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PLC2011B1_Manual_English_25_07_2015

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1. 36 1 Wire relay DS2408 at R33 0 Extension board based on the DS2408 chip with 8 37 1 W lay DS2408 at R33 1 dual relays This R33 marked board is defined at row 33 of 38 1 Wire relay DS2408 at R33 2 the temperature thermostat settings 39 1 Wire relay DS2408 at R33 3 The logic formula is the same as for open collector outputs 18 to 41 above 40 1 Wire relay DS2408 at R33 4 4 1 Wire relay DS2408 at R33 5 42 1 Wire relay DS2408 at R33 6 43 1 Wire relay DS2408 at R33 7 44 1 Wire relay DS2408 at R34 0 Extension board based on the DS2408 chip with 8 45 1 W lay DS2408 at R34 1 i relays This R33 marked board is defined at row 34 of 46 1 Wire relay DS2408 at R34 2 the temperature thermostat settings 47 1 Wire relay DS2408 at R34 3 The logic formula is the same as for open collector outputs 18 to 41 above 48 1 Wire relay DS2408 at R34 4 49 1 Wire relay DS2408 at R34 5 50 1 Wire relay DS2408 at R34 6 51 1 Wire relay DS2408 at R34 7 22 1 Wire relay DS2408 at R35 0 Extension board based on the DS2408 chip with 8 53 1 W lay DS2408 at R35 1 t ea h relays This R33 marked board is defined at row 35 of 54 1 Wire relay DS2408 at R35 2 the temperature thermostat settings 55 1 Wire relay DS2408 at R35 3 The logic formula is the same as for open collector outputs 18 to 41 above 56 1 Wire relay DS2408 at
2. ALA4 ALAS ALA6 A1 A2 A3 A4 A5 L A6 333555345678 ato OO 90 O o Timer OCI OC2 0C3 OC4 0 12VL 0 12VR BUS 5V Configuration MODBUS Password THERMOREGULATORS basic concepts Basic concepts negative hysteresis value heating mode e positive hysteresis value cooling mode Example JJ Simple thermostat 26 5000 0 1875 107FC74A01080012 22 0000 1 0000 18 0000 ALARM only 26 6875 0 1875 28F8232C030000FD 0 0000 100 0000 TEMP 3 TEMP 4 Differential channel for heating only 26 5000 107FC74401080012 TEMP 6 26 6875 28F8232C030000FD TEMP 7 TEMP 8 TEMP 9 TEMP 10 Differential channel for heating 26 5000 107FC74401080012 0 5000 1 5000 Not used 26 6875 28F8232C030000FD TEMP 13 TEMP 14 Alarms only 26 5000 107FC74401080012 Alarms differential cooling night 26 6875 28F8232C030000FD 3 0000 1 0000 2 0000 TEMP 17 TEMP 18 And these are thermoregulators connected to outputs OCO1 0CO4 Each kind of thermoregulator has it s corresponding set of variables Each line in the thermometer window corresponds to one numbered variable INPl INP12 ALAL OWRi OWR OC Ti T13 Configi Config2 TMP Legendi Legend2 Android Logic functions Time to Pulse RESET 1 FUNCTION OFF time 0 LEN B L L L L L L DEFAULTS and do not
3. Time to DEFAULTS and do not save Every variable output thermostat timer or memory cell can be used in the equations The equation of one output can be a variable for another output The maximum amount of variables in an equation line in PLC2011B1 is 6 the number of parenthesis is unlimited In the Legendl tab there is a list of variable available in equations INP1 INP12 ALA1 OWRI1 OWR OC Ei Legend CPL 1s 1s complement ALLO Global alarm too low ALHI Global alarm too high AL1 AL32 Alarm temp too low or too high OCO1 OCO4 Open collector output 12VL 12VR 12 Volt outputs OWR1 OWR16 1 Wire output DS2408 OWR1 OWR16 1 Wire input DS2408 if set as input IN1 IN21 Inputs when set as Alarm or Analog ALA1 ALA6 Alarm zone ARMED state ANA1 ANA4 Analog zone ARMED state ALM1 ALM6 Alarm from the Alarm Zone ANM1 ANM4 Analog Alarm from Analog Zone TH TI20 Timer inputs T1 T20 Timer outputs TMP1 TMP16 Simple thermostats TDH1 TDH15 Differential thermostats HEAT 1 3 5 7 TDC2 TDC16 Differential thermostats COOL 2 4 6 8 CTC1 CTC4 Clear Timer on Compare match event M1 M32 Shared memory variables DEFAULTS and do not save Config 1 Config 2 TMP Legend 1 Legend 2 Android VBAT
4. e ooo oct UD UD i o oo Go G l wu un PIN 147 ANA1 ANA2 ANA3 ANA4 JDP PORT i U Ti T2 T3 T4 T5 D T7 T8 T9 T10 Ti1 T12 T14 T15 T16 T17 T18 T19 T20 L j L A1 A2 A3 A4 A5 A6 ALA4 ALAS ALA6 Configuration MODBUS 12345 67 8 S46 1011 12 13 14 15 16 meen 979 9999 OC1 OC2 OC3 OC4 0 12VL 0 12VR 0 BUS 5V Password To reset the device you need to press the round button next to the display 147 code first The cursor will change to a hand when you put it over the button The button changes to red when pressed A reset of the device will put all variables into the same status that occurs in the moment you connect the power supply time counters will be deleted an all not set statuses will be deleted after which the device proceeds to normal operation This 1s a reset of the software This 1s how the main window looks after a reset a 7 B1 DESK USB CONSOLE SETTINGS DEVICE B1 mm El 0000000000000000 EJ 27138 ooo a p 4 o 0 904 UE i Assis quen D A A Tr 2900 09990 HA B DESK 209000 gt fg A1 DESK gt EJ Bi test ALA TMP TDH TOC 91 O2 O3 O4 O5 O 92s 91s 0 5s gt EJ A1 TEST es o fL gt EJ C1 TEST MD ue US IP ADDR 10 0 5 8 ime i oO ANA1 ANA2 ANA3 ANA4 UPP PORT 27138
5. Ti T2 T3 T4 T5 T8 T9 T10 t T15 T20 L ALA4 ALA5 ALAG Configuration MODBUS 33 12345678 9 10 11 12 13 14 15 16 Astro 2000 0 oO Timer OC1 OC2 OC3 OC4 0 12VL 0 12VR BUS 5V Password Operation in tray task bar next to the clock Double clicking the display will cause the program to collapse to an icon on the toolbar next to the clock 00 26 2015 07 26 P ow E P m 24 FIRMWARE UPDATE To update the firmware you will need the PIN code The code is placed on a sticker on the cover of the CD with the device s drivers 24 7 How to turn on the firmware update mode 1 Turn on the power supply 2 Connect the device to your computer using an USB cable the USB socket is on the left side of the device s front panel 3 Wait 10 second 4 Press and hold the RESET button on the device s front panel N RESET button UY dD O You need to hold the RESET button for ca 10 seconds The LEDs will switch on in the following all three LEDs switch on red LED stays on UPDATE mode yellow LED switches on let go of the RESET button When the yellow LED turns on you need to let go of the RESET button When the green light switches and stays on that means the device is now in the firmware update mode 24 2 Firmware update When the device is in the firmware update mode you need to 1 Open the softwar
6. o oo Go n GE i if yf Jf if if dE LED LED LIE LED GE fae i if up o oO bt JE Ji yf Jf i ia E E E if Ji E Ji if Jf E if Ji if if Ji omi O O O o 2s 1s 0 5s Reset ANAL ANA2 ANA3 ANAG Ti 7213 T 73 Te T8 T9 T10 T13 T15 T20 ALA4 ALA5 ALA6 Oai A2 a3 LJA4 LIAS A6 Configuration MODBUS 12345678 34 9 10 11 12 13 14 15 16 m OO OO OO OO OO OC Timer OC1 OC2 OC3 OC4 BUS 45V This 1s how the software looks any time you run it At the bottom in the Password field you need to enter the 15 letter or longer password that you have set during the First Run procedure and the press Accept USB CONSOLE SETTINGS DEVICE B1 10 0 5 51 PE 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 ooo oo ooo fy ju 4321 OOOO up1 u 2 K LED 3 OFFLINE X gt Gq VOOOOO ub4 83 t uu u uU ui w Va uD uUD uD uu up uD 1 083 Ges i Q4 O5 O86 52s i1s 0 5s Reset Ti T2 T3 T4 TS T6 T7 T8 T9 T10 i z T12 T14 T15 L eje e eee an i in T19 T20 EPIS 8 CS rs b k i i k Configuration MODBUS 33 A m CN GIP m
7. Microsoft Windows AP Version 5 1 2686 6G Copyright 19785 2681 Microsoft Corp C Documents and Settings zzzecd AS Co ping 10 0 5 108 Pinging 160 0 5 1 with 32 bytes of data Reply from 16 8 5 186 bytes 32 time ilms TTL 64 Reply from 186 8 5 18 bytes 32 timetims TTL 64 Reply from 168 86 5 16 bytes 32 timetims TTL 64 Reply from 1H H 5 1H hutez 32 timetims TTL 64 Ping statistics for 18H H 5 1H Packets Sent 4 Received 4 Lost B Bz loss Approximate round trip times in milli seconds Minimum Hms Maximum ims Average Ams Next enter c V arp a a el Pinging 18 8 5 18 with 32 bytes of data Reply from 18 8 5 186 bytes 32 time lms TTL 64 Reply from 186 6 5 186 bytes 32 timetims TIL 64 Reply From 10 0 5 160 bytes 32 timetims TTL 64 Reply from 168 68 5 16 hbytes 32 timetims TTL 64 Ping statistics for 16 80 5 18 Packets Sent 4 Heceived 4 Lost A Cx loss gt Approximate round trip times in milli seconds Minimum ms Maximum ims Average Ams p a Interface 18 H 5 237 Hx2 Internet Address Physical Address Type 18 H 5 1H HH 11 12 13 14 18 dynamic 1H H 5 1H1 HA 3Sa c2 Y2 Ye Fh dynamic 1H H 5 173 f4 ec 38 f65 c2 7e dynamic MERE d8 5d 4c 8H 2f 5d dynamic 1H HH 5 175 id 8H 77 e1 e65 de dynamic gt A table with IP and MAC addresses will be displayed Write down the MAC address belonging to the IP address in question
8. T11 T12 T13 T14 T15 1 LJ T19 T20 ALA4 ALAS ALA6 Configuration MODBUS oci ow e hd The light indicating that thermometers are connected BUS is off When you connect thermometers this light will change to pink and information about the thermometers will be shown in window 5 of the display gt E9B1 DESK USB CONSOLE SETTINGS DEVICE 81 gt fg C1 DESK gt EJ A1 DESK 0090000000002022 F3 B1 test C Q ITI C8 100551 00000000000000020 E3 10051 2d E3 TYPE B1 a a a a a a a aaa aa aaa 1a 20200000000000020200202080 22000000022222002002 Q2s 1s O0 5s EA A1 TEST cum uo nme eC E m FA C1 TEST eA d d ANA1 ANA2 ANA3 ANA4 e T 2 re E T7 T8 T9 T10 T13 T14 T15 T19 T20 Timer OCi OC2 OC3 OC4 0 12VL 0 12VR Password You can enter the thermometer configuration window by double clicking the BUS light the mouse cursor will change to a hand when you put it on the light see the pictures below gt EJ B1 DESK USB CONSOLE SETTINGS DEVICE B1 A C1 DESK PE 21 20 19 18 17 16 15 14 13 12 11 10 9 gt g A1 DESK aa 4 2 125 test 2 2 r be fj 10 0 5 51 2 Q0 Q0 TI 4 E DOA 6 NH N 5 6 J gt d amp u
9. 15 5 Automatic rearming of alarm zones after reset or power return In the third tab there is a function which allows automatic rearming of chosen alarm zones after a reset of the device or a power supply return Normally in those cases alarm zones will be inactive until you switch them on yourself or they are activated by some function For the function to be active you need to mark the zones you want it to use it for and save the changes After the next reset or power return the chosen zones will rearm themselves automatically Sometimes there is a need of resetting the device and this function 1s designed to save the user s time by eliminating the need to restore the previous settings manually X OWRL OWR OC Ti 113 Confgi Config2 TMP Legend Legend2 Android 4 16 ANALOG INPUT CONFIGURATION You can configure any input to be a measuring input You can measure resistance between this input and ground On the basis of the measurement you can react to a given value being exceeded by setting the measurement mode trigger level and hysteresis sensitivity For example you can configure a simple regulator with hysteresis or a sensor co working with the environment on the basis of the measured resistance You can pick from two operation modes for an analog input INP1 INP12 ALAL OWR1 OWR OC Ti T13 Configi Config2 TMP Legendi Legend2 Android Alarm and analog Inputs 1 to
10. 00000000006 8 7 6 ALA TMP TDH TDC e O O O O O2s 1s 0 5s Bi test IP ADDR 10 0 5 51 UDP PORT 10051 FIRMWARE VERSION B10363 TIME UPDATE ARM 0 Ti T2 T3 T4 T5 T6 T7 T8 T9 T10 TIME UPDATE COUNT 4 Rx RS232 TEST 0x00 T11 T12 T13 T14 T15 NNNM C RESET ALA4 X ALAS ALAG ai a2 A3 A4 JAS 1A6 ANA1 ANA2 ANA3 ANA4 T16 T17 T18 T19 Tam Configuration MODBUS Ju 2 34 A 2 24 9 4 73 9 10 11 12 13 14 15 16 OC1 OC2 OC3 OC4 0 12VL 0 12VR 0 0 BUS 5V Password The ability to arm the alarm when windows are opened or half opened can be useful when you want to leave the windows open during the night or when there was a sensor malfunction that you cannot fix immediately 15 3 Disarming an alarm zone To disarm an armed alarm zone the alarm zone button is green you simply need to enter the 147 PIN code and click the alarm zone button The button will change color to gray and the zone will be deactivated the alarm will be disarmed 15 4 Rearming alarm zones after time You can set up the device to automatically rearm a zone after a certain amount of time has passed after an alarm occurred Go to the Config 1 tab Choose one of the Rearm ALARM from the options Next from the list pick one of the variables which has a counter and can be used to rearm an alarm zone where an alarm occurred Here we picked OCO1 open collector output 1 OUS uem c DEFAULTS and do not
11. 23 5 DEVICE B1 tab a B il Device USB CONSOLE SETTINGS DEVICE B1 E qd dq eee ee d 7 6 5 4 3 2 1 ED1 LED2 LED3 D4 ALA TMP TDH TICC 91 O2 O3 O4 O5 O O2s 1s 0 5s Reset C JU ADDR 10 0 5 51 PIN 147 ANA1 ANA2 ANA3 ANA4 P PORT 10051 U Ti T2 T3 T4 T5 QW eee QD ono Ri RS232 TEST 0x00 LH Ls ALAI T3 T14 T15 E SSE Q Bum Ai A2 A3 A4 JAS A6 m i ALA4 ALA6 33 7 EFZ ZUEF 34 7 FIOO DF 1i 2345678 10 11 12 13 14 15 16 eo e co o o0 oo 0 oci OC2 OC3 OC4 0 12VL 0 12VR 0 BUS 5V Password This window is used for controlling the alarm configuring inputs and outputs variables the Astro Timer Here you can see the current status of the sensors connected to inputs alarm zones and 1 Wire bus for the Alarm that you had chosen from the list and connected to Manually arming and disarming the alarm is possible after you enter the 147 PIN code in the field on the right of the window After you enter the code the display in the middle of the window will change color to pink When you are finished making changes we advise you to switch back to safe mode so that you do not press and change anything by accident To do this press the Reset button next to the field where you entered the code The display will go gray again and you will be able to make changes only after you enter the code again 4 553 New Device USB CONSOLE SET
12. M1 M32 DEFAULTS and do not save READ from the device SAVE to the device the commands will automatically be sorted and separated by comas Data export to the shared memory region Write variable name separated by spaces or commas Ex TMP1 TDH5 TDC2 OCO2 OWR3 TMP1 TMP2 TMP3 the number of commands will be counted automatically 3 t Count 1 32 the commands will be entered in the designated cells MI M32 you must remember to switch on command transmitting and if needed also command reception Enable shared memory input Enable shared memory output In the next device you need to set the Start Address Offset to 4 because the first three addresses are already taken and the command table will be filled from this device starting with cell no 4 x TMP Legend 1 Legend 2 Android DEFAULTS and do not sve You act in a similar fashion in other devices How to use shared memory data If you have a command table ready you can start to use shared memory data in equations How to enter this data in equations In the device receiving the commands you must enter it as a value from the command table from M1 to M32 The number depends on the cell the command was assigned to in the transmitting device The MI field starts the first column of the first row The following fields are numbered in an ascending way from left to right The second row starts with cell M9 the third with M17 and the
13. UTC 0 00 United Kingdom Ireland Portugal UTC 1 00 Germany the local time in Germany differs by 1h from the universal time meaning that when it is 12 00 AM in a country which uses UTC 0 00 like the United Kingdom in Germany the time is shifted forward by an hour to 13 00 or 1 00 PM Poland Austria Belgium France Denmark Spain The Netherlands Norway Switzerland Italy UTC 42 00 Finland Greece Turkey UTC 73 00 European Russia UTC 8 00 China the whole country uses the same local time despite its large area UTC 79 00 Japan North and South Korea The United States are scattered across several time zones UTC 8 00 West Coast states such as California Los Angeles San Francisco or Washington Seattle UTC 5 00 East Coast with cities such as New York or Washington D C An example of how the Astro Timer can be used The Astro timer can be used in street lighting systems shop window lighting systems billboard lighting systems etc The way it works is similar to light sensors it s task is to switch on or off the lighting on a street or square depending on the time of day It can turn on the lights when the sun is setting and turn them off when the sun is rising and lighting is no longer required The main difference between the Astro timer and devices based on light sensors is that the Astro timer can work whether or not it is getting information about the current state of illuminance outdoors
14. TMP16 The number of the line form the thermometer window corresponds to the number of the TMP variable An example of picking both too low lt 0 C and too high gt 100 C alarm temperatures AL1 AL16 variables are connected to temperatures exceeding the upper value and to temperatures falling below the lower value In the example below position 2 Alarm only the lower value 0 0000 and the higher 100 0000 Simple thermostat 26 5000 s 1875 107FC74401080012 22 0000 1 0000 18 0000 ALARM only 26 6875 0 1875 28F8232C030000FD 0 0000 100 0000 TEMP 3 TEMP 4 Differential channel for heating only er ee e 107FC74401080012 TEMP 6 26 6875 28F8232C030000FD TEMP 7 TEMP 8 TEMP 9 TEMP 10 Differential channel for heating 26 5000 s 107FC74401080012 0 5000 1 5000 Not used 26 6875 28F8232C030000FD TEMP 13 TEMP 14 Alarms only 26 5000 a 107FC74401080012 Alarms differential cooling night 26 6875 28F8232C030000FD 1 0000 2 0000 TEMP 17 TEMP 18 For the temperatures to be dependable on the time of day clock Astro Timer or any other condition you need to enter the value of the lower temperature in the last column of the 1 Wire settings In this example the temperature entered was T AT Night 18 C in line 1 B rl LOIN CRILAL Simple thermostat 26 5000 0 1875 107FC74401080012 22 0000 1 0000 18 0000 ALARM only 26 6875 0 1875 28F8232C030000FD 0 0000 100 0000 TEMP 3 TEMP 4 Differential channel for heating only 26 5000 107FC7440108
15. 4 C 4 C The relay will switch on when the T1 T2 difference reaches 8 C and will switch off when the T1 T2 difference falls down to 4 C Row 2 T AT 8 0000 C Hys 4 0000 C Temperature difference T2 T1 negative hysteresis value positive the equation is 8 C 4 C 4 C The relay will switch on then the T2 TI difference reaches 8 C and will switch off when the T2 T1 differens reaches 4 C Please remember that the values described are temperature differenes not negative temperature values and it makes no difference if measured values are positive or negative Temperature differences are shown in the A TEMP fields T1 T2 in the upper one and T2 T1 in the lower one You can limit the differential thermoregulators operation in a way that will make them inactive when the absolute temperature value from one of the sensors will be out of it s given range See rows 5 and 6 in the picture below when you enter e g 45 C in the Al Lo field of row 5 then the differential thermoregulator for heating will start working when the temperature falls below 45 C when you enter e g 85 C in the Al Hi field of row 5 then the differential thermoregulator for heating will stop working when the temperature exceeds 85 C when you enter e g 10 C in the Al Lo field of row 6 then the differential thermoregulator for cooling will stop working when the temperature falls below 10 C when you enter e g 20 C in the Al Hi field of
16. N iai ge poem NO Examples of use As an alarm system 21 resistance recognizing inputs parametrized parametric The ability to connect to up to 84 sensors such as reed switches in doors and windows motion sensors flooding sensors photoresistors or fire detection sensors Every sensor 1s recognized individually and has a name assigned by the user The ability to program up to 6 alarm zones and 4 analog alarm zones View of the sensor and alarm zone status via the internet using a PC or a mobile device cell phone tablet with the Android operating system up to 30 phones or tablets at the same time Circuit control Gates engines lighting 4 open collector outputs 2 12V charging outputs The option to expand the amount of inputs outputs by 8 or 16 using a 1 Wire module View of the output and relay statuses via the Internet using a PC or a mobile device cell phone tablet with the Android operating system Up to 30 phones or tablets at the same time Temperature measurement and regulation 1 Wire bus with the ability to connect 32 Dallas digital thermometers View of the thermometer statuses via the Internet using a PC or a mobile device cell phone tablet with the Android operating system Up to 30 phones or tablets at the same time 16 built in temperature regulators with cooling and heating functions cooperating with the Dallas thermometers 8 built in differential temperature regulators programmin
17. To activate an analog zone you must click one of the ANA ANA4 lights in the main window of the software First you need to enter the 147 PIN code The light will change to blue this indicates the analog zone is active gt 9 B1 DESK gt 9 C1 DESK gt EJ A1 DESK 4 ue B1 test 10 0 5 51 10051 TYPE B1 AUTO P F3 Ai TEST gt 9 C1 TEST USB CONSOLE SETTINGS ANA1 ANA2 ANA3 ANA4 DEVICE B1 O 0000000006 8 A 4 HE B1 test IP ADDR 10 0 5 51 UDP PORT 10051 FIRMWARE VERSION TIME UPDATE ARM TIME UPDATE COUNT Rx RS232 TEST ALA4 ALAS Configuration Password OC1 OC2 ALAG aA1 A2 A3 A4 AS A6 S 33 123 4 5 s 7 8 OC3 OC4 0 12VL 0 12VR 0 92s 1s 0 5s Y Reset PIN 147 UJ Ti T2 T3 T4 T5 C D T6 T7 T8 T9 T10 T11 T12 T13 T14 T15 T16 T17 T18 T19 T20 O RESET 34 9 10 11 12 13 14 15 16 BUS 5V The rules for programming inputs set to analog mode are explained in the Legend 2 tab INP1 INP12 ALA1 OWRI1 OWR OC Ti ANALOG ZONE 1 HIGH gt LOW Hysteresis return level 6kQ Analog end level 3kQ DEFAULTS and do not save Click TEST button to see the presentation ANALOG ZONE 1 LOW gt HIGH E33 Config 1 Config 2 TMP Analog end level 6kQ Hysteresis return level 3kQ READ from the device Legend 1 Legend 2 Android ALARM ZONE 1 Alarm disarmed LED 1 0 5kQ LED 2 1 0kQ LED
18. 128 DS18B S 20 HIGH byte 31 129 DS18B S 20 LOW byte 31 130 DS18B S 20 HIGH byte 32 131 DS18B S 20 LOW byte 32 20 OUTPUTS AND TIMERS The device has 4 open collector type outputs OC1 OC4 2 12V positive power outputs and optionally outputs connected with a 1 Wire bus DS2408 module To enter the output configuration window you need to double click on one of the OC1 OC4 lights the 12VL light or the 12VR light round icons on the bottom of the main window or 1 Wire outputs in the place where the mouse cursor changes to a hand 3 B1 DESK USB CONSOLE SETTINGS DEVICE B1 F3 A1 DESK 2020202020223 E T LEDI T3 B1 test 000000000000 oq D G T d D As E 10 0 5 51 A Qo 0 Q0 Q Q OQ OQ OQ Q lt Q G 2 2 2 2 2 2 ONLINE E amp amp D K 6 4 amp amp amp D Q Q D G D G D 6 D G D G D G D G D 6 D G LED 4 gt 3 C1 DESK PE 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 1 hn x TYPE B1 l X AUTO 1 O2 O3 C D 92s 91s 0 5s gt 8 A1 TEST PP eee Reset gt A Ci TEST U UY UY U Al 5 51 PIN 147 P Ti T2 T3 T4 T5 T6 T7 T8 T9 ALA4 ALAS ALA6 Configuration MODBUS Ti T13 Configi Config2 TMP Legendi Legend2 Android
19. 45 678 34i io 11 12 13 14 15 16 Astro OO QO OO Timer OC1 OC2 0C3 OC4 0 12VL When you double click the field where you enter the password a virtual keyboard which you can use to enter the password will pop out You need to enter the password every time you run the software Without entering the password it is impossible to connect to the device through the internet After you enter the correct password for the chosen relay the triangle indicator will turn yellow This means that connection has been achieved a B New Device EA 10 0 5 51 EJ 10051 FA TYPE B1 EJ AUTO USB CONSOLE SETTINGS DEVICE B1 PE 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 ALA TMP TDH TDC e e ANA1 ANA2 ANA3 ANA4 ALAS Configuration MODBUS 92s 1s 0 5s IP ADDR 10 0 5 51 UDP PORT 10051 FIRMWARE VERSION B10363 TIME UPDATE ARM 4 T6 T7 T8 T9 T10 TIME UPDATE COUNT 8 Rx RS232 TEST 0x00 Tii T12 T13 T14 T15 T16 T17 T18 T19 T20 PIN 147 Ti T2 T3 T4 T5 NE NN New Device OQ Reset i ie ie fee i 123452678 OC1 OC2 OC3 OC4 0 12VL 0 12VR 0 23 3 USB Console tab This tab is for configuring the device and setting up the password updating firmware synchronizing time All these procedures require the device to be connected to the computer with an USB cable E3 New Device EA 10 0 5 51 USB CONSOLE SETTINGS DEVICE B1 Windows Version 6 2 build 92
20. Battery discharged 10 8V gt 12 8V 2Vhys WDG No response from NTP after 3 attempts AC Astro Corrected AT Astro Timer R Red G Green B Blue ACU Astro Corrected event up AC ATU Astro Timer event up AT RU Red event up R GU Green event up G BU Blue event up B ACD Astro Corrected event down AC ATD Astro Timer event down ATs RD Red event down Rs GD Green event down G BD Blue event down B READ from the device SAVE to the device In the Android tab there 1s a list of commands for PLC2011B1 for mobile devices with Android INPl INP12 OWRi OWR OC mis Android Open collector output toggle Open collector output set Open collector output clear 1 Wire relay output toggle 1 Wire relay output set 1 Wire relay output clear Timer input toggle Timer input set Timer input clear Alarm zone button toggle Alarm zone button set Alarm zone button clear Analog zone button toggle Analog zone button set Analog zone button clear DEFAULTS and do not save Config 1 Config 2 TMP Legendi Legend 2 Android 12VL toggle 12VL set 12VL clear OUT6 12VR toggle OUS6 12VR set OUC6 12VR clear NOP Do nothing RESET reset PLC Fixture buttons Ch 666 Normal commands OCS1 OCS2 OWRS READ from the device SAVE to the device 20 1 TIMERS TI timer input and T timer variables are fields of general purpose
21. Summertime begins March Summertime ends October 6 Auto Summer time 6 000 degrees Civil twilight Battery charging parameters ADC voltage correction for proper measurement ADC value when we treat battery as connected Geographic location of the device Geographic Latitude p Geographic Longtitude A Timezone GMT w Last Sunday w Last Sunday Summer time honored for Sun calculations Summer is during European Winter for example PLC is installed in Australia DEFAULTS This information must be entered during the device s primary configuration or in our device s at any time via the computer network Based on these information the Astro timer switches on and off appliances connected to the device accordingly to astronomical sunrise and sunset What is universal time Universal time UT UTC GMT the mean solar time on the Prime Meridian at Greenwich Royal Observatory It is the prime time zone The time in other time zones is measured in reference to this time zone Time zone a region on Earth more or less bounded by lines of longitude that has a uniform legally mandated standard time usually referred to as local time The main 24 time zones on Earth compute their local time as an offset from UTC Local time in each time zone is UTC plus current time zone offset for the location in question The Earth is split into 24 time zones Examples of time zones and countries within them
22. 00 00 Stop time 00 00 00 00 00 00 0 00 ft l UM Pott E I a a as a x 58 dm un 10 lii 13 14 15 16 117 19 20 70 N 1 a 0 N N EN 1 0 gt 1 a 1 gt 0 DEFAULTS READ SAWE How to use the Astro timer with PLC2011B1 Variables coming from the Astro Timer can be used anywhere you have the option of entering an equation a list of these variables is in the Legend 1 tab INP1 INP12 ALA1 OWR1 OWR OC Els i Config 1 Config 2 TMP Legend 1 Legend2 Android Legend CPL 1s 1s complement VBAT Battery discharged 10 8V gt 12 8V 2Vhys ALLO Global alarm too low WDG No response from NTP after 3 attempts ALHI Global alarm too high AC Astro Corrected AL1 AL32 Alarm temp too low or too high AT Astro Timer OCO1 OCO4 Open collector output R Red 12VL 12VR 12 Volt outputs G Green OWR1 OWR16 1 Wire output DS2408 B Blue OWR1 OWR16 1 Wire input DS2408 if set as input ACU Astro Corrected event up AC IN1 IN21 Inputs when set as Alarm or Analog ATU Astro Timer event up AT ALA1 ALA6 Alarm zone ARMED state RU Red event up R ANA1 ANA4 Analog zone ARMED state GU Green event up G ALM1 ALM6 Alarm from the Alarm Zone BU Blue event up B ANM1 ANM4 Analog Alarm from Analog Zone ACD Astro Corrected event down AC TH TRO Timer inputs ATD Astro Timer event down ATs T1 T20 Timer outputs RD Red e
