User manual - lechner electric CCTV
Contents
1. 75 28 3 198 0 826 31 74 By default and after Factory default settings procedure Unit V Offset 0 00 Multiplier 1 00 7 2 3 4 Relay outputs For every relay description up to 11 characters can be set Relay outputs Relay Description Pulse seconds Activated from Relay 1 boiler 0 1 manual Relay 2 heater 0 2 51 gt Temp I Relay 3 charger 0 3 A retay 4 z x E For every relay different time for pulse duration can be set The resolution is 0 1 second Every relay can be activated remotely or locally by value of monitored parameter By default all relays are activated remotely by WEB interface and in field Activated from is written manual For local activation alarm conditions for different sources are used They are set up in section Setup Alarm conditions Following choices to assign parameter to relay are possible e S S stands for Sensor 1 Wire The relay is activated from value measured from specified 1 Wire sensor and rules for ranges specified in Setup Alarm conditions Question mark masks number from 1 to 8 e lt A A stands for Analog input The relay is activated from value measured from specified analog input and rules for ranges specified in Setup Alarm conditions Question mark masks number from 1 to 4 e D D stands for Digital input The relay follows the state of specified digital input Question mark masks number from 1 to 4 e Sc2. lt item1 gt lt value gt lt value gt lt unit gt lt unit gt lt alarm gt 0 lt alarm gt lt item1 gt lt item2 gt lt value gt lt value gt lt unit gt lt unit gt lt alarm gt 0 lt alarm gt lt item2 gt lt S5 gt lt S6 gt lt description gt Sensor6 lt description gt lt id gt FFFFFFFFFFFF lt id gt lt item1 gt lt value gt lt value gt lt unit gt lt unit gt lt alarm gt 0 lt alarm gt lt item1 gt lt item2 gt lt value gt lt value gt lt unit gt lt unit gt lt alarm gt 0 lt alarm gt lt item2 gt lt S6 gt 5 2 lt description gt Sensor7 lt description gt lt id gt FFFFFFFFFFFF lt id gt lt item1 gt lt value gt lt value gt lt unit gt lt unit gt lt alarm gt 0 lt alarm gt lt item1 gt lt item2 gt lt value gt lt value gt lt unit gt lt unit gt lt alarm gt 0 lt alarm gt lt item2 gt lt S7 gt lt S8 gt description Sensor8 description lt id gt FFFFFFFFFFFF lt id gt lt item1 gt lt value gt lt value gt lt unit gt lt unit gt lt alarm gt 0 lt alarm gt lt item1 gt lt item2 gt lt value gt lt value gt lt unit gt lt unit gt lt alarm gt 0 lt alarm gt lt item2 gt lt S8 gt lt S gt lt Al gt lt Al1 gt lt description gt Analog In1 lt description gt lt value gt 0 00 lt value gt lt unit gt volts lt unit gt lt multiplier gt 31 740 lt mult
3. 7 1 4 Relay section The section displays the current state of relays and presents buttons that can be used to change their status Relay Status Control volets OFF ON OFF Pulse edairage ON automatically controlled by 51 Temp dimatiseur ann ON OFF Pulse portail OFF automatically controlled by A1 All On All Off Pulse All Each relay can be activated either remotely by the WEB interface or locally from the status of a monitored parameter 1 Wire sensor analog voltage and dry contact Only one parameter can control the relay at the same time For every WEB activated relay there are On Off and Pulse buttons There are also All On All Off and Pulse All for common control of relays Pulse duration can be set separately for each relay in Setup Input Output RelayOutputs For locally activated relays a text description of the controlling parameter is displayed rather than buttons Parameters for local relay activation can be set in Setup Input Output RelayOutputs Control of relays follows conditions set in Setup Alarm conditions 7 2 Setup page 7 2 1 Network 7 2 1 1 IP configuration The network parameters are set in this section IP configuration Static DHCP Static Ka IF address 192 168 32 122 Subnet mask 255 255 255 0 Default gateway 192 168 32 1 Host name TCW240B DNS 192 168 32 1 The controller supports static and dynamic IP addresses It is good practice to change the def
4. S71MAXx10Int read write 1 maximum value NTEGER x10 in Integer format x 1 2 2 1 7 3 0 S71MINx10Int read write 7 minimum value NTEGER x10 in Integer format x 1 2 2 1 7 4 0 S71HYSTx101nt read write gt 2 hysteresis value NTEGER x10 in Integer format x 1 2 2 1 7 5 0 S72MAXx10Int eadun x10 in Integer format x 1 2 2 1 7 6 0 S72MINx10Int rada 974 Minimum x10 in Integer format S72 hysteresis value x 1 2 2 1 7 7 0 S72HYSTx10Int read write INTEGER x10 in Integer format 8 10 setup gt io gt Sensors gt sensor8setup op Mme recess Description mmm _ x 1 2 2 1 8 2 0 S81MAXx10Int feadawrite o inn vale NTEGER x10 in Integer format x 1 2 2 1 8 3 0 S81MINx10Int NTEGER x10 in Integer format S81 hysteresis value x 1 2 2 1 8 4 0 S81HYSTx10Int read write INTEGER x10 in Integer format x 1 2 2 1 8 5 0 S82MAXx10Int readewiite OS NTEGER x10 in Integer format x 1 2 2 1 8 6 0 S82MINx10Int esdan oo IU value NTEGER x10 in Integer format S82 hysteresis value x 1 2 2 1 8 7 0 S82HYSTx10Int read write INTEGER x10 in Integer format 8 11 setup gt io gt analog gt analog1setup om xm acess 8 12 setup gt io gt analog gt analog2setup ob Name Aem Deo s 8 13 setup gt io gt analog analog3setup op xm Ame omen 8 14 setup gt io gt analog gt analog4setup oo De
5. lt value gt OFF lt value gt lt R2 gt lt R3 gt lt description gt Relay3 lt description gt lt value gt OFF lt value gt lt R3 gt lt R4 gt lt description gt Relay4 lt description gt lt value gt OFF lt value gt lt R4 gt lt R gt lt Monitor gt Where lt value gt lt value gt and lt unit gt lt value gt means no 1 Wire sensor on this position lt alarm gt 1 lt alarm gt means there is trigger condition If XML HTTP API authentication is enabled basic access authentication is required to access the status xml file The format of the command is API authentication Format http device ip address status xml a uuuu disabled http device ip address status xml Where uuuu is user name and pppp is password Both parameters are unencrypted Page 31 The relay outputs can be controlled by sending HTTP commands ttp device ip address status xml r1 1 ttp device ip address status xml r2 0 ttp device ip address status xml pl1 1 If XML HTTP API authentication is enabled the format of the commands is shown in the table below user name admin pass admin XML HTTP API authentication Format ice ip address status xml a admin admin amp r1 1 disabled http device ip address status xml r1 21 10 Firmware update TCW240B supports remote firmware update To update the device follow the steps below e Goto www teracom cc and download the latest firmw
