON Off 64 ON Off Off Off Off Off ON Off 65 Off ON Off Off Off Off ON Off 66 ON ON Off Off Off Off ON Off 67 Off Off ON Off Off Off ON Off 68 ON Off ON Off Off Off ON Off 69 Off ON ON Off Off Off ON Off 70 ON ON ON Off Off Off ON Off 71 Off Off Off ON Off Off ON Off 72 ON Off Off ON Off Off ON Off 73 Off ON Off ON Off Off ON Off 74 ON ON Off ON Off Off ON Off 75 Off Off ON ON Off Off ON Off 76 ON Off ON ON Off Off ON Off 77 Off ON ON ON Off Off ON Off 78 ON ON ON ON Off Off ON Off 79 Off Off Off Off ON Off ON Off 80 ON Off Off Off ON Off ON Off 81 Off ON Off Off ON Off ON Off 82 ON ON Off Off ON Off ON Off 83 Off Off ON Off ON Off ON Off 84 ON Off ON Off O
27. PI v m HUMIDITY 1020 HUMII v SETPOINT 1010 SETPC v SETPOINT 1010 5 v BATTERY ALARM 1010 BATTE v OVERRIDE 1010 OVERI v OVERRIDE OVERI v Unassigned m a m ex The Device Name and PAN ID of the BMS 1 Interface can be changed after clicking the Edit button Device Name 510935 11 characters max 1935 The voltage range 0 5 0 10 and Measurement Range of the corresponding analog output can be configured e g a range of 0 10 a Minimum Measurement Range of 0 and a Maximum Measurement Range of 100 will produce OV at 0 DegF and 10 0V at 100 DegF Voltage Range 05v Omov Measurement Range Minimum 32 Maximum 104 Spinwave Systems 52 of 77 Binding Sensors and Repeaters to a BMS Protocol Gateway BMS Protocol Gateways have pre configured network variables BACnet objects LON SNVTs or Modbus registers The quickest way to bind sensors to those network variables is by dragging dropping a sensor icon onto the BMS Protocol Interface Icon The specific sensor will be mapped to the next available network channel a channel consists of Analog Inputs e g mapped to a sensor temperature value Digital inputs and Sensor Status indicating battery and communication health NetQuest DAR File Network Device List Wakeu
28. User Manual Wireless Sensor Network Spi eX e e d LN i E Doc SWRFIOO2 Version 2 4 Spinwave 2 of 77 2011 Spinwave Systems All Rights Reserved No part of this publication may be reproduced or distributed in any form or by any means or stored in a database or retrieval system without the prior written permission of Spinwave Systems Inc This document is produced in the United States of America Product Names are trademarks of Spinwave Systems Inc All other trademarks are the property of their respective owners The information in this document is furnished for informational purposes only is subject to change without notice and should not be construed as a commitment by Spinwave Systems Inc Spinwave assumes no liability for any errors or inaccuracies that may appear in this document Limitation of Liability Spinwave Systems liability shall not exceed the purchase price paid for the products giving rise to any liability In no event shall Spinwave Systems be liable for any special consequential or incidental damages arising in any way from using this product by the customers Contact Us Spinwave Systems Inc 235 Littleton Road Westford MA 01886 978 392 9000 Website http www spinwavesystems com Download User Manuals and Software from our Support Web Site http www spinwavesystems com Support support php Support email support sp
29. ain the properties of all Spinwave Systems Inc 48 of 77 devices click on Network gt Get Device Properties can take several minutes The sd column contains a message counter for each sensor The counter value increments when a new sensor message is received The TO column indicated a sensor communication timeout according to the timeout setting specified in NQ Importing a Building Floor Plan Go to Menu Item File gt New Project and select a building floor plan image file The image becomes your window canvas A right click on the canvas allows enabling scaling of the floor plan To scale click and hold down the left mouse button over the image and drag to the right bottom corner Wireless devices can be dragged from the Device List and dropped onto the floor plan canvas This allows identifying and locating sensors after installation A Wireless Sensor Network System User Manual 49 of 77 gt Lu A Oo Device icons and their meaning aa 3 Devices that have not been bound previously or whose binding information has been cleared by the user with a PAN ID of zero factory default will flash slowly Device Icons can be minimized and restored by double clicking Spinwave Systems Inc 50 of 77 Binding Sensors and Repeaters to a BMS 1 0 Interface To assign bind s
30. amber indicating good 12V power BUTTONs Button Description RESET Push to reboot the SWRF IOR SW3 Push to reset the STATUS output and all digital outputs A Wireless Sensor Network System User Manual 31 of 77 SWRF LON SWRF BACNET SWRF MODBUS BMS Protocol Interface with Remote RF Receiver Module The BMS Protocol Interface is designed to interface with open protocol building automation networks The BMS Protocol Interface is intended for wall mount installation inside a control panel For best RF performance the RF Receiver must be mounted outside of metal enclosures in an area of good RF propagation The Receiver s antenna should always point up or down vertical orientation Receiver Port LED2 LED3 Console Port Top Status LED Bottom Power LED Line Spinwave Systems Inc 32 of 77 The Receiver module is connected to the protocol gateway Receiver using a standard CAT5 patch cable Ethernet cable This allows to remotely mount the receiver radio up to 30 feet away from the gateway Please see Appendix B for changing the gateway s IP address Node ID or baud rate LEDs LED Description LED1 5VDC Power LED stays green during operation LED3 Stays green during operation Status Top Solid red radio not connected Blinking red Protocol module booting up Blinking red green Console port in use Blinking green radio message receiv
31. arent Type Data Bindings 33026 Temp 1 T 74 1 F Add 12803 Ch 17 Thresholds FW Ver Channel Tx Link dT 0 09 F 2 04 02 38125 140 Parent Type Data Bindings 33026 Temp 1 T 74 3 F Add 12803 Ch 18 Thresholds FW Ver Channel Tx Link dT 0 09 F 2 04 02 38125 156 Parent Type Data Bindings 12803 Temp 1 74 19 Add 12803 Ch 26 Thresholds FW Ver Channel Tx Link dT 0 09 F 2 04 02 38477 144 Parent Type Data Bindings 12803 Temp 1 T 74 1 F Add 12803 Ch 19 Thresholds FW Ver Channel Tx Link dT 0 09 F 2 04 02 38477 156 Parent Type Data Bindings 33026 Temp 1 T 74 3 F Add 12803 Ch 5 Thresholds FW Ver Channel Tx Link dT 0 09 F 2 04 02 38125 176 Parent Type Data Bindings 20042 12803 Temp 1 T 74 1 F Add 12803 Ch 12 Waco cure TRI Toimi w o N o d Name 520047 N o o gt p Name 520048 1 520056 N o o Uu o 3 Name 20049 N e 520035 N o o u p N 5 N lt Save as HTML Print Plan Print Device List Print Cancel Spinwave Systems Inc Page 62 of 77 Chapter 5 Operation Maintenance Changing Batteries Wireless Communication A Wireless Sensor Network System User Manual 63 of 77 Changing Batteries When a sensor AA battery voltage drops below 2 745V the DDC Interface will indicate a Low Battery condition The dedicated Status