23. 11 Compensate line An hysteresis or Analog trigger Alarm or analog zone binding Required Input calibration resistance kQ al sensitivity kO level kQ for resistance measurement 0 10 kQ on ARM to 7 5 kQ 375 f ANALOG ZONE 1 HIGH gt LOW v ANALOG ZONE 1 LOW gt HIGH v ALARM ZONE 1 L DEFAULTS and do not save SAVE to the device Decreasing resistance High to Low The lower value e g 3k 2 will be the trigger level and the higher value e g 8kQ will be the hysteresis level Increasing resistance Low to High The higher value e g 8kQ will be the trigger level and the lower value e g 3k 2 will be the hysteresis level To an input set as analog you can connect a photoresistor or simply put a wire in a place that could be flooded and wait for resistance to change from infinite shown as 99 99 to a level that 1s measurable by the input It is advised to install any high value resistor eg 22kO 33kQ or 47kQ between the flooding sensor input and the ground so the line does not stay open You can use the analog mode in any other situation if only you can measure the resistance The result of crossing the trigger level and hysteresis is directed to a variable corresponding to the input IN1 IN21 on the condition that the analog zone is active
24. 4 d fi 10 0 5 51 02000000 000 oQ 2 E 10051 A 000000000000 EI TYPE B1 20000000000 AUTO ALA TMP TDH TDC C e C C O O 2s is 0 5s gt D A1 TEST x 2 m gt EJ C1 TEST o9 5 PIN 147 ANA1 ANA2 ANA3 ANA4 Ti ard zh ud T5 S ALA4 ALAS ALA6 TALLE LED 1 k amp a g LED 2 l Jo 4 3 2 1 E a E O a LED 3 6 D 6 ov LED 4 e D 91 I Ju 8 0 9 0 10 0 11 0 12 0 13 0 14 0 Configuration MODBUS OC1 OC2 OC3 OC4 0 12VL 0 12VR Password This window will pop out L Clean all baloon hints removes all Here you can enter a text you want to be displayed when you put the mouse cursor over the element For example you can enter OFFICE WINDOWS 1 _ L Glean all baloon hints removes all Press OK so the name is saved Now when you put your mouse cursor over the ALARM 1 button a balloon with the name that you have just given to this button will be displayed In this case this name is OFFICE WINDOWS 1 When you arm and disarm the alarm you will not have to remind yourself every time what does this zone cover because it s description will be displayed gt 9 B1 DESK gt 9 C1 DESK gt 9 A1 DESK 4 B Bi test J 10 0 5 51 E3 10051 EJ TYPE B1 _ J AUTO gt 9 A1 TEST gt 9 C1 TEST USB CONSOLE SETTINGS DEVICE B1 A A BE ALA TMP TDH TDC e ANA1 ANA2
25. 8 28 9 1011 1213 14 15 16 OC1 OC2 OC3 OC4 0 12VL 0 12VR 0 0 BUS 5V Zatwierd Of course the IP address and port number here are just examples Next you should enter the password that you had assigned to the device in the configuration using an USB cable and approve it using the Accept button or by pressing Enter on your keyboard A virtual keyboard which you can also use to enter the password will appear if you double click the field where you enter the password 4 B New Device KONSOLA USB USTAWIENIA URZADZENIE B1 EA 10 0 5 100 EA 27136 LED 1 E TYPE B1 OS ON N ON CY CY CY C S ESO PO OS CS CS CS CS LD AUTO LED 3 LED 4 PE 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 92s 1s 0 5s Reset U Ti T2 T3 T4 uu C D T6 T7 T8 T9 T10 Tii T12 T13 T14 us T16 T17 T18 T19 T20 RESET ee mee 33 2345678 34 9 10 11 12 13 14 15 16 OC1 OC2 OC3 OC4 0 12VL 0 12VR BUS 5V Zatwierdz If the data in the left column are correct and so is the password you should now achieve connection with the device You need to enter the password each time you run the software You will not be able to connect to your device if you don t After you enter the correct password for the chosen device the triangular ONLINE light will turn yellow which means connection was achieved gt EJ B1 DESK USB CONSOLE SETTINGS DEVICE B1 Aci DESK PE 21 20 19 18 17 e 15 14 1312111
26. A6 33355345678 34i io 11 12 13 14 15 16 ato OO 00 O O e e A 9 Timer OCi OC2 OC3 OC4 0 12VL 0 12VR BUS 5V Configuration MODBUS Password After an event in zone 1 had occurred the alarm was activated the ALA1 light changed to red The OCOI input was also activated the condition for it s activation an alarm in zone 1 was fulfilled gt Eg B1 DESK USB CONSOLE SETTINGS DEVICE B1 gt 4 C1 DESK E 21 20 19 18 17 16 15 14 13 12 11 10 9 gt fg A1 DESK 2 a a a aaa aaa a E3 B1_ test 220 44 44 94 4 J 10 0 5 51 2 2 on a a 2 2 2 p o AB 10051 A 00000000000 EJ TYPE B1 sot LLL Coco eee ree Co oS FD A W N amp o amp o O O rv ALA TMP TDH TOC 1 O2 O3 O4 Os O 2s 1s O0 5s E3 A1 TEST PO gt A8 C1 TEST KI KS O H IP ADDR 10 0 PIN 147 ANAL ANA2 ANA3 ANA4 e M Ti T2 T3 T4 T5 m T13 T JA1 A2 A3 A4 LJAS A6 9 10 11 12 13 14 15 16 12 343535367 8 Configuration MODBUS OC1 OC2 OC3 OC4 0 12VL 0 12VR BUS 5V Password After 15 seconds as we set earlier the OCO1 output will be deactivated and zone 1 will be armed again because the OCOI variable was chosen for the condition to rearm gt EJ B1 DESK USB CONSOLE SETTINGS DEVICE B1 gt EI C1 DESK E 21 20 19 18 17 16 15 14 13 12 11 F A1
27. ANA3 ANA4 OFFICE 1 15 0 00 16 0 00 17 0 00 18 0 00 19 0 00 20 99 99 21 99 99 8 0 9 0 o 0 i 0 2 0 3 0 4 0 ALAA X ALAS s ALAS Configuration MODBUS 12 345678 OC1 OC2 OC3 OC4 0 12VL 0 12VR Password oBHOoOoOoQoQQQ0000G B 7 6 5 4 3 2 1 WEEE E ERE LED1 D2 D3 D4 O2s 1s 0 5s PIN 147 Ti T2 T3 T4 T5 ee ae NI 34 9 10 11 12 13 14 15 1 BUS 5V The balloon disappears after a couple of seconds or after you choose another element If you do not give any description to an element the default description with the input number and LED number will be displayed in the balloon EJ B1 DESK gt EA C1 DESK Fd A1 DESK a 5 B1 test EA 10 0 5 51 E3 10051 EJ TYPE B1 J AUTO FK A1 TEST gt EJ C1 TEST USB CONSOLE SETTINGS DEVICE B1 A at He ALA TMP TDH TDC 220 ANA1 p1 ALARM ZONE 2 e ll io 15 0 00 16 0 00 17 0 00 18 0 00 19 0 00 20 99 99 21 99 99 TERT PP Configuration MODBUS 1234 5678 OC1 OC2 OC3 OC4 0 12VL 0 12VR Password The assigned name can have any number of characters VEE EE EEE O0e000000006 8 oe ee 92s is 0 5s CN JU PIN 147 T1 T2 T3 T4 T5 NEN NND NND NI RESET 34 4 9 10 11 12 13 14 15 16 BUS 5V Clean all baloon hints removes all If you check the Clean all balloon hints box all names assigned earlier to any of the el
28. CN FA C1 TEST e IP ADDR 10 0 5 8 J PIN 147 ANA1 ANA2 ANA3 ANA4 UDP PORT 27138 Ti T2 T3 T4 T5 FIRMWARE VERSION B10365 TIME UPDATE ARM 4 T6 T7 T8 T9 T10 TIME UPDATE COUNT 0 ES EN ES 1 Rx RS232 TEST 0x00 T11 T12 T13 T14 T15 T16 T17 T18 T19 T20 wai A2 A3 A4 JAS C A6 RESET Configuration MODBUS 123 45 67 8 34i io 11 12 13 14 15 16 Astro A eo E Timer OC1 OC2 OC3 OC4 0 12VL 0 12VR 0 0 BUS 5V When alarm zone 1 is triggered or any chosen zone combination then the computer will instantly start to close the system It will be impossible for an adversary to switch the computer on again as it s hard drive will be encrypted and the computer will ask for a password Also installing and trying to read the drive in another computer will not be successful as the data will still be encrypted The last thing is to set a password for your computer s BIOS so that the adversary cannot run his own operating system in a short time after closing the operating system You call it assigning a password or PIN to BIOS This way you can secure up to 20 30 computers in one LAN network If the software loses communication with the PLC2011B0 alarm then the system closing procedure will also be started and the system will be closed just in case As the software s communication with PLC2011B0 is heavily encrypted using the AES 256 algorithm packets are additionally time stamped so an attack by trying to
29. DESK Salt PLC J Salting for PLC and others c 2011 RS J BA pE SAVE Reset a B1 test 2 I am 10 0 5 51 Salt TXT 4 Salting for SMS and e mail c 2011 BAH ATK C Enable changes E3 10051 TYPE Bi Language selection C Verbose logging to the console English A gt EA A1 TEST n nnt gt A3 C1 TEST SAVE RESTORE configuration Read logs to the console mem Read logs Cryptographic salt for secret passwords Restore from file INN Erase logs forever Save to file C Enable erasing Local NTP server on this computer Windows Firewall settings on this computer NTP Client My local subnet only NTP Client pooling interval s The new Windows Firewall rule will be added here 3600 The name of the rule will be MY_NTP_SERVER o NTP Server Port number to open close 123 Read entries from the registry Add rule to the Windows Firewall Write entries to the registry Delete rule from the Windows Firewall After clicking Save to file you will be asked to give a location and file name T Local PLC2011B1 v Search PLC2011B1 Organize New folder ER F Documents J Downloads 4 Music E Pictures Ji Videos i Local Disk C cx Local Disk D No items match your search Network File name i SSH Save as type Backup files ccr Hide Folders After accepting a ccr file with your configuration will show up in the specified loca
30. EI TYPE B1 2900800000009 I E AUTO 20000889090000020 e ALA TMP TDH TDC a ki a 2 12VL 0 12VR 0 92s is 0 5s Reset PIN 147 ANA1 ANA2 ANA3 ANA4 ee ee U qi q2 T3 T4 TS 1 Wire bus is OK 1 Wire device PRESENT C D T6 ad T8 T9 T10 DS18X20 SERIAL Tii us Lb Lh Ts 28 FH 33 2C 03 UU 00 Hi Ti6 zs 118 T19 T20 RESET L J L J L i JA1 A2 A3 A4 A5 A6 ALAS ALA6 w E E E S Z oOPTrPT rd 33 2345678 il lll OC1 OC2 OC3 OC4 0 12VL 0 12VR BUS 5V Configuration MODBUS Password Screen 6 current counter status in inputs 4 a B New Device USB CONSOLE SETTINGS DEVICE B1 fj 10 0 5 51 E3 10051 EJ TYPE B1 PE 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 ALA TMP TDH TDC 52s 1s 20 5s f COUNTER 1 55716400 e COUNTER 2 228556801 PIN 147 ANA1 ANA2 ANA3 ANA4 Gimme IJ Di r 13 14 15 EE EN COUNTER 4 2288611957 C 2 T6 uu T9 Tea Til T12 T13 T14 n Reset T16 T17 T18 T19 3 129 RESET ALAS ALAG JA1 A2 A3 A4 A5 A6 FEELS EE 123 4 5 6 7 8 OC1 OC2 OC3 OC4 0 12VL 0 12VR Configuration MODBUS Adding a new device to the list To add a new device alarm or relay to your list right click in the field where the list is placed on the left side of the window 4 x New Device USB CONSOLE SETTINGS DEVICE B1 EJ 10 0 5 51 Ag 10051 gt D Ge i ONLINE ALA TMP TDH TDC o m B o A
31. LOGGING TO THE CONSOLE READ LOGS TO THE CONSOLE Verbose logging to the console A Encryption tools ONLINE Read logs to the console The device remembers up to 59 last alarms including the date hour and number of the input where the alarm occurred To read the logs you need to press the READ LOGS button in the Read logs to the console field and then switch to the USB Console tab where up to 59 last alarms will now be displayed SAVE RESTORE configuration SAVE RESTORE configuration Restore fram file Save to file The current configuration of inputs outputs astro timer WWW server can be saved to a file ccr by pressing the Save to file button At the moment of saving the message 100 OK will be displayed for a moment instead of the word STATUS To restore the settings or apply the in another device after picking it from the list in the left part of the window and connecting to it you need to press the Restore from file button find the configuration file and press Open The device will load the configuration file and restart In the STATUS field the information RESET will be shown This does not concern the main configuration as the network settings etc LANGUAGE selection Language selection You can choose the language from a list After setting AUTO the language automatically switches to the language of your Windows Language settings are saved automatically after every c
32. O O O O Q 2 Q 20 F8 AUTO A O 009999990900 Y 9990 gt EA C1 DESK 00 000000000000006 gt g Ai DESK l gt FA B1_test ALA TMP TDH TDC x O1 O2 O3 O4 5 O 02s 1s 0 5s gt E A1 TEST gm m m 125 12V1 Reset gt E4 Ci TEST 2 4 6 8 10 12 14 une dii re bu E Ti T2 T3 T4 T5 m n 7 m m m 16 i PE T7 T8 T9 T10 Go Ge Ge i 1 Y D D i5 w Nm l2 T13 T14 T15 T20 TDC2 TDC16 E ERES A1 A2 A3 A4 A5 A6 ry 7 Configuration MODBUS OCI OC2 OC3 OC4 0 12VL 0 12VR 0 0 BUS 45V 9 10 11 12 13 14 15 16 Password To enter the thermoregulator and thermometer configuartion and programming menu you need to double click the BUS light E B1 DESK use CONSOLE SETTINGS DEVICEBI i es PE 21 20 19 18 17 16 15 M 13 12 11 10 9 8 7 6 S 4 3 2 1 4 T test 2 d 2 2 o LED 2 9 10 0 5 51 9 d OC e Q E3 10051 o 00 EA TYPE B1 E F8 AUTO TP TOHH ToC O1 O2 O3 O4 5 O6 FA A1 TEST curvo e uz ES Reset UY o LED 3 gt LED4 D G D 6 E E D G 9 90 E P 4 E P G E E E P 4 D 6 b G 32s 1s 0 5s gt fa C1 TEST doge Ti T2 T3 T4 T5 q D T6 T7 T9 T10 Tii T15 T16 T20 RESET ry ry Fn rr Bm mr ry ry 34 94 ANA1 ANA2 ANA3 ANA4
33. Sunrise correction i 0 0 Sunset correctionr 00 00 00 00 00 00 00 00 Start time lor V 00 00 00 00 00 00 Uu 00 00 Stop time 00 00 00 00 00 00 00 00 LC N 1 pm 0 as N as DEFAULTS READ Remember to check the Activated check box for every day of the week BREAKS some additional information e for every day you can set up a maximum of 3 breaks e the breaks do not have to be entered in a chronological order the software will sort them by itself e the settings are visible on the diagram below the timer bar Ee LEM S 3 58 ASTRO AT 20 48 1 2 3s 4 5 7 i0 i i2 1i13 18 i5 0 e a a a z e the red and green parts are the breaks you set if you set a third break it will be visible in blue e the settings on the diagram are for the current day below you see that the day starts with a break until 03 00 3 00 A M and ends with a break starting at 23 00 11 P M e the diagram for Tuesday ends at midnight and if you want to see Wednesday s diagram you need to click on the word Wednesday above the main part of the timer You will then see the second part of the break you planned for Tuesday Wednesday night The last axis shows the result of merging the settings of the Timer and the Astro timer after correction The result depends on what logical operator you use to connect the corrected Astro timer settings with the timer settings Monday Tuesday Wednesday Thu
34. They can be used in any way depending on the user s creativity e g as auxiliary variables The TI variable is data before the timer After the timer processes the data the T variable is received Every output can be controlled individually and remotely using the PC software or an Android mobile device You can control each output separately a group of chosen outputs or all of the outputs at the same time Available logic functions are amp AND function 4 OR function XOR fuction or NOT function both symbols can be used depending on the user s preference Please pay attention to the example shown in the picture above In the TI2 you have a combination OCOI OCO2 OCO3 amp AC This means that TI2 OCOI OCO2 OCO3 amp AC as this equation was entered in the X2 field Please be aware of GOOD PROGRAMMING PRACTICE TI OCOI OCO2 OCO3 amp AC TI4 T2 amp OWR32 TI6 T4 amp AT Variable TI2 was calculated once and 1f similar equations were to be inserted again into variables TI4 and TI6 it would like this TI2 OCOI OCO2 OCO3 amp AC TI4 OCOI OCO2 OCO3 amp AC amp OWR32 TI6 OCO1 OCO2 OCO3 amp AC amp OWR32 amp AT This is INCORRECT This adds unnecessary operations for the controller as the already calculated equation must be calculated again and despite the fact that the equation itself is correct this is bad practice Anyw
35. Wynik 0 0 0 0 l l i 0 l l l 0 Example Monday Tuesday Wednesday Thursday Friday Saturday Sunday Activated Activated Activated Activated Activated Activated Activated Sunrise correction a x Sunset correctionr o c 00 00 00 00 00 00 Dz 00 0 00 00 Start time EB 00 00 00 00 0 01 D oo 00 00 Stop time 00 00 0 00 00 0 1 00 0l fH ree eee ee O m T 58 Mam an 11 13 i14 15 17 19 70 N i N N N 1 as DEFAULTS READ Comparison p Ss Ce tU EOHEEUSE R 00 1 1 LL LL 09 OR ppp p o h le le ls ls l le le ho u le o fs hs be fir m lo lm n lz la Dasto oT T pee e e Astro corrected 01 11 1 1 LLL eO XOR jo h k f h js l lr je le fo n he fro fs ls he o fre fio lo la lz a s On the picture above ASTRO CORRECTED name of the variable used in the input s logic functions ASTRO name of the variable used in the input s logic functions the result of logic operations between ASTRO CORRECTED and the Timer The OR function will change it s logical value from 0 to but not the other way around The XOR function will change it s logical value as the timers value is always 1 Logical functions do not occur during breaks between the timer s periods of work The corrected Astro timer is not processed and 1s simply copied to the lower axis If the color on the lowest axis 1s yellow it means that during that period of time the
36. address 16 bit field e g address no 300 Starting from this address there will be as many 16bit words taken as is the total from the options you selected using the check boxes next to these options which interest you Every kind of data which is transmittable using PLC2011B1 has a defined length in 16 bit 2 byte words and that many cells in the receiving PLC will be taken up beginning from the start address The data is connected glued together If you select four check boxes like in the picture below then first six words will come from the Date Time and Sunrise Sunset the next ten from timer outputs T1 T20 then the next eleven from input variables IN1 IN21 and the last four from Thermometers 17 20 They will be sent out in one packet in this order The order goes from top of the list to the bottom Modbus over Ethernet UDP master or TCP master 1 word 2 bytes 16 bits 10 0 5 229 Third party remote PLC IP or ROUTER IP Date Time Sunrise Sunset 6 words Timer inputs TI1 10 words 502 Third party remote PLC UDP PORT Timer outputs T1 10 words 44 8A 5B 8bE C6 AD Third party remote PLC MAC or ROUTER MAC OCO4 4V12L 4V12R BON 1 Wire I O OWR1 8 words Alarm ALA1 6 ALM1 6 6 words Analog ANA1 4 ANM1 4 4 words Input variables IN1 IN21 11 words DS18B20 Thermometers 1 4 4 words Transaction identifier 16 bit Protocol identifier 16 bit Unit identifier 8 bit Modbus function code 8 bit DS
37. analog zone binding resistance k9 al sensitivity kQ level kQ for resistance measurement 0 10 k9 ww os s5 EE O nudis t1 DnDon ngunugLmBLnLvu This is needed for resistances of individual lines from 1 to 21 to be shown in window 2 on the display in the main window of the software gt EJ B1 DESK USB CONSOLE SETTINGS DEVICE B1 gt EJ C1 DESK gt E A1 DESK 4 5 B1 test 810 0 5 51 E3 10051 EJ TYPE B1 ul AL AL a cd m AUTO ALA TMP TDH Toc CO Q3 O4 O5 O 02s 1s 0 5s F3 A1 TEST 125 99 0 99 99 15 99 99 gt 3 c1 TEST Reset PIN 147 Ti T2 T3 T4 T5 pes IL ICU T6 T7 T8 T9 CIC NBI LI T11 T12 T13 T14 T Emm E C L nd Ai A2 A3 A4 A5 A6 ALA4 ALA6 CN V m ad mrTrmr HELLS ESE Configuration MODBUS 33 1 2 3 4 678 34 9 10 11 12 13 14 15 16 meum gt O OO eo e e Timer OCi OC2 OC3 OC4 0 12VL 0 12VR BUS 5V Password 13 1 1 Input calibration Next you should calibrate the inputs Simplifying you need to teach them how much precisely is 7 5kQ To do this you need to use the 7 5kQ resistor that you received with the device The resistor should be connected between the ground pin 22 and the calibrated input See what the reading is and enter the correction saving it to the device every time The value should be around 7 5kQ Calibration should be done
38. batteries recommended Inputs 21 alarm analog inputs which recognize resistance Option to add 8 or 16 inputs using DS2408 modules connected to the 1 Wire bus Outputs 4 open collector type outputs 2 12V power supply outputs Option to add 8 or 16 outputs using DS2408 modules connected to the 1 Wire bus 1 Wire 1 Wire bus with the ability to connect 32 DALLAS digital thermometers DS18B20 DS18S20 or DS1822 5V DQ and GND 16 bulit in thermostats with heating cooling options 8 built in differential thermostats Connectors RJ45 Ethernet interface 10 Mbit used for remote communication USB 2 0 interface used for device configuration and time synchronization RS232 interface as TTL Ethernet IOMbit full duplex without polarity detection A surge protector for the LAN and for the power supply requires grounding For grounding use pin 22 Additionally The Alarm s complex programmable logic A multichannel astronomical clock that tracks sunrises and sunsets and which may also cooperate with the built in timer An independent real time clock synchronized with Internet time via NTP Data encryption system AES 256 Powerful yet easy to use operating software 6 ADDITIONALLY e Tad T ETE This device has an easy to use user friendly firmware update function Frequent firmware updates will accommodate the device to t
39. be restored e Picking fields 5 to 8 will mean that the time change will be done automatically on the dates set above Astronomic twilight the center of the Sun is 0 833 below the horizon The Sun is not visible however the sky is still pretty bright This 1s the time between sunset and dusk and between dawn and sunrise Civil twilight the center of the Sun 1s 6 below the horizon The Sun has not been visible for a long time now At dusk it is almost completely dark At dawn it is starting to get bright Summer time honored an hour will be added to the astronomical time during summer The Astro timer is also corrected by an hour during summer Summer time disabled during summer the astronomical time will not be changed and an hour will not be added to sunset sunrise calculations This does not influence the three additional break time periods that you can set individually for every day of the week timer These periods of time are always based on the current local time that changes from winter time to summer time and back An hour will not be added to sunrise and sunset times they will always stay in winter time in relation to bars 1 and 2 in the Astro timer The default setting appropriate for most users is setting 6 In this setting everything is automatic Twilight is set to civil during summer an hour is added to the astronomical time At the bottom there is the Summer is during European Winter
40. break to start in the second the time you want it to end e In this example the devices task is to turn on the lighting after sunset so reversing that function will Saturday Sunday ien Activated Activated Din PUNIRE PUE BAS Go to the current day in the timer window o fi o amp e First pick the time you want the break to start e In the Start time box set 23 00 11 00 P M using the arrows or typing it in e In the Stop time you should enter 3 00 A M but since the break starts one day and ends the next day you need to divide the break into two parts e The first part of the break should be 23 00 00 00 11 12 P M of the current day Saturday e The second is 00 00 03 00 12 P M 3 00 A M the next day Sunday e The device will smoothly switch from Saturday to Sunday merging the two parts into one e Remember to check the Activated check box for both Saturday and Sunday The results of the settings done so far are The lighting switches on an hour before sunset It is on until 23 00 11 P M At 23 00 11 P M switches off automatically The lighting stays off until 3 00 A M the next day At 3 00 A M the lighting switches on again It stays on until sunrise At sunrise the lighting switches off oo ee ee You can of course apply these settings for the whole week Monday Tuesday Wednesday Thursday Friday Saturday Sunday Activated Activated Activated Activated Activated Activated Activated
41. check box Tick it only if your device is actually in a place where summer is during European winter southern hemisphere such as Australia 12V battery charging parameters In the upper right corner there are two parameters ADC voltage correction for proper measurement and ADC value when we treat battery as connected Remember that what type of battery what capacity or if it is used or brand new you use is only your decision Therefore you have the ability to calibrate the parameters The current voltage on the battery clamps can be seen on the screen on the main window after you click the 3 option button Other useful and interesting data will also be shown If the voltage value is not equal to the value measured using a universal meter then you can make calibrations by adding or subtracting the value you feel is appropriate in the ADC voltage correction for proper measurement box You need to save the settings for them to take effect and results to be visible If the results are not satisfactory correct the settings until they are The second parameter is the moment when the battery 1s treated as connected A brand new properly functioning battery does not consume power when it is fully charged The battery is charged to a voltage of about 13 5V and then flow of electricity stops almost completely The ADC value when we treat battery as connected parameter gives you the ability to correct the detection voltage drop of the connecte
42. circuits but first and foremost who want to control the installation using the Internet without having to worry whether the transmission is safe 6 5 PC software The operating software is the same for the Programmable Alarm PLC2011B1 Programmable Relay PLC2011A1 and the Programmable Multicontroller PLC2011C1 When adding a new device to the list you should choose whether it should be TYPEAI Relay PLC2011A1 TYPEBI Programmable Alarm PLC2011B1 TYPECI Multicontroller PLC2011C1 gt EI B1 DESK USB CONSOLE SETTINGS DEVICE B1 gt EA C1 DESK 9 18 17 e 15 14 13 12 11 10 9 8 7 6 5 gt E A1 DESK i 2 4 3 Bi_test Hi i HE ALA TMP TDH TDC 1 203 O4 O Q j2s 91s 0 5s B1 test A eu Reset gt FA C1 TEST un IP ADDR 10 0 5 51 PIN 147 ANA1 ANA2 ANA3 ANA4 E cree U Ti T2 T3 T4 T5 FIRMWARE VERSION B10363 TIME UPDATE ARM 4 T6 T7 T8 T9 T10 TIME UPDATE COUNT 74 Rx RS232 TEST 0x00 Tii T12 T13 T14 oS T16 T17 T18 T19 LT RESET ALA4 ALAS ALAG A1 A2 A3 A4 LIAS A6 Configuration MODBUS 12345678 34 10 11 12 13 14 15 16 OC1 OC2 OC3 OC4 0 12VL 0 12VR 0 0 BUS 5V Password Accept Depending on which type was chosen either the DEVICE A1 the DEVICE Bl or the DEVICE Cl tab will be activated in the main window AUTO timezone means that the device is in the same timezone as the computer you are using to operate it If you are in a different timezone you should choose th
43. copy this file to an external SD card If the device has both of those memory cards then always copy the file to the built in one When updating the software remember to keep the myrelays xml file as you can simply copy and use it 15 ARMING AND DISARMING ALARM ZONES DELETING ALARMS Buttons used to arm and disarm the alarms are placed in the main window of the program gt EJ B1 DESK USB CONSOLE SETTINGS DEVICE B1 PE 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 t C x b Jj b Jj E 4 p 3 gt O we y b j amp Jj 4 D K jJ s Jj b Yo Oe oe Oe oe Oe A oaaao oaaao a ONLINE C 5 b d 2 y C gt b d b d D b d d C r Zz b d y Qd b d D a ALA TMP TDH TDC gt EA C1 TEST Qe a V ANA1 ANA2 ANA3 ANA4 ALA2 ALA3 ALA1 ALA4 ALAS OA L A2 A3 A4 a5 A6 RESET HEMET EEE FOOL ee a o a a ar ge amp Ae o deat ae ie OC1 OC2 OC3 OC4 0 12VL O0 12VR 0 0 BUS 5V BT BT Configuration MODBUS Password On the left there are the alarm zone status buttons 1 to 6 The color of the button depends on it s current status Alarm zones ALARM1 ALARM6 gray the zone is not active the alarm for this zone is not armed green the zone is active the alarm is armed red the alarm in this zone was triggered dark blue line sabotage alarm yellow the zone armed its