6. x symbol with 1 3 6 1 4 1 38783 To save the changes configurationSaved OID x 1 3 5 0 should be set to 1 8 1 product fo Name Access Description Syntax S O x1110 x112 0 string x113 0 Release date 8 2 setup network ID L a MAC ooo x 1 2 1 3 0 Device IP IP 8 3 setup gt i0 gt Sensors sensor1setup san ou n n 422 4140 Comm ioe X 1 2 2 1 1 2 0 s11MAXx10Int read write 911 maximum value NTEGER x10 in Integer format x 1 2 2 1 1 3 0 s11MINx10Int gadane 7 l Minimum value INTEGER x10 in Integer format S11 hysteresis value X 1 2 2 1 1 4 0 s11HYSTx10Int read write INTEGER x10 in Integer format x 1 2 2 1 1 5 0 12MAXx10Int fendiwrite 1 Maximum value NTEGER x10 in Integer format x 1 2 2 1 1 6 0 12MINx10Int readwrite Le mae INTEGER x10 in Integer format S12 hysteresis value x 1 2 2 1 1 7 0 S12HYSTx10Int read write INTEGER x10 in Integer format 8 4 setup gt io gt Sensors gt sensor2setup jo frame Aem Description x 1 2 2 1 2 2 0 S21MAXx10lnt read write 921 maximum value NTEGER x10 in Integer format x 1 2 2 1 2 3 0 S21MINXx10lnt read write el minimum value NTEGER x10 in Integer format X 1 2 2 1 2 4 0 S21HYSTx10Int raqa wie oe eS value INTEGER x10 in Integer format x 1 2 2 1 2 5 0 S22MAXx10Int EGER x10 in Integer format x 1 2 2 1 2 6 0 S22MINx10Int read write 322 minimum
7. 1 2 0 Relay1pulse Relay1 pulse length INTEGER 8 31 monitor control relays oo wm Aem ome a x 1 3 4 2 1 0 Relay2State Relay2 State INTEGER off 0 on 1 x 1 3 4 2 2 0 Relay2pulse Relay2 pulse length INTEGER 8 32 monitor control gt relays gt relay3 m W x 1 3 4 3 1 0 Relay3State Relay3 State INTEGER off 0 on 1 x 1 3 4 3 2 0 Relay3pulse Relay3 pulse length INTEGER 8 33 monitor control gt relays Ey om wm Aem s po _ _ _ x 1 3 4 4 1 0 Relay4State Relay4 State INTEGER off 0 on 1 x 1 3 4 4 2 0 Relay4pulse Relay4 pulse length INTEGER 8 34 monitor control ob m Amm Description mm SSS Configuration save configurationSaved read write status INTEGER unsaved 0 saved 1 nee NSAVED 1 3 6 0 Restart Device Device INTEGER INTEGER cancel 0 restart 1 sd restart 1 temperature values Page 28 9 XMLand HTTP API commands XML is often preferred choice when it comes to M2M communication and system integration The monitored values are transmitted in status xml file that can be easily processed by software applications The structure of status xml file is lt Monitor gt lt Devicelnfo gt ID 00 04 A3 CE F9 F8 ID lt DeviceName gt TCW240B lt DeviceName gt lt Key gt 00 00 00 00 00 00 lt Key gt lt HostName gt TCW240B lt HostName gt lt Alarmed gt 1 lt Alarmed gt lt Devicelnfo gt lt S gt
8. 51 lt description gt Sensor1 lt description gt lt id gt FFFFFFFFFFFF lt id gt lt item1 gt lt value gt lt value gt lt unit gt lt unit gt lt alarm gt 0 lt alarm gt lt item1 gt lt item2 gt lt value gt lt value gt lt unit gt lt unit gt lt alarm gt 0 lt alarm gt lt item2 gt lt S1 gt 52 lt description gt Sensor2 lt description gt lt id gt FFFFFFFFFFFF lt id gt lt item1 gt lt value gt lt value gt lt unit gt lt unit gt lt alarm gt 0 lt alarm gt lt item1 gt lt item2 gt lt value gt lt value gt lt unit gt lt unit gt lt alarm gt 0 lt alarm gt lt item2 gt lt S2 gt 53 lt description gt Sensor3 lt description gt lt id gt FFFFFFFFFFFF lt id gt lt item1 gt lt value gt lt value gt lt unit gt lt unit gt lt alarm gt 0 lt alarm gt lt item1 gt lt item2 gt lt value gt lt value gt lt unit gt lt unit gt lt alarm gt 0 lt alarm gt lt item2 gt lt S3 gt S4 lt description gt Sensor4 lt description gt lt id gt FFFFFFFFFFFF lt id gt lt item1 gt lt value gt lt value gt lt unit gt lt unit gt lt alarm gt 0 lt alarm gt lt item1 gt lt item2 gt lt value gt lt value gt lt unit gt lt unit gt lt alarm gt 0 lt alarm gt lt item2 gt lt S4 gt S5 lt description gt Sensor5 lt description gt Page 29 lt id gt FFFFFFFFFFFF lt id gt
9. both cases the monitored parameter goes out of range Coming back in range for observed parameter is considered when the value goes higher than Min Hys or lower than Max Hys Hysteresis Hys is used to prevent from excessively triggering when the value vacillates around trigger point TCW240B R2 0 June 2014 Page 17 Voltage 8 0V E Max za l L ee Max Hu 3 2V A Min Hys SA i59 hps 7 M time Status time Trigger time Alert time Example TCW240B TST100 and appropriate heater are used to control the room temperature The wanted minimum temperature is 19 C The initial temperature is 17 C TST100 is assigned on the first position for 1 Wire sensors For Relay1 local activation from Sensor1 is set Following parameters are set for Sensor1 Min 19 Max 100 and Hys 0 5 Sensors Description Type Min Max Hys If out of range 1 Temp 1 Temp C 19 0 100 0 0 5 send email v When the controller is switched on Relay1 is immediately activated because the monitored temperature is out of range This switches the heater on The temperature is going higher When temperature reaches 19 5 C 19 0 0 5 it goes in range trigger condition and Relay1 is deactivated The heater is switched off The temperature falls and when it reached 19 C it goes out of range trigger and alert conditions The relay is activated heater is switched on and e mail is sent Page 18 Tem
10. 1 5 2 0 52x10Int peseeanlys en INTEGER Integer format x 1 3 1 5 3 0 S5ID Sensor 5 ID Mac Address 8 25 monitor control Sensors gt sensor6 Name Ames Description po SSS x 1 3 1 6 1 0 61x10Int reisi oo valued INTEGER Integer format x 1 3 1 6 2 0 S62x10Int pesdbenly ooo INTEGER Integer format x 1 3 1 6 3 0 S6ID Sensor 6 ID Mac Address 8 26 monitor control gt Sensors gt sensor7 Dee SSS x 1 3 1 7 1 0 S71x10Int sich INTEGER Integer format x 1 3 1 7 2 0 S72x10Int atou LOI INTEGER Integer format x 1 3 1 7 3 0 S7ID Sensor 7 ID Mac Address 8 27 monitor control Sensors sensor8 name Ames Den sma SSS x 1 3 1 8 1 0 81x10Int INTEGER Integer format x 1 3 1 8 2 0 S82x10Int readonly oo ON INTEGER Integer format x 1 3 1 8 3 0 S8ID Sensor 8 ID Mac Address Page 27 8 28 monitor control gt analog Voltage1 x10 i x 1 3 2 1 0 Voltage1x10lnt INTEGER Integer format Voltage2 x10 i x 1 3 2 2 0 Voltage2x10Int e aen INTEGER Integer format Voltage3 x10 i x 1 3 2 3 0 Voltage3x10Int INTEGER Integer format x 1 3 2 4 0 Voltage4x10Int readonly INTEGER Integer format 8 29 monitor control gt digital oo Name Axes Description sm 8 30 monitor_control gt relays gt relay1 ob Wme sa x 1 3 4 1 1 0 relay1State Relay1 State INTEGER off 0 on 1 x 1 3 4