32. ave Systems Inc Page 40 of 77 SWS 2PT100 Reset Sequence set PAN ID to zero Action Result Press and HOLD the SW2 TEST button While holding the SW2 RESET button push Wait until the LED on the radio turns solid and RELEASE the RESET button green after about 5 seconds Release the SW2 button The sensor has been reset to factory settings PAN ID 0 and can now join any network 7 If more than one wireless network has been installed in proximity new SWS 2PT100 with PANID 0 might not 4 join the right network it will join the network with the strongest wireless signal In this case it might be required to power down all receivers except the desired receiver before pushing the sensor s reset button A Wireless Sensor Network System User Manual 41 of 77 Conducting Site Survey If line of site communication between wireless devices is not possible it might be required to conduct a site survey to determine the number and position of repeaters Optical inspection The first step of a site survey is the optical inspection of the installation site Wireless communication is impacted by metallic materials This includes Metal wire mesh like chain link fencing Metal roofs shields Metal reinforced concrete Shelves appliances electric enclosures etc In the majority of cases it is possible to establish wireless communication when metal struct
33. c 22 of 77 The SWS DPC uses a high power radio with an open field range of up to 3 500 feet Optional repeaters or line powered pulse counters can be used to extend RF range even further For consumption metering KWh set the sensor properties to Sensor Property Value Interval gt 84 seconds Delta PC 1 For near real time demand tracking KW set the sensor properties to Sensor Property Value Interval 10 seconds Delta PC 1 For most meters the following output settings will yield good results Status Port Type Port Type Parameters Parameters Period ms Mode Duration ms Duration ms OK Cancel This will work for meters that produce up to 5 pulses per second pulse period 200 ms pulse duration 100 ms A Wireless Sensor Network System User Manual 23 77 Example Wireless Lighting Pump Control SWRF IOR D Dry Contact Output 7 Contact Input 1 ww The system consists of one or more wireless digital input module SWS DI and one or more receiver 1 interfaces SWRF IOR D The SWS DI senses the status of a dry contact e g from a lighting panel or pump controller and transmits the value ON or OFF to the receiver module The I O module mirrors the dry contact status at its digital outputs A contactor controlled by the digital ou
34. d to power down all receivers except the desired receiver before pushing the sensor s reset button A Wireless Sensor Network System User Manual 39 of 77 SWS 2PT100 RTD Transceiver Spinwave Systems RTD transceivers are used to wirelessly transmit two PT100 temperature values and make them available as BACnet LON or Modbus variables using Spinwave s BMS Protocol Interface The SWS 2PT100 supports up to two 2 wire or 3 wire 100 temperature probes The RTD transceiver consists of a high power radio and a signal conditioning module The radio is connected through a standard CAT5 cable to the signal conditioning module providing signal and power to the radio RTD transceivers can be battery or line powered A set of 6 D Cell batteries 2 sets of 3 D cells in parallel will last for up to 8 years The SWS 2PT100 is suited for both indoor and outdoor applications when mounted in weather proof enclosure If the SWS 2PT100 is powered by a 9VDC power supply it will automatically function as a repeater Up to 50 SWS 2PT100 can be wirelessly connected to a single BMS protocol gateway SWRF MODBUS TCP SWRF MODBUS RTU SWRF BACNET IP SWRF BACNET MSTP SWRF LON for remote temperature sensing applications Wireless Repeaters Routers are available to cover large indoor or outdoor areas Wireless pulse counters can be used in conjunction with any other Spinwave sensor on the same wireless network Spinw
35. ed Power Bottom 3 3VDC Power LED stays green during operation BUTTONs Button Description SW1 RESET Push to reboot the receiver gateway When the NQ cable is plugged into the gateway s Console Port the BMS Interface will not communicate through its BMS interface port and Modbus LON or BACnet values will not update Unplug the NQ cable after the wireless network has been configured Never connect a repeater radio SWRP or a pulse counter radio SWS DPC to the gateway always use the SWRF receiver module A Wireless Sensor Network System User Manual 33 of 77 Sensors and Transceivers Spinwave s wireless sensors and transceivers are used to wirelessly transmit temperature relative humidity and analog signals to a receiver and make them available as BACnet LON or Modbus variables using a BMS Protocol Interface or as analog outputs using a BMS 1 0 interface Sensor enclosures are locked by two security screws in the enclosure base Before removing the cover make sure that the security screws are turned in enough to clear the cover To secure cover To open cover turn screws clock wise until screw heads clear cover turn screws counter clock wise until screw heads extend into cover Use 1 5mm hex wrench Spinwave Systems Inc Page 34 of 77 The left diagram shows battery installation LED pushbutton jumper locatio
36. ensors to a BMS 1 0 Interface select Network gt Configuration To bind sensor signals to I O Interface outputs click on a sensor terminal e g T for temperature move the cursor to a receiver s output terminal e g A1 and click to connect After all connections have been performed click on Submit Bindings to wirelessly update the network configuration Connecting multiple temperature values to the same analog output will automatically average the zone temperatures of those sensors Connecting multiple override signals to the same digital output will OR the override button signals Existing Sensor bindings can be deleted by selecting Clear Bindings on the menu bar In order to bind a new repeater to the BMS Interface s receiver drag the repeater icon and drop it onto the receiver icon The repeater will assume the PAN ID of the receiver Changing BMS 1 Interface Properties A right click on the BMS I O Module Icon allows viewing its properties e g name address firmware version binding information output scaling and PAN ID The PAN ID Personal Area Network ID property allows assigning a network id to the wireless sensor network If several independent wireless A Wireless Sensor Network System User Manual Page 51 of 77 networks are deployed in the same area e g building they need to have different PAN IDs DDC Properties 1 1000 2 00 04 Port Type Binding TEMPERATURE 1010 TEM