44. fourth with M25 The last cell is M32 M1 M32 17 E TE a sA 3 124 ES M29 E x3 X32 A oC P For instance you want to use open collector output OCOS from one of the devices in your network and you know it is written into cell M29 This is the value you need to enter into your equations g d i T1 variable activates when the result of the equation here M29 will be 1 it means the content of the cell M29 in the shared memory will change the value The T1 variable will be updated only at he time when M29 cell will change its value from 0 to 1 or from to 0 What are you going to use these commands for depends solely on your creativity The commands from the shared memory can be bound together in more complex equations or used with data from the receiving device An advantage of the solution used in the device is that the commands are sent out to each cooperating device at the same time Thanks to this you avoid situations where devices receive and react to a command with delay caused by the fact that the commands were sent out to each device separately This enables you to carry out synchronized operations in many devices at the same time 22 ASTRO TIMER PLC2011B1 is equipped with multichannel astronomical clock and a programmable timer 22 1 What ts the astro timer for The astro timer is used to start and shut down various types of electric devices e g lighting accordingly to the
45. from the Rearm ALARM 2 from the Rearm ALARM 3 from the Rearm ALARM 4 from the Rearm ALARM 5 from the Rearm ALARM 6 from the DEFAULTS and do not save READ from the device SAVE to the device When this kind of alarm is triggered it is signaled not with red like a normal alarm but with blue In the example shown on the previous page the upper threshold value was set to 7kQ As you can see below breaking that threshold caused an alarm gt EI B1 DESK USB CONSOLE SETTINGS DEVICE B1 gt 3 C1 DESK PE 21 20 19 18 17 16 15 14 13 12 1110 9 8 7 6 5 4 3 2 1 gt 3 A1 DESK ui 4 L3 Bi_test Q D2 E3 10 0 5 51 D3 LED4 ALA TMP TDH TDC eae Reset gt EA Ci TEST 00 9 0 00 PIN 147 A A ANA ANA3 ANA4 00 Tom 0 00 Ti T2 T3 T4 T5 00 11 0 00 NE NEN NEN NN 00 12 0 00 o T6 T7 T8 T9 T10 00 13 0 00 00 14 0 00 ALA4 ALAS ALA6 VZZJ 42245574 OC1 OC2 OC3 OC4 0 12VL 0 12VR 0 0 BUS 5V Configuration MODBUS 9 10 11 12 13 14 15 16 Password This function guarantees that any external interference in the circuits connected to the device e g connecting some unwanted element to the circuit will be noticed immediately Of course there are no perfect alarms which cannot be cheated From time to time you should inspect all the elements of your installation yourself despite the readings of the device ASSIGNING NAMES TO SENSORS AND ALARM ZONES In order to make it easi
46. functions 099000000000 Open firmware Test firmware write firmware 096 If the password is given correctly the message in the console will look like this IP 10 0 5 32 Software 4 33 2012 07 07 15 41 ALARM GATES POWER GENERATOR ALARM 1 TEST B TEST A relay TEST A2 KA R1 R2 R3 R4 Ee EE ER EE Ee E E EH i i USB CONSOLE SETTINGS DEVICE A USB write configuration FT Init ftStatus 0 2012 07 08 16 17 21 SHA 256 Digest of our password for AES 256 Encryption and Decryption D3447652BB8A5FBB29C85423666D645A50C12D47B9BO037DZEOE326EFO0922 BE ES Z56 Encrypt OO000000000000000000000000000000 with our digest 6CBES63BBEZD636DGF48564FF56C23DEZ AES 256 Decrypt OO0000000000000000000000000000000 with our digest h cCaG48808C6CE4J366DDE1AC37B25956B5 FT Write ftStatus 2012 07 08 18 17 21 Configuration written properly 0x99 2012 07 08 18 17 22 BHHHHHHHHHHHHHHHHHHHSHHSHHSHEHHHHHHHHHHHSHHSHHHHESHHEHHHHEHHEHHEHHEHHHHHSHHEHHESHESHEHEHE USB configuration Save configuration OFirmware update Synchronize time Password 099909090009000000 IP MASK GW UDP VW 10 0 5 100 235 255 255 0 10 0 5 1 27136 80 MAC ADDR NTP SERVER IP 00 11 12 13 14 15 10 0 5 1 PORTS NTP OUT 123 27015 GMT and Summer time 1 6 Auto Civil twilight Summer honored v C Summer is during European Winter for example PLC i
47. nennen ness sensns nsns annis 55 IS La Lime sespstance COMP CMS AIO Uy eode ues ce Sp ede EEYO eaa tun eie uae pouce m ote EE CEE cds ee E Erase dis 56 15 1 5 Binding puts to alarmi ZOMG eese petra operiert ES tap tettU LE UpEH Ia rmEd eem etie Piin Eu etus 57 ELS RGT con AR M e E eee saenasuauses M Resa eMe 59 e 2Alam puts Te ee COUNEIS eee eee nt ae nn BUR ee Soe EEE ee eee eee eee 60 15 ane sabotage AGC S esesesosescumt inmensa doauoraavaieusiaasacuoaaaaesenieaadoasasarseecessacsesaeeneeeses cae 61 14 ASSIGNING NAMES TO SENSORS AND ALARM eene nnne ZONES CC U TF P A 1 i 63 15 ARMING AND DISARMING ALARM ZONES DELETING ALARMS eeeeee 67 IE eT am AZO e E E EEEE T ade uw AEA 69 I S 2 Deleting an alarm 10 n alat ra ZOTIG seco ioiex rui vaste re bep e Oh RPbpEERU X vuU tU PER AN UpUUM EH eR PENNE 71 bo 5 MI BER E T ESTE OE 126 j ee ee ee nee QT 74 15 4 WR Cai ta alarn Zones alter BITHO prins En in e Erb dn etr EE e PEU ERE 74 15 5 Automatic rearming of alarm zones after reset or power FetUI cece cece cee eeeee eee eeeeeeeees 79 IG S NAIDOCGHENPET CONFIGURATION eiit acides pat qiu iat quitan diat E ates 80 IgM Mich c TES 82 LA DOLENS THERMOMETER cp sername yeaa cepans en side Eaneios eben ep isetisut e S E epi eden ean 82 17 2 How to read the thermometer s se
48. once before you connect any alarm sensor or reed switch circuits Calibration is necessary as every input must precisely recognize the range of resistance in the given wire Without calibration the device will react correctly if there 1s a disturbance in the alarm zone but it will not be able to say exactly e g which sensor in the window caused the alarm which window is open INPl INP12 ALAL OWRL OWR OC Ti T13 Configi Config2 TMP Legendi Le Alarm and analog Inputs 1 to 11 Compensate line An hysteresis or Analog trigger Alarm or analog zone binding resistance kQ for resistance measurement 0 10 kQ A detailed input calibration video manual is available on You Tube Saving the configuration You can save the input calibration settings to a file so that you can retrieve them if they are lost They will be stored in the device You save to file in the SETTINGS tab Calibration parameters will not disappear when you disconnect the power supply They can be stored and retrieved from a file together with other parameters of the given device Remember that when you copy configuration from one device to another the calibration parameters will also be copied However they will be incorrect for the second device gt a B1 DESK USB CONSOLE SETTINGS DEVICE B1 EJ C1 DESK 4 E3 A1
49. only in the folder containing the exe executable file The software does not automatically check for updates so the user s IP address and location are not logged There are no functions of this type Using this software is extremely safe especially when you want to control an alarm while being far away from it You can expose the relay s IP address to the public address pool or do a port redirection at the router without any concern that the device will be broken into The device cannot be broken into because it has no operating system able to execute a code received from the outside This problem does not exist at all due to how the device is built When running the software on Windows 7 you should be logged in as the administrator when you want to edit the time server or firewall settings 1 2 A few words about safety The device was designed with a lot of attention put on safety An advanced military strength cryptographic system protects data from being intercepted during transmission and used again prevents unauthorized access to the device by people trying to impersonate the rightful user From now on you can safely arm or disarm your alarm even on the other side of the planet without fear that an intruder will intercept the Internet transmission and use it to break into your house The safety system is based on many factors For the communication with the device to start you need to enter a long password You do this either using yo
50. pose as the alarm is highly improbable Of course you should consider possible dangers placement of alarm sensors on other details by yourself For this function to be active on some computers the software needs to be run in the administrator mode Table of contents KETRODOUCTION E n 2 LEADON TIS OON ARG a E T seeosenene 2 1 2 PS few words abo t safety ovossnbim tte NUN ENDE NNIN MEENMM I ENUMEMNI 3 18 I 8 D a 5 PDE VICE DIAGRAM orr eE E E E A E E OI 6 4 CONNECTION DIAGRAMS eeeeeeeesssssssssssssssorreeeessssssssssssssssoooreeereeeesssssssssssssooorereeeeeeeesssssssseseeos 7 De DNC Aig or CUI I ON errn cocsheraainds ute A A ES 8 CADDITONA CE sera ce E eee aoe nyse he ete ce en eee 10 SPILL REI EET TOO 0L QT MT 10 O EIC RT ss 10 OB Daley COGS o ii oetudad dto Ro IR E NUR E DEOR MSN UE EDITI NOU URP PO OR ISSN M Or MP DR OU U CREDE UUE 11 6 4 PEO Sram AMIN and ODCLAD OTI cese E qa EpPPS e Eo A 12 Do POL BOIDUAIEL oos Doe EIDDEEIEUAENPSRURUUPU E E E 14 7T CONTENTS OF THE PACKAGE cccccccseesssssessenceessccecceeeeneeaesesessssescccccccessscccceceeeseeesesesesens 15 vedo MEA BU T Meret oe ene nee ee ee een eee en nee err eee 15 Aeg 16 Ol Te ASS Vy OT WIRT M TT E E S O 17 SPAO o INGO OK NN aocioaanestannta vance E T E 22 9 3 Entering the device into the configuration a
51. row 6 then the differential thermoregulator for cooling will start working when the temperature exceeds 20 C Switching Al Lo and Al Hi values makes no sense The Lo field is always the lower limit of the given range and the Hi field 1s always the upper limit If you do not want to limit the thermoregulator work range when you should leave the fields empty as shown on the picture below Once more keep in mind these facts If you want to use differential thermoregulators then you need to enter a temperature difference in the T AT field instead of a target temperature You do not need to use heating and cooling at the same time From each pair of thermometers the upper one is the high heating channel and the lower one 1s the low cooling channel see the picture below You cannot change this as it was designed to work this way and will not work in any other configuration Therefor with every pair of thermometers you need to set Positive T AT temperature differences in the upper fields of the same shade of green Negative hysteresis for heating in the upper fields of the same shade of green Negative T AT temperature differences in the lower fields of the same shade of green Positive hysteresis for cooling in the lower fields of the same shade of green Differential channel for heating 26 5000 107FC74401080012 8 0000 4 0000 6 0000 Differential channel for cooling 26 3125 28F8232C030000FD 8 0000 4 0000 6 0000 TEMP 3 26 5000 107FC 74
52. save READ from the device SAVE to the device Each thermometer or thermometer working as a simple thermoregulator can work also as a sensor of too high too low temperature variables AL1 AL16 AL variables can be connected with other into logic functions T AT mean T day or night temperature for a simple thermoregulator AT day or night temperature difference for a differential thermoregulator T AT Day Day temperature at which heating or cooling are switched off T AT Night Night temperature at which heating or cooling are switched off Hys Hysteresis When the entered value is negative then the thermoregulator works in heating mode when positive then in cooling mode when zero the thermoregulator will not work The temperature at which at which the processes are switched on again including the hysteresis is a result of the following equation T AT Hys The result is decided by the hysteresis sign E g if the hysteresis 1s negative 1 C and the temperature set is T AT 22 C the system will work in the following way It will heat up to 22 C swtich off what until the temperature falls to 22 C 1 C 21 C and then switch on again If the hysteresis is positive then the result of the T AT Hys equation will be 22 C 1 C 23 C The system will cool down to 22 C stop cooling and then start again when the temperature reaches 23 C To connect the thermoregulators to outputs you use variables TMP 1
53. save READ from the device SAVE to the device save the settings after picking the variable Go to the OC outputs settings tab X OWRL OWR OC Ti Ti3 Configi Config2 TMP Legend Legend 2 Android es ee pgs B EE ss E ul ul pgs B EE ee Se yu ee eae ee E SSS A Swe In this tab you can assign an equation or condition that will activate chosen outputs For OCOI enter ALM1 alarm from zone 1 The list of variables available is shown in the Legend 1 tab Enter the period of time in seconds after which you want the alarm to rearm itself in the Pulse time field We entered 15 seconds The most you can enter is 18 hours Save the settings Arm Alarm zone 1 gt E B1 DESK USB CONSOLE SETTINGS DEVICE B1 gt E C1 DESK z 21 20 19 18 17 16 15 14 13 12 11 10 e 66 6 CCOO T j 3 i wW Y x V Y co o amp j x j V J NI gt fg A1 DESK 000000000222 E B1_ test aaaaad 2222 Y F3 10 0 5 51 0000000 Ttt P fg 10051 A 000000000025 E3 TYPE B1 re AK AUTO ALA TMP TDH T TDC 91 O2 O3 O4 O5 OC O2s 1s 0 5s F3 A1 TEST n e M3 C1 TEST uUP WUP WU VP IP ADDR 10 0 5 PIN 147 ANA1 ANA2 ANA3 ANA4 ced fen uice ANDE Ti T2 T3 T4 T5 E p TIME UPDATE ARM T T6 T7 T9 T10 ME UPDATE COUNT 1 14 T15 19 120 ALAS A1 A2 A3 A4 A5
54. sun s position based on the location on Earth You must also set your time zone in relation to the universal time UT UTC GMT The next field contains options regarding automatic changes from standard time to summer time and back For example summer time starts on the last Sunday of March at 2 00 A M and ends on the last Sunday of October at 3 00 A M You can set these settings adequately for your region and in following years the time changes will be made automatically In this field there 1s one more important box The options here are 1 Winter time 0h 0 833 astronomic twilight 2 Summer time 1h 0 833 astronomic twilight 3 Winter time 0h 6 000 civil twilight 4 Summer time 1h 6 000 civil twilight 5 Auto Summer time 0 833 Summer time honored for Sun calculations 6 Auto Summer time 6 000 Summer time honored for Sun calculations RECOMMENDED 7 Auto Summer time 0 833 Summer time disabled for Sun calculations 8 Auto Summer time 6 000 Summer time disabled for Sun calculations e Picking fields 1 to 4 will mean that you have to set winter and summer time manually On the day that the time 1s changed you need to connect to the device and change it s time accordingly After changing the time the connection between the computer and the device will be lost as there will now be an hour of time difference After you change your computer s time the connection should
55. the front panel Wait ca 10 seconds Press the round RESET button on the device s casing Keep the RESET button pressed until all 3 LEDs turn on then only the red will stay on next the red LED will turn off and the yellow will turn on again When the yellow LED turns on you need to release the RESET button The green LED will turn and stay on o 9 o All LEDs simultaneously red LED dE E yellow LED release RESET UPDATE mode green LED stays on The device entered the new configuration and password saving mode or the firmware update mode It is the same mode Keep the device in this mode with the green LED staying on Run the software on the CD in the package on the computer Enter the first tab USB CONSOLE in the main window In the USB configuration field click the Save configuration option button Appropriate boxes will become highlighted Assuming the default values stay unaltered you only need to enter the PIN code from the sticker on your CD cover enter an at least 15 character password in the password text box set the time zone and mark whether or not the device is placed in a location in which summer is during winter in Europe southern hemisphere e g in Australia The time zone is very important as you need the correct time to be able to connect to the device through the LAN The PIN code text box is in the lower right corner We remind you once more that a password shorter than 15 characters wil
56. the world you need to enter GMT 1 Summer Short description Description here IP Address or domain 10 0 5 100 UDF Fort Number Select device type Select time zone of the device GMT 1 Summer AUTO The device is in the same timezone as my computer AUTO wi honor Summer daylight saving when operating inside the local timezone If you want to connect to a device in New York in December you need to enter GMT 5 Winter Short description Description here IP Address or domain 10 0 5 100 UDP Port Number Select device type Select time zone of the device AUTO The device is in the same timezone as my computer AUTO will honor Summer daylight saving when operating inside the local timezone Accept You use the AUTO option only when being in the same timezone as the device How to synchronize time To synchronize time you need to enter the device into the time synchronization mode Press and hold the arrow button on the front panel left lt or right gt oap Holding the arrow button press shortly the round RESET button do not hold At first all 3 LEDs will turn on and then off Next the red LED will blink and then the yellow LED will turn and stay on Keep holding the arrow button until the yellow LED goes on Release the arrow bu
57. time passes the timer will switch off Example An example of how to use this settings can be a power supply outage detector with switching to auxiliary supply If you set 10 seconds at each counter in a timer then voltage must appear for at least 10 seconds to qualify the power supply as working Also a loss of power for less than 10 seconds will not switch on the auxiliary power supply The input will be invulnerable for short power losses 21 DATA EXPORT TO SHARED MEMORY This tab is used for settings which allow you to control other PLC2011 devices or allow the configured device to be controlled by commands from other PLC2011 devices To be exact you can send out data from your device to use it to create equations in other devices or get data from other devices and use it to create equations in your device For this you use the Config 2 tab PLC2011 devices can cooperate with each other send out and receive data from other devices For this they used the shared memory A couple of conditions must be met for this function to be working First the cooperating devices must have the exactly the same password and salt set in the main configuration read more in the section about the password and salt Second the devices must have the same transmission channel The transmission channel for the device is set in the Channel field It is a value between 0 and 255 0 Transmission channel 0 255 Third the devi
58. to retrieve the password or set parameters if communication through the computer network is lost or you forget your passwords In this case you need to use the PIN code and then reenter all the parameters The values seen in the configuration window at the moment are only default values an example of how the values should be entered and you need to change them to your own values Those values are not read from the device they are entered by the software itself only as an example Every device should have a unique IP address and network interface MAC address these two parameters are the minimum that should differ the devices from each other Otherwise there will be conflicts in the local network The computer you are planning to use for testing should belong to the same subnetwork as the device whose IP address you have entered PLC Alarm First we must set up our computer at least for a while to be sure that a connection is possible Network addresses in our computer should be set statically Our computer s IP address should be set to 10 0 5 2 Our subnet mask should be set to 255 255 255 0 Our gateway should be set to that of the router s usually ends with 1 10 0 5 1 Save the network settings NO m band Entering the device into the configuration and password saving mode Connect the power supply unit to the device Connect the device with your computer using an USB cable the USB socket is on the left side of
59. two different Salts will give you two different encryption keys for the same password When you send commands to your PLC device they will be encrypted in a different way than when you use the Encryption tools window for text messages After you save the changes with the SAVE button the ability to modify the settings will be blocked until you check the Enable changes checkbox again IP 10 0 5 248 Software 3 96 2012 03 26 00 29 TEST DEVICE A TEST 111 TEST 112 i TEST 113 i Ix p i Hr iy 5406iy Enable changes ma TEST 114 TEST 115 Language selection English USB CONSOLE SETTINGS DEVICE Cryptographic salt for secret passwords Salt PLC he C verbose logging to the console Encryption tools SAVE RESTORE configuration Read logs to the console STATUS OFFLINE Local NTP server on this computer Windows Firewall settings on this computer NTP Client My local subnet only NTP Client pooling interval s The new Windows Firewall rule will be added here 2600 The name of the rule will be MY NTP SERVER NTP Server Port number to open close 123 Read entries from the registry Add rule to the Windows Firewall Write entries to the registry Delete rule from the Windows Firewall To return to default settings you need to press the Reset button while remembering to first check the Enable changes checkbox Cryptographic salt for secret passwords Salt PLC uafsdf f s t 4501345g
60. value of the logical operator 1s 0 If the color on the lowest axis is black it means that during that period of time the value of the logical operator is 1 Only the values seen on the lowest axis obtained as a result of a logical function between the timer and the Astro timer are passed on to be used by the relay if the ASTRO function is on Setting the OFF function for a chosen timer causes it to not be taken into account when calculating the logic result between the Corrected Astro Timer ASTRO CORRECTED and other Timers the result is shown on the last axis If you use the ASTRO CORRECTED function the values further processed by the relay are the values on the second axis as that is where the relay takes data for processing from A new option was added in the newest firmware versions You can also set the relay to process the values from the third axis which represent the hours of the so called night breaks Descriptions R red bar RED G green bar GREEN B blue bar BLUE These bars are the so called night breaks the first one of which is red on the diagram the second one is green and the third is blue which is why they are described as R G and B Monday Tuesday Wednesday Thursday Friday Saturday Sunday Activated Activated Activated Activated Activated Activated Activated Sunrise correction 0 Sunset correctionr 00 00 00 00 Start time or v 00 00 00 00 00 00
61. will be visible on the bottom of window 5 of the display O1 O2 O03 O4 5 You need to write it down and then enter it in the list of thermometers Enter the serial number in the 64 bit SERIAL column When you enter the serial number the thermometer will be visible on the list but will not yet show any temperature It will show the real temperature only after you connect the thermometer to the bus The DESCRIPTION column is used to make a description of a chosen thermometer e g Yellow bedroom This 1s how the window looks after all 1s entered Garage TEMP 2 TEMP 3 TEMP 4 TEMP 5 TEMP 6 TEMP 7 TEMP 8 TEMP 9 TEMP 10 TEMP 11 TEMP 12 TEMP 13 TEMP 14 TEMP 15 TEMP 16 TEMP 17 TEMP 18 33 INPUT 33 NEG 34 INPUT 34 NEG Fahrenheit Remember that the serial numbers are saved in the device when you press the SAVE button They will be visible on any computer that connects to the device However the thermometer names are saved in the myrelays xml file which is created automatically in the folder where the program is located Different users may assign different names to the same thermometers on their individual computers or mobile devices The file can be copied to a different computer When you first save the thermometer configuration all the free spaces are assigned numbers from to 33 DESCRIPTION Field 33 is used to enter the serial number of the DS2408 IC based relays Remember to always save
62. 0 9 8 7 6 5 gt 3 A1 DESK 4 i B1 test 810 0 5 51 fg 10051 20 B TYPE B1 AUTO ALA TMP TDH TDCC 91 O2 O3 O4 O5 O E D A1 TEST Bl test C gt FA C1 TEST C IP ADDR 10 0 5 51 ANA1 ANA2 ANA3 ANA4 UDP PORT 10051 FIRMWARE VERSION B10363 T1 T2 T3 T4 T5 TIME UPDATE ARM 4 T6 T7 T8 T9 Tm TIME UPDATE COUNT 2 l Rx RS232 TEST 0x00 Tii T12 T13 T14 pe ES E e Q T16 T17 T18 T19 I L Ai L A2 A3 L A4 L A5 A6 RESET ALA4 ALAS ALA6 9 10 11 12 13 14 15 16 OC1 OC2 OC3 OC4 0 12VL 0 12VR BUS 45V Password AA F i Configuration MODBUS 1 2 3 4 55678 34 You can now start to set up your alarm In your device you can set up 10 zones 6 alarm zones 4 analog alarm zones You should start creating your own alarm by configuring the inputs ALARM AND ANALOG INPUTS The device has 21 analog inputs which recognize resistance To each of the inputs you can connect up to 4 sensors encoded by resistors or measure the resistance of a single element This way you can define 84 input circuits 13 1 ALARM INPUT CONFIGURATION To open the analog and alarm input configuration window you should put the mouse cursor on the diodes circles marked with a red arrow on the picture below described on the right side of the main window as LED1 LED2 LED3 LED4 these names are given for easier identification of individual sensors assigned to inputs in any place wher
63. 00 USB configuration Save configuration Firmware update Synchronize time Password IP MASK GW UDP WWW 10 0 5 100 255 255 255 0 10 0 5 1 27136 80 MAC ADDR NTP SERVER IP 00 11 12 13 14 15 10 0 5 1 PORTS NTP OUT 123 27015 GMT and Summer time 1 E 6 Auto Civil twilight Summer honored Summer is during European Winter for example PLC is installed in Australia Time synchronization PIN for USB functions Save configuration Open firmware 23 4 SETTINGS tab 4 New Device USB CONSOLE SETTINGS DEVICE B1 J 10 0 5 51 Cryptographic salt for secret passwords Salt PLC J Salting for PLC and others c 2011 RS J BA pE SAVE Reset Salt TXT Salting for SMS and e mail c 2011 BEF TRE C Enable changes Language selection Verbose logging to the console i English Encryption tools SAVE RESTORE configuration Read logs to the console Erase logs forever Restore from file Save to file Enable erasing Local NTP server on this computer Windows Firewall settings on this computer NTP Client My local subnet only NTP Client pooling interval s The new Windows Firewall rule will be added here 3600 The name of the rule will be MY NTP SERVER NTP Server Port number to open close 123 Read entries from the registry Add rule to the Windows Firewall Write entrie