11. 4 Sensor 0 000 0 000 Sensor 5 Sensors 0 0008 0 000 Sensor 6 Sensor 0 000 0 000 Sensor 7 Sensor 000 I 0 000 Sensor 8 Sensor 0 000 0 000 7 2 3 2 Digital inputs For every digital input description up to 11 characters can be set Digital inputs Digital input Description Digital input Description Digital Input 1 Alarm 1 Digital Input 3 Digital In3 Digital Input 2 Alarm 2 Digital Input 4 Digital In4 7 2 3 3 Analog inputs For every analog input description up to 11 characters can be set Analog inputs Analog input Description Unit Multiplier Offset Analog input 1 Server room RH 31 74 0 826 Analoginput2 Analog In volts 1 000 0 000 Analoginput3 Analog In3 volts 1 000 0 000 Analoginput4 Analog In4 volts 1 000 0 000 Page 15 For every analog input field Unit Multiplier and Offset parameters are available to convert the raw voltage input to meaningful engineering units if required The shown value is calculated by DV Un AV OF MU Where DV displayed value Un unit AV real analog voltage from source MU multiplier in dimension parameter Volt OF offset Example For humidity sensor HIH 4000 003 following parameter coming from data sheet should be set for fine work Unit RH Offset 0 826 Multiplier 31 74 the value is inversed of slope parameter 1 0 0315 If the output voltage of this sensor is 3 198V on the monitoring page will be shown 75 28 RH
12. 72 15 sensor82 16 analog1 17 analog2 18 analog3 19 analog4 20 digital1 21 digital2 22 digital3 23 digital4 24 scheduler1 25 scheduler2 26 scheduler3 27 scheduler4 28 Page 26 8 20 monitor_control gt Sensors gt sensor1 mome Description Stax SSS x 1 3 1 1 1 0 11x10Int ee INTEGER x 1 3 1 1 2 0 S12x10Int kore _ INTEGER x 1 3 1 1 3 0 S1ID read only read only ISenorilD 1 ID MacAddres MacAddres 8 21 monitor control Sensors gt sensor2 name a Deep Jom SSS x 1 3 1 2 1 0 S21x10Int eaten Om INTEGER Integer format x 1 3 1 2 2 0 S22x10Int mo toe INTEGER rs NN format x 1 3 1 2 3 0 S2ID read read only Sensor21D 2 ID Mac Mac Address On 8 22 monitor control gt Sensors gt sensor3 Name Ames Deg syntax x 1 3 1 3 1 0 S31x10Int Integer format x 1 3 1 3 2 0 S32x10Int mated format x 1 3 1 3 3 0 S3ID read read only ISenor3ID 3 ID Mac Mac Address On 8 23 monitor control gt Sensors gt sensor4 Name Aces Dee Stax SSS x 1 3 1 4 1 0 S41x10Int e INTEGER Integer format x 1 3 1 4 2 0 S42x10Int mado gt On INTEGER Integer format x 1 3 1 4 3 0 SAID Sensor 4 ID Mac Address 8 24 monitor control Sensors gt sensor5 name a Dee Jom SSS x 1 3 1 5 1 0 S51x10Int oe On INTEGER Integer format x 1 3
13. B8EF0C iw 6 Sensor 20 4 C 000004685419 7 Sensor 20 4 C 000004B8EF95 Iv 8 Sensors 20 5 C 43 B RH FFO01624F695 rJ Scan for new sensors 7 1 2 Digital inputs section Digital inputs can be used for monitoring the state of discrete devices motion sensor door contact relay contact alarm output etc All digital inputs are not galvanic isolated One side of the contact is connected to Digital In and the other side is connected to GND pins Digital inputs are sampled every 10mS The change of input status is considered valid if the same value is read in two consecutive samples Signal closed open time invalid change sample on every 10 ms valid change Status CLOSED Status of every input is shown by text and by color Digital input Status Digital input Status Default descriptions can be changed in Setup Input Output Page 12 7 1 3 Analog inputs section Analog inputs can be used for monitoring of DC voltage sources analog sensors batteries power supplies solar panels etc All analog inputs are not galvanic isolated One side of source is connected to Analog In and the other side is connected to GND pins Analog input Value Analog input Value Analog Int 30 03volts Analog In2 20 12volts Analog In3 11 98volts Analog In4 5 00volts For every analog input 3 variables Unit Multiplier and Offset can be set in section Setup Input Output
14. NMP v 2 This enables the device to be part of monitoring and control systems over SNMP protocol In this section all necessary parameters for proper operation of SNMP can be set SNMP SNMP configuration Enable ka SNMP port 161 Write community private Read community public SNMP Traps SNMP Traps Enable Ka IP address 192 168 32 30 Community string public Trap interval 10 Max Trap number 253 Download MIB File SAVE Page 14 Trap Interval is time in seconds between repeating the sent SNMP trap messages It is in range between 1 and 255 seconds Max Traps number is a maximum number of SNMP trap messages sent if trap condition is present It is in range between 1 and 255 SNMP traps can be sent if e event occurs status change on Digital Inputs e measured parameter on Analog Inputs goes outside the range e measured parameter on 1 Wire bus goes outside the range e restart condition Necessary MIB file for SNMP manager programs can be downloaded from the controller All changed information in above sections is saved with button Save 7 2 3 Input Output 7 2 3 1 1 Wire sensors For every 1 Wire sensors description up to 11 characters can be set For some specific sensor fields Unit Multiplier and Offset are available for use Sensors Sensor Description Unit Multiplier Offset Sensor 1 Temp 1 0 000 l 0 000 Sensor 2 Sensor 0 000 0 000 Sensor 3 sensors 0 000 0 000 Sensor
15. PI commands Method HTTP POST Y URL http serverURL port Period seconds 60 Connect On Any Alarm Key 00 00 00 00 00 00 Process Answer Yes T SAVE Typical monitoring application is shown on the picture below TCW240B Router e sr lt pi Med T i Dynamic IP Addr s dl Monitoring software Router PUSH LS A 9 Comm Public IP Addr TCW240B af PUSH ss gt b EL Control The main advantage of the PUSH technique is that the controllers can be installed in private networks behind the routers without port forwarding arrangement The server should have public IP address TCW240B R2 0 June 2014 Page 21 7 2 7 System On this page all common settings for controller are made There is also section for firmware update 7 2 7 1 Time setup The TCW240B utilizes real time clock for schedules The clock can be set manually or automatically For automatic adjustments appropriate NTP server should be used Time Setup Time configuration Manual Iv Time server dock via net Time zone 0000 Time set 16 01 2014 13 49 21 7 2 7 2 WEB access Enable disable of WEB access authentication change of HTTP port and change of login information can be adjusted in this section Web access Authentication Disabled i HITP port 80 Username admin Password III 7 2 7 3 XML HTTP API Enable disable of XML HTTP API access authentication