37. evator banks Otherwise transmission distance and performance will be drastically reduced To avoid damaging electronic components due to electrostatic discharge always ground yourself before touching any circuit boards or internal components of Spinwave devices gt D Discharge yourself by touching metal first f possible use a grounding strap or heel plate Failure to observe this precaution can result in equipment damage A Wireless Sensor Network System User Manual 27 of 77 Installing Configuration Software NQ can be installed on PC with the Windows XP Vista Windows 7 32 bit and 64 bit The software can be downloaded from Spinwave s support web site This web site is password protected You will receive your login information with your order Before installing NQ on your PC check if Microsoft s NET V3 5 framework is installed If NET V3 5 is not installed click on the link to Microsoft s download page on the support web site Your PC uses the USB configuration cable SWNQCBL to communicate with the BMS Protocol Interface or Direct I O interface The USB cable requires virtual COM port driver simulating a serial COM port over USB The download link for the USB driver FTDI serial port driver is located on the support web site Install the FTDI USB driver before installing NQ You can install NQ from the support web site either as a web install or download a ZIP fi
38. evice value 43003 43004 4 end device value 44003 44004 5 end device value 46002 End device status Binary Inputs 45003 End device binary value Analog Inputs 47099 47100 End device address Channel 50 40099 40100 1 end device value 41099 41100 2 end device value 42099 42100 3 end device value 43099 43100 4 end device value 44099 44100 5 end device value 46050 End device status Binary Inputs 45099 End device binary value Note For reading registers from the BMS Interface only Modbus Function Code 03 read multiple is supported Some Modbus implementations e g 5 have an offset of zero In this case the 1 end device value of the 1 mapped sensor is represented by holding registers 0 and 1 The default Modbus device ID is 11 The default Modbus RTU baud rate is 9600bd parity 8 data bits 1 stop bit Spinwave Systems Inc 58 of 77 Configuring Sensor Parameters Sensor parameters can be viewed by selecting a sensor s properties right click on sensor icon or Device List entry and changed by clicking the corresponding Edit button Sensor Properties 520042 Add 12803 Ch 12 Temp 1 20042 PaaS 0 09 F 21 12803 The TX Link transmit link and RX Link receive link properties indicate signal strength The maximum value is 255 Good signal strength is present at values gt 10 Clicking on the Bindings Edit button allo
39. ff ON Off ON 170 ON ON Off ON Off ON Off ON 171 Off Off ON ON Off ON Off ON 172 ON Off ON ON Off ON Off ON 173 Off ON ON ON Off ON Off ON 174 ON ON ON ON Off ON Off ON 175 Off Off Off Off ON ON Off ON 176 ON Off Off Off ON ON Off ON 177 Off ON Off Off ON ON Off ON 178 ON ON Off Off ON ON Off ON 179 Off Off ON Off ON ON Off ON 180 ON Off ON Off ON ON Off ON 181 Off ON ON Off ON ON Off ON 182 ON ON ON Off ON ON Off ON 183 Off Off Off ON ON ON Off ON 184 Page 75 of 77 Spinwave Systems Inc 76 of 77 A1 A2 A4 AS A6 A7 A8 Address ON Off Off ON ON ON Off ON 185 Off ON Off ON ON ON Off ON 186 ON ON Off ON ON ON Off ON 187 Off Off ON ON ON ON Off ON 188 ON Off ON ON ON ON Off ON 189 Off ON ON ON ON ON Off ON 190 ON ON ON ON ON ON Off ON 191 Off Off Off Off Off Off ON ON 192 ON Off Off Off Off Off ON ON 193 Off ON Off Off Off Off ON ON 194 ON ON Off Off Off Off ON ON 195 Off Off ON Off Off
40. hed go to Network gt Preferences and select the COM Port representing your USB connection check via Windows Control Panel gt Device Manager Select the desired temperature units Celsius Fahrenheit communication timeout in seconds and sensor wakeup options Sensor go to sleep after taking a measurement and transmitting the value In order for NQ to communicate with sensors without interruption NQ needs to wake them up Awake sensors consume more battery power Selecting the best wakeup option is therefore important Sleeping sensors can be woken up by clicking the Wake Up Devices button on NQ s toolbar User Preferences General Logging Communication Serial Port C Enable Http Server pes Port 8001 COM10 Show m es In 7 Fahrenheit Celsius Qual LED indicates loss of device contact 300 seconds after last data cmd response Wakeup devices Once at application startup While user is active O Fer 10 minutes then stop While application is running A Wireless Sensor Network System User Manual 47 of 77 Discovering Devices NQ will now automatically discover sensors and repeater routers with PAN ID 0 or PAN ID Receiver PAN ID in proximity of the wireless receiver module and display them and the interface module s receiver in the Device List This process can take several minutes Additionally
41. igital outputs The digital output replicates the pulses NQ can be used to configure the pulse frequency and pulse width When using the BMS Direct I O interface it is important to maintain power at the 1 interface to avoid dropped pulses Regulations might require the use of an intrinsically safe barrier for gas metering applications For outdoor installations mount the pulse counter inside a weatherproof plastic enclosure or purchase the SWS DPC N4 option mounted in NEMA4X fiber glass enclosure gt gt gt Spinwave Systems 38 of 77 If a pulse counter that has been previously bound to wireless network should join another network with a different PAN ID its PAN ID has to be set to ZERO Only sensors with PAN ID 0 can join a new network Pulse Counter Reset Sequence set PAN ID to zero Action Result 1 Open the radio cover in order to see the LED 2 Press and HOLD the SW1 button in the DPC 3 While holding the SW1 button push The LED on the radio will turn solid red and RELEASE the RESET button Wait 5 seconds 4 Release the SW1 button The sensor has been reset to factory settings PAN ID 0 and can now join any network If more than one wireless network has been installed in proximity new pulse counters with PANID 0 might not join the right network it will join the network with the strongest wireless signal In this case it might be require