64. 0012 TEMP 6 26 6875 28F8232C030000FD TEMP 7 TEMP 8 TEMP 9 TEMP 10 Differential channel for heating 26 5000 107FC74401080012 0 5000 1 5000 Not used 26 6875 28F8232C030000FD TENP T3 TEMP 14 Alarms only 26 5000 107FC74401080012 Alarms differential cooling night 26 6875 28F8232C030000FD 1 0000 2 0000 TEMP 17 TEMP 18 v Nightly temperature drop is the name used for a change in temperature for a period of time If you leave this field empty then there will be no temperature drop You need to program the clock Astro Timer if you want to use it Instructions on how to do it are in a separate part of this manual You also need to assign a variable which will trigger the nightly drop Each thermoregulator can have a different nightly drop variable Usually you should use any empty T variable to build a condition for the nightly drop E g T20 R amp OCO1 and choosing T20 as the condition causing the temperature drop INP1 INP12 ALA1 OWR1 OWR OC E T13 Config 1 Config 2 TMP Legend 1 Legend 2 Android Thermostats temperature reduction increase settings Switch to the saving mode when TMP1 pepi TMP13 OFF 0 TMP2 TMP14 OFF 0 TMP3 TMP15 OFF 0 TMP4 TMP16 OFF 0 TMP5 TMP6 TMP7 TMP8 TMP9 TMP10 TMP11 TMP12 DEFAULTS and do not save READ from the device SAVE to the device Examples Heating mode example If T AT 24 0000 C and Hys 0 5000 C negative hysteresis value then the thermor
65. 13fis2319gdfadsfudfvbdf ad f a sda Salt TXT Ja344 Yo He vdtbd jg 459 l a 46pd6o7hGFHFHr iy S406iy Enable changes The settings will be changed to the default settings and the ability to make changes will be blocked until you check the Enable changes checkbox again The values entered in these fields are kept in an XML file in the folder with the software to control the PLC Below you have a comparison of a password hash for the same password fifteen ones without Salt USB write configuration FT Init rfit5tatus 2012 05 09 18 27 47 SH z55 Digest of our password for AES 256 Encryption and Decryption D344 7565z2BBSBAS5FBBZS2CSB54Z36865D56435A5S 0C12D237BS8B 37DZEDUESZB5EF Szz BABES AES 256 Encrypt OOOOUOO0D0000000000000000000000000 with our digest 6CBEB3BBEZ2D5636DGF48554FF586CZ23DEZ AES 256 Decrypt OOOOUO00D0000000000000000000000000 with our digest AACSGS4EG0SRC BCES66DDELaACS TBA2SO95SEBS FT Write ftStatus 0 2012 05 09 18 27 47 Configuration written properly 0x99 2012 05 09 18 27 48 BHEHEHHBHHHHHHSHEBHBHHEHSHHSSHSHSSSEHHHSSSSSSHUSHEZSSSSHSSSSSHEZSSHSSSHSESHHEZSZSSHSSHSSEHHHEZSSSSH with the default Salt USB write configuration FT Init ft5tatus 2012 05 09 19 56 13 SHA 256 Digest of our password for AES 256 Encryption and Decryption FeDilFe ASFDOTVEBFCESCTFDZS6E2Z FES SDB4AASO ARGS ESODIDSCRDFOBSTYEBOOAGE AES 256 Encrypt OQOOOOOO0O000000000000000000000000 with our digest 73 7BBD G5887D79AZ
66. 18B20 Thermometers 5 8 4 words DS18B20 Thermometers 9 12 4 words 300 Start address 16 bit 10 Transmit Interval 1 255s DS18B20 Thermometers 13 16 4 words DS18B20 Thermometers 17 20 4 words 27000 UDP src port Modbus OFF v DS18B20 Thermometers 21 24 4 words DS18B20 Thermometers 25 28 4 words L L L L L L L E L L 31 Words DEFAULTS READ SAVE DS18B20 Thermometers 29 32 4 words Under the start address 300 of the receiving PLC you will find the first word of the Date Time and Sunrise Sunset then the first word of T1 T20 begins in 306 IN1 IN21 start in 316 and Thermometers 17 20 in address 327 If you select another data segment which lies in between the currently selected one then the data below the selected check box will be moved down by as many cells as needed for the new data segment The data order in the receiving PLC will change You can use this data in the receiving PLC in any way you want depending on your needs and abilities Other fields also require some explanation Some older PLC s with errors in Modbus implementation simply do not accept certain values entered in the fields Transaction indentifier and lower There are controllers which do not accept certain values and there is no logical explanation as to why this occurs This concerns especially the Transaction indentifier value Remember that errors in entering the IP or MAC address will cause a total la
67. 22000222220202020002022 E 2 e 9 uo E3 10051 ooo G 6 p D 4 E b G N NH 5 6 E NH P G od F 2 LED 4 2222 EJ TYPE B1 EA AUTO TMP T O1 O2 O3 O4 5 C O2s 1s O0 5s gt A1 TEST fi pin te fs Reset gt 3 C1 TEST uP UP UP UP PIN 147 ANAL ANA2 ANA3 ANA4 Ti T2 T3 T4 T5 T6 T8 T9 T10 T13 T14 T15 19 T20 ALA4 Configuration 20008679799 Ge 0 o0 BUS 5V oci 0c2 0C3 oc 0 12VL 0 12VR Password The 1 Wire configuration window will pop out TEMP 17 TEMP 18 pm 133 INPUT v 33 NEG F134 INPUT V 34 NEG For the thermometers to be visible you first need to read and then enter in the program their serial numbers smallest mistakes when entering the serial number will make it impossible to communicate with the thermometer The serial numbers of the devices connected to the 1 wire bus should be read by connecting them to the device one by one Only one device may be connected at the moment you do the reading Newest versions of the software 1 W ERR field used to set up 1 Wire data reading resistance to occurring transmission errors which are displayed by momentary thermometer disappearances The 1 Wire bus itself 1s not very immune to interferences and the way wiring was installed is critical All data regarding the 1 Wire bus can be seen at http ww
68. 3 Inputs 1 and 3 were then assigned to ALARM ZONE 1 named WINDOWS IN OFFICES The reed switches of the winter garden exterior and interior doors were connected to input 5 LED 3 and LED 4 Input 5 was assigned to alarm zone 2 named WINTER GARDEN DOORS Then both alarms zones were armed remembering that the 147 PIN code needs to be entered first Armed zone buttons change color to green gt EJ B1 DESK USB CONSOLE SETTINGS DEVICE B1 E C1 DESK Q 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 gt EJ A1 DESK 2 E3 B1_test J 10 0 5 51 fg 10051 A Ag TYPE Bi EA AUTO ALA TMP TDH TDC Fa A1 TEST Nom gt FA C1 TEST A un IP ADDR 10 0 5 51 ANAL ANA2 ANA3 ANA4 UDP PORT 10051 Ti T2 T3 T4 TS FIRMWARE VERSION B10363 fl Ge Ges ea Ge TIME UPDATE ARM 4 T6 T7 T8 T9 T10 TIME UPDATE COUNT 4 ee NND oe Rx RS232 TEST 0x00 Tii T12 T13 T14 T15 aS eS ee uuu Q T16 T17 T18 T19 T20 ee ALAS Ai A2 A3 A4 A5 A6 33 1 2 3 4 5 6 7 8 34 9 10 11 12 13 14 15 16 Configuration MODBUS OC1 OC2 OC3 OC4 0 12VL 0 12VR 0 BUS 5V From now on half opening or opening any of the connected windows or opening the doors will trigger the alarm Now The winter gardens inner doors were opened gt 3 B1 DESK USB CONSOLE SETTINGS DEVICE B1 gt 9 C1 DESK gt F8 A1 DESK 4 V3B1 test lJ 10 0 5 51 E3 10051 d i as ae ALA TMP TDH TDC C O Q kt gt EJ A1 TEST NE N A3 C1
69. 3 2 0kQ LED 4 4 0kQ Hysteresis sensitivity 0 25kQ Analog level 3 75kQ SAVE to the device 1 WIRE BUS The device is equipped with a 1 Wire bus To the bus you can connect e up to 32 digital DALLAS thermometers e up to 2 boards with eight relays based on the DS2408 IC e up to 2 modules with inputs outputs based on the DS 2408 IC one relay module and one input output module The bus 1s sensitive to interruptions and you should make sure that the wiring is done accordingly to the guidelines at http 1wire org 17 1 DALLAS THERMOMETERS If no thermometer is connected to the bus then the information in 5 window on the display in the main window of the program looks like this P EJ Bi DESK 1 f 2 mn PE 21 20 19 18 17 16 15 14 13 12 1110 9 8 ES o Q9 G G O uu uu E 9 D 4 gt a a i Bi _test i 2 Q 2 2 HR 10 0 5 31 E a b 6 gt 2 P LED1 4 LED 2 Oo o E E E 2 p ul ia ia a 4 jw o E D G eo 9 0 D amp 6 D G D lt Y gt g Y rn D a ir z Ww p sls a K D G 20020 E amp TY 56 gt o0 Q Q 14 F Uu 7 6 2 m m p i ta Fh m 7 G 6 Nu g x TYPE B1 E E A AUTO O1 O2 O3 O4 5 O6 O2s e 1s 0 5s F8 A1 TEST Pe f 7 Reset gt fg Ci TEST e V ay uo PIN 147 ANA1 ANA2 ANA3 ANA4 Ti T2 T3 T4 TS T6 T7 T9 T10
70. 3 2353 10 0 5 1 1i30 File name FIRMWARE UPDATE 123 bin t 19 PORT JT uto ilight Summer honore My Network Files of type Binary files bin Save configuration Time synchronization PIN for USB functions 9999909000009 f oenmmexe C 7 TetWmwe C Wwiemmwee J w 10 The firmware update file will be loaded 11 The file s path and size will be displayed in the console window 12 Next you need to write the loaded file 13 Press the Write firmware button marked red on the picture below IP 10 0 5 32 Software 1 51 2011 01 22 18 27 e 9 01B USB CONSOLE SETTINGS DEVICE A 10 0 5 3 2 137 TYPE A a p O1K hj 02A EA Internet A hj Internet B Bag Power generator O x h4 Power generator 1 USB configuration Save configuration Firmware update Synchronize time JU 13 1 5 10 0 5 1 PORTS T l 6 Auto ivil twilight Summe Save configuration Time synchronization PIN for USB functions 0999090900009 T 14 When you press the Write firmware button the update will start You can view it s progress on a bar in the lower right corner During update the progress bar changes color from gray to red The progress is measured in IP 10 0 5 32 Software 1 51 2011 01 22 18 27 USB CONSOLE SETTINGS DEVICE A 10 0 5 3 FT Init ftStatus 0 2011 01 26 22 35 07 Ba 27137 Firmware CRC GOOD C
71. 401080012 TEMP 4 26 5000 107FC 74401080012 Differential heating with minimum set 26 5000 107FC74401080012 45 0000 85 0000 8 0000 Differential cooling with maximum set 26 3125 28F8232C030000FD 10 0000 20 0000 8 0000 TEMP 7 26 5000 107FC74A01080012 TEMP 8 26 5000 107FC74A01080012 Just differential for vacum solar system 26 5000 107FC74401080012 Just differential for vacum solar system 26 3125 i 28F8232C030000FD TEME 11 26 5000 107FC74A01080012 TEMP 12 26 5000 107FC74401080012 Just cooling in differential mode 26 5000 107FC74401080012 Just cooling in differential mode 26 3125 28F8232CO030000FD TEMP 15 26 5000 l 107FC74401080012 TEMP 16 26 5000 107FC74A01080012 Just cooling in differential mode 26 5000 107FC74401080012 Just cooling in differential mode 26 3125 28F8232CO030000FD 4 0000 2 0000 Hysteresis diagram for heating and cooling Hys T ON ON cool OFF OFF 19 MODBUS Configuration window The Modbus protocol was implemented in PLC2011B1 to make the resources of the device available for other devices or computers In a cheap and easy way you can expand your installation based on PLC with additional interfaces You can also use PLC2011B1 as an Internet interface controller for a bigger PLC using mobile and encrypted software For instance if you have another manufacturer s PLC device equipped with a RJ45 input you can share your resources with that device You can control a different PLC device using an And
72. 5 101 NTP SERVER STATIC IP UDP PORT 123 ROUTER ACCESS LIST MAC 00 11 12 13 14 15 MAC 00 11 12 13 14 16 10 0 5 1 ETHERNET LAN QOOOOOOOOOOOOOOOOOOOO0O a CARTE IP 10 0 5 5 IP 10 0 5 4 IP 10 0 5 3 IP 10 0 5 2 IP 10 0 5 101 MASK 255 255 255 0 MASK 255 255 255 0 MASK 255 255 255 0 MASK 255 255 255 0 MASK 255 255 255 0 GW 10 0 5 1 GW 10 0 5 1 GW 10 0 5 1 GW 10 0 5 1 GW 10 0 5 1 STATIC IP or DHCP STATIC IP or DHCP STATIC IP or DHCP STATIC IP or DHCP NTP 10 0 5 1 MAC 00 11 12 13 14 16 WWW PORT 81 UDP PORT 27137 NTP PORT 123 OUT PORT 27016 STATIC IP 11 2 What is a NTP server A NTP server is also called a time server It is used to give us the current time It synchronizes itself to another computer in the Internet or an atomic time standard It s very important for communication with the devices that your computer has the actual current time differing no more than 15 seconds from the time in your device Computers used to control the device should have their times synchronized with an Internet time standard If the time in your computer and the time in your device differ by more than 15 seconds the communication between them will be lost This does not mean however that the communication has been lost for good Communication will be regained if you synchronize your computer s time to an Internet or your own time server If you use several alarms you
73. 700000060 1 Wire RELAYS 291BA913000000F0 33 INPUT 33 NEG 34 INPUT 34 NEG READ SAVE There are two checkboxes there 33 INPUT 34 INPUT Checking the box will make the chosen module work as inputs E g checking the 34 INPUT box will make the second module work in input mode 1 Wire module serial numbers are on the bottom of the list positions 33 and 34 The numbers above are the serial numbers of the thermometers Fahrenheit Check boxes 33 NEG 34 NEG are used to switch polarization to the opposite adjust the electric signal polarization to the connected module 0 is off 1 is on x a Night TEMP 17 TEMP 18 TEMP 19 TEMP 20 1 Wire modules TEMP 21 TEMP 22 TEMP 23 TEMP 24 TEMP 25 eneter serial numbers here TEMP 26 TEMP 27 TEMP 28 TEMP 29 TEMP 30 TEMP 31 TEMP 32 1 Wire RELAYS DS2408 2940A20700000060 1 Wire RELAYS DS2408 291BA913000000F0 33 INPUT 33 NEG Spaniel ur 1 W ERR Fahrenheit Thermometer alarms In the last AL Lo and AL Hi columns you can enter two limit values for temperature alarms If the temperature crosses any of these values this information can be used as a variable in building equations in OC output configuration 1 Wire input output configuration and T1 T20 timers This can be a freezing or overheating alarm If you leave these columns empty no alarm will be executed TEMP 17 TEMP 18 34 PUT zem THERMOREGULATORS Ea
74. 8 17 16 15 14 13 12 11 10 9 8 7 6 5 43 2 1 O LED 1 Gi i LED 2 A Geee00 r gt M83 Ci DESK ONLINE i LED 4 gt Fg Ai DESK JA B1 test ALA TMP TDH TDC gt 3 A1 TEST Bl DESK A3 Ci TEST e IP ADDR 10 0 5 8 92s is 0 5s Reset PIN 147 ANA1 ANA2 ANA3 ANA4 UDE FORT Aria U Ti T2 T3 T4 T5 FIRMWARE VERSION B10365 TIME UPDATE ARM 0 T6 T7 T8 T9 T10 TIME UPDATE COUNT 0 MA Rx RS232 TEST 0x00 Tii T12 T13 T14 T15 T16 T17 T18 T19 T20 RESET ALA4 ALA5 ALA6 L A2 L A3 Cias CIAS A6 Configuration MODBUS 33 2345678 PF 9 i01 12 13 14 15 16 o gt 00 OC1 OC2 OC3 OC4 0 12VL 0 12VR 0 0 BUS 5V Password Next double click the middle of the display so that the software hides to tray the place near the clock This condition has to be fulfilled For the function to be active you need to tick the chosen alarm zone and hide the software to tray necessarily by double clicking the display Minimizing to the taskbar will not arm this function Next you should exit the room lock the door and arm at least this alarm zone You can do this using a phone with Android tablet another computer switch on the wall etc 4 3 B1 DESK USB CONSOLE SETTINGS DEVICE B1 ES 10 0 5 8 PE 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 LED 1 LED 2 LED 3 gt EJ C1 DESK Fa A1 DESK gt FA Bi test ALA TMP TDH TDC 52s 1s 20 5s gt EA A1 TEST Ri IE
75. 9 T10 TIME UPDATE COUNT Rx RS232 TEST Tii T12 T13 T14 T15 PE 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 T16 T17 T18 T19 T20 VEEE 123 45 67 8 Em ow ow Timer OC1 OC2 OC3 OC4 0 12VL 0 12VR 0 0 Configuration MODBUS Password The Astro Timer configuration window will pop out Monday Tuesday Wednesday Thursday Friday Saturday Sunday Activated Activated Activated Activated Activated Activated Activated Sunrise correction Sunset correctionr fi Start time 0 0 00 00 0 0 00 00 00 00 00 00 or LU Stop time 00 00 00 00 00 00 00 00 D 00 00 00 00 eee ttre pall 58 n an 11 14 15 17 19 1 70 N 1 N 0 N 1 J 0 1 DEFAULTS TIMER RED ASTRO TIMER RED TIME LINE TIMER GREEN ASTRO TIMER GREEN TIME LINE TIMER BLUE ASTRO TIMER BLUE TIME LINE The settings of these timers are shown in their colors in the configuration window Monday Tuesday Wednesday Thursday Friday Saturday Sunday Activated Activated Activated Activated Activated C Activated Activated Sunrise correction 0 0 m 0 Sunset correctionr cz 00 0 00 0 0 0 D 00 00 JIL 00 00 00 00 00 00 00 00 EI 00 00 EIB 00 00 o Stro correctec jv em d ET TL LEE gan aW l SENSER wx FI bh f ROP je ir fe fs le fu he m fs hs e lv e le fo 14 15 17 19 1 720 N i N 0 N EN 1 N 7 01 DEFAULTS READ After s
76. B Firmware CRC GOOD CRC Calculated Internally Ox1E 0x88 F3 Power generator 0 Bootloader CRC GOOD CRC Calculated Internally 0x55 0x86 Firmware String 2011 01 22 18 12 RELAY v 0123 Ed Power generator 1 Boot loader String 2010 11 19 v3d SHBBBBBBSSSSSHHHHHHBBBBBHHSHSSHHHHHHHHBBBBBHHHSHSSHHHHHHHBBHEBBEBHSSSSSSRHHRS br Be Be ed EH bt USB configuration Save configuration Firmware update Synchronize time Save confiquratior ne synchronization PIN for USB functions EP 000000000000 17 After you update the firmware you need to reset the device 18 Press the RESET button on the front panel 19 All three LEDs will switch on then the red one will stay on for a short time 20 The device is ready for normal operation THE FIRMWARE UPDATE PROCEDURE IS THE SAME FOR THE PLC2011A1 CONTROLLER THE PLC2011B1 ALARM AND PLC2011C1 CONTROLLER 24 3 Errors during firmware update If an error message similar to the one on the picture below is displayed after you press the Write firmware button it means that IP 10 0 5 32 Software 1 51 2011 01 22 18 27 g USB CONSOLE SETTINGS DEVICE A 10 0 5 3 FT Init ftStatus 0 2011 01 26 22 41 29 Ba 27137 Test firmware crc 1 In CRC Error BytesReceived RxBytes O0 mB TYPE A Test firmware crc 2 In FW string Error BytesReceived RxBytes 0 FT Init ftStatus 0 2011 01 26 22 41 31 x aj O1K SectorCou
77. DESK 22222022020 20 E3 B1_ test 2220 4 2 22202201 810 0 5 51 T 2o 0000020 E 10051 A 0000000004 EA TYPE B1 ALA TMP TDH TDC e O Q Q Q Q 92s 1s 0 5s FA A1 TEST 7 7 7 l A3 C1 TEST WP WU WP WU IP ADDR 10 0 5 51 PIN 147 ANA1 ANA2 ANA3 ANA4 nah sion lecti Ma Ti T2 T3 T4 T5 anna MR D 16 Uo T8 T9 T10 T11 T12 Ti3 T14 T16 T17 T18 T19 33 1 2 3 4 5 6 7 8 34 9 10 11 12 13 14 15 16 OC1 OC2 OC3 OC4 0 12VL 0 12VR 0 BUS 5V BT BI Configuration MODBUS Password The Alarm Zone 1 lamp will change to yellow this color indicates that an alarm had occurred before the zone rearmed itself Zone 1 is armed Go to the SETTINGS tab Find the Read logs to the console field Click the Read logs button gt J Bi DESK USB CONSOLE SETTINGS DEVICE B1 gt KA C1 DESK gt EJ A1 DESK a te B1 test Cryptographic salt for secret passwords Salt PLC 4 Salting for PLC and others c 2011 FS JW SA PE SAVE Reset Salt TXT 4 Salting for SMS and e mail c 2011 S75 FE iT 5 C Enable changes Language selection C Verbose logging to the console English FA A1 TEST Encryption tools gt M3 C1 TEST SAVE RESTORE configuration Read logs to the console STATUS Restore from file l Erase logs forever Save to file C Enable erasing Local NTP server on this computer Windows Firewall settings on this computer C NTP Client My local subnet o
78. FF Ethernet Full Duplex FDX Geographic location of the device deg min sec as 2 51 E z1 Elin v SESI SIGE B Geographic Latitude p Geographic Longtitude A Timezone GMT w Last Sunday w Last Sunday Summer time honored for Sun calculations Summer is during European Winter for example PLC is installed in Australia DEFAULTS If you are in the same time zone as your device then when adding a new device to the device list you set the time zone to AUTO If you are sure that all settings except the time settings are correct then failure to connect while in AUTO mode means that there is definitely a problem with the time settings You then need to revise all your steps to find the mistake that you have made Short description IP Address or domain UDP Port Number Select device type Select time zone of the device Description here 10 0 5 100 27136 TYPE B1 AUTO The device is in the same timezone as my computer AUTO wi honor Summer daylight saving when operating inside the local timezone If you are in a different time zone than the device then you need to take that into account when adding a new device to the device list Instead of setting AUTO you need to choose the timezone in the location where the device is placed including whether it currently has winter or summer time For instance if in July you want to connect to a device in Hamburg while being in another part of
79. HIGH 29 9375 28F8232C030000FD 70 0000 TEMP 16 Heating thermostat with all alarms 26 0000 0 0625 107FC74401080012 1 0000 25 0000 22 0000 0 0625 Heating thermostat with all alarms 25 9375 0 0625 28F8232C030000FD 4 0000 75 0000 20 0000 1 0000 18 0000 18 2 DIFFERENTIAL THERMOREGULATORS Any neighboring pair of thermometers can work also as a more advanced differential thermoregulator In the 1 Wire configuration menu neighoring rows are displayed in the same shade of green brighter or darker Only the fields of the same shade can be used to build a differential thermoregulator The device does not need to be informed in any way that you want to create a differential thermoregulator You just need to enter real values into fields T AT 1 Hys and assign the differential thermoregulator in the output configuration window using the corresponding variable TDHI TDHIS odd numbers differential thermoregulator heating TDC2 TDC16 even numbers differential thermoregulator cooling If you enter differential thermoregulator variables then you need to ignore TMP variables as they will not have any sense The differential regulator measures the difference between two thermometers while at the same time calculating two addition equations One for heating one for cooling For example for rows 1 and 2 Row 1 T AT 8 0000 C Hys 4 0000 C differential temperature positive hysteresis value negative the equation is 8 C
80. In the PLC2011B1 Modbus configuration you should enter IP 10 0 5 10 IP address of the different PLC to which you will send out packets port 502 TCP or UDP port of the different PLC to which you will send out packets MAC 00 11 12 13 14 10 MAC addres of the different PLC to which you will send out packets 2 If the different PLC 1s somewhere in the Internet which means it has a completely different IP address it must be a public address then you must establish it s router s LAN interface IP address and the routers MAC address instead of looking for the different PLC s IP and MAC address Knowing the router s IP address you can establish it s MAC in the way shown before first pinging the router and then reading it s arp table entering the arp a line For example you will receive this data which you must enter in the Modbus configuration field of your PLC2011B1 device IP 10 0 5 1 this will be the router s IP address port 502 this will be the TCP or UDP port of the remote PLC you do not change this MAC 00 A2 1A 3F D4 18 this will be the router s MAC address To resume if the receiving device is in your local network you send data directly to the device If it is somewhere in the internet you sen data to it s router Modbus packets sent from PLC2011B1 to a different PLC reach the space in it s memory entered in the Start
81. It is also much more precise It can work closed in an electrical cupboard and is insensitive to factors such as high cloudiness massive snowfall or rainfall etc which can cause temporary darkness Also light sensors can get dirty which can make them malfunction The timer calculates the time of sunrise and sunset each day and commands connected devices based on these calculations In the device you can correct speed up or delay the time of sunrise and sunset What does this mean Look at the example below gt EJ B1 DESK USB CONSOLE SETTINGS DEVICE B1 g sea PE 21 20 19 18 17 16 15 14 13 12 11 10 9 8 b Ww wu wu wu ww Ww w w ww Ww Ww w ww Ww Ww w www w ww 4 3 B1 test 810 0 5 51 10051 EJ TYPE B1 ALA TMP TDH ToC 1 O2 O3 O4 OS QO 02s 1s 0 5s Reset ANA1 ANA2 ANA3 ANA4 lonis te ST T1 T2 T3 T4 T5 TIME U 4 T6 T7 T8 T9 T10 x Rx RS232 TEST 0x00 Til T12 T13 T14 T15 1 gt Ea Monday Tuesday Wednesday Thursday Friday Saturday Sunday Activated C Activated Activated Activated Activated Activated Activated Sunrise correction i l i n Sunset correctianr Start time Stop time EN RN NT NN RN a n 57 21 4 11 13 i14 45 17 19 Lo N 1 N 0 N N 1 as 7 201 DEFAULTS READ e Sunset is at 09 48 P M e you want the lighting outside your house to switch on about an hour before sunset when it s beg
82. MODBUS 33 12345678 oci OC2 OC3 OC4 0 12VL 0 12VR Password Screen 2 Shown in this screen are current resistance values for all 21 inputs Only the configured and assigned to an alarm zone inputs are active This screen is also used for input calibration with a 7 5k resistor 4 54 New Device USB CONSOLE SETTINGS DEVICE B1 PE 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 E3 10051 EA TYPE B1 EJ AUTO ALA TMP TDH 2 Q Q 20 k k Reset E PIN 147 ANA1 ANA2 ANA3 ANA4 k a T1 T2 T3 T4 T5 NEN NN T6 T7 T8 T9 T10 T11 T12 T13 T14 T15 T16 T17 T18 T19 T20 f f Configuration MODBUS 34 Astro 2 2 oo oa Timer OCi OC2 OC3 OC4 0 12VL 0 12VR 0 0 BU id f 11 12 13 14 15 16 Password Screen 3 ping between the device and the computer from the moment a packet is sent to the moment an answer is received sunrise and sunset times current battery voltage you need to calibrate it in the main configuration window other parameters are only used for testing and can change Calibration of the voltage of the battery is done in the following way Connect the battery and measure the voltage on it s clamps using a multimeter In the Main Configuration window the button above the Astro Timer button enter the correction either or save the setting and wait for the restart Next compare the readings in these screen to those from the multimeter Continue the calibrati
83. NAL ANA2 ANA3 ANA4 i ALA1 m m ALA4 ALA6 Add a new device N Delete selected device Configuration MODBUS Password Pick Add a new device PE 21 20 19 18 17 16 15 14 13 12 11 EA TYPE B1 O G aaa EA AUTO A 2 pe 2220 o odd OC1 OC2 OC3 OC4 oo owo ow o4 o o o4 Gm b i UD UP UD uU D oO uU 19 9 FF ooo ot gt gt up up q o ooo o9 4 2s is 0 5s Reset PIN 147 m 12 T3 174 u EH EN V JOSS O E E E i iii j 34 5 io 11 12 13 14 15 16 0 12VR 0 BUS 5V T8 T9 T10 T13 T14 T15 T16 T17 T18 T19 T20 A1 A2 A3 A4 A5 A6 FALL LET 333552345678 0 12VL The Add a new device window will pop out Here enter the device name you want to be displayed on the list the device s IP address UDP port number device type and the time zone where the device is placed If the device s timezone is the same as the computer s timezone then pick AUTO Short description IP Address or domain UDP Port Number Select device type Select time zone of the device 10 0 5 100 27136 TYPE A AUTO AUTO The device is in the same timezone as my computer AUTO will honor Summer daylight saving when operating inside the local timezone TYPE B1 PLC2011B1 Programmable Alarm You save by pressing the Accept button gt EJ New Device USB CONSOLE SETTINGS DEVICE B1 4 FA My new de
84. ONSOLE SETTINGS DEVICE B1 D C1 DESK Windows Version 6 2 build 9200 gt F3 A1 DESK WM DEVICECHANGE DBT DEVNODES CHANGED 2015 07 16 4 i B1 test WM DEVICECHANGE DBT DEVNODES CHANGED 2015 07 16 ur WM DEVICECHANGE DBT DEVNODES CHANGED 2015 07 16 M 10 0 5 51 WM DEVICECHANGE DBT DEVNODES CHANGED 2015 07 16 10051 WM DEVICECHANGE DBT DEVNODES CHANGED 2015 07 16 FA A1 TEST 9 C1 TEST USB configuration Save configuration Firmware update Synchronize time Password IP MASK GW UDP WWW 10 0 5 100 255 255 255 0 10 0 5 1 27136 80 MAC ADDR NTP SERVER IP 00 11 12 13 14 15 10 0 5 1 PORTS NTP OUT 123 27015 GMT and Summer time 6 Auto Civil twilight Summer honored v Summer is during European Winter for example PLC is installed in Australia Save configuration Time synchronization PIN for USB functions Open firmware Test firmware Write firmware Remember to enter the rules concerning time changes in the location of the device If you choose wrong months days or hours of the time changes then in the moment when the time actually changes either in the device or in your computer connection with the device will be lost because the time will suddenly become incorrect Example of settings for Melbourne GMT 10 IP Address 10 0 5 51 Battery charging parameters ADC volt correction for proper measurement Subnet Mask 255 255 255 0 aud pum Default Gateway 10 0 5 173 l ADC value when we treat battery a