16. Relay 2 control logic INTEGER manual 0 sensor11 1 sensor21 2 sensor31 3 sensor41 4 sensor51 5 sensor61 6 sensor71 7 sensor81 8 sensor12 9 sensor22 10 sensor32 11 sensor42 12 sensor52 13 sensor62 14 sensor72 15 sensor82 16 analog1 17 analog2 18 analog3 19 analog4 20 digital1 21 digital2 22 digital3 23 digital4 24 scheduler1 25 scheduler2 26 scheduler3 27 scheduler4 28 8 18 setup gt io gt relays gt relay3setup x 1 2 2 4 3 2 0 Relay3pulseWidth read write Relay 3 Pulse x100ms INTEGER x 1 2 2 4 3 3 0 Relay3controlledBy read write Relay 3 control logic INTEGER manual 0 sensor11 1 sensor21 2 sensor31 3 sensor41 4 sensor51 5 sensor61 6 sensor71 7 sensor81 8 sensor12 9 sensor22 10 sensor32 11 sensor42 12 sensor52 13 sensor62 14 sensor72 15 sensor82 16 analog1 17 analog2 18 analog3 19 analog4 20 digital1 21 digital2 22 digital3 23 digital4 24 scheduler1 25 scheduler2 26 scheduler3 27 scheduler4 28 8 19 setup gt io gt relays gt relay4setup x 1 2 2 4 4 2 0 Relay4pulseWidth read write Relay 4 Pulse xi00ms INTEGER x 1 2 2 4 4 3 0 Relay4controlledBy read write Relay 4 control logic INTEGER manual 0 sensor11 1 sensor21 2 sensor31 3 sensor41 4 sensor51 5 sensor61 6 sensor71 7 sensor81 8 sensor12 9 sensor22 10 sensor32 11 sensor42 12 sensor52 13 sensor62 14 sensor
17. STx10Int read write INTEGER x10 in Integer format 8 7 setup gt io gt Sensors gt sensor5setup us e e a x 1 2 2 1 5 1 0 S5description read write write Sensor 5 description x 1 2 2 1 5 2 0 SSIMAXx10Int adami oe iammm ali NTEGER x10 in Integer format x 1 2 2 1 5 3 0 S51MINx10Int resdewrite S On INTEGER x10 in Integer format S51 hysteresis value x 1 2 2 1 5 4 0 SSTHYSTx10Int read write INTEGER x10 in Integer format x 1 2 2 1 5 5 0 S52MAXx10Int NTEGER x10 in Integer format x 1 2 2 1 5 6 0 S52MINx10Int r sdbwite x10 in Integer format S52 hysteresis value x 1 2 2 1 5 7 0 SS2HYSTx10Int read write INTEGER x10 in Integer format 8 8 setup gt io gt Sensors gt sensor6setup Bu Ooo e C x 1 2 2 1 6 2 0 S61MAXx10Int read write oak maximum value NTEGER x10 in Integer format x 1 2 2 1 6 3 0 S61MINx10Int read write minimum value NTEGER x10 in Integer format x 1 2 2 1 6 4 0 S61HYSTx10Int read write 981 hysteresis value NTEGER x10 in Integer format x 1 2 2 1 6 5 0 S62MAXx10Int read write 992 maximum value INTEGER x10 in Integer format x 1 2 2 1 6 6 0 S62MINx10Int read write 962 minimum value NTEGER x10 in Integer format I S62 hysteresis value x 1 2 2 1 6 7 0 S62HYSTx10Int read write INTEGER x10 in Integer format Page 24 8 9 setup io Sensors sensor7setup fo frame Demi mmm _ _ x 1 2 2 1 7 2 0
18. aired In no event will Teracom Ltd be responsible or liable for indirect or consequential damages resulting from the use or application of this equipment 14 Maintenance Upon completion of any service or repairs to the device or once per year safety check must be perform to determine that this product is in proper operating condition Clean the device only with dry cloth Do not use a liquid cleaner or an aerosol cleaner Do not use a magnetic static cleaning device dust remover or any kind of abrasive materials to clean the device Page 34 Appendix A 145mm Y 5 135mm d Fig 1 Top 50mm y 50 TCW240 Side Side Fig 2 Page 35 TCW240B_R2 0 June 2014
19. are e Go to the device login page enter user name and password and press the Login button e Go to Setup System Firmware update section select the update cod file and press upload button Firmware update Current FW version tcwb240v1 00Ld Select FW version Choose File No file chosen UPLOAD e After the firmware update is completed you will be forwarded to the device Login page Attention Don t turn off the power supply during the update Turning off the power supply will damage the device For some updates factory default settings procedure is mandatory Page 32 11 Factory default settings The TCW240B can be restored to its original factory default settings following the steps below e Turn off the power supply e Press and hold the RESET button then turn on the power supply e After turning the power supply release the RESET button The LED s STS and LOG will flash 14 times after that only the STS LED will continue to blink The controller is restored to its default settings The factory default settings are 12 Environment information This equipment is intended for use in a Pollution Degree 2 environment at altitudes up to 2000 meters When the controller is a part of a system the other elements of the system shall comply with the EMC requirements and shall be intended for use in the same ambient conditions 13 Safety This device must not be used for medical life saving purposes o
20. ault IP address of controller immediately after first power on This will avoid collisions if many devices are used in the same network It may be necessary to clear the Page 13 arp cache each time you connect a new device to the network This is done by typing arp d in the command prompt window of computer The Host name is up to 15 characters and is used as subject for outgoing e mails The Host name is shown in search results of TCW discoverer 7 2 1 2 Mac address and MAC filter MAC address of device can be changed in this section After factory default procedure default MAC address is assigned MAC address MAC filter Device MAC IDO 04 A3 CE F9 F7 MAC filter 1 00 00 00 00 00 00 MAC filter 2 00 00 00 00 00 00 MAC filter 3 100 00 00 00 00 00 MAC address filtering is supported Up to 3 MAC addresses can be entered Attention If you are not familiar with MAC filtering leave this part by default 7 2 1 3 SMTP setup This section is used to enter alarm email parameters SSL Secure Socket Layer up to 2k is supported By default it is enabled SMTP setup Mail server address imail yahoo co uk Mail server port 25 Sender e mail test yahoo co uk Username test Password IT SSL authentication Disabled I Recipient e mail Johnsmith mail com send test e mail There is a button to check e mail sending All changed information in above sections is saved with button Save 7 2 2 SNMP The TCW240B supports S
21. can be adjusted in this section Basic authentication only is supported XML HTTP API Authentication Disabled 7 2 7 4 Monitoring page setup Monitoring page refresh interval can be set between 0 and 253 seconds Zero means no automatic refresh Celsius or Fahrenheit temperature units can be selected All four sections on Monitoring page can be added or removed independently by appropriate setup here Monitoring page automatic refresh Interval 0 253 sec 10 Display Temperature Units Celsius I Sensors Digital Inputs Analog Inputs Relay Outputs 7 2 7 5 Firmware update This section is for firmware update For more details see 7 Firmware update Firmware update Current FW version tewb 40v1 00ld Select FW version Choose File No file chosen UPLOAD All changed information in above sections is saved with button Save Page 22 7 3 Logout Closing the browser is not enough to close the session WEB interface with controller To avoid the message Someone is logged in it is recommended you click the Logout button before closing the browser window 8 SNMP protocol description The TCW240B can be configured and monitored through SNMP Simple Network Management Protocol This could be done using every SNMP v 2 compatible program Parameters that can be changed are grouped according to their functions in the tables below To obtain a valid OID number it is necessary to replace the