42. in timeout 1101 ec ec 2 dec 3 dec d d 1 1 Wireless Sensor Network System User Manual Modbus TCP and Modbus RTU Protocol Page 57 of 77 Modbus Register Comment Device SWRF_MB Device name of Spinwave Protocol Interface Analog Inputs 47001 47002 32 bit floating point Spinwave end device address e g sensor address 40001 40002 32 bit floating point st 1 end device value e g space sensor temperature 41001 41002 32 bit floating point 2 end device value e g relative humidity 42001 42002 32 bit floating point 3 end device value e g set point 43001 43002 32 bit floating point th m 4 end device value 44001 44002 32 bit floating point th 5 end device value Channel 1 1 mapped sensor Modbus Holding Registers represent values of a wireless end device e g zone sensor 46001 single 16 bit End device status Indicated S register integer communication timeout and or low An end device is battery see LON Protocol Map for mapped to a details channel using Binary Inputs 45001 single 16 bit End device binary value e g sensor NQ software register integer override button status active inactive Analog Inputs 47003 47004 End device address 40003 40004 1 end device value Channel 2 41003 41004 2 end device value 42003 42004 3 end d
43. inwavesystems com For Product and Application News Follow us on Twitter http twitter com spinwavesystems Read our Blog http www spinwavesystems com blog Email Newsletter Signup http www mailer com au x 0id 1001021r A Wireless Sensor Network System User Manual Page 3 of 77 Table of Contents Chapter e P 6 Introduction one m 6 The Spinwave A Product Line zoe tid ui e eode pa ete pee 7 Wireless Sensors and Transceivers 5 5 8 Mesh Repeaters Routers 5 10 Receivers t bab a me bU haa bd am C po Eod EH 11 TE oesi 13 Chapter 2 CHR NINE IR FE eI UN UI SE PM UE 14 Planning GENE EE PUE Va TUE 14 Application OVelVIe Wu ace eere tatu o eet t e opt eT ern sie 15 Open Protocol Interfate seven eco b E rr Ua SS SEQ E Cab Ee a RR 16 Wireless I O Replication dui otra 20 Chapter t 25 Installation soccer E D P E ER tessa redeo 25 General G ldeliiiBS aident icd oi tenia pts 26 Installing Configuration Software cesses 27 SWRF IOR BMS I O Interface with Remote RF Receiver Module 28 SWRF LON SWRF BACNET SWRF MODBUS BMS Protocol Interface with Remote RF Receiver
44. le Plug the USB cable SWNQCBL into your PC s USB port You PC s operating system will detect a new USB device Go to Control Panel gt System gt Device Manager and check the COM port number that was assigned to the cable After starting NQ go to Network Preferences and select the COM port from the drop down list When starting NQ the software will connect to Spinwave s support web site and check for newer versions Spinwave Systems Inc 28 of 77 SWRF IOR BMS 1 0 Interface with Remote RF Receiver Module The BMS 1 0 Interface is designed to be mounted close to the automation controller or data gateway it will interface with The BMS 1 Interface is intended for field installation within an enclosure For best RF performance the receiver radio should NOT be mounted inside a metal enclosure or behind a wire fence The receiver module is connected to the 1 0 interface using a standard CAT5 patch cable Ethernet cable The cable can be extended to up 30 feet This allows to remotely mount the radio at locations with good RF properties The receiver antenna should always point up or down vertical orientation The following diagram shows power connection I O terminal configuration and communication port locations of the BMS 1 Interface and RF Receiver Module SWRF Never connect a router repeater radio SWPR or digital pulse counter radio SWS DPC to a BMS 1 0 interface
45. led Water Spinwave s wireless pulse counters SWS DPC connect to the pulse output of existing gas water or electric meters and transmit meter data to a receiver gateway Demand and consumption data is available via industry protocols like Modbus BACnet and LON Wireless pulse counters use high power radios line of site range 3 500 feet can be battery operated e g for outdoor meters or powered by a power supply Line powered pulse counters automatically act as repeaters making it possible to communicate over wide distances and through walls and ceilings Spinwave Systems Inc 20 77 Wireless I O Replication The BMS O Interfaces SWRF IOR and SWRF IOR D are ideal for applications where a small number of wireless sensors have to be interfaced directly with controller or data gateway inputs Up to eight wireless sensors can be mapped to the interface s outputs analog and digital The BMS 1 0 Interface is typically mounted in the same enclosure as the building controller or data gateway it interfaces with The remote RF Receiver can be placed outside of the enclosure for best RF conditions The RF range can be easily extended by placing Repeaters Routers in strategic locations Multiple wireless networks can coexist by assigning them different PAN 105 aka Network 105 Typical applications include 2 BMSIntegration via Direct I O Wireless load verification for Interface demand resp
46. nc 16 of 77 Open Protocol Interface Multiple wireless sensors can be interfaced with Building Management systems through Spinwave s BMS Protocol Interface Protocol options include BACnet LON Modbus and SNMP BMS Integration via Open Protocol Interface Supported BMS Protocols Easy integration with LON open building BACNet IP management systems BACnet MS TP Use Repeaters Routers Modbus TCP for range extension Modbus RTU Multiple networks can SNMP coexist A Wireless Sensor Network System User Manual 17 of 77 The BMS Protocol interface is typically used in applications requiring multiple wireless sensors Sensor data is transmitted to the receiver radio The gateway receives sensor data from the radio and makes it available as Modbus registers LON snvts or BACnet objects Each sensor transmits one or more measurement values and health status indicating low battery condition and or communication timeout Repeater routers using high power radios are used to transmit over longer distances or through floors ceilings and multiple walls Repeaters also provide alternate wireless communication paths and strengthen the overall network reliability Spinwave Systems Inc 18 77 Example Data Center Monitoring Rapidly escalating connectivity requirements explosion of cloud computing and an increasing emphasis on data mining are driving a major expansion of da