85. OV GND CONO AO VWOSS HAZL Internally connected to 12VL 250mA 5V 50mA only for 1 Wire 12VR 250mA for PIR sensors and similar DO NOT use it for relays or other inductive loads if used with OC1 0C4 1 Wire bus for DALLAS thermometers DS18x OV GND Ground internally shorted to PE 12VL 250mA for relays and PIR sensors Internal schematic diagram of OC outputs internally connected to OV GND and PE podlaczone katody diod zabezpieczajacych Power supply wsp pracuj cych z wyj ciami OC1 0C4 i posiada A CONNECTION DIAGRAMS Below there is a link to a PDF file containing examples and connection diagrams useful when creating your own intelligent home installation and alarm system The file is systematically updated with new examples so you should check it regularly Guidebook your own intelligent home installation TECHNICAL SPECIFICATION Weight of the device 0 6kg Weight of the whole package 0 7kg Dimensions length width height mm 144 90 57 Mounting DIN rail Power supply An external stabilized 15V 1A power supply unit Plug with plus inside The PSU must always generate 15V Otherwise battery charging will be to weak or to heavy Electricity consumption Between W electronics only and 2W Battery 12V gel battery input with a charging system Maximum battery charging current 100mA Use VRLA batteries in the range from 2Ah to 17Ah 7Ah
86. PLC2011BI PROGRAMMABLE CONTROLLER ALARM OPERATION VIA THE INTERNET USING A PC OR ANDROID 000009099999993 F N oe J 1 ENCRYPTED DATA TRANSMISSION BUILT IN ASTRONOMICAL TIMER 1 INTRODUCTION The devices purpose e The alarm unit is equipped with 21 resistance recognizing inputs which can be connected to 84 sensors The unit is programmed operated and controlled via the internet using a PC or an Android mobile device phones smartphones tablets in a way ensuring absolute safety e Remote control or after programming automatic operation without the user s constant supervision e 4 open collector outputs and 2 12V power supply outputs e option to expand the number of inputs outputs using a maximum of 2 input output DS 2408 modules on 1 Wire bus They can be added in groups of eight so you can have 8 or 16 additional 1 Wire inputs or 8 or 16 additional 1 Wire outputs e Wire bus with the ability to connect 32 DALLAS digital thermometers pressure humidity or insulation sensors etc e 16 built in thermostats with heating cooling options or 8 differential thermostats About the software The PLC2011B1 operating software for Windows does not have any functions that would spy on the user It does not steal data connect to unknown internet addresses or to the manufacturer or the software s author No data are saved to the Windows registry system and all settings and configuration files are created
87. R35 4 27 1 Wire relay DS2408 at R35 5 58 1 Wire relay DS2408 at R35 6 59 1 Wire relay DS2408 at R35 7 60 1 Wire relay DS2408 at R36 0 Extension board based on the DS2408 chip with 8 61 1 W lay DS2408 at R36 1 t aa relays This R33 marked board is defined at row 36 of 62 1 Wire relay DS2408 at R36 2 the temperature thermostat settings 63 1 Wire relay DS2408 at R36 3 The logic formula is the same as for open collector outputs 18 to 41 above 64 1 Wire relay DS2408 at R36 4 65 1 Wire relay DS2408 at R36 5 66 1 Wire relay DS2408 at R36 6 67 1 Wire relay DS2408 at R36 7 68 DS18B S 20 HIGH byte 1 69 DS18B S 20 LOW byte 1 5 pe DALLAS MAXIM 70 DS18B S 20 HIGH byte 2 http www maximintegrated com 71 DS18B S 20 LOW byte 2 Digital thermometers 72 DS18B S 20 HIGH byte 3 73 DS18B S 20 LOW byte 3 74 DS18B S 20 HIGH byte 4 75 DS18B S 20 LOW byte 4 76 DS18B S 20 HIGH byte 5 77 DS18B S 20 LOW byte 5 78 DS18B S 20 HIGH byte 6 79 DS18B S 20 LOW byte 6 80 DS18B S 20 HIGH byte 7 81 DS18B S 20 LOW byte 7 82 DS18B S 20 HIGH byte 8 83 DS18B S 20 LOW byte 8 84 DS18B S 20 HIGH byte 9 85 DS18B S 20 LOW byte 9 86 DS18B S 20 HIGH byte 10 87 DS18B S 20 LOW byte 10 88 DS18B S 20 HIGH byte 11 89 DS18B S 20 LOW byte 11 90 DS18B S 20 HIGH byte 12 9 DS18B S 20 LOW byte 12 92 DS18B S 20 HIGH byt
88. RC Calculated Internally Ox1E 0x88 Bootloader CRC GOOD CRC Calculated Internally 0x55 0x856 TYPE A y Firmware Strindg 2011 01 22 18 12 RELAY A v 0123 ES O1K Boot loader String 2010 11 19 v3d 02A BHHHHHHHEHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHSHHHHEHHHHHH Internet A FT Init ftStatus 0 2011 01 26 22 35 07 Internet B SectorCount 240 SectorSize 128 Power generator 0 Firmware Space Erasing 2011 01 26 22 35 07 Firmware Update Started please wait 2011 01 26 22 35 09 EH EH BH EH Bd Power generator 1 USB configuration Save configuration Firmware update Synchronize time Iram jizatiot PIN for USB functions 0990090000009 15 When the update is finished the progress bar will change color to green 16 The console will display information about the update being finished and the version of the new firmware IP 10 0 5 32 Software 1 51 2011 01 22 18 27 g USB CONSOLE SETTINGS DEVICE A 10 0 5 3 SectorCount 240 SectorSize 128 Ba 27137 Firmware Space Erasing 2011 01 26 22 35 07 Firmware Update Started please wait 2011 01 26 22 35 09 Firmware Update Finished 2011 01 26 22 35 24 TYPE A ES OIK Please power off or RESET the device 02A BSHHHHHHEHHHHHHHHHHHHHHHHHHEHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHEHHHHHHHHHHHH Internet A FT Init ftStatus 0 2011 01 26 22 35 24 EJ Internet
89. SHORT Innen nnnnn nensi nnn nnns 145 29 Lt Te SORGE Geneseos E sees rorebore e Pere epEUUP E suet ndeoese PE OUI PIN UR EN 145 PS NONI VET ERR RR ROO E ne ee ene eee 146 2X3 UDA onsol DD ou tete mp MM MM MEE MER 148 294 SBTTINOSTIDuosewcan tui rapa DEI EDENDUM TUI 149 PA NSNPIDVALGISNIU NL T 158 29 0 Addn anew device to the DS eocscdee ned Emme pum lu oum one qd m bemE MEE ed hoe m dist b dendum nEd 163 25 7 Resettinps the device usine The SOMW ALC een turpe qin dott P nM van M aut vesc ndn au e uns este 165 23 8 Operation in tray task bar next to the clock sss 166 ZR Ib NER PI dr 167 24 1 HOw to turn on The firmware update 1nO 6 a erre reor oua eee Se arb Eae Fare EEEE NNE 167 DoE WME WAU s AE E AEE atem Edu dein p oe DUM eR CI Ir 168 22 9 Erros dutino WIT iy APE WIC ALG uossmseeeume ou pA I NES E E UPS MEUM DNE 172 2S ADDETIONAT BUINCDICUNS ene mer eee er en PUSH RH RH 173 29 ICT defense ot switclied on COIDULOES eos ioris p pete ree esae ioter Ee ede mE PEr PRESS eIF Agen tbRS Guns 173
90. T 27136 The UDP port at which the device listens It can be set to any number in the range from 1 to 65535 NTP PORT 123 UDP port that the device connects to It is usually the time server port and you should expect the time server will use this port OUT PORT 27015 Local exit port for the UDP packets When the device sends a message to the NTP server it sets this number as the source s port and awaits a response at this port It can be set to any number in the range from 1 to 65535 STATIC IP The router assigns IP addresses statically This means the device will not acquire a new network address each time it 1s connecting to the network but you must set a permanent IP address An example of how to set addresses of devices inside a network is shown in the diagram myrouter dyndns org IP 10 0 5 32 Software 2 94 2011 07 24 02 48 EB KONSOLA USB USTAWIENIA URZADZENIE B 12 34 56 78 5 Ea 27136 TYPE B AUTO O2s 1s OSs O 2 EX ial ES BH ALARM3 ALARMd i 1 lt D ANALOGI ANALOG2 n 9 1 Ye Di E E ALARMS ALARM6 RESET ANALOG3 ANALOG4 xo Gl wna konfiguracja PIN 147 aS 52 07 Ee Astro OC1OC2 OC30C4 OV HI2VL OVHI2VR OV OV BUS 5V BT BT Casert INTERNET IP 10 0 5 100 MASK 255 255 255 0 GW 10 6 5 1 A NTP 10 0 5 1 ROUTER PORT FORWARDING MAC 00 11 12 13 14 15 Protocol Ext Port Int IP ROUTER UDP PORT 27136 UDP 27136 10 0 5 100 ai rre ie TCP 81 10 0 5 101 UDP 27137 10 0
91. TEST IP ADDR 10 0 5 51 ANA1 ANA2 ANA3 ANA4 UDP PORT 10051 Ti T2 T3 T4 T5 FIRMWARE VERSION B10363 TIME UPDATE ARM 4 T6 T7 T8 T9 T10 TIME UPDATE COUNT 4 Tii T12 T13 T14 T15 Rx RS232 TEST 0x00 Q T16 T17 T18 T19 T20 RESET ALARM IN ALARM ZONE RU AUS Aue AL LIA2 A3 Da Das 146 WINTER GARDEN DOORS WAS TRIGGERED Configuration MODBUS 33555345678 394 9 1011 12 13 14 15 16 e e 9 eo 0 0 OC1 OC2 OC3 OC4 0 12VL 0 12VR BUS 5V BT BI Password Alarm zone button 2 changed color to red which means that the alarm in zone 2 was triggered LED 4 on input 5 to which the reed switch in the winter garden inner door is connected went off which means the door was opened You can see in what zone and where exactly an event had occurred that triggered the alarm Deleting an alarm in an alarm zone ALARMS IN ALARM ZONES 1 6 DO NOT DISAPPEAR TOGETHER WITH THE CAUSE OF THE ALARM THEY NEED TO BE DELETED OR YOU NEED TO SET AUTOMATIC RE ARMING You delete an alarm in an alarm zone by clicking it s alarm zone button when it s red Of course remember to first enter the 147 PIN code You do the same if the alarm was triggered by the Line Sabotage Guard function That kind of alarm will be shown in blue differently from a normal alarm If the alarm zone button changes back to blue after you switch off the alarm it means that the cause of the alarm has not disappeared and you need to check the circuits connect
92. TINGS DEVICE B1 P PE 21 20 19 18 17 16 15 14 13 12 1110 9 8 7 6 5 4 3 E3 10051 EA TYPE B1 zm EA AUTO TYTYY POTTY ALA TMP TDH TDC New Device e ei IP ADDR 10 0 5 51 PIN 147 ANAL ANA2 ANA3 ANA4 e PIT U Ti T2 T3 T4 TS mm omm FIRMWARE VERSION B10363 TIME UPDATE ARM 4 T6 T7 T8 T9 T10 TIME UPDATE COUNT 8 Rx RS232 TEST 0x00 Tii T12 T13 T14 T15 Q T16 T17 T18 T19 m RESET VEE E EE 9 10 11 12 13 14 15 16 OC1 OC2 OC3 OC4 0 12VL 0 12VR BUS 5V A1 A2 A3 A4 JAS A6 Configurati MODBUS 74147 77P 34 onriquration 12345678 Password Display The display in the middle of the main window has 6 screens You switch between the screens by selecting one of the five radio buttons above the display Screen 1 name of the device chosen from the device list the device s IP address UDP port number firmware version a B New Device USB CONSOLE SETTINGS DEVICE Bi E4 10 0 5 51 E3 10051 EJ TYPE B1 FA AUTO A ALA TMP TDH TDC PE 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 2s is 0 5s New Device IP ADDR 10 0 5 51 PIN 147 ANA1 ANA2 ANA3 ANA4 UDP PORT 10051 UJ Ti T2 T3 T4 T5 FIRMWARE VERSION B10363 ENS Be TIME UPDATE ARM 4 T6 T7 T8 T9 T10 TIME UPDATE COUNT 8 ALAI Rx RS232 TEST 0x00 Tii T12 T13 T14 Tis E O T16 T17 T18 T19 T20 RESET ALAG ALAG JA1 A2 A3 A4 A5 A6 FAA EEL ER Configuration
93. UT 2 0 00 0 25 3 75 S ALARM ZONE 1 INPUT 1 a 5i 007 S R INPUT 3 INPUT 4 INPUT 5 INPUT 6 INPUT 7 INPUT 8 INPUT 9 5 E Rd IPUT10 000 E o3 E 375 araRM ZONE 1 vi Lond i w m pha wen oo B oas B azs ama zomen v E E DEFAULTS and do not save READ from the device SAVE to the device After clicking the left mouse button in the place pointed to on the picture with a red arrow a list will appear from which you can chose where do you want to assign the input Because you are now configuring alarm you should bind an input with an alarm zone You can choose from one of the six alarm zones ALARM ZONE 1 to ALARM ZONE 6 What is an alarm zone In this case it 1s a collection of inputs with connected sensors reed switches in windows or doors motion sensors smoke sensors etc which you can arm and disarm simultaneously by clicking one zone button You can bind only one input to an alarm zone or you can bind all of them How a zone is configured and what sensors are assigned to it 1s only up to the user For example to one zone you can assign all windows to a second all smoke detectors and motion sensors to a third You can also treat separate rooms as separate zones It all depends on your needs and the specifics of a given building Defining too many alarm zon
94. Windows Firewall rule will be added here 3600 The name of the rule will be M Y NTP SERVER NTP Server Port number to open close 123 Read entries from the registry Add rule to the Windows Firewall Write entries to the registry Delete rule from the Windows Firewall The ability to make changes will be unlocked IP 10 0 5 32 Software 4 33 2012 07 07 15 41 LEN ALARM USB CONSOLE SETTINGS DEVICE A GATES Cryptographic salt for secret passwords E Em Salt PLC Salting for PLC and others C 2011 RS TM BA pE 4 TEST B Salt TXT Salting for SMS and e mail c 2011 SF RII T IR I Enable changes TEST A relay een C verbose logging to thefconsole TEST A2 KA Encryption tools my ONLINE Ri Read logs to the console R2 EIR R4 TEST DEVICE TYPE C kr EH EH Ee EH Bed lt ed ed Erase logs forever Save to file Enable eras dj E Local NTP server on this computer Windows Firewall settings on this computer NTP Client My local subnet only NTP Client pooling interval s The new Windows Firewall rule will be added here 3600 The name of the rule will be MY NTP SERVER NTP Server Part number to open close 123 Read entries from the registry Add rule to the Windows Firewal Write entries to the registry Delete rule from the Windows Firewall You will now be able to switch Salt on and off and enter your own Salt text Using
95. ain display in the software described as PIN 147 When you enter this code the device will exit the safe mode This mode protects you from accidentally clicking on an input the RESET button or a relay It is a sort ofa safety fuse After you enter the number 147 the screen will change color into light pink and all the options in the program will be unlocked Pressing the small RESET button placed next to the field where you enter the code will put the device back into safe mode In safe mode you can enter individual menus but you cannot click on strategic places on the screen Another PIN code 369 also exists It has a similar function as the one presented above but it also makes the device send out packets 10 times per second This mode is for testing the bandwidth Programming and operation This is not a typical programmable logic controller You do not program it in the STL language or build a LAD ladder This is a programmable controller with an alarm and measuring functions programmed by building logical functions using available variables intended for people who do not have time to learn how to program relays but who need to carry out a quick modernization of their electrical installation who want to equip it with additional logical functions temporal dependencies between circuits but first and foremost who want to control the installation using the Internet without having to worry whether the transmission is safe
96. arm or analog zone binding resistance kQ al sensitivity KO level kQ for resistance measurement 0 10 kQ vo MENO NENNEN NENNEN gt v MENS NENNEN NEN NENNEN EMI Siku rentona SAP dedexe S cocosoGososs After unchecking the checkbox and saving the settings click the alarm zone 2 button The alarm is now armed even though the door are still open gt 9 B1 DESK gt 3 C1 DESK gt 3 A1 DESK 4 5 B1 test EJ 10 0 5 51 E3 10051 E3 TYPE B1 fg A1 TEST Fa C1 TEST ALARM ZONE 2 ARMED USB CONSOLE SETTINGS DEVICE B1 DOOR STILL OPEN Q 21 20 19 18 17 16 15 14 13 12 11 10 9 ALA TMP TDH TDC 02s 1s 0 5s PIN 147 Ti T2 T3 T4 TS C D T6 T7 T8 T9 T10 T11 T22 T13 T14 T15 Q T16 T17 T18 T19 T20 A1 A2 143 A4 AS A6 RESET IP ADDR 10 0 5 51 UDP PORT 10051 FIRMWARE VERSION B10363 TIME UPDATE ARM TIME UPDATE COUNT Rx RS232 TEST ANA1 ANA2 ANA3 ANA4 B1 test C eeej Reset ALA4 ALAS ALA6 Configuration MODBUS 33355345678 34i 10 11 12 13 14 15 16 OC1 OC2 OC3 OC4 0 12VL 0 12VR BUS 5V BT BI Password Remember though that in this situation closing the door will trigger the alarm gt EA B1 DESK gt 3 C1 DESK gt EJ A1 DESK 4 5 B1 test 810 0 5 51 E3 10051 EA TYPE B1 E AUTO FK A1 TEST gt 3 C1 TEST ALARM TRIGGERED IN ZONE 2 USB CONSOLE SETTINGS DEVICE B1 WITH DOOR CLOSED
97. be MY NTP SERVER Cryptographic salt for secret passwords Salt PLC C verbose logging to the console NTP Server Port number to open close 123 Read entries from the registry Add rule to the Windows Firewall Write entries to the registry Delete rule from the Windows Firewall You have two options Salt PLC Salt TXT Only the first function 1s important when assigning a password Both of the Salt functions are switched on by default and consist of a random string of characters In the fields you can enter any Salt you want The Salt can consist of up to 64 characters The characters should be entered randomly It is also a good idea to use special characters such as letters written in different alphabets The more complicated the better Both Salts must be different from each other More about Salt for text messages is written in a latter part of the manual To make any changes to the default settings you must first check the Enable changes checkbox IP 10 0 5 32 Software 4 33 2012 07 07 15 41 ALARM USB CONSOLE SETTINGS DEVICE A GATES POWER GENERA TOR ALARM 1 TESTE Salt TXT TEST A relay TESTA 2 KA Ri R2 TEST DEVICE TYPE C Cryptographic salt for secret passwords Salt PLC KEEN b i Local NTP server on this computer Windows Firewall settings on this computer NTP Client My local subnet only NTP Client pooling interval s The new
98. ceiving device will start e Transmit Interval 1 255s how often will the device send out data to the receiver UDP src port e Modbus mode the type of used Modbus protocol You can choose UDP TCP or Modbus OFF ee p C 0 Day of the week 0 Sunday 1 Monday i Year HIGH byte 2 Year LOW byte 3 Month 4 Day 5 Hour Real time clock and 6 Mss astronomic timer for the actual day 7 seconds 8 Sunrise HIGH byte 9 Sunrise LOW byte 10 Sunset HIGH byte 11 sunset LOW byte 12 Open collector output 1 13 Open collector output 2 Open collector outputs 14 Open collector output 3 This is the formula for OC and DS2408 outputs 15 Open collector output 4 16 Open collector output 5 n pe asus a 17 Open collector output 6 NOT Flashing 18 Open collector output 7 7 19 Open collector output 8 if OC amp 0x81 0x81 20 Open collector output 9 ON 2 Open collector output 10 MESTE 22 Open collector output 11 else 23 Open collector output 12 ce Piaching 24 Open collector output 13 25 Open collector output 14 26 Open collector output 15 27 Open collector output 16 28 Open collector output 17 29 Open collector output 18 30 Open collector output 19 31 Open collector output 20 32 Open collector output 21 33 Open collector output 22 34 Open collector output 23 35 Open collector output 24
99. ces must be in the same local area network Depending on whether you want the device to send out or receive commands you need to set the options Enable shared memory input Enable shared memory output If you want the device to do both those things you need to select both of these options Enable shared memory input Enable shared memory output The command which you can use are the same as those presented in the Legend 1 tab You cannot however send out a combination of commands or an equation Equations will be created in the receiving device using data from your device Entered commands will be signals from your device that will trigger a reaction in other devices For example if you enter INP1 into the table then the signal for other devices will be sent out when you switch on this input in the transmitting device Also the signal will be sent out when the input is switched off The command will then stop being active Sending out commands First you need to set the Start Address Offset This is the place in the shared memory where you will start entering commands which you want to send to other devices The command table has 32 spaces cells This is the maximal number of commands that can be transmitted between devices on one channel Therefor you need to pick a values between 1 and 32 The table is the same for all cooperating devices but at any given moment you can only see the commands coming from the device you are curr
100. ch DS18 thermometer can operate like a simple thermometer with no additional features or as a single thermoregulator with regulated hysteresis This way you can build 16 simple thermoregulators Simple thermoregulators heating or cooling variables TMP 1 TMP 16 4 3 B1 DESK USB CONSOLE SETTINGS DEVICE B1 m 10 0 5 8 27138 EA TYPE B1 222222202022 N N G d 200 fg AUTO A T T a a Q G2 G3 Q m C z E 00000000004 8B 7 6 5 4 3 2 a gt EJ C1 DESK YIX gt 8 A1 DESK a he me Gb S ups gt mn Bi test ALA TMP TDH TDC Q e O 2s 1s 0 5s aX A1 TEST no C 12 42V Reset A3 C1 TEST 3 n PIN 147 i wo em EB Faroa REE o rain Ti T2 T3 T4 T5 10 ire sc oO o o T6 T7 T8 T9 T10 T13 T14 T15 T20 TMP1 TMP16 C A1 A2 A3 A4 A5 A6 Configuration MODBUS 12345678 34 9 10 11 12 13 14 15 16 Astro 2 o o0 eo e Timer OC1 OC2 OC3 OC4 0 12VL 0 12VR 0 BUS 5V Password What does each icon represent a green triangle pointing up means the thermoregulator is expressing a need for heating or cooling and sets up variable TMPx a blue triangle pointing down means the TMPx variable is inactive due to being in the hysteresis range after crossing the wanted temperature level for either heating or cooling The sign of the hysteresis shows whethe
101. chronization is to make the time in your device identical to the atomic time delivered to your computers or mobile devices Without properly synchronizing the time it will be impossible to connect to the device The difference in time cannot be bigger that 15 seconds When do you need to synchronize the time using the USB cable 1 After you run the device for the first time and save the password and network settings 2 Every time you unplug the main power supply and the battery meaning after a total loss of power Battery A battery must be connected to the device at all times Without a battery you will need to connect the device with a computer using an USB cable and synchronize time every time there is a loss of power During a period of power outage the device should work on a battery so that you can connect to the device via the computer network and remotely check the cause of the power loss Therefor a battery should always be used This allows us not to worry about connecting the device to a computer and synchronizing time every time there is a power outage We recommend that you use a gel battery that has a capacity of up to 17Ah Without the time set correctly the features related to the Astronomical clock will malfunction or not function at all Admittedly the device does have automatic synchronization and downloads the correct time from NTP server set by us but only within the range of the same minute The year
102. ck of transmission The device will not receive anything and will not signal that something 1s wrong These settings should be made carefully As the Modbus protocol is in no way secured from attacks at devices encrypted or secured from impersonating devices you should take steps to ensure safety of the wiring and separate the devices which receive the transmission from the internet with routers Its good to configure a VPN tunnel between boundary routers This exceeds the contents of this manual and you should consult a specialist on this matter Your PLC2011B1 sends out packets directly to the network interface of the destination PLC using it s MAC address without making ARP who has inquiry and without waiting for ARP is at response This 1s why you need to establish the destination MAC address manually This 1s an advantage as an intruder trying to intercept IP addresses and corresponding MAC addresses will not be able to hear the devices This is because ARP packets are sent to every switch port and are broadcast packets which makes possible to use them to create a device list and impersonate these devices Another reason to know the MAC address during configuration are examples of tested devices which did not have properly operating network protocols We advise you to use the UDP protocol for transmission instead of TCP The UDP protocol generates highly lower network traffic between devices Because the PLC2011B1 o
103. ct the device to a computer with an USB cable and use the PIN code to execute the First Run procedure again You will not need to synchronize time again if the only thing wrong 1s the IP address If you keep the device at your house then configuring again using an USB cable will not be a big hassle but if it s at your company or shop then you will lose precious time to get there and reconfigure the device The transmission is secured using a couple of methods including cryptographically and there is no chance that the lack of communication is caused by the device If a packet has even 1 bit corrupted is not possible to decrypt the packet the whole packet will be recognized as invalid and rejected by the device The device configuration procedure in the Main Configuration window is the same for the PLC2011B1 Alarm and the PLC2011A1 and PLC2011C1 Controllers The only exception is the TCP Port for WWW field where you leave 0 as the PLC2011B1 Alarm does not have a built in www server 11 1 Network configuration An example of how the network can be configured is shown on the next diagram Presented network addresses are just the exemplary settings Your real addresses and router configuration should be provided to you by your network administrator The device must have an invariable static IP address or otherwise you will not be able to connect to the device from outside the local network or even in the local network Your every dev
104. d battery If the battery 1s detected two lamps in the software s main window will switch on In the software these lamps are placed where the battery connectors are in the actual device If the set value of this parameter is too low the lamps will switch off near the end of the charging period The following steps should be taken 1 First correct voltage readings with regard to the universal meter 1 ADC unit corresponds to around 0 01 V 2 Next read the ADC value from the software with the battery disconnected 3 Enter this value into the ADC value when we treat battery as connected field and subtract 10 units by clicking the down arrow 4 Save the parameters and check whether they are working correctly Check whether the lamps switch off when the battery is disconnected STARTING WORK WITH THE PROGRAM The basic version of the software is delivered with the device The program does not require installation Simply copy it to a chosen location on your hard drive could be a folder created earlier for this purpose and run it When you run the program a new file myrelays xml will appear in the folder This 1s a configuration file which keeps inside sensor alarm or button descriptions etc If you plan on moving the program to another folder or running it on another computer remember to move the myrelays xml file also as otherwise you will have to add new devices assign names etc again Ld F
105. d to 1 Wire In addition to the thermometers you can also connect e up to 2 boards with eight relays based on the DS2408 IC up to 2 modules with inputs outputs based on the DS 2408 IC one relay module and one input output module The last two positions 33 and 34 in the 1 Wire settings are used to enter their serial numbers The procedure is the same as with thermometers Using these modules you expand the device by another 8 or 16 relays In the 1 Wire thermometer window you pick whether you want the modules to work as inputs or outputs Click the BUS icon gt E B1 DESK USB CONSOLE SETTINGS DEVICE B1 fie PE 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 4 Q Q Q Q OQ Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q 1 4 E3B1 test o o ooo a ooo do LED2 fg 10 0 5 51 Q Q Q Q Q Q OQ Q Q Q Q9 Q9 yee eee 9 9 9 Q eee 10051 J AUTO ALA TMP toH TOC O1 O2 O3 O4 5 O 2s 1s O0 5s F8 A1 TEST H8 C1 TEST MD uID UID uu PIN 147 ANA1 ANA2 ANA3 ANA4 Ti T2 T3 T4 T5 Reset T9 T10 ALA4 ALAS ALA6 Configuration MODBUS Astro LN Password The 1 Wire settings window will pop out Scroll to the bottom TEMP 17 TEMP 18 TEMP 19 TEMP 20 TEMP 21 TEMP 22 TEMP 23 TEMP 24 TEMP 25 TEMP 26 TEMP 27 TEMP 28 TEMP 29 TEMP 30 TEMP 31 TEMP 32 1 Wire RELAYS DS2408 2940A20