22. cantral solutions TCW240B Ethernet controller User manual A gt W ka Je ff I Version 2 0 June 2014 e s X DCE A j a es VAQI A A 4 I 2 a fi fi jer 3 www teracom cc Ethernet controller TCW240B 1 Introduction TCW240B is a multi functional device for monitoring and control in Ethernet based networks It includes 4 digital inputs 4 analog inputs 1 Wire interface for up to 8 Teracom 1 Wire sensors like temperature humidity CO2 current 4 20mA galvanic isolated analog voltage etc It also has 4 relays with normally open and normally close contacts The relays can be activated either remotely WEB SNMP HTTP etc or locally from the status of a monitored parameter 1 Wire sensor analog voltage and dry contact Only one parameter can control each relay but for every parameter an alarm e mail SNMP trap can be sent An Embedded real time clock provides scheduled time control of selected outputs the tasks can be either single or with weekly repetition TCW240B has a built in web server that provides simple web interface The device can be accessed directly using a standard web browser installed on users computer or smart phone 2 Features e 100 Mb Ethernet connectivity e Password protected web based configuration and control e Adigital inputs with dry contact and logic level modes e 4 analog inputs with O to 60VDC range
23. com tcwb240v1 00b2 12 All TCW controllers connected to LAN can be easily found by free tool TCW discoverer It is available for Win and Mac operating systems and can be downloaded from www teracom cc 7 Web interface The web based interface allows configuration monitoring and control After opening the Login page authorization data must be entered by default username admin password admin It is recommended to change the username and password to prevent unauthorized access to the controller Ethernet Controller TCW240 Username Password Log in Teracom tcwb240v1 00b2 17 The controller supports only one active session only one user can operate the device If another user tries to login the message Someone is logged in appears Someone is logged in Ethernet Controller TCW240 Username Password Login Teracom tcwb240v1 00b2 17 7 1 Monitoring page Monitoring page displays the current state of TCW240B and presents buttons that can be used to control the relays The page has 4 sections Sensors Digital inputs Analog inputs and Relays All they can be added removed from Monitoring page independently by appropriate setup see Setup System Display section For every parameter sensor input relay there is a description of up to 11 characters Default ones can be changed in Setup Input Output The Monitoring page can be automatically refreshed o
24. connection uses the following items ois Client for Microsoft Networks QoS Packet Scheduler a File and Printer Sharing for Microsoft Networks L amp Internet Protocol Version 6 TCP IPv6 Internet Protocol Version 4 TCP IP v4 Link Layer Topology Discovery Mapper I O Driver Link Layer Topology Discovery Responder Description Transmission Control Protocol Internet Protocol The default wide area network protocol that provides communication across diverse interconnected networks This address should be in the same network for example 192 168 1 3 Internet Protocol Version 4 TCP IPv4 Properties ANN You can get IP settings assigned automatically if your network supports this capability Otherwise you need to ask your network administrator for the appropriate IP settings Obtain an IP address automatically Q Use the following IP address IP address 192 168 1 3 Subnet mask p55 255 255 0 Default gateway Obtain DNS server address automatically Q Use the following DNS server addresses Preferred DNS server Alternate DNS server _ Validate settings upon exit To get access to the web interface you should type http 192 168 1 2 into the browser 192 168 1 2 C Q 192 168 1 2 If the network settings are correct the Login page will appear TCW240B 2 0 June 2014 Page 10 Ethernet Controller TCW240 Username Password Login Tera
25. d 148 The sensors have three wires positive voltage VDD ground GND and bidirectional data Data The colors of wires for every sensor are specified in its user manual It is strongly recommended to use daisy chained linear topology for multiple sensors TCW240B m TSH203 TSH203 Star topology can be used only as a last resort for up to 4 sensors and total cable length up to 10 meters TCW240B TSH202 Connections can be realized either by screw terminal connector or by standard RJ 11 connector There are many parameters which determine the maximum length of the wires type of cable the number of sensors ambient electromagnetic noise and sensor network topology SSS SSS SS nn nn n nn nn TCW240B R2 0 June 2014 Page It is strongly recommended to use only UTP FTP cables and keep total cable length up to 60 m Although functionality has been achieved in longer distance we cannot guarantee error free operation over mentioned wiring length We guarantee proper operation only with Teracom 1 Wire sensors 6 2 5 Relay connection The relay contacts are internally connected directly to the terminal connectors For all relays normally open normally close and common contacts are available 12 VDC Solenoid valve TCW240B ethernet controller For loads with higher switchable current voltage than specified an external relay should be used controlled device s