47. ng Spinwave s technical support Status Log Trace Filter i Save to File 2011 07 12T13 00 06 517 lt 4242 sp3203 2011 07 12113 00 06 579 lt 4842 sca7ef 2011 07 12T13 00 06 657 lt 4242 smb491 2011 07 12T13 00 06 720 lt 4842 sabc84 2011 07 12T13 00 06 798 gt 4242 gmhi 2011 07 12T13 00 07 798 lt 4855 sp3203 2011 07 12113 00 07 923 lt 4855 sca7ef 2011 07 12T13 00 08 17 lt 4255 smb527 2011 07 12115 00 08 79 lt 4255 sqd4a4 2011 07 12113 00 08 157 gt 4 55 gmhi 2011 07 12T13 00 09 735 lt 8102 sp3203 2011 07 12T13 00 09 829 lt 8102 sc43ef 2011 07 12T13 00 09 907 8102 smbdco 2011 07 12T13 00 09 985 lt 8102 2011 07 12113 00 10 48 gt 8102 gmh10 2011 07 12113 00 10 407 4e4c sdd 12 2 10 737246 0 Click on Save to File to save the file as a text file A Wireless Sensor Network System User Manual 61 of 77 Documenting Network Configuration After completing commissioning the complete network configuration can be printed out or saved as a HTML file To do this first select Network gt Get Device Properties to update all sensor parameters and than select File gt Print Ei ProjectDocs Project new project spw Tuesday July 12 2011 1 30 Sensors Name Pulse_Ctr Data 12803 Pulse 32 lt 0 TPC 0 Add 12803 Ch 32 Thresholds FW Ver Channel Tx Link dPC 0 2 03 10 38125 255 P
48. ns of Spinwave wireless zone sensor Before inserting sensor batteries make sure your receiver is powered up Observe polarity when inserting batteries and move the power jumper to the Battery position over the left gt two pins A All sensors can be optionally powered S z by a 5VDC external supply In this case the sensor will also act as SED repeater For external power the e E e 5 power jumper has to be moved to the gt gt right position over two right a x pins The Console Port can be used to connect the USB configuration cable to access the wireless sensor network In this case move the power jumper to EXT This will ensure that the sensor is powered by your PC s USB port and will prevent the sensor from entering sleep mode The sensor s LED1 will start blinking green a few seconds after the sensor is powered up indicating that the sensor is trying to connect to a network When successfully connected to the network the LED will flash periodically green when the sensor transmits data LED1 will briefly flash red when the sensor has been woken up by the NQ software Pushing the Reset button will force the sensor to transmit Make sure that the RF Receiver is powered up and N functioning before powering up related sensors Sensors will periodically try to establish communication with the RF Receiver If no Receiver is found the sensor will retry to c
49. nwave A Product Line The Spinwave A product line is based Spinwave s extension of the IEEE 802 15 4 specification for ultra reliable operation Wireless sensors transmit sensor data to the Spinwave Receivers which pass data to a Building Management System BMS interface Spinwave s product line provides a complete solution consisting of e family of wireless sensors and transceivers Wireless sensors have on board sensing elements to measure temperature and relative humidity Wireless transceivers interface to external thermistors RTDs DC voltage sources dry contacts or meter pulse outputs e Wireless repeaters routers significantly extending the wireless network s range e Receiver Interface modules providing direct connectivity to a broad range of automation systems embedded devices and PCs e A laptop resident binding and commissioning tool specifically designed for installers to deploy commission document and maintain the wireless network in a fast efficient manner Product Benefits Eliminates wire and conduit and reduces installation labor costs Preserves original building architecture Easily allows for expansion of a current system or changing floor plans Economical means of obtaining greater building environment control through the use of more sensors Minimizes bid risk Reduces installation time and minimizes project dependencies and delays Opens new service opportunities and markets e g
50. ole port the LED will blink green red The LED will blink red until the protocol module boots up Note The BMS protocol interface will NOT communicate with the BMS as long as the NQ cable is plugged into the console port Refer to Appendix C for changing the BMS Protocol Interface s IP address for BACnet IP and Modbus TCP Press and release the sensor s Reset button Sensor LED starts flashing green indicating binding process LED will turn off after communication to receiver has been established and only flash very briefly at configured transmission intervals e g every 21 seconds Connect NQ cable to PC s USB port and BMS Interface s console port Start NQ to bind and configure wireless network see Chapter 4 Spinwave Systems Inc 44 of 77 Chapter 4 Commissioning Overview Launching NQ Binding Configuring Sensor Parameters Configuring Repeater Router Parameters Opening an Existing Project Troubleshooting Sensor Networks A Wireless Sensor Network System User Manual 45 of 77 Overview Spinwave s laptop resident commissioning and maintenance tool is used to assign bind wireless sensors to BMS Interface Modules During the commissioning phase the tool is used to monitor and verify sensor readings NQ allows a user to Connect a laptop PC through USB to a wireless sensor network through the BMS Interface Module s console p
51. ommunicate until its batteries are drained The sensor paces its retries slower and slower In this case battery life will be shortened from 3 to 8 years to a few months When a receiver is connected to the system the sensor might not show up immediately due to the slower pace of retry Press the RESET button on the sensor for immediate connection A Wireless Sensor Network System User Manual 35 of 77 Sensor Reset Instructions If a sensor that has been previously bound to a wireless network should join another network with a different PAN ID its PAN ID has to be set to ZERO Only sensors with PAN 10 0 can join a new network 5VDC external Power 22 2 1 5VAALithium B 1 5VAALithium Sensor Reset Sequence set ID to zero Action Result 1 Press and HOLD the TEST button 2 While holding the TEST button push and The LED will blink RED then turn solid RED RELEASE the RESET button 3 When LED is solid red release the TEST The sensor has been reset to factory settings button PAN ID 0 and can now join any network If more than one wireless network has been installed in proximity new sensors with PANID 0 might not join the designated network a sensor will join the network with the strongest wireless signal In this case it might be required to power all but the desired receiver down before pushing the sensor