106. daily rhythm of sunrises and sunsets for the given geographic zone It can also block or trigger different operations during the day or at night after sunset 22 2 How does the Astro timer work The Astro timer operates based on the following information current date e the device s location geographical coordinates of the place where the device was mounted time zone time difference between the time zone where the device is used and universal time gt E B1 DESK USB CONSOLE SETTINGS DEVICE Bi 2 gt E C1 DESK PE 21 20 19 18 17 16 15 14 13 12 11 Bg A1 DESK O 9 ee ee ee ta B1 test o 9 a o oo oO o 000 00 0 oO h h LL LZ COE FL A i k yp 1 y Y y Y P E3 10 0 5 51 ONLINE ALA TMP TDH TDC 1 O2 O3 O4 Os O6 92s 1s 20 5s gt EA Ai TEST Pa yi j CN Reset gt 4 C1 TEST P or LJ PIN 147 ANA1 ANA2 ANA3 ANA4 U Ti T2 n3 ud T5 C D T6 T10 T11 34 9 10 11 12 13 14 15 16 OC1 OC2 0OC3 0C4 0 12VL IP Address Subnet Mask 290 200 2000 Default Gateway 10 0 5 173 UDP Port Number 10051 WWW Port Number 80 0 WWW OFF Ethernet MAC address 00 00 11 11 11 11 Time server NTP 10 0 5 173 Time server NTP port 123 0 NTP OFF Outgoing NTP port 27015 ETH ver 0xB7 Summer Winter time settings at local time
107. ds sent it s direction ignore responses and does not react to other Modbus inquiries from other Master devices A computer other PLC device router or any other device can be a recipient Due to a lot of errors in network protocol implementation in many older PLC devices which are not supported anymore we decided on the following configuration PLC2011B1 sends out TCP or UDP packets in the following way PLC2011B1 different PLC 1 If different PLC is in your local network the same subnetowork the same network segment that means it has a similar IP address e g PLC2011B1 10 0 5 5 different PLC 10 0 5 10 Then you must establish what 1s that different PLC s MAC address and enter it in the appropriate field in the Modbus configuration window The MAC address 1s a physical device address of the ethernet interface There are may ways to find out a MAC address It can be printed on a sticker on a device you can program your own address use software dedicated for checking devices inside a network check in the router or by doing a couple of simple operations In Windows run the CMD window Start Run enter cmd Type the name af a program Folder dacument ar Internet resource and Windows will open iE For vau cmd In the cmd command line window enter c ping 10 0 5 10 there must be an answer 3 4 packets if the different PLC is alive you must of course know it s IP address
108. e 13 93 DS18B S 20 LOW byte 13 94 DS18B S 20 HIGH byte 14 95 DS18B S 20 LOW byte 14 96 DS18B S 20 HIGH byte 15 97 DS18B S 20 LOW byte 15 98 DS18B S 20 HIGH byte 16 99 DS18B S 20 LOW byte 16 100 DS18B S 20 HIGH byte 17 101 DS18B S 20 LOW byte 17 102 DS18B S 20 HIGH byte 18 103 DS18B S 20 LOW byte 18 104 DS18B S 20 HIGH byte 19 105 DS18B S 20 LOW byte 19 106 DS18B S 20 HIGH byte 20 107 DS18B S 20 LOW byte 20 108 DS18B S 20 HIGH byte 21 109 DS18B S 20 LOW byte 21 DS18B20 DS18S20 DS1822 Raw temperature registers are transferred through the Modbus interface High byte MS byte is transferred first followed by the LOW byte LS byte To obtain the temperature in degrees Celsius for the DS18B20 and DS1822 you need to divide the value in a register by 16 To obtain the temperature in degrees Celsius for the DS18S20 you need to divide the value in a register by 2 110 DS18B S 20 HIGH byte 22 111 DS18B S 20 LOW byte 22 112 DS18B S 20 HIGH byte 23 113 DS18B S 20 LOW byte 23 114 DS18B S 20 HIGH byte 24 115 DS18B S 20 LOW byte 24 116 DS18B S 20 HIGH byte 25 117 DS18B S 20 LOW byte 25 118 DS18B S 20 HIGH byte 26 119 DS18B S 20 LOW byte 26 120 DS18B S 20 HIGH byte 27 121 DS18B S 20 LOW byte 27 122 DS18B S 20 HIGH byte 28 123 DS18B S 20 LOW byte 28 124 DS18B S 20 HIGH byte 29 125 DS18B S 20 LOW byte 29 126 DS18B S 20 HIGH byte 30 197 DS18B S 20 LOW byte 30
109. e devices timezones taking into account current summer winter time settings This setting should show the current time in the location where the device is placed i CONTENTS OF THE PACKAGE PLC alarm unit in the form of a module mounted on a DIN rail USB cable for connecting the device to a computer stabilized impulse 15VDC Power Supply Unit CD with drivers the user s manual and basic version of the software a set of resistors 4kQ 2kO 1kQ 0 5kQ and resistors in the range from 300Q to 470 to up the resistance of the cords 6 calibration resistor 7 5k Se ee i 8 SAFETY MEASURES e Before unpacking you should check whether or not the package has been damaged during transport e After unpacking you should check whether or not the device is mechanically damaged in a visible way Do not start the device if you have any doubts In this case contact the seller e Before starting the device you should read the manual especially the part regarding safety ATTENTION The device should be installed and wired up only by a qualified electrician ATTENTION The device can only be used with triple wire electrical installations with a separate PE ground wire Connector 722 the first one from the top on the left side of the device must be connected to a working Protective Earth Ground wire You cannot connect the neutral N wire or leave the connector unused ATTENTION Connection to mains electricity must be done acco
110. e on your computer 2 Go to the USB Console tab 3 In the USB configuration field pick the Firmware update option button 4 The lower buttons and the box where the PIN code should be entered will become highlighted 5 Enter the PIN code into the PIN for USB functions box 6 Do not press the ENTER button on your keyboard it s enough if you just type it in IP 10 0 5 32 Software 1 51 2011 01 22 18 27 EJ 01B USB CONSOLE SETTINGS DEVICE A 10 0 5 3 Windows Version 5 1 build 2600 27137 FT English TYPE A O1K 02A hj Internet A Pa Internet B hj Power generator O EJ Power generator 1 USB configuration Save configuration Firmware update Synchronize time Password IP MASK GW UDP Wil GMT and Summer time 6 Auto Civil twilight Summer honored Save configuration Time synchronization PIN for USB functions 7 Next press the Open firmware button and find the firmware update file 8 The file has a bin extension If you received a rar or zip file you must extract it first 9 Select and open the firmware update file IP 10 0 5 32 Software 1 51 2011 01 22 18 27 a E301B USB CONSOLE SETTINGS DEVICE A 1 EPEN AE spin Ael alee do c 2011 01 26 22 24 35 FIRMVWARE_UPDATE_0123 bin Tap My Recent Documents ware update Synchronize time 0 5 1 tu cc EC so T m E 4 77173 233 23
111. e the cursor changes to a hand and then double click the left mouse button You can also click on one of the rectangles representing timers T1 T20 or the lights representing 1 Wire inputs or outputs the same input and variable configuration window will open gt M3 B1 DESK USB CONSOLE SETTINGS DEVICE B1 gt 9 C1 DESK gt fg A1 DESK o 00000 EA 10051 7 Ag TYPE B1 m ma AUTO 1 O2 O3 O4 O5 O 02s 1s 0 5s gt E A1 TEST Uem gt FA C1 TEST IP ADDR 10 0 5 51 PIN 147 JDP PORT 10051 z T2 T3 T4 T5 T10 VEA E ERRE 9 10 11 12 13 14 15 16 OCi OC2 0OC3 0C4 0 12VL 0 12VR BUS 45V Password After you click a new window with input and variable configuration parameters will pop out Alarm and analog Inputs 1 to 11 Compensate line An hysteresis or Analog trigger Alarm or analog zone binding resistance kO al sensitivity KO level k9 for resistance measurement 0 10 kQ vo MEN NENNEN e ENSEM vi MEN NENNEN NNNM E BENE Saddwkme rentont dwe SM edeke S o00000000 0 OO gs On the top the first two tabs are used for alarm and analog input configuration the first tab for inputs 1 11 the second tab for inputs 12 21 At first assign all inputs to one alarm zone e g ALARM ZONE 1 to calibrate resistance measurement Alarm and analog Inputs 1 to 11 Compensate line An hysteresis or Analog trigger Alarm or
112. ed to that alarm zone The button will change color to gray meaning the zone is now disarmed Because the door are still open LED 4 on input 5 1s still off x gt E B1 DESK USB CONSOLE SETTINGS DEVICEB1 WINTER GARDEN INNER DOOR STILL OPEN ALA TMP TDH TDC E4 C1 TEST UP UP WU CO EUN et JDP PORT 10051 _ wae U Ti T2 T3 T4 T5 TIME UPDATE ARM 4 7 gt T6 T7 T8 T9 T10 b A J l J j j L Tii T12 T13 T14 TUM ZONE 2 DISARMED I Ll O ee Jai A2 A3 L A4 JAS A6 RESET 33 2345678 34 10 11 12 13 14 15 16 re O OO 0O CO OO 99 Timer OC1 OC2 OC3 OC4 0 12V 0 12VR 0 0 BUS 5V Configuration MODBUS Password In the alarm input configuration window the Require to ARM option was chosen earlier Alarm and analog Inputs 1 to 11 Compensate line An hysteresis or Analog trigger Alarm or analog zone binding resistance kO al sensitivity KO level k9 for resistance measurement 0 10 kQ vo BMEANNE NENNEN NENNEN gt meura OS Es Es INN EE Saddwkme REfonWedexe SM edes LI EI LI fj O This means the alarm zone cannot be armed again until the door is closed You can click the alarm button as long as you want but it will bring no results To arm the alarm you must either close the door or uncheck the Require to ARM checkbox for input 5 Alarm and analog Inputs 1 to 11 Compensate line An hysteresis or Analog trigger Al
113. eed the relay software even if he himself does not own a device and the password to read the message If someone unauthorized intercepts the message then without the software and the password the message will be useless to him The message can be read only by a person who knows the password Also remember that the SALT TXT function influences the ability to read someones encrypted message This function is for groups of people in e g one home or office who want to keep their correspondence confidential from telecommunication companies and use the same password and salt For safety reasons every message should have a different password and you should not use passwords which you use elsewhere e g in your e mail account The password must have at least 15 characters When entering the password remember that the software differentiates capital and small letters The letter A will be treated different than the letter a and the software will act in the same way with other characters Before entering the password remember to check whether the Caps Lock button is pressed as this can be a frequent reason as to why the password could be read as wrong You should also check SALT TXT settings analogically as when setting SALT for PLC Cryptographic salt for secret passwords Salt is a non confidential text and you do not need to hide it It is an additional obstacle in the process of trying to break the password using mathematical methods VERBOSE
114. egulator is in working in heating mode The thermoregulator will switch off the heating when the temperature rises above 24 0000 C and switch in on again when it falls half a degree to 23 5000 C Cooling mode example If T AT 20 0000 C and Hys 0 5000 C positive hysteresis value then the thermoregulator works in cooling mode The thermoregulator will switch off the cooling when the temperature falls to 20 0000 C and will switch it on again when it rises half a degree to 20 5000 C Thermoregulator off When you enter 0 into the Hys field or you leave the Hys field empty and save the settings then the chosen thermometer will stop working as a thermoregulator The alarms for crossing temperature levels AL Lo and AL Hi work even if the thermoregulator option is switched off They can be used as variables AL1 AL16 This is an example of possible configurations of simple thermoregulators and temperature level crossing alarms The nightly drop is in the last column The nightly drop is not a binding name and can be activated with any chosen variable Heating hysteresis is NEGATIVE 26 0000 107FC74401080012 24 0000 0 5000 TEMP 2 TEMP 3 Cooling hysteresis is POSITIVE 29 9375 28F8232C030000FD 20 0000 0 5000 18 0000 TEMP 5 TEMP 6 TEMP 7 Overtemperature alarm if too HIGH 26 0000 107FC74401080012 70 0000 TEMP 9 TEMP 10 TEMP 11 Freezing alarm if too low 25 9375 28F8232CO030000FD TEMP 13 TEMP 14 Alarm if too LOW or if too
115. elf after an alarm occurred light purple the zone armed itself after line sabotage alarm ocurred To arm disarm or delete an alarm you first need to enter the 147 PIN code in the field above the T1 T20 timers You simply need to enter the number you do not need to confirm it The display will change color to pink The ability to arm disarm or delete the alarm manually switch inputs on and off reset the device using the RESET button in the software will be unlocked gt EJ B1 DESK USB CONSOLE SETTINGS DEVICE B1 gt EI C1 DESK PE 21 20 19 18 17 16 15 14 13 12 11 gt 3 A1 DESK 4 EJ B1 test E3 10 0 5 51 A J ONLINE E E ALA TMP TDH TDC E A1 TEST Bi test Reset gt FA Ci TEST e e IP ADDR 10 0 5 51 PIN 147 ANA1 ANA2 ANA3 ANA4 UDP PORT 10051 Ti T2 T3 T4 T5 EN EE EN EN FIRMWARE VERSION B10363 TIME UPDATE ARM TIME UPDATE COUNT ALAI X ALA2 ALA3 Rx RS232 TEST ALA4 ALAS ALA6 WEEE E EEE l 33 2345678 34 10 11 12 13 14 15 1 e o 9 09 9 9 0 OC1 OC2 OC3 OC4 0 12VL 0 12VR 0 BUS 5V Configuration MODBUS Password The PIN code is essential to ensure that you do not accidentally press anything in the software Above the PIN code you can choose how often the program communicates with the device to refresh the readings in the software Is is 1 second Arming an alarm zone Example Reed switches from offices 1 and 2 were connected to inputs 1 and
116. ements will be deleted Check both boxes and press OK to confirm choosing this option Having to check both boxes should prevent accidental data deletion When assigning names to other elements e g individual sensors follow the same procedure as for the alarm zones gt EJ B1 DESK USB CONSOLE SETTINGS DEVICE B1 B C1 DESK E 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 Ea Ai DESK j i G G G Gb i LED 1 3 B1 test a o u 2 38100551 pa aoc ooo0 0900202qQ P ums Z 10051 A e 2 Q9 OFFICE rimt window hal ope B TYPE B1 E gt AUTO ALA TMP TDH TDC 02s 1s 0 5s gt m A1 TEST C gt EA Ci TEST PIN 147 ANAL ANA2 ANA3 ANA4 U Ti T2 T3 T4 T5 EN EN EN TITTET ALA1 T6 T7 T8 T9 T10 E im EN Tii T12 T13 T14 T15 EN EN eo NN Ti6 T17 T18 T19 T20 EN EN NES NND NN RESET ALA4 ALAS ALAG JaA1 A2 A3 A4 A5 A6 HLL 34 74 94 74 45678 9 10 11 12 13 14 15 16 Configuration MODBUS OC1 OC2 OC3 OC4 0 12VL 0 12VR 0 0 BUS 5V Password Accept Descriptions are saved in a xml file located in the same folder as the software The myrelays xml file can be copied to the internal memory card main folder on a mobile device or to the software folder or another computer so that you do not have repeat assigning the names in other copies of the software If your Android mobile device does not have a built in memory card then you should
117. ently logged on to x TMP Legend Legend2 Android From your device you cannot see what variables on what addresses are sent out from other devices This is why you should be careful when entering commands from multiple devices You should not enter more than one command in a single cell This may cause unpredictable changes in how the device works We advise you to print out or draw a similar table and use it as a cheat sheet where you can check what command from which device is in which cell The Start Address Offset field is supposed to help you keep the command in the shared memory in order For example you begin to enter commands in the first device starting with address no 1 enter a string of command remembering to separate them with a signle space x TMP Legend1 Legend 2 Android READ from the devce click SAVE to the device in the lower right corner Before saving INP12 ALA1 OWR1 OWR OC TL Configi Config 2 TMP Legend 1 Legend 2 Android 300 Input sampling frequency Hz Default 300 2000 Boot to alarm operation delay 1000 4s Data export to the shared memory region Write variable name separated by spaces or commas Ex TMP1 TDH5 TDC2 OCO2 OWR3 TMP1 TMP2 TMP3 Enable shared memory input Enable shared memory output P 3 Count 1 32 C Enable output every 2 minutes 1 START address offset 1 32 0 Transmission channel 0 255
118. er to bind inputs to alarm zones and to view the current status of the device that is the status of the alarm zones analog zones sensors variables and outputs you can assign them names and descriptions which will be displayed instead of the default descriptions in the software This will simplify and accelerate identifying and locating the alarm if it occurs Names can be assigned to all elements marked with a red frame on the picture below gt A3 B1 DESK USB CONSOLE SETTINGS DEVICE B1 gt EJ C1 DESK gt fg A1 DESK n 3 B1 test ALA TMP TDH T TDC a Ai TEST Ci TEST ae ANA1 ANA2 ANA3 ANA4 ALA1 ALA4 VE E E i ERE E RUE E E E 333552304567 8 S49 to 11 1213 14151 Configuration MODBUS 0 BUS 5V Password all alarm zones all analog zones inputs configured as an analog input 4 LEDs sensors reed switches etc on every input configured as an alarm input variables from T1 to T20 4open collector outputs 2 12V power supply outputs 16 1 Wire inputs outputs To assign a name to a chosen element you should put the mouse cursor over it in the main window of the program so that the cursor changes to a hand In this example the ALARM 1 button representing alarm zone is used In this place click the right mouse button 3 B1 DESK USB CONSOLE SETTINGS DEVICE B1 EJ Ci DESK Q 21 20 p p E P 2 LAE VA B1_ test DO O 20000 o0
119. es is not smart as it will make exploitation harder You can change the alarm zone configuration at any time without switching any cords Just remember that sensors connected to one input cannot be divided into different alarm zones To bind an input to an alarm zone you need to choose one of the alarm zones from the list and save the setting with the Save to the device button Alarm and analog Inputs 1 to 11 Compensate line An hysteresis or Analog trigger Alarm or analog zone binding resistance kQ al sensitivity kQ level kQ for resistance measurement 0 10 ka ATANA INAT erri uii Ak H meura CONN As os US Tort In the picture inputs 1 and 3 are assigned to ALARM ZONE 1 while input 5 is bound to ALARM ZONE2 Remember to always save the settings 13 1 6 Required on ARM INP1 INP12 ALAL OWRI OWR OC Ti T13 Configi Config2 TMP Legendi Legend2 Androi Alarm and analog Inputs 1 to 11 Compensate line An hysteresis or Analog trigger Alarm or analog zone binding i Input calibration resistance kQ al sensitivity kQ level k9 for resistance measurement 0 10 kQ to 7 5 kQ 0 25 is K 1 D D D D g DEFAULTS and do not save If y
120. etting the chosen timer it will be visible on the third bar from the top Monday Tuesday Wednesday Thursday Friday Saturday Sunday C Activated C Activated C Activated C Activated C Activated Activated Activated Sunrise correction 0 0 0 Sunset correctionr 0 a 0 Stop time 00 00 00 00 00 00 0 00 00 00 00 pue E a un 21 48 10 i 14 las i 17 la at 23 i T 0 N 7 0 gt 1 w 1 0 DEFAULTS SAVE The bars at the bottom always show the diagram for the currently chosen underlined day of the week in this case Saturday On Saturday the RED timer was set to start at 10 A M 10 00 end at 3 P M 15 00 This period of time is now represented by the red segment on the third bar from the top The same is true for the BLUE and GREEN timer Monday Tuesday Wednesday Thursday Friday Saturday Sunday Activated C Activated Activated Activated Activated Activated Activated Sunrise correction 0 Sunset correctionr 0 Start time 00 00 00 00 00 00 0 0 Stop time 00 00 00 00 00 00 00 00 MET EN e p t n p T DN RET ER ER n n nd i l L Lo Lo ELDo mmm 3 58 ASTRO AT 21 48 1 2 Ja 4 5 e 7 s 11 12 13 14 fs 17 i 21 jz z 0 N 1 N 0 N 1 i N 7 071 DEFAULTS If you don t set the timer the third diagram will remain blank In the Start time Stop time field you can choose the relation between the timer and the corrected As
121. g status viewing and operation via the Internet using a PC real time data transmission Status viewing and remote control via the Internet using a PC or a mobile device cell phone tablet with the Android operating system Up to 30 phones or tablets at the same time AES 256 SHA 256 encrypted data transmission multichannel astronomical clock following sunrises and sunsets additionally cooperating with a built in timer independent real time clock synchronized via the Internet using NTP Ethernet RJ45 10Mbit network interface for remote communication USB2 0 interface for device configuration password change and time synchronization RS232 interface in TTL standard complex programmable logic of the alarm itself complex yet simple to use control software for PC and Android easy installation on a DIN rail easy to carry out and user friendly firmware update function Frequent firmware updates will adapt the device to the user s needs This is not a typical PLC controller This is a PLC optimized to work as an alarm and measuring unit It is not programmed in a STL language or with a LAD ladder This 1s a controller programmed by building logical functions using available variables intended for people who do not have time to learn how to program relays but who need to carry out a quick modernization of their electrical installation who want to equip it with additional logical functions temporal dependencies between
122. ght when despite the fact that it is dark outside you turn off the lighting to save energy You can also use during the day when you want to turn the lighting on for a period of time even after sunrise How does this work The Sun sets at 9 48 P M e you turn on the lighting outside your house an hour before sunset Astro Corrected at 8 48 P M e The lighting is no longer necessary when you go to sleep after 11 P M The next day you wake up at 4 45 A M and you want the lighting to switch on in that moment and stay on until it is no longer dark outside e you turn off the lighting during the time you go to sleep How do you do it e Inthe middle part of the Astro timer window there is a timer Monday Tuesday Wednesday Thursday Friday Saturday Sunday Activated Activated Activated Activated Activated Activated Activated Sunrise correction 0 0 0 Sunset correctionr D 00 00 00 00 00 00 Start time z 00 00 00 00 Stop time 00 00 00 00 ERE RI RR GR GUN OR NE NNI EN NT EGET NE NER MIS HN NA CURAE 3 58 AT 1 2 3 5 7 1 i1 Ja Jaa Ji i 16 17 19 70 N N 0 N N 1 EN i 0 gt 1 a 1 gt 0 DEFAULTS READ SAWE e For each day you can set three periods of time where the way the Astro timer works will be modified e Each of these periods has two fields gt Start time gt Stop time In the first of the fields enter the time you want the
123. han 15 seconds from the time in your device there will be no communication regardless of previous synchronization The device will make sure that the difference in time is no more than 1 second if you enter a working IP for a Internet time server Computers usually synchronize their clock once a week so after a couple of days you may discover that communication was lost with your computer being at fault You can change the frequency at which your computer synchronizes it s time Appropriate tools are found in the SETTINGS window So you need to make Windows synchronize the time with an Internet time server The device synchronizes it s time every two minutes only odd minutes around the 30 second of the minute It does not matter whether the computer and the device use the same time server they can use different servers after synchronization they will always have the same time with a difference of no more than second Why all of this Why is time synchronization so important If only not to give an intruder a chance to intercept the transmission while your arming or disarming the alarm and use the stolen data in the future All the data is time stamped an is valid in the present not an hour or even a minute later In the same time the ability to access the device from several computer at once is preserved All this is for safety Remember that a couple of users can be connected to the device at the same time You can have small mobile c
124. hange To use the following settings you need to log on as the administrator on computers with Windows7 Local NTP server on this computer MTP Client NTP Client pooling interval s Windows Firewall settings on this computer My local subnet only The new Windows Firewall rule will be added here The name of the rule will be MY NTP SERVER MTP Server Port number to open close 123 Local NTP server on this computer This 1s a tool that allows you to configure your computer to be the NTP server This menu does not require being connected to the device as it s used to configure only your computer NTP client this service downloads the current time from the internet It should always be on NTP server this service will allow other computers or relays to download the time from your computer It will serve time to relays NTP Client pooling interval how often in seconds will your computer download time from the internet as an NTP client If you want the time in your computer to be correct you should enter 3600 update every hour Windows Firewall settings on this computer You need to configure your Windows Firewall to let through requests going to the NTP server if you want your computer to work as one You need to allow UDP packets with port number 123 to go from the LAN to your NTP server service In Windows Vista and Windows 7 you need to run the software when logged in as the administrator
125. he user s needs It is possible to implement additional functions accordingly to the client s wishes Firmware can be updated very conveniently through USB and any breaks in communication will not result in damage to the device Firmware update is secured by a long PIN code so that no unauthorized persons can use this function Every firmware is digitally signed which ensures that only the manufacturer s firmware will work in the device e N Interfaces The device has all interfaces used for communication and no additional cords or adapters are required Standard computer network wiring is enough for the device to work properly This type of functionality is not found in any other device available on the market 6 3 SELUAR EJ B1 DESK USB CONSOLE SETTINGS DEVICE B1 B C1 DESK PE 21 20 19 18 17 e 15 14 13 12 11 10 9 8 7 6 gt fg A1 DESK 3 Bi_test i H ONLINE G ALA TMP TDH TDC gt E3 A1 TEST Bl test FA C1 TEST C JE IP ADDR 10 0 5 51 g ANA1 ANA2 ANA3 ANA4 deed prise Gece ss Ti T2 T3 T4 T5 FIRMWARE VERSION B10363 TIME UPDATE ARM 4 T6 T7 T8 T9 T10 TIME UPDATE COUNT 74 Rx RS232 TEST 0x00 Tii T12 T13 T14 T15 ALA1 ALA2 ALA3 uH Q T16 T17 T18 T19 T20 A1 A2 A3 A4 As A6 RESET ALA4 ALAS ALAG CE ee 33552345678 349 10111213 1415 16 OC1 OC2 OC3 OC4 0 12VL 0 12VR 0 0 BUS 5V Password Accept Code 147 simply enter 147 into the field on the right of the m
126. here you can you should simplify the calculation process and if you have a function that 1s used in several places it should be calculated once and then only the calculated value should be used It can be calculated in either one of the OCO OWR or TI fields the important thing is not to recalculate an already existing function The controlloer processes the equation fields a couple dozen of times every second in the following order OCOI OCO24 OWRI OWR232 TI1 TI20 Then returns to executing the equation from line OCOI and that time and again The speed at which this happens depends on the complexity of the equations and may range from a couple of dozen cycles per sencod to only a couple cycles per second This is why you need to pay attention to optimalization Also the equation execution order should be considered when optimalizing the controller operation Equation fields for unused outputs can be used as varaibles There are no restrictions concerning the use of available resources You can intentionally skip outputs 1f you intend to use their fields as variables when you need a quick reaction time and it suits you to calculate something while processing The worse you program the controller the slower it will work Output operation 1s based on events This means that the output status will be switched to opposite only when the equation result changes This kind of event can be annulled the output status can be changed in any given m