26. de is connected to GND terminals TCW240B PIR detector Alarm button 6 2 3 Analog inputs connection Attention Analog inputs are NOT galvanic isolated Analog inputs of TCW240B can be used for monitoring of DC voltage up to 60VDC They can be connected directly to batteries solar panels power supplies etc Built in functionality Multiplier Offset and Dimension for every analog input gives possibility to monitor sensors with analog outputs and see directly measured parameter It is also possible to monitor voltages bigger than 60 VDC with external resistive dividers Following picture illustrates how a battery can be connected to the analog input of TCW240B One side of the contact is connected to Analog In and the other side is connected to GND terminals TCW240B Battery Page 6 I 6 2 4 Sensor connection Up to 8 1 Wire sensors can be connected to TCW240B The device supports following sensors temperature temperature humidity CO2 DC current AC current 4 20mA galvanic isolated analog voltage atmospheric pressure etc Connected sensors are automatically detected and appropriate dimension is assigned 1 Wire is a registered trademark of Maxim Integrated Products Inc It is designed to connect several sensors over a short wiring It is not suitable for long distances or environments with EMC interference We recommend reading Maxim s 1 Wire tips at http www maxim ic com app notes index mvp i
27. e Multiplier and offset for analog inputs e 4 relays with NO and NC contacts e Long 1 Wire support for up to 8 temperature TST1XX temperature humidity TSH2xx or other sensors made by Teracom e SNMP v 2 support e SNMP traps and or e mail sending for alert conditions e SMTP with authentication e 2K SSL support e MAC filter for better security e HTTP and SNMP port changing e XML and HTTP API commands e NTP protocol support e Push mode for client server systems e Real time clock for scheduled control e Extended working temperature range e Wide power supply voltage range e Auto MDIX e Remote firmware update Page 2 3 Applications TCW240B is suitable for environmental monitoring and local control of electrical and non electrical parameter industrial and building automation data acquisition systems general remote control and monitoring It works very well as a standalone device that can be controlled using a web browser or as a part of small and medium industrial control systems for SCADA supervisory control and data acquisition A few example applications include e Temperature and humidity control in data centers e Building management system e Industrial cooling heating control e Home automation e Alarm systems e Mushroom plant automation e Process monitor 4 Technical parameters Maximum current with all relays ON mA 230 5 LED indicators The following indicators show th
28. e status of the controller e Relay1 Relay4 green these LEDs are illuminated whenever the corresponding relay is activated the NO contact is closed and the NC contact is open e STS red flashes when the main program of controller is executed e LOG yellow indicates that somebody is logged via WEB interface e Link green located on the Ethernet connector indicates that the device is connected to the network e Act yellow located on the Ethernet connector flashes when activity is detected on the network Maximum input voltage for digital inputs VDC Page 3 6 Installation and setup This device must be installed by qualified personnel This device must not be installed directly outdoors Installation consists of mounting the device connecting to an IP network connecting inputs and outputs providing power and configuring via a web browser 6 1 Mounting TCW240B should be mounted in a clean and dry location on not flammable surface Ventilation is recommended for installations where ambient air temperature is expected to be high Mount the device to a wall by using two plastic dowels 8x60mm example Wurth GmbH 0912 802 002 and two dowel screws 6x70mm example Wurth GmbH 0157 06 70 Attach the screws to the surface vertically See Appendix A fig 1 for mechanical details Maintain spacing from adjacent equipment Allow 50 mm of space on all sides as shown on fig 2 in Appendix A this provides venti
29. e will be event on 1 1 2014 starts in 00 00 and ends in 00 01 e Single pulse task once 5 With above setting there will be pulse event on 1 1 2014 in 13 00 00 The pulse duration is depends of chosen relay s setting section Setup Inputs Outputs Relay outputs e Weekly task for time period Weedy v v v v C On Off v With above setting there will be event every working day of the week starts in 08 00 and ends in 17 00 TCW240B R2 0 June 2014 Page 20 e Weekly pulse task Weekly v Ae Pulse ix 12 00 00 00 00 00 With above setting there will be pulse event every Saturday and Sunday 12 00 00 The pulse duration can be set in section Setup Inputs Outputs Relay outputs All changed information in above sections is saved with button Save 7 2 6 Push mode Push mode is intended for use in monitoring systems in which controllers and monitoring software are in different networks By selecting the method HTTP POST the controller will start sending periodically status xml file using HTTP Post to a remote server If the checkbox Connect on any alarm is selected the XML file will be send if alarm condition is present The Key field value is sent in the XML and can be used for device identification If Process Answer option is enabled the TCW240B controller will be able to process the answer of the remote server List of valid commands are described in section XML and HTTP A
30. epion ko x 1 2 2 2 4 2 0 Voltage4max read write Voltage 4 maximum INTEGER 1 2 2 2 4 3 0 Voltage4min Voltage 4 minimum INTEGER x 1 2 2 2 4 4 0 Voltage4hyst Voltage 4 hysteresis INTEGER Page 25 8 15 setup gt io gt digital x 1 2 2 3 1 0 Digitalinput1description read write String description Digital 2 1 2 2 3 2 0 Digitalinput2description read write None String description Digital x 1 2 2 3 3 0 Digitalinput3description read write i String description x 1 2 2 3 4 0 Digitalinput4description read write Pieta ka String description 8 16 setup gt io gt relays relay1setup a x 1 2 2 4 1 2 0 Relay1pulseWidth read write Relay 1 Pulse x100ms INTEGER x 1 2 2 4 1 3 0 Relay1controlledBy read write Relay 1 control logic INTEGER manual 0 sensor11 1 sensor21 2 sensor31 3 sensor41 4 sensor51 5 sensor61 6 sensor71 7 sensor81 8 sensor12 9 sensor22 10 sensor32 11 sensor42 12 sensor52 13 sensor62 14 sensor72 15 sensor82 16 analog1 17 analog2 18 analog3 19 analog4 20 digital1 21 digital2 22 digital3 23 digital4 24 scheduler1 25 scheduler2 26 scheduler3 27 scheduler4 28 8 17 setup gt io gt relays relay2setup RN NM a x 1 2 2 4 2 2 0 Relay2pulseWidth read write Relay 2 Pulse x100ms INTEGER 1 2 2 4 2 3 0 Relay2controlledBy read write