52. on SW SWSRF IOR BMS 1 0 Interface with Remote RF Receiver Module SWRF LON SWRF BACNET SWRF MODBUS BMS Protocol Interfaces Sensors and Transceivers System Start up Sequence Spinwave Systems Inc 26 of 77 General Guidelines BMS Interfaces can be powered by an external 24 VAC or 12 24VDC source In case of 24VAC the unit should receive power from its own independent 24 VAC 20 50 or 60 Hz circuit For reliable operation follow these input wiring guidelines Never run wires across the surface of the printed circuit board Use shielded input wire Do not use the shield as the signal return wire Terminate the shield of the input wires at one end of the run only Do not run your I O interface wiring in the same conduit with AC power The earth ground wire to the DDC 1 Interface should not exceed 12 inches 30 cm 18 gauge minimum in length and it must be connected to a good earth ground This will protect the equipment from transients and other power surges Do NOT connect earth ground to signal ground We cannot guarantee that the system will operate as documented without a properly grounded installation Do not use this product in any safety related applications where human life may be affected Sensors Repeaters and Receivers should NOT be installed in the following areas Inside metal enclosure panel or behind wire mesh Inside or immediately next to elevator shaft el
53. onse projects and data gateway integration Wireless parking lot lighting control Wireless pump control Wireless utility meter reading Zone temperature monitoring for VAV control Easy integration with proprietary building management systems Connects to BMS Controller inputs Use Repeaters Routers for range extension Multiple networks can coexist A Wireless Sensor Network System User Manual 21 of 77 Example Wireless Meter Reading SWRF IOR D Dry Contact Pulse 26 Period ms Pulse Duration ms The system consists of one or more up to 4 wireless pulse counters SWS DPC in an outdoor enclosure and a receiver I O interface SWRF IOR D Meter pulses are collected by the wireless pulse counter and transmitted to the receiver module The 1 0 interface re generates the meter pulses at its digital outputs The maximum frequency f 1 Pulse Period and Pulse Duration of the re generated pulse can be configured using NQ software Digital outputs are wired to a controller or data gateway for remote access of consumption and demand The Status output indicates low battery or communication timeout gt 45 minutes and can be used as an alarm All meters with a dry contact pulse output lt 90 pulses sec are supported The SWS DPC can be battery powered or powered by a 9VDC power supply When powered by 9VDC the SWS DPC will also function as a repeater Spinwave Systems In
54. ort Import a building floor plan Automatically discover network devices sensors repeaters routers and receivers Assign bind sensors to BMS Interface points by graphically connecting sensor values e g room temperature set point or override button to BMS 1 interface terminals outputs or BMS Protocol nterface s network variables Change sensor s transmission intervals sensitivity and scaling factors Monitor and verify sensor data RF link quality and battery health System Requirements NQ is based on the latest Windows technology and requires Microsoft s NET Framework 3 5 and FTDI s virtual COM Port USB driver Processor Minimum 400 megahertz MHz Pentium processor Recommended 1 gigahertz GHz Pentium processor Operating System Windows XP SP2 and NET Framework 3 5 Vista Windows 7 RAM Minimum 96 megabytes MB Recommended 256 MB Hard Disk Up to 500 MB of available space may be required Display Minimum 800 x 600 256 colors Recommended 1024 x 768 high color 32 bit Installation NQ can be installed from the CD or from Spinwave s support web site http www spinwavesystems com Spinwave Systems Inc 46 77 Launching Connect your PC USB port using the cable SWNQCBL to the BMS I O Interface console port the BMS Protocol Interface or any sensor plug into console port move sensor power jumper to EXT position and start up NQ After NQ has been launc
55. p Devices Submit Bindings TO Parent Sound 33026 Pulse 32 Listening Fase Add 12803 Ch 32 20047 Temp 1 Listening False Add 12803 Ch 17 20048 Temp 1 Listening False Add 12803 Ch 18 20056 Temp 1 Listening Fase Add 12803 Ch 26 20049 Temp 1 Listening Fase Add 12803 Ch 19 20035 Temp 1 Listening Fake Add 12803 Ch 5 20042 Temp 1 Listening False 12803 Add 12803 Ch 12 20033 Temp 1 Listening False Add 12803 Ch 33 13008 Temp 1 Listening Fase 08 12803 Ch 1 20043 Temp 1 Listening Fase Add 12803 Ch 13 20060 Temp 1 Listening Fase Add 12803 Ch 30 20031 Temp 1 Listening Fase Add 12803 Ch 2 20032 Temp 1 Listening False Add 12803 Ch 3 20057 Temp 1 Listening Fase Add 12803 Ch 27 20059 Temp 1 Listening Fake Add 12803 Ch 28 20038 1 Listening Fase Add 12803 Ch 3 20040 Temp 1 Listening Fase Add 12803 Ch 10 20058 Temp 1 Listening Fase Add 12803 Ch 28 20046 Temp 1 Listening Fase Add 12803 Ch 16 20050 Temp 1 Listening False Add 12803 Ch 20 20036 Temp 1 Listening False Add 12803 Ch 6 20051 Temp 1 Listening False Add 12803 Ch 21 20055 Temp 1 Listening Fase Add 12803 Ch 25 20038 Temp 1 Listening Fase Add 12803 Ch 8 20041 Temp 1 Listening Fase Add 12803 Ch 11 20037 Temp 1 Listening Fale Add 12803 Ch 7 20044 Temp 1 Listening False Add 12803 Ch 14 20034 Temp 1 Listening Fase Add 12803
56. rk up and running Suddenly some sensors don t show up in Building interior structure may have changed Low sensor battery Check battery status and link quality on sensors If batteries are OK contact Spinwave Support Repeater does not show NQ Repeater has no power or is out of range If there are multiple networks repeater may be talking to another network Verify that the repeater is powered and in range Power down all other receivers Cycle repeater power This allows the repeater to find the desired receiver and show up in The repeater may have been bound to another network Connect the repeater radio to the gateway and using NQ change PAN ID to your network s PAN ID This binds the repeater to your network Disconnect repeater from gateway and deploy the repeater Connect the gateway s original receiver radio back to the gateway A Wireless Sensor Network System User Manual 67 of 77 Appendix Changing BMS Protocol Interface Parameters Overview Changing the IP Address and Node ID BACnet IP Modbus TCP Changing Node ID and Baud Rate BACnet MS TP Modbus RTU Spinwave Systems Inc 68 of 77 Overview The following applies to BACnet IP and Modbus TCP BMS Interfaces ONLY The Ruinet Utility download from support web site is used to Change a BMS Protocol Interface s IP addre