127. ice must have a static IP known to you if you want to communicate with it It is also good to have a public static IP address visible from the Internet If that is a problem you can also use DDNS services dynamic domain name system Router configuration is up to the network administrator Every router is different and therefor you should read it s manual or ask the administrator Network configuration example below IP 10 0 5 100 every device in a local network must have a unique IP address There cannot be two identical IP addresses in a LAN segment MASK 255 255 255 0 The subnet mask 1s the same for every device in a Local Area Network GW 10 0 5 1 The default gateway is the router s LAN interface IP address The router s address depends on the settings done by the network administrator A router can be a dedicated device or one of the computer in the network NTP 10 0 5 1 An NTP server time server can be any computer or even the router if it has a time server function It can be any computer on the Internet your network or even your own computer MAC 00 11 12 13 14 15 The MAC address must be unique in the whole Local Network Area It s the physical address of the Network Interface Controller in the device There cannot be two identical MAC addresses in one LAN segment WWW PORT 80 In the PLC2011B0 device the WWW server does not exist Ignore these settings as they do not have any effect UDP POR
128. igest that 1s 256 bits long 32 bytes This digest will be used as a password to the actual encryption algorithm AES 256 which requires a 256 bit long password Before a packet of data is encrypted a 128 bit random number is generated precisely the same length as the block of data that 1s being processed by the AES 256 algorithm From this moment a packet of data with commands transmitted to the device is formed Placed in this packet is also our computer s current system time with no more than a 15 second difference between the device and the computer The packet is then put through the XOR function with the generated random number The random number is generated separately for every packet Next the random number and the packet are encrypted with the 256 bit digest You say that a packet like this 1s time stamped and encrypted Additionally every packet looks different thanks to the random numbers and 1s only valid for 15 seconds after being formed As the device has it s own independent real time clock the communication will work if the time stamp entered in the transmitted data packet before encryption is the same the difference can be up to 15 seconds in the computer and in the device The password or digest are not processed at all during the transmission The device receives the packet and tries to decrypt it using the digest in it s memory If the decryption 1s unsuccessful the device will not reply to the packet at all It will not f
129. ind data identifying the sender the time stamp will be incorrect the data will be encrypted using a different key etc The way the data 1s encrypted is transparent and it s safety 1s not based on secret algorithms It s based mainly on the length of the password and whether or not you keep the password to ourself or lose it If you have any doubts whether your password is still safe you can always change it through USB and using the PIN code and reinstall the infected operating system Used security technologies Hash function SHA 256 http en wikipedia org wiki Sha256 e Symmetrical encryption with the AES 256 algorithm http en wikipedia org wiki Aes256 Time stamping 4 OPEN COLLECTOR outputs 12V outputs RJ 45 socket for connecting to the computer network USB socket for connecting to the computer 21 inputs which recognize resistane parametric 1 Wire bus for DALLAS thermometers Connectors for the battery Power supply socket DEVICE DIAGRAM RJ 45 ALARM and ANALOG INPUTS Resistors connected to all sensors have to be precise with tolerance of 1 2 The serial resistance of the line wires plus resistor should not exceed 10000 10kO analog measurement NIA 5000 1kQ 2kO 4kQ e 3000 10000 E Pin 22 must be grounded E TEUTETTEITETECELHTELRTSTIAT 5 ETHERNET 15VDC O BATTERY aN9 AO vUuI0SC TAZ 9JIAM L VWOS AG
130. inning to get dark e correct the sunset time by 60 minutes 08 48 P M e your device will switch on the lighting 60 minutes before sunset e the corrected time will of course be different every day the actual sunset time will always be corrected by 60 minutes Monday Tuesday Wednesday Thursday Friday Saturday Sunday C Activated C Activated C Activated C Activated C Activated Activated Activated Sunrise correction 5 l 0 Sunset correctianr 6 60 Start time E 21 00 00 00 00 00 00 00 00 00 Stop time 00 00 00 00 00 00 00 00 00 00 00 00 2 58 d an ig 1 14 15 17 19 21 N 1 a 0 a a i as DEFAULTS READ How do you do it Assume that e today is Saturday the current day of the week is always highlighted in red For the device to work on a given days schedule you need to check the Saturday Activated check box single click Otherwise the commands for this day Activated will not be executed e Sunrise and sunset times are calculated by the device for the given day are marked on the first horizontal axis under the timer yellow is the period of time between sunrise and sunset the day and black is the night NENNEN L NENUNNRMNEGNEENENENE ee UR NN 3 58 ASTRO AT 20 48 1 2 3 4 5 6 T 8 1i 12 13 14 15 16 17 18 2 21 22 23 inthis example the sun sets at at 09 48 P M e You want the lighting to turn on an hour earlier so you must correct
131. ion Time synchronization PIN foi un l Open firmware Test firmware Write firmware 10 From this moment communication between the device and the computer should be working 11 After synchronization you do not need to reenter the password when switching to the Device tab 12 Sometimes you need to close and reopen the added device on the device list on the left Double click to collapse and the double click again to expand This should initiate the IP addresses again ATTENTION The main causes of failure in achieving connection between the device and a computer are wrong time wrong timezone or inaccurate network parameters As the timezone you should enter it s name e g Europe Berlin set AUTO for local time or enter as GMT 2 GMT 1 GMT etc Entering the precise name of the timezone in which the relay is located Europe Berlin gives you certainty that summer and winter time will be included automatically Your computer s local time and timezone are not important You can be in any timezone you wish The relay however is mounted in a certain timezone with certain rules regarding switching from summer to winter time and back For instance if you mount the relay in Moscow the timezone should be Europe Moscow The time synchronization procedure is the same for the PLC2011B1 Alarm and both the Controllers PLC2011A1 and PLC2011C1 11 MAIN CONFIGURATION The main configuration panel is designed to change the devices se
132. irst and any other configuration and firmware update What to remember about when making time related settings You need to ensure that the device always has the most up to date time as possible Before synchronizing the time in the device with the time in your computer you must download the current time from an internet time server You should not synchronize time if you entered the time in your computer manually It is highly probable that when the computer finally downloads the time from a time server the difference between the accurate time and what you entered manually and wrote into your device is so big that you will lose the ability to connect to the device In this case you would need to synchronize the time again However if you download the accurate time from the internet from the beginning then you will avoid such problems Remember to properly set the time zone where the device is mounted For example if the device is in a place where the time zone is GMT 10 but during synchronization you set the time zone to GMT 1 then the device will have problem with communication with the time server and will not update it s time You do not change time zones when switching from winter to summer time or back A properly configured device will take care of it itself For example if you place the device in Melbourne or Sydney then during the summer you should not change the time zone from GMT 10 to GMT 11 the software will do it for you automaticall
133. l not be accepted and configuration parameters will not be saved to the device 11 The failure of this operation is usually caused by entering a wrong PIN For example make sure that you have distinguished the number 1 from the letter l or the number 0 from letter O IP 10 0 5 248 Software 3 96 2012 03 26 00 29 a Ba TEST DEVICE B USB CONSOLE SETTINGS DEVICE A 4 TEST DEVICE A Windows Version 5 1 build 2600 B4 TEST 111 WM DEVICECHANGE DBT DEVNODES CHANGED 2012 05 09 20 11 30 s FA TEST 112 WM DEVICECHANGE DBT DEVNODES CHANGED 2012 05 09 20 11 30 s BA TEST 113 FS TEST 114 s BA TEST 115 EH BRE RE BR RR RE USB configuration Save configuration OFirmware update Synchronize time IP MASK GW UDP WWW 10 0 5 100 2552552550 1005 1 27136 80 MAC ADDR NTP SERVER IP 00 11 12 13 14 15 10 0 5 1 PORTS NTP OUT 123 27015 GMT and Summer time 1 6 uto Civil twilight Summer honored ro Summer is during European Winter for Same PLC is installed in Australia PIN CODE from the sticker 12 Press the configuration saving button Save configuration 13 If the actions presented above are executed properly then in the text window you will see a message with the digest of your password It is the proper password which will be used to encrypt the transmission Do not save the digest It is of no use to us and can help hackers The digest is prese
134. m the Rearm ALARM 2 from the Rearm ALARM 3 from the Rearm ALARM 4 from the Rearm ALARM 5 from the Rearm ALARM 6 from the DEFAULTS and do not save READ from the device SAVE to the device You can view the current status of the counters in the main screen of the software in screen 6 gt EJ Bi DESK USB CONSOLE SETTINGS DEVICE B1 gt 3 C1 DESK gt g A1 DESK a 5 B1 test 83 10 0 5 51 X 10051 ax TYPE B1 FA m4 AUTO ALA TMP TDH TDC O1 O2 03 OF 05 9 02s 1s 0 5s gt fg A1 TEST pu as gt 4 Ci TEST a a D R2 1 ANAI ANA2 ANA3 ANA4 I e aad Ti 72 T3 14 Ts ALA1 ALAS Configuration MODBUS Password 13 3 Line sabotage guard The purpose of the Line sabotage guard is to detect attempts of manipulating with the wiring when the alarm zone is disarmed To do that you set up two threshold resistance values the breaking of which will cause and alarm in the zone even if it is disarmed Config 1 Config 2 TMP Legend 1 Legend 2 Android Line sabotage guard Set Clear selected counters clear and generate pulse on compare match Enable sabotage prevention feature Set Clear Compare match C Input 1 Counter 1 C Input 2 Counter 2 When the line resistance drops below k9 When the line resistance increases above kQ Input 3 Counter 3 Input 4 Counter 4 Set Clear selected counters Rearm of ALARM zones after time Rearm ALARM 1
135. month day hour minute and day of the week must all match After a loss of power the time and date will be calculated from zero so communication will be impossible 10 3 Updating time in the computer Before you update the time in your device you first need to update the time in your computer Some clocks in computer can be ahead or behind the actual time even ten odd seconds This is not a good occurrence Synchronization of time in the device means you download the time from your computer to the device via an USB cable This means you need to have the correct time set in your computer In any Windows operation system updating time is easy Just double click on the clock in the lower right corner of your screen at the end of the task bar The Date and time properties window will pop out In this window in the Internet time tab you will find a button used to update the time Date and Time Properties Date amp Time Time Zene Internet Time Automatically synchronize with an Internet time server The time has been successfully synchronized with time windows com on 2011 01 27 at 22 49 Next synchronization 2011 01 27 ab 23 49 Synchronization can occur only when your computer is connected to the Internet Learn more about time synchronization in Help and Support Center It is essential that you do this operation before you synchronize your device s time with your computer s If the time in your computer differs more t
136. nd password saving usse mode 23 ICH S SYNCHRONIZATION E 26 10 1 When do you need to synchronize the time using the USB seeesessseesese cable CX 0nL 26 IACTA 26 IO SD pda np tme T8 Che compil earen E beris eMe spsen oeste EE UNIS Ui Hipp MEU POS 27 10 4 What to remember about when making time related settings esesseeeeusss 29 LOGS Flow TO S VEO OMI ZO TNG escoria ane INST MEUM NIIT EMEND MEUM DEI PEU 33 DENDASINDCONBIOURZUPION c O iin deno Peers gms P EI acne nu dtr PL dr suse Pi Embed tmd Rei 35 IL he ING Gy OT COMM OU NO tl secco etasetea E E E E E E E pem ON AE 24 11 2 Whatisa NIP SOT Ye i erreseina een e E p e AEA EENE eea iL Ote tona oar IE 40 1S Geographical locationmof the OO VICE recroiser nE a 42 112 12 Dattery charging DOEOEHOLCT SL peci 44 IZ STARTING WORK WITH THE PROGRAM siiente nia E EEEa a Eia Ea 45 I3 ALARM AND ANALOG INPU Sr E E a aa EASES 49 13 1 ALARM INPUT CONFIGURATION eesesssssssssssssseessreeseessssssssssssssreeeerraeeeesssnssssssssssseeeee 49 ISI put Cal MDT AUT OMA A E E EE EAE E A E E E AN 52 UA Vile TNS CONIC ura O eaa oe E E E adnate 53 13 1 3 Alarm input sensitivity lllsessessssssssseeeeeeseeeeeneeneeeeennennnnnn nnn nnn nn
137. nday October w Last Sunday 6 000 degrees Civil twilight Summer is during European Winter for example PLC is installed in Australia DEFAULTS up up i ADC voltage correction for proper measurement ADC value when we treat battery as connected o 8 7 6 LED LE LI o a 2s 1s 0 5s Ti T2 T3 T4 T5 Ez ES 3 T9 T10 T14 T15 T20 o E 200 Ethernet Full Duplex FDX Geographic location of the device deg min sec 2l vise t 114 3 10 2 11 CCL 8 Summer time honored for Sun calculations The following settings can be changed in this window l All parameters of the computer network The geographical coordinates of the device s localization Set the time zone and the way of calculating the day of the switch from standard to summer time DST and back Battery loading parameters Switch RS232 on or off Switch ethernet full duplex on or off We recommend to switch off full duplex to reduce interference between the signals in the computer network cable if that cable is very long You cannot change the password The password can only be changed when the device is connected to your computer via an USB cable and you enter the PIN code Be careful and know what you are doing when configuring the computer network If you enter a wrong parameter you will not be able to communicate with the device You will then have to conne
138. nly NTP Client pooling interval s The new Windows Firewall rule will be added here 0 The name of the rule will be MY_NTP_SERVER C NTP Server Port number to open close 123 Read entries from the registry Add rule to the Windows Firewall Write entries to the registry Delete rule from the Windows Firewall Go to the USB CONSOLE tab A list of the last 59 alarm with their dates times and inputs will be shown gt F8 B1 DESK USB CONSOLE SETTINGS DEVICE B1 gt E C1 DESK PTR 36 420 gt A1 DESK 01 24 7 17 04 Alarm input a Bi test 02 24 7 22 28 Alarm input 03 24 7 22 39 Alarm input 10 0 5 51 04 24 7 23 26 Alarm input 05 24 7 23 42 Alarm input 06 8 0 17 32 Alarm input 4 07 10 12 8 32 Alarm input 138 08 9 0 0 16 One 0 gt m A1 TEST 09 0 4 0 00 Alarm input 0 10 4 0 8 32 Alarm input 0 M4 C1 TEST 11 16 5 0 32 One 0 12 18 0 1 33 Alarm input 128 13 24 7 0 16 Alarm input 0 USB configuration Save configuration Firmware update Synchronize time Password IP MASK GW UDP WWW 10 0 5 100 255 255 255 0 10 0 5 1 27136 80 MAC ADDR NTP SERVER IP 00 11 12 13 14 15 10 0 5 1 PORTS NTP OUT 123 27015 GMT and Summer time 1 2 6 Auto Civil twilight Summer honored Summer is during European Winter for example PLC is installed in Australia Save configuration Time synchronization PIN for USB functions Open firmware Test firmware Write firmware
139. nly sends out data to another device the retransmission ability of the TCP is not needed and even undesirable as it generates unnecessary traffic and CPU usage However using the UDP protocol may not always be possible as some devices may not adapted to it s operation Using the Modbus protocol you can send out PLC2011B1 data from the AstroTimer timer inputs TI TI20 timer outputs T1 T20 OC open collector outputs R 1 Wire outputs input variables INI IN20 and thermometers All signals are assigned to a group which is sent out together You cannot send out a signal from a single input or variable For instance if you want to send out the signal for OC3 you need to select the group OC1 0C4 Available signal groups are shown on the right of the Modbus configuration window To select a group of signal you need to check the check box next to it What does each field mean Third party remote PLC IP or ROUTER IP IP address of the device that 1s supposed to receive the signal Third party remote PLC UDP PORT port used by the Modbus protocol By default this is port 502 Third party remote PLC MAC or ROUTER MAC MAC address of the device that is supposed to receive the signal Transaction indentifier 16 bit e Protocol indentifier 16 bit this field is always 0 for Modbus messages Unit indentifier 8 bit e Modbus function code 8 bit e Start address 16 bit the place where data saving in the re
140. nm File Home Share View e t E DAPLC2011B1 wr Favorites relay 0741 exe EE Desktop myrelays xml J amp Downloads E Recent places This 1s what the program looks like when you run it for the first time 4 54 New Device KONSOLA USB USTAWIENIA URZ DZENIE A 10 0 5 100 G wna konfiguracja New Device IP ADDR 10 0 5 100 UDP PORT 27136 Opisy WWW ZEGAR Astro Zatwierdz On the list on the left you should enter the data of the device to which you want to connect Of course the device should be configured earlier Device configuration is described in chapters 9 11 Click on New Device It will become highlighted in blue Now you can enter there any name that you had chosen for the given device Beneath enter the devices IP address UDP port number and device type In this case this will be TYPE Bl The last position on the list is choosing the timezone in which the device is placed If it is in the same timezone as your computer then pick AUTO After entering everything this 1s how the program should look 4 45 New Device KONSOLA USB USTAWIENIA URZADZENIE B1 10 0 5 100 27136 E3 AUTO A IP ADDR 10 0 5 100 ANA1 ANA2 ANA3 ANA4 UDP PORT 27136 ALA TMP TDH TDC e O Q Q Q Q im New Device CN Ti T2 T3 T4 T5 C D T6 T7 T8 T9 T10 Tii T12 T13 T14 T15 T16 T17 T18 T19 T20 JA1 A2 A3 A4 A5 A6 RESET ALA4 ALAS ALA6 Se Laus 33355534567
141. nt 240 sectorsize 126 w H4 02A Firmware Space Erasing 2011 01 26 22 41 31 Firmware Update Started please wait 2011 01 26 22 41 33 Pad Internet A In CRC Error BytesReceived RxBytes O amp hai Internet B FT Init ftStatus 0 2011 01 26 22 41 34 FA Power generator 0 Test firmware crc 1 In CRC Error BytesReceived RxBytes O0 Test firmware crc 2 In FW string Error BytesReceived RxBytes O0 EJ Power generator 1 USB configuration Save configuration Firmware update Synchronize time Password IP MASK GWY UDP Vivi 10 0 5 100 253 235 255 0 27136 MAC ADDR NTP SERVER IP 00 11 12 13 14 15 PORTS NTP OUT 123 GMT and Summer time 6 Auto Civil twilight Summer honored Save configuration Time synchronization PIN for USB functions 99999900999090 1 You did not enter the device into firmware update mode or 2 You did not enter the PIN code correctly Repeat both of these operations 29 ADDITIONAL FUNCTIONS ICT defense of switched on computers The newest function implemented in the PLC2011B0 alarm and it s PC software as of the 5 25 version is ICT defense of switched on computers Let s say you exit a room leaving a computer running you lock the door and arm the alarm zone for this room Very often there are situations where you must leave your computer running while you are absent e g uploading a huge movie to YouTube or simply downloading something In these situations you f
142. nted only to slake the user s curiosity during the first configuration and should not be saved anywhere IP 10 0 5 248 Software 3 96 2012 03 26 00 29 E TEST DEVICE B USB CONSOLE SETTINGS DEVICE B 3 TEST DEVICE A USB write configuration FT Init ftStatus 0 2012 05 09 18 27 47 EA TEST 111 SH4 256 Digest of our password for AES 256 Encryption and Decryption xz PA TEST 112 D3447652BB8A5FBB29C85423666D645A50C12D47B9BO037D2EO0E326EF0922 ABE AES 256 Encrypt OOG000000000000000000000000000000 with our digest Ed TEST 113 6CBE63BBEZD636DGF48564FF56C23DEZ t i o lACB4GeDSCGCE4GGDDELACSTB2598625 2 U0 O O sc Memet ES TEST 115 FT Write ftStatus 0 2012 05 09 18 27 47 Configuration written properly 0x99 2012 05 09 18 27 48 BHHHHHHHHHHHHHHHHHEHHHHHEHHHHHESHEHSHSHEHHSSHHEHHSHHHEHSHSHESHHEHSHEHHEHHHESBEHSSESESHSESE USB configuration Save configuration QOFirmware update Synchronize time Password 0900900000000000 IP MASK GW UDP WWW 10 0 5 100 2552552550 10051 m 27136 MAC ADDR NTP SERVER IP 00 11 12 13 14 15 10051 PORTS NTP OUT 3 27015 GMT and Summer time 1 6 Auto Civil twilight Summer honored v Summer is during European Winter for example PLC is installed in Australia Save configuration Time synchronizatior PIN for USB functions 99000000000 n firmware Test firmwari rit firmware 096 14 15 16 17 18 19 Afte
143. oment The output status 1s not blocked by the occurring event Any output can be set to the wanted status automatically after a device reset If you check the RESET 1 check box then the chosen output will be switched on after a reset An equation assigned to a timer input TI TI20 is then processed by a time module For each timer there are three time modules INP1 INP12 ALA1 OWR OC Config 1 Config 2 TMP Legend 1 Legend 2 Android Logic functions DEFAULTS and do not save READ from the device SAVE to the device Time to ON it counts time from the moment the signal appear to the moment the period of time set in this field passes This function can be used to delay a reaction to a signal appearing If the signal disappears before the time passes the timer will be reset and will be ready for the signal to appear again Only if the signal 1s active for a period longer that what was set the device will respond to it Time to OFF it works in exactly the opposite way The loss of signal for a time period shorter than the time set will not cause the device to see the signal as inactive Pulse time time is counted from the moment the signal appears at a given timer to the moment the timer switches off It means that if you set this value for e g 20 seconds the timer will switch off after 20 seconds If during this time the signal appears again the count will be restarted If the signal disappears before this
144. omputers in your home or office you can connect to the device from one place having your other computers connected simultaneously from different locations Sent commands and data packets are invalid 15 second after being generated but usually are useless after only one second Synchronizing the time personally may be a bit of a hassle for the user but you are shedding comfort for the sake of safety Without seeing the password when you type it in to your computer it is not possible to take over control of the device And even then you can always go home connect the device to your computer with an USB cable type in the PIN code and set a new password The password cannot be changed via the Internet so even if someone does steal your password he will not be able to change it afterward You always have the possibility to take away access to the device by changing the password Remember that if you lose the PIN code you received with the device you will not be able to change the password ever again Therefor this code should be kept safe It has been generated automatically and the manufacturer does not posses a copy The PIN code is written into the device permanently and cannot be changed When entering the password remember different letter sizes are recognized The PIN code is not needed for time synchronization The only thing you need is the password you have entered when you started the device for the first time The PIN code is used for the f
145. on until you reach the desired effect s te New Device USB CONSOLE SETTINGS DEVICE B1 EJ 10 0 5 51 EA 10051 E4 TYPE B1 AUTO PE 21 20 19 18 17 16 15 14 13 12 11 10 ALA TMP TDH e Reset PIN 147 ANA1 ANA2 ANA3 ANA4 U Ti T2 T3 T4 15 EH EH C q D 22222 ALA ALA3 T11 LE T13 T14 us 116 em TIS 119 T20 ALA4 X ALAS ALAG i i i fee A 333552345678 OC1 OC2 OC3 OC4 0 12VL 0 12VR Configuration MODBUS Password Screen 4 time according to the NTP server and the device s internal clock and the difference between them Here you can check if the time synchronization was successful a B 43 New Device USB CONSOLE SETTINGS DEVICE B1 ae PE 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 EA TYPE B1 wy EA AUTO ALA TMP TDH TDC 92s 1s 0 5s NTP Date 2015 07 26 PIN 147 PCF Day Sunday NENNEN E NTP Day Sunday ES Reset PCF Date 2015 07 26 T6 T7 T8 T9 T10 PCF Time 00 11 18 C bi Ti T12 Marking Time Error Os T13 T14 pe T16 ot 118 Li T20 ALAS A1 A2 A3 A4 a5 A6 RESET Configuration MODBUS OC1 OC2 OC3 OC4 0 12VL Password Screen 5 information about 12V output overload information about 1 Wire bus status an individual 1 Wire thermometer serial number 4 B New Device USB CONSOLE SETTINGS DEVICE B1 E 10 0 5 51 PE 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 EA 10051 aa oa Q
146. orget that other data in your computer are not protected in any way and anybody can walk up to your computer and view your files or steal your computer together with confidential data or projects When the computer is placed in a room with an armed alarm it is not that simple to sit down and browse or copy the files An alarm siren will switch on immediately Even if the hard drive is encrypted using TrueCrypt or similar software then a running computer is vulnerable anyway as it is on and the password is entered In case of a laptop an external energy source isn t even needed as the battery will last enough to get to a potential adversary s house In such case that person can simply enter a room using brute force and take an unprotected computer and it makes no difference if you use encryption software or not We have a method for that For the drive encryption software to work and our data to be safe the computer must be switched off fast after detecting an intruder The faster your computer begins to close the better and the system closing procedure must be done correctly so that the encryption software can clear keys and entered passwords from it s buffer and the computer s RAM memory loses power supply as fast as possible It is enough that you pick an alarm zone which you want to be monitored to detect an alarm In the example below A1 under the display will be alarm zone 1 4 F3 B1 DESK USB CONSOLE SETTINGS DEVICE B1 PE 21 20 19 1