31. gital In 4 Pin9 NO Relay2 Connector 8 Pin1 Analog In 1 Pin10 NC Relay1 Pin2 GND Pin11 COM Relay1 Pin3 Analog In 2 Pin12 NO Relay1 Pin4 Analog In 3 Connector 5 Pin1 1 Wire GND Pin5 GND Pin2 1 Wire Data Pin6 Analog In 4 Pin3 1 Wire VDD 6 2 1 Power supply connection TCW240B is designed to be supplied by adapter SYS1421 0612 W2E or similar intended for use in the conditions of overvoltage category ll and priorly assessed for compliance with safety requirements The power supply equipment shall be resistant to short circuit and overload in secondary circuit When in use do not position the equipment so that it is difficult to disconnect the device from the power supply Page 5 6 2 2 Digital inputs connection Attention Digital inputs are NOT galvanic isolated The TCW240B Digital inputs can be used in two modes dry contact and logic level The mode is determined by the jumper close to the corresponding input Closed jumper determines dry contact mode while open logic level By default digital inputs are in dry contact mode In dry contact mode digital inputs can be used to monitor the state of a discrete device door contact switch push button PIR detector etc Following picture illustrates how a dry contact switch can be connected to the input or inputs of TCW240B One side of the contact is connected to Digital In and the other si
32. h Sch stands for Scheduler The relay is activated from rules specified in appropriate scheduler Question mark masks number from 1 to 4 All changed information in above sections is saved with button Save Page 16 7 2 4 Trigger and alert conditions This section is used for parameterization of trigger and alert conditions for 1 Wire sensors analog and digital inputs 7 2 4 1 1 Wire sensors and analog inputs For every sensor two type of fields are presented one for set of trigger conditions Min Max and Hys and other one for e mail alert If out of range Sensors Description Type Min Hys If out of range 1 Temp 1 Temp C send email do nothing Ra 2 Sensor Temp C 25 0 send email Ka do nothing 3 Sensor3 do nothing I do nothing 4 Sensor4 do nothing Fa do nothing 3 Sensord do nothing 3 do nothing 5 6 Sensor6 do nothing Ka do nothing f Sensor do nothing I do nothing 8 Sensor do nothing ix do nothing Analog inputs Description Dimension Min Max Hys If out of range 1 Analog Ini volts send email 2 Analog In2 volts do nothing I 3 Analog In3 volts send email EA 4 Analog In4 volts do nothing I Min and Max indicate border of working range for observed parameter A Max trigger condition occurs when the value exceeds the trigger set point A Min trigger condition occurs when the value is lower than the trigger set point In
33. iplier gt lt offset gt 0 826 lt offset gt lt alarm gt 0 lt alarm gt lt Al1 gt lt Al2 gt lt description gt Analog In2 lt description gt lt value gt 0 00 lt value gt lt unit gt volts lt unit gt lt multiplier gt 31 740 lt multiplier gt lt offset gt 0 826 lt offset gt lt alarm gt 0 lt alarm gt lt Al2 gt lt Al3 gt lt description gt Analog In3 lt description gt lt value gt 0 00 lt value gt lt unit gt volts lt unit gt lt multiplier gt 1 000 lt multiplier gt Page 30 lt offset gt 0 000 lt offset gt lt alarm gt 0 lt alarm gt 3 lt Al4 gt lt description gt Analog In4 lt description gt lt value gt 0 00 lt value gt lt unit gt volts lt unit gt lt multiplier gt 1 000 lt multiplier gt lt offset gt 0 000 lt offset gt lt alarm gt 0 lt alarm gt lt Al4 gt lt DI gt DI1 description Digital In1 lt description gt lt value gt OPEN lt value gt DI1 DI2 description Digital In2 description lt value gt OPEN lt value gt lt DI2 gt lt DI3 gt lt description gt Digital In3 lt description gt lt value gt OPEN lt value gt lt DI3 gt lt DI4 gt lt description gt Digital In4 lt description gt lt value gt OPEN lt value gt DI4 DI lt R gt lt R1 gt lt description gt Relay1 lt description gt lt value gt OFF lt value gt lt R1 gt lt R2 gt lt description gt Relay2 lt description gt
34. lation and electrical isolation TCW240B can be mounted to a standard 35mm by 7 55mm DIN rail Attach the controller to the DIN rail by hooking the hook on the back of the enclosure to the DIN rail and then snap the bottom hook into place 6 2 Connection Attention Disconnect power supply before wiring The correct wiring procedure is as follows e Make sure power is turned off e Make wiring connections to the terminals e Apply power It is recommended to test and configure TCW240B without any controlled device In this case unexpected turn on will be avoided Make sure that wires are properly attached to the terminals and that the terminals are tighten Not proper wiring and configuration can cause permanent damage of TCW240B or the equipment to which it is connected or both Page 4 NS V TCW240B ethernet controller Connector 1 Ethernet RJ45 Connector 6 Pin1 Not connected most left Connector 2 Power central positive Pin2 Not connected Connector 3 Pin1 Power positive Pin3 1 Wire Data Pin2 Power negative Pin4 1 Wire GND Connector 4 Pin1 NC Relay4 Pin5 1 Wire VDD Pin2 COM Relay4 Pin6 Not connected most right Pin3 NO Relay4 Connector7 Pin1 Digital In 1 Pin4 NC Relay3 Pin2 GND Pin5 COM Relay3 Pin3 Digital In 2 Pin6 NO Relay3 Pin4 Digital In 3 Pin7 NC Relay2 PinS GND Pin8 COM Relay2 Pin6 Di
35. n an interval of 0 to 254 seconds Zero means no automatic refresh This parameter is set in section Setup System Monitoring page automatic refresh By default it is 10 seconds 7 1 1 Sensors section All detected 1 Wire sensors are shown in this section Detection is made either after power on or by button Scan for new sensors All found sensors are shown in ascending order refer their unique ID number For every sensor there are description value and ID information Page 11 Teracom 1 Wire sensors readings are shown in the Value 1 column Dual sensors such as the TSH2xx temperature humidity sensors have the 2nd parameter shown on the Value 2 column It is possible to lock sensors in a specific position To do this all sensors should be added one by one After every addition new scan should be made and newly found sensor should be locked in its position If all sensors are locked removing one in the middle will not change the positions of following sensors after reset This option is very useful when TCW240B is used like a part of monitoring and control system managed either by SNMP or HTTP API commands For some sensors 3 variables Unit Multiplier and Offset can be set in section Setup Input Output Pos Description Value 1 Value 2 ID Lock 1 sensori 20 5 C 000004692060 lw 2 Sensor2 21 4 C 000004B898FD iv 3 Sensors 20 6 C 000004B8D718 lw 4 Sensor4 20 6 C 000004BBFF24 5 Sensorb 20 3 C OO0004