57. rs use lower power radios and have an open field range of up to 1 000 feet Spinwave Systems Inc 42 of 77 Both sensor types function as repeaters when they are powered by power supply The following is a list of devices required for a typical range test Receiver SWRF IOR or SWRF MODBUS SWRF BACNET SWRF LON 24VAC power adaptor for receiver USB cable SWNQBL Notebook PC running software repeater SWRP to simulate high power device repeater power supply SWPSUP 2 or 5VDC battery pack e g 3 D Cells One wireless sensor e g SWS T to simulate a low power device A Wireless Sensor Network System User Manual Page 43 of 77 System Startup Sequence Action Result Install BMS Interface and Receiver in dedicated locations Power up the BMS Interface Carefully remove sensor cover Insert batteries in sensors Move sensor power jumper to position Battery BMS 1 0 Interface 3 3V LED and 12V LED DDC Interface turn LED1 on DDC interface indicated communication activity with receiver module SWRF IOR only LED1 on remote RF Receiver Module turns on BMS Protocol Interface The device required up to 6 minutes to startup The lower green LED indicates communication activity The upper LED indicates the device status If no RF Receiver is connected the Status LED will be red If the NQ cable is plugged into the cons
58. ss and Node ID Restart the BMS Protocol Interface PC Requirements Hardware Ruinet works over an Ethernet network so a TCP IP enabled PC with a network card is required The network card must support 10Mbit s Ethernet The PC and BMS Protocol Interface can either be connected to an established network or connected directly using a cross over cable Software Ruinet runs under any of the following operating systems DOS Windows 95 SR2 upwards Windows 98 2000 NT Vista Windows 7 Installation and Setup The Ruinet PC s TCP IP settings may have to be changed to successfully connect to a specific BMS Protocol Interface if there is more than one BMS Interface Modules on the network Ruinet uses Internet Protocol to connect to a BMS Interface and therefore the Ruinet PC and the BMS Interface have to be setup with an IP address on the same subnet e g IP addresses 192 168 1 24 and 192 168 1 20 are on the same subnet The BMS Protocol s default I P address is 192 168 1 24 If a PC is used on an already established network it is better to change the BMS Interface s IP address than the PC s IP address A Wireless Sensor Network System User Manual 69 of 77 Changing IP Address BACnet IP MODBUS TCP Connecting to a BMS Protocol Interface Since RuiNet can only work with one BMS Interface at a time it is necessary to target the BMS Interface of interest Note that
59. t will automatically OR those values A pre assigned digital status output indicates sensor network trouble low battery or sensor communication time out The digital output can be configured as a pulse or latched signal To make wireless sensor readings available to a Building Management System 1 Interface outputs are simply wired to building automation controller inputs Repeater Router Transceiver Transceiver Repeater Router Repeater Analog and Digital outputs Router umm Transceiver Wireless Digital Input Module Wireless Pulse Counter Sensor Sensor A Wireless Sensor Network System User Manual 13 77 Deployment Tools Commissioning and Maintenance Software SWNQ NQ PC software is a commissioning and maintenance tool allowing user to Connect a PC via USB cable SWNQCBL to a sensor network Conduct a site survey Import building floor plans e Automatically discover wireless network devices Configure sensors and interfaces Graphically map sensor values to interface objects Monitor and verify sensor data and network status Document system configurations NQ requires Microsoft s NET V3 5 framework and FTDI s virtual serial port USB driver for SWNQCBL to be installed NQ is compatible with Windows XP Vista and Windows 7 The NQ software and the required FTDI USB driver can be downloaded from Spinwave Systems support web site The US
60. ta center capacity Monitoring data center environments is becoming more important as modern equipment produces very concentrated heat loads Spinwave Systems wireless sensors enable precise air flow management and help eliminate physical threats to maximize energy efficiency and equipment uptime Spinwave s wireless sensors are available with on board and external sensing elements up to three and can be installed easily and are ready to be interfaced to any building automation system data center monitoring application or network management tool Sensors are available for measuring up to 4 independent variables temperature relative humidity analog input dry contact single receiver gateway can receive up to 200 separate data points Multiple gateways can co exist within one location for projects requiring several hundred sensors A Wireless Sensor Network System User Manual Page 19 of 77 Example Campus wide Utility Monitoring For those who manage campus properties benchmarking and comparing utility usage across all buildings presents a continual challenge Yet this data is essential to effective facilities management especially at a time when energy consumption is of primary concern to many facility owners Establishing norms for water gas and electricity use during various times of the year makes it easier to implement a realistic conservation program Modbus TCP SWRF MODBUS TCP Chil
61. tery conditions can occur when receivers are not powered on and assigned sensors periodically try to unsuccessfully establish communication and their batteries get drained Ensure jumper is in the correct location If battery powered jumper should be in the BATT position Same Pan ID for multiple networks If multiple networks are installed within range their PAN IDs must be different Use NQ to check if PAN IDs are unique and adjust if necessary AT ARH AP set to 0 Sensor will only transmit if the value change is more than the configured A Wait 5 minutes to receive the most recent sensor value Spinwave Systems Inc 66 of 77 Antenna problems Check antennas of sensor s and receiver Make sure antennas are screwed in tightly and that the antenna orientation is vertical Wrong start up sequence Receivers must be powered before sensors are powered After installing sensor batteries and making sure that the power jumper is in the Battery position press and releases the sensor s reset button The LED will start flashing green after a few seconds and then turn off Sensor has not being configured bound to the receivers PAN ID Use NQ to bind the sensor to the receiver gateway s PAN ID Note SWRF ASCII alone cannot be used to bind a new sensor to the receiver SWRF IOR or any one of the SWRF Modbus Bacnet Lon can be used Sensor netwo
62. tput switches the electrical load e g parking lot light pump motor ON or OFF It is possible to map multiple SWS DI to the same digital output on the SWRF IOR D In this can the dry contact signals are OR d the dry contact output closes if one or more of the dry contact inputs close The SWS DI uses a high power radio with an open field range of up to 3 500 feet and because it is powered by a 9VDC power supply also acts as a repeater Additional repeaters can be used to extend RF range even further Spinwave Systems Inc 24 of 77 Example Wireless Zone Temperature Sensing for VAV Control Cale Qe 0 5VDC or 0 10VDC The system consists of one or more up to 8 temperature sensors e g SWS T and a receiver 1 0 interface SWRF IOR Temperature sensors are placed in occupied spaces and transmit zone values to the receiver 1 0 interface The 1 0 module makes temperature or relative humidity values available as 0 5VDC or 0 10VDC analog output values Analog outputs are wired to VAV controller inputs If more than one temperature sensor is mapped to the same analog output the temperature values are automatically averaged e g for zone average Optional repeaters can be used to extend RF range A Wireless Sensor Network System User Manual 25 of 77 Chapter 3 Installation General Guidelines Installing Configurati
63. ures are present but it might require the strategic positioning of receiver radios and repeaters to find a communication path around those obstacles Bodies of water also impact wireless communication negatively This includes Dense vegetation if you install a wireless network when there are no leaves it might not perform as well during spring and summer Snow cover People A wireless system in an un occupied building will behave differently when the building is occupied and human bodies interrupt the communication between wireless devices If possible mount devices high enough to clear obstacles Always over engineer your wireless installation by observing potential future changes to the environment and accounting for them Range Testing The NQ commissioning software is capable of displaying transmit TX and receive RX signal strength for every wireless mesh network device Device Properties A site survey can be conducted by temporarily placing sensors repeaters and receivers at their designated installation location and verifying device signal strength in NQ The maximum signal strength for RX TX is 255 Values gt 10 are considered good Repeaters SWRP receivers wireless pulse counters SW DPC wireless digital input modules SWS DI and wireless RTD transceivers SWS 2PT100 use high power radios and have an open field range of up to 3 500 feet Wireless temperature relative humidity and analog input senso
64. work Node ID and baud rate are Field bus configured using the dedicated DIP Connector switched remove gateway cover for access Setting changes only become effective after cycling gateway End of Line power Termination Switch Changing the baud rate default Baud Rate 38400 amp Protocol B1 B2 Baud Switeh Off Off 9600 ON Off 19200 Off ON 38400 ON ON 76800 PN Changing the protocol B3 B4 Profile off off BACnet MS TP off ON Modbus RTU Ethernet Port ON Off Metasys N2 for Diagnostics LED Description PWR Should show steady GREEN when unit is powered SYS ERR Will turn ON 15 seconds after power up It will turn OFF after 5 seconds A steady red light indicates a system error COMM ERR Will turn ON 15 seconds after power up It will turn OFF after 5 seconds A steady red light indicates a communication problem CONFIG ERR Will turn ON 15 seconds after power up It will turn OFF after 5 seconds A steady amber light indicates a configuration error in the active configuration config csv Node Offline Will turn ON 15 seconds after power up It will turn OFF after 5 seconds Steady light indicated node offline condition RX Flashes when a message is received TX Flashes when a message is sent RUN RUN LED will flash 20 seconds after power up signifying normal operation able to access RUINET Spinwave Systems Inc 72 of 77
65. ws selectively clearing or changing bindings for the selected sensor To prolong battery life it is possible to configure sensors to only transmit if the sensor value e g Temperature Humidity Voltage changes by a certain amount The Sample Interval is the time period between sensor transmissions Longer Sample Intervals result in longer battery life After the wireless sensor network has been configured the configuration can be saved by selecting File gt Save Project As on the menu bar A Wireless Sensor Network System User Manual 59 of 77 Configuring Repeater Router Parameters Repeaters Name and PAN ID can changed through their property dialog 5 soso Opening an Existing Project Opening a saved project will restore the floor plan the device list and device properties Device icons will be displayed with an orange X as long as they have not been discovered by NQ 2 o 25 Rooms As soon as a device is discovered the orange X disappears Device icons will flash slowly as long as their PAN 10 has not been acquired Spinwave Systems Inc Page 60 of 77 Troubleshooting Sensor Networks Selecting Network gt Log View will open a window displaying communication messages to and from the BMS Interface Module The Status Log Information is extremely helpful when contacti
66. ximity of each other e g one per floor receiving data from multiple wireless sensors Repeater Router Transceiver Receiver d Repeater pr Repeater Interface options Router Direct BACnet IP BACnet MS TP LON Transceiver Modbus TCP Modbus RTU SNMP Sensor Sensor Transceiver Sensor Spinwave Systems Inc 12 of 77 BMS I O Interface The BMS 1 Interface consists of a Receiver Module and remote Direct I O Interface and is ideal for applications requiring only a few sensors or for situations where the Building Management System does not provide open protocol connectivity Available versions are SWRF IOR BMS 1 interface with 4 analog outputs 4 digital outputs and one status output SWRF IOR D BMS 1 0 interface with 4 digital outputs and one status output Analog sensor values temperature relative humidity voltage can be mapped to analog outputs on the BMS 1 0 interface and sensor values are available as 0 5VDC or 0 10VDC values Mapping of multiple sensors e g temperature sensors to the same analog output will automatically average those values Digital pulse counters SWS DPC and digital input modules SWS DI can be assigned to digital outputs the BMS 1 0 Interface Mapping digital pulse counters to a digital output will replicate meter pulses wirelessly Mapping of multiple digital input values SWS DI to the same digital outpu

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