36. olid state relay 220 VAC When mechanical relays switch inductive loads such as motors transformers relays etc the current will arc across the relay contacts each time the contacts open Over time this cause wears on the relay contacts which shorten their life When switching an inductive load it is recommended that relay contact protection devices are used TCW240B R2 0 June 2014 Page 8 6 2 6 Network connection The Ethernet port of TCW240B should be connected to 10 100 Base T Ethernet hub switch or router Ethernet switch TCW240B For configuration TCW240B may be connected directly to the Ethernet port on a computer The device support Auto MDIX and it is not necessary to use crossover cable standard straight through can be also used TCW240B TCW240B can be used in a wireless network by connecting through a wireless router CD TCW240B Wireless router 6 3 Communication setup By default TCW240B is delivered with the following network settings IP address 192 168 1 2 Subnet Mask 255 255 255 0 Default Gateway 192 168 1 1 Communication with TCW240B can be established by assigning a temporary IP address to the computer For computers with Windows OS assigning of IP address is made in Local area connection properties TCW240B_R2 0 June 2014 Page 9 Local Area Connection Properties Ww Networking Connectusing uy Broadcom NetLink TM Gigabit Ethernet This
37. perature 19 5 C Min Hys 19 0 C Min time Relay status time The Max value is set far enough from the wanted temperature to avoid trigger alert conditions around it E mail options when observed value goes out of range are e Do noting e Send email with details set in Setup Networks SMTP setup Only one e mail is sent when the value goes out of range alert condition No more e mails are sent even the value stays continually out of range If SNMP traps are enabled and there is an alert condition traps will be sent Sending depends of parameters Trap interval Max trap number and how long the observer value stay outside the range Temperature 19 5 C Min Hys 19 0 C Min time E mail time SNMP traps Max trap number 2 Trap interval 3 sec time 3 sec 7 2 4 2 Digital inputs For all digital inputs alert condition is consider the transition between states Open to close and Close to open For both of them e mail alert can be sent Digital inputs Description On state change Description On state change 1 Digital In1 email if OPEN to CLOSED Ka 3 Digital In3 email if CLOSED to OPEN Fa 2 Digital In do nothing gt 4 Digital In4 do nothing kr In the example above e mail alerts will be sent if there is transition from Open to Close for Digital input 1 and from Close to Open for Digital input 2 All changed information in above
38. r for any purpose where its failure could cause serious injury or the loss of life To reduce the risk of fire only flexible stranded wire with cross section 0 5mm or larger for wiring of digital and analog inputs and relay output of the device should be used To avoid electric shock and fire hazard do not expose this product to liquids rain or moisture Objects filled with liquids such as vases should not be placed on this device Page 33 There is a risk of overheating damage of controller if recommended free spaces to adjacent devices are not ensured Joint part with external component shall have space for attachment removal of the cable after installation Teracom does not guarantee successful operation of the product if the product was used under conditions deviating from the product specifications To ensure that the device works correctly follow the steps below ensure that the device is installed correctly refer this user manual log in to the devices via browser program make proper set up set up the digital inputs to work in dry contact mode short the Din1 and GND install sensor TSH1XX or TST1XX on 1 Wire bus go to Monitoring page of WEB interface proper parameters value should be displayed in the same time flashing STS led should indicate the proper operation If the equipment is used in a manner not specified by the manufacturer the protection provided by the equipment may be imp
39. sections is saved with button Save Page 19 7 2 5 Schedule TCW240B supports four schedules In every schedule up to four different tasks can be set The schedules are useful for creating tasks that vary with calendar dates It is possible to combine two relays in control of one device one relay follows monitored parameter and other follows schedule In this case more complex control can be arranged Schedule name Machine 1 Enable Repeat Date Mo Tu We Th Fr 5a 5u Type ON OFF Once 01 01 2014 On Off Once k 01 01 2014 Pulse Weekly vr v5 RA CO On Off w 2 We cooccee Puse 5 Schedule name schedule2 Enable Repeat Date Mo Tu We Th Fr 5a 5u Type ON OFF Once 01 01 2000 On Off w Once v 01 01 2000 On Off Once v 01 01 2000 On Off Once 01 01 2000 On Off v Schedule name schedule3 Enable Repeat Date Mo Tu We Th FrSaSu Type Once 01 01 2000 On Off Once v 01 01 2000 On Off Once v 01 01 2000 On Off w Once 01 01 2000 On Off Enable Repeat Date Mo Tu We Th Fr 5a 5u Type ON OFF Once w 01 01 2000 On Off w 00 00 00 00 00 00 Once 01 01 2000 On Off w Once v 01 01 2000 On Off Once v 01 01 2000 On Off SAVE There are four type of schedule depending of repetition and duration e Single task for time period Once v On off v With above setting ther
40. value NTEGER x10 in Integer format S22 hysteresis value x 1 2 2 1 2 7 0 S22HYSTx10Int read write INTEGER x10 in Integer format Page 23 8 5 setup gt io gt Sensors sensor3setup a NTy n x 1 2 2 1 3 1 0 S3description read write read write Sensor 3 description X 1 2 2 1 3 2 0 S31MAXx10Int read write 21 maximum value NTEGER x10 in Integer format x 1 2 2 1 3 3 0 S31MINx10Int r d write 2 AU UI x10 in Integer format x 1 2 2 1 3 4 0 S31HYSTx10Int read write 21 hysteresis value NTEGER x10 in Integer format x 1 2 2 1 3 5 0 S32MAXx10Int read write 922 maximum value NTEGER x10 in Integer format x 1 2 2 1 3 6 0 S32MINx10Int pesas 1 nu u INTEGER x10 in Integer format I S32 hysteresis value x 1 2 2 1 3 7 0 S32HYSTx10Int read write INTEGER x10 in Integer format 8 6 setup gt io gt Sensors gt sensor4setup 28 a s mn nt s WG Sensord decerition X 1 2 2 1 4 2 0 S41MAXx10Int read write 41 maximum value NTEGER x10 in Integer format x 1 2 2 1 4 3 0 S41MINx10Int read write 41 minimum value INTEGER x10 in Integer format S41 hysteresis value X 1 2 2 1 4 4 0 S41HYSTx101Int read write INTEGER x10 in Integer format x 1 2 2 1 4 5 0 S42MAXx10Int adane 55 Un INTEGER x10 in Integer format x 1 2 2 1 4 6 0 S42MINx10Int Minimum value INTEGER x10 in Integer format S42 hysteresis value X 1 2 2 1 4 7 0 S42HY
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