147. ou activate this option for a given input it will mean that for the alarm zone to which this input is assigned to be armed the contacts in the reed switches must be closed in windows and doors connected to this input In other words if you bind input 1 to ALARM ZONE 1 you connect 2 windows with 4 reed switches to input 1 in a way that will allow the device to recognize whether the window is open or half open if the Required on ARM option is active you will not be able to arm ZONE 1 if the windows are half open if the Required on ARM option is not active you will be able to arm ZONE 1 even when the windows are half open The zone is armed in its current status Of course in the second case both closing and fully opening the window will trigger the alarm 13 2 Alarm inputs 1 4 Counters In the Configl tab you can configure counters assigned to the first four alarm inputs These counters are not too fast because of the kind of alarm line inputs used They can count impulses up to 2Hz and can be used mainly to count slow actions such as a cycle of opening gates doors windows etc These counters work only when the inputs were configured When the input is assigned to an analog zone the moment of counting another impulse is controlled by the final analog level and the hysteresis level value For the count to be made the resistance must cross the final analog level and then return to the hysteresis level The impulses can be c
148. ounted in both the HI gt LOW and LOW HI mode after correctly setting the resistance threshold levels When the input is assigned to an alarm zone the counter will start working the set final analog level is crossed The zone must not be armed Set Clear selected counters You can assign a set value to every counter This will be the value from which the counter will start counting up If you want to manually clear the counter or set a value you should enter 0 or any other desired value and check the checkbox on the right to approve Next press the big Set Clear selected counters button Comparison column When the value is 0 the function is not active When the value is different than 0 then the counter will reset and start counting again every time it reaches the entered value In the same moment variables CTC1 CTC4 will change their values to 1 and switch off when the counter gets to it s first unit INP1 INP12 ALA1 zs T13 Config 1 Config 2 TMP Legend 1 Legend 2 Android Line sabotage guard Set Clear selected counters clear and generate pulse on compare match Enable sabotage prevention feature Set Clear Compare match When the line resistance drops below k9 E EE m Input 1 Counter 1 Input 2 Counter 2 When the line resistance increases above kQ 10000 Input 3 Counter 3 L Input 4 Counter 4 Set Clear selected counters Rearm of ALARM zones after time Rearm ALARM 1 fro
149. pt button the character string will change back into the previous text The character string will be different each time even if the password stays the same Encrypt Decrypt text messages liiice has a cat If the password is changed between encryption and decryption the decryption will not be successful Instead of the original text you will get back a different character string Encrypt Decrypt text messages ua2d He Encrypt Decrypt Only after you enter the password that was in use during the encryption will you get the original text In this example the text will be decrypted after you re enter the first 15 letter of the alphabet Encrypt Decrypt text messages Encrypt Decrypt ut UTF 8 Characters 0 The Cut button clears the contents of the screen and copies it to storage You can then paste it anywhere else like an SMS a text document or an e mail using the paste function Encrypt Decrypt text messages The Paste button enters the content of the storage to the software encryption window Encrypt Decrypt text messages UTF 8 Characters 0 The Erase button permanently erases the contents of the window together with the text and clears the place in the computers memory where the password was stored Using the ENCRYPTION TOOLS function you can send someone a secret encrypted message The recipient will only n
150. r the process is cooling or heating a blinking red circle means there is a problem a thermometer which serial number was entered is missing and provides no temperature readings a gray rectangle depicts a unprogrammed thermoregulator Each pair of DS18 thermometers can work as a differential thermoregulator You can build 8 differential thermoregulators with regulated hysteresis You build them in pairs in green fields Differential thermoregulators heating Variables TDH1 TDH15 odd numbers only 4 EA B1 DESK USB CONSOLE SETTINGS DEVICE B1 E 10 058 PE 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 EJ 27138 ooo oo od b i N d 00 EA TYPE B1 oo02 po gt 45 UD UD UD D GO t E a T l gt i Jo gt F3 C1 DESK T r 2 Aaa b EJ Ai DESK 7 7 7 7 7 7 7 gt FA B1_test ALA TMP TDH O1 O2 O3 Of 5 O 02s 1s 0 5s gt EY A1 TEST ov VL 0 12VR Reset gt M3 C1 TEST 3 5 7 9 11 13 v 15 _ 7 T8 T9 T10 a aD V i ju T 5 a m E i jw Nm O ooo T1 T2 T3 T4 T5 J 12 T13 T14 T15 T19 T20 TDH1 TDH15 LJA1l LJA2 A3 A4 A5 A6 Configuration MODBUS OC1 OC2 OC3 OC4 0 12VL 0 12VR 0 BUS 5V E E3 B1 DESK USB CONSOLE SETTINGS DEVICE B1 a j PE 21 20 19 18 17 16 15 14 13 12 11 10 9 O Gi Qi QD oJ 9 up i j g p i Jj gt e ieee O O
151. r this action communication will not yet be possible On the left side of the program window you will see that your device has been added but you must synchronize time before communication between the device and the computer network is possible If you enter different IP addresses you must also change the device s description in the device list on the left Without a proper entry on the device list you will not be able to connect with the device by LAN or the Internet After completing these actions press the RESET button and wait until the device reboots itself an enters it s normal work mode From this moment the device s WWW website will be working and you can ping the device s IP address To see if this 1s true open your web browser and type in http 10 0 5 100 or whatever other IP address you have given the device Our devices web server response should show up You can also open menu START gt Run and type in the command ping t 10 0 5 100 or other given IP address Remember to type without the quotation marks Communication using software will not yet be possible due to safety concerns as the software allows you to deeply interfere with the device and switch the relays You still need to do a one time time synchronization Please watch the video manual and read the chapter about time synchronization The first run procedure is the same for the all PLC2011 devices 10 TIME SYNCHRONIZATION The purpose of time syn
152. rdingly to the manufacturer s instructions and applying safety measures Use only the power supply unit provided by the manufacturer together with the device The electrical outlet to which you plan on connecting the device should itself be connected to a switchgear equipped with appropriate fuses and circuit breakers RCDs to ensure that the user is safe from being electrocuted The electrical installation should be done by licensed personnel and in accordance with safety standards and applying norms The manufacturer and distributor are not responsible for any injuries to a third party or damage done to objects as a result of not following the instructions above 9 FIRST RUN In short 1 You configure the network addresses and set up the password through an USB cable 2 You synchronize time through an USB cable The first run can only be carried out using an USB cable You cannot do it through the local computer network It is a safety measure so that the password cannot be changed remotely You can only change the password if you connect with the device directly using an USB cable To run the device for the first time you also need the PIN code This code is placed on the cover of the CD containing drivers This code must not be lost Without it you will not be able to re acquire control over the relay if you lose or forget your password The purpose of the first run is to set the device s Network addresses TCP IP protocol po
153. recision up to 0 01kQ If the sensitivity 1s too high false alarms may occur ATTENTION Please remember that close proximity of WiFi routers GSM modems GSM dialers or other electromagnetic wave sources may cause false alarms There was a case with a microwave oven behind the wall in the kitchen of a neighboring apartment When designing the alarm installation you need to predict potential disturbance sources You should not have alarm wiring next to electric wiring and there should be as big of a gap between them as possible A screened cable should be used when necessary and the transmitter should be placed at certain distances Line resistance compensation An alarm line should not have a resistance close to 0 When all reed switches and sensor relays are in the normal state and are closed then the resistance equals the resistance of the cords This is usually from a couple to over a dozen Q This is not desired as intentionally shorting the cords may not trigger an alarm Due to this you should add a resistor in a series with the device s input so that the resistance of the line is equal to a couple of hundred Q when the alarm is armed This way both the rise and fall of resistance will cause the alarm to be triggered In the example below a 470Q resistor was added and 480Q were subtracted 10Q as the cord resistance and 470Q as the rest You need to keep an eye on the resistance readings so that when the windows are closed and sen
154. rial NUMDET ccccccccceeceeeeeeceeeeeeeeeeeeeceeeeeeeeeaeaeeeeceees 86 17 3 Relay modules and input output modules connected to 1 Wire eeeeuusssss 89 LS asi gunn ites wee OETIS oor noe ee eee ene anne Ite Pe eles eee Ebert i ae ere 92 IS BO RMOREGULA TOR etre eee 93 18 1 THERMOREGULATORS basic ConCepts cc essssssseseeeeeeeecccceceeeeeeceeauneeeeeeaeeeeeeeas 96 18 2 DIFFERENTIAL THERMOREGULATORS ccc cccccccccceceeeeeeeeeeeeeesaeesesecessssaeeeeees 100 NICS OSC onpratonog COT ss scan snacayaratatuacss osi vet dni udis aus vut eda ev cst gus vita MF TRU Dat anas RUE UN 103 20 OUTP E AND TIMER 113 OO NTE RS enren A EEE EEEE EAE AEA AENEA A AOE A 115 21 DATA EXPORT TO SHARED IVI VIO IR Yop etesccsiessozscarsyeu sei onsnavszeusananaenscenavousaeSessnanesssaeanued 118 PASS TRO TIME HE nr een ere ee ee eee 126 22 1 1 AU 15 thie AO LIANG FLOM oa eet Gecne canst ere mente oeseneagesic eons castorate eiotsiGaeemeaencteoes ecneenmtacneeteses 126 22 2 HoWw does the Astro TIGE WOEK eo oco rire Ebr ERREUR SXRKELIS Gaseatanneoneeeeationaemasaeaneees 126 22 3 An example of how the Astro Timer can be used sssssssssssssseeeenee 129 22 4 TIMER function Night Breaks Night Intervals ssseeeeeeen 132 22 5 How to use the Astro timer with PLC2011B1 eeeeeeeeeseseeeseeneeeeeeenennn enne 140 23 SOFTWARE OPERATION IN
155. roid mobile device via PLC2011B1 PLC2011B1 can also act as a shield for your network as it has strong transmission encryption mechanisms with the AES 256 algorithm You can activate or deactivate an input or variable in your PLC2011B1 device using your Android phone and immediately send this information to a different PLC device in your ethernet network using the Modbus protocol You can also connect your device s open collector outputs to another device s inputs USB CONSOLE SETTINGS DEVICE B1 PE 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 Fg C1 DESK Eg Ai DESK FA B1 test ALA TMP TDH TDC O1 02 03 Of 5 O 92s 1s 50 5s E A1 TEST 412VL 0 12VR 0 CY Reset PIN 147 3 C1 TEST CUM NOR MEER ANAL ANA2 ANA3 ANA4 i Wire bus is HIGH UJ Ti T2 T3 T4 TS 1 Wire bus is OK 1 Wire device PRESENT 4 D T6 T7 T8 T9 T10 Tii T12 T13 T14 T15 00 00 00 00 00 00 00 00 T16 T17 T18 T19 T20 A1 A2 A3 A4 A5 A6 RESET ALA6 f i 2345367 8 34i io 11 12 13 14 15 16 Configuration MODBUS 33 OC1 OC2 OC3 OC4 0 12VL 0 12VR 0 0 BUS 5V Password Accept PLC2011B1 uses the Modbus protocol to send out a command to a desired IP address TCP or UDP port and MAC address PLC2011B1 uses TCP and UDP protocols for data transmission from the device to a chosen internet or local network address and does not expect a response or confirmation PLC2011B1 ignores any comman
156. rsday Friday Saturday Sunday Activated Activated Activated Activated Activated Activated Activated Sunrise correction uU Sunset correctionr 0 o or v 23 00 23 00 23 00 00 00 Start time Stop time E A ee ee E 58 asmo an 11 13 i 45 17 19 21 1 720 N i N N N 1 as DEFAULTS READ Astro timer logical value 0 yellow field on the axis logical value 1 black field on the axis Timer logical value 1 when on red green or blue field logical value 0 when off no bar empty field visible Logical operators e OR can be called as alternative logical value 1 will be achieved if either the timers or the Astro timer logical value is 1 or both of their s logical value is 1 at the same time How the OR logical operator works Astro timer Timer Result 0 0 0 0 l l l 0 l l l l Example Monday Tuesday Wednesday Thursday Friday Saturday Sunday Activated Activated Activated Activated Activated Activated Activated Sunrise correction 2 0 Sunset correctionr Start time Stop time Eee ee BEN NE m 3 58 ASTRO AT 1 2 3 4 5 7 10 11 12 13 14 15 16 17 18 19 C E Ee 0 M M i 07 0031 DEFAULTS READ e XOR logical value 1 will be achieved if the logical values on the timer and the Astro timer are different from each other How the XOR logical operator works Astro timer Timer
157. rt numbers Time zone Password oe 9 1 Password and SALT The password must have at least 15 characters to be sure that device is immune to hacker attempts at guessing or breaking the password In buildings of heavy importance the recommended password length is over 24 characters The software requires a password of at least 15 characters and will not save the configuration 1f the password is too short On account of customer safety there is no way to bypass this requirement If the password 1s too short then the following message will display in the console IP 10 0 5 32 Software 4 33 2012 07 07 15 41 ALARM GATES POWER GENERATOR ALARM 1 TEST B 10 0 5 51 10051 TYPE A AUTO TEST A relay TEST A2 KA Ri R2 R3 R4 GE BE BE BE ER ER USB CONSOLE SETTINGS DEVICE A Windows Version 5 1 build 2600 Password too short Password must include gt 15 characters USB configuration Save configuration O Firmware update Synchronize time Password e000000000 IP MASK GW UDP VW 10 0 5 100 235 255 255 0 10 0 5 1 27136 80 MAC ADDR NTP SERVER IP 00 11 12 13 14 15 10 0 5 1 PORTS NTP OUT 123 27015 GMT and Summer time 1 6 Auto Civil twilight Summer honored v C Summer is during European Winter for example PLC is installed in Australia Save configuration Time synchronization PIN for USB
158. s connected UDP Port Number 10051 Ol R5232 ON OFF Ethernet Full Duplex FDX WWW Port Number 80 0 WWW OFF Geographic location of the device Ethernet MAC address 00 00 11 11 11 11 Random i S NN Geographic Latitude p 37 E 48 2 49 Bis v Time server NTP 10 0 5 173 MM Time server NTP port 123 0 NTP OFF Sa See 144 ivi Outgoing NTP port 27015 ETH ver oxg7 iezone GMT S Summer Winter time settings at local time Summertime begins October v First Sunday Summertime ends April y First Sunday 6 Auto Summer time 6 000 degrees Civil twilight Summer time honored for Sun calculations Summer is during European Winter for example PLC is installed in Australia DEFAULTS READ SAVE Example of settings for Paris GMT 1 IP Address 10 0 5 51 Subnet Mask 290 200 2000 Default Gateway 10 0 5 173 UDP Port Number 10051 WWW Port Number 80 0 WWW OFF Ethernet MAC address 00 00 11 11 11 11 Random 10 0 5 173 Time server NTP port 123 Time server NTP 0 NTP OFF ETH ver 0xB7 Outgoing NTP port 27015 Summer Winter time settings at local time Summertime begins March Summertime ends October 6 Auto Summer time 6 000 degrees Civil twilight Battery charging parameters e E ADC voltage correction for proper measurement ADC value when we treat battery as connected 200 e R5232 ON O
159. s installed in Australia Save configuration Time synchronization PIN for USB functions 0999009000999 Open firmware Test firmware write firmware 096 The first part is a cryptographic hash also called digest generated using SHA 256 function In our case the password is fifteen 1 111111111111111 without SALT Hash for this password will always look the same D3447652BB8A5FBB29C85423666D645A50C12D47B9B037D2E0E326EF0922A BEA Additionally to make it even harder to break the password that it is to guess it if the hash is revealed you can turn on the SALT function Salt is data added to the password before hashing with the SHA 256 function It s nothing more than a connection of the text of your password and another non secret text To activate the SALT function we have to go to the SETTINGS tab first IP 10 0 5 32 Software 4 33 2012 07 07 15 41 hj ALARM USB CONSOLE SETTINGS DEVICE A aj GATES Pa POWER GENERA TOR Pg ALARM 1 tg TEST B Salt TXT C Enable changes 10 0 5 51 10051 Language selection TYPE A English M d AUTO ae rs TEST A SAVE RESTORE configuration Read logs to the console M relay s EATESTA 2 SEO Sees E x FAR pa R2 Local NTP server on this computer Windows Firewall settings on this computer x pa R3 NTP Client My local subnet only xh R4 NTP Client pooling interval s The new Windows Firewall rule will be added here 3600 The name of the rule will
160. s to the registry Delete rule from the Windows Firewall CRYPTOGRAPHIC SALT FOR SECRET PASSWORDS Cryptographic salt for secret passwords Salt PLC Salting for PLC and others cxeaiie FESS Mj BS PS Salt TXT Salting for SMS and e mail Cy2011 TS aR Bi Te i Enable changes Salt configurations are described in the Password and Salt section ECRYPTION TOOLS Yerbose logging to the console A ONLINE After pressing the Encryption tools button a new window will pop out Encrypt Decrypt text messages Encrypt Decrypt ut This window can be used to enter paste and encrypt text To do this you first need to enter a password in the field where you normally enter the password to your device This password will then be used to decrypt the text The entered password does not have to be the password to one of your devices For example let s say that the password is the first 15 letters of the alphabet Enter and accept them and re enter the Encryption tools window In the main text field enter a short text e g Alice has a cat and then press the Encrypt button Encrypt Decrypt text messages Alice has a cat Encrypt Decrypt ut UTF 8 Characters 16 16 The text will be substituted with a character string Encrypt Decrypt text messages BLefsoqyEVRyg 9xgVBSFisXivchrFEVfylUxTr555We Now if you press the Decry
161. should not set the same time server for every one of them This time server will be flooded by packets coming from several devices looking as if they all came from one source This may cause the NTP server administrator to refuse you access to his server This regards public NTP servers available on the internet In this case you can use a local device like your router to be the NTP server for your devices The router would then synchronize it s time with an external NTP server and your relays would synchronize their time to the router without flooding an external NTP server Your own time server would be able to handle a lot of your devices without creating too much traffic on an external server that does not belong to you but allows you access You can also use a different NTP server for each of your devices NTP server addresses can be found using Internet search engines There are lots of these servers and you should pick the ones close to your location The safest method is to set one of the computers in your local network or your router as the NTP server The computer will not have to work all the time It should be on every 2 3 days so that the relays can download the current time If the NTP server is not switched on continuously then it may happen sporadically that a command sent to the relay will not be executed This occurs because when checking the communication with the NTP server the device also checks communication with the local ne
162. sors are inactive the resistance is 0 INP12 ALAL OWR1 OWR OC Ti T13 Configi Config2 TMP Legendi Legend 2 Android and analog Inputs 1 to 11 Compensate line An hysteresis or Analog trigger Alarm or analog zone binding Required Input calibration istance kQ al sensitivity kQ level kQ for resistance measurement 0 10 kQ on ARM to 7 5 kQ LJ LL l Q5 375 ALARM ZONED H o5 E 3 75 ES v m 4 _ 900 e os f 5 leor v 0 00 E 0235 E ZI el m pw o 2 os RE s5 B omr J V 0 00 a o25 as E Y v v a Ig v v 3 75 kd l t1 D DrunrmnrnmnrstLtt SAVE to the device From this moment you can observe every opening half opening or unsealing of the window and the status of the rest of the sensors Every time there 1s a resistance change you will see an information on your PC or mobile phone 13 1 5 Binding inputs to alarm zones In the next column you can bind individual inputs to alarm zones INP1 INP12 ALAL OWRL OWR OC Ti T13 Configi Config2 TMP Legendi Legg d2 Android Alarm and analog Inputs 1 to 11 Compensate line An hysteresis or Analog trigger Alarm or analog zone binding Required Input calibration resistance k9 al sensitivity kQ level k9 for resistance measurement 0 10 k9 on ARM to 7 5 kQ oo Goo ss See Ul INP
163. the configuration after adding and naming a thermometer You can read all thermometer number in the beginning and immediately enter them and save them in the device As you are connecting succesive thermometers to the bus and assigning them names you can place them on the top of the list or group them in any way you want e g make group based on where in the building the thermometers are placed Important If you have 1 Wire DS18B20 thermometer serial numbers entered but these thermometers are not physically connected to the device then the maximum minimum temperature value exceeding alarm will occur and inform you about damage to the sensor or the bus itself The device treats the entered thermometer as broken not disconnected and does not know whether this event is a thermometer malfunction or the thermometer is missing If you have such thermometers then you should change the first to numbers in the serial numbers to zeros 28XXXXXXXXXXXXXXX O XXXXXXXXXXXXXXX lOxxxxxxxxxxxxxxx O XXXXXXXXXXXXXXX You will not lose the serial number but the field with the unconnected thermometer will be blocked As you can see on the picture below the Thermometer in the office is connected and is showing the temperature but the Thermometer in the corridor is only entered in the device assigned a name but is not yet connected TEMP 17 TEMP 18 p 133 INPUT v 33 NEG CIA mAT 134 NEG Relay modules and input output modules connecte
164. the sunset time by 60 minutes e You correct the sunset time in the Sunset correction box e You set this value individually for every day e You either enter the desired values yourself or use the arrows e The available range is from 128 minutes to 127 minutes e In the picture the box where the sunset time on the current day Saturday was corrected by 60 minutes 1s marked in blue Monday Tuesday Wednesday Thursday Friday Saturday Sunday Activated Activated L Activated C Activated C Activated Activated C Activated Sunrise correction 0 D Ak 3 Sunset correctionr 0 0 0 0 Ak 3 Ak 3 Ak 3 Ak 3 Ak 3 e settings of the timer after the correction are visible on the second horizontal axis under the timer Em re e PEL l 3 58 ASTROJ AT 1 2 4 5 7 8 10 1i 12 13 14 15 16 17 18 19 e You see that the sunset time was moved back 60 minutes and is now at 8 48 P M e Ifyou correct the time using arrows you will see on the corresponding axis how the time changes on the fly e The effect of this operation will be that your lighting will switch on an hour before sunset TIMER function Night Breaks Night Intervals The device also has a programmable timer that cooperates with the Astro timer Using this timer you can set for every day of the week three periods of time when the Astro timer will stop working This function is often called a Night Break as you usually use it during the ni
165. tion Home Share View Jj DAPLC2011B1 3k Favorites Q relay 0741 exe SST anne oe myrelays xml Jg Downloads S Recent places To load them again you need to go to the SETTINGS tab and click the Restore from file button gt EJ B1 DESK USB CONSOLE SETTINGS DEVICE B1 1 z x Cryptographic salt for secret passwords i Salt PLC 4 Salting for PLC and others c 2011 7k 59 J GA pE SAVE Reset 4 E3B1 test 10 0 5 51 Salt TXT 4 Salting for SMS and e mail c 2011 FAH ATK E C Enable changes E3 10051 Language selection Verbose logging to the console English ES gt FA Ai TEST Encryption tools gt M C1 TEST SAVE RESTORE configuration Read logs to the console OK um Read logs Restore from file Erase logs forever Save to file C Enable erasing Local NTP server on this computer Windows Firewall settings on this computer NTP Client My local subnet only NTP Client pooling interval s The new Windows Firewall rule will be added here 0 The name of the rule will be MY NTP SERVER o NTP Server Port number to open close Read entries from the registry Add rule to the Windows Firewall Write entries to the registry Delete rule from the Windows Firewall Then find the folder where you saved the file and pick it from the file list t Jj Local PLC2011B1 Search PLC2011B1 D Organi
166. tion then save the settings and enter the password again Both the Salt PLC and Salt TXT options are switched on by default and use the default values to operate We advise to use even the default values ATTENTION Most failures in communication are connected to Salt settings either in the software for PC or Android or to errors made during configuration via USB You should really pay attention to what you are doing The SHA 256 hashes are visible so that you can see whether the password with salt gives out the same result as during the device configuration If you have any problems with connecting to the device you should first check the SALT settings Try to remember whether Salt was on during configuration via USB whether the Salt is now the same in both your PC and Android software After choosing the Verbose logging to console option the SHA 256 hash with the inclusion of the SALT will be shown in the console when trying to connect to the device after you enter and confirm the password You should analyze this data and the settings that you have made 9 2 Computer Network The computer network parameters must be set accurately as otherwise there is no chance of connecting with the device Remember to enter the IP address with the dots do not enter other characters You configure the device entering network addresses and the password blindly There is no possibility or any function of the device or software that will enable you
167. tivated Activated Activated Activated Sunrise correction 0 Sunset correctionr 0 ee 00 00 Start time EE 00 00 00 00 p pep om s e i pan lr m an 10 lii 14 15 i 17 19 2 1 0 AN GS 0 6 1 1 E i 9 7 0 gt 1 DEFAULTS RU Red UP will be activated for 1 second when the set red time period begins RD Red DOWN will be activated for 1 second when the set red time period ends RU and RD will both activate just for 1 second after which they will switch off If you want to arm alarm zone 1 ALA1 at the beginning of the red time period ALA1 RUIALAI If you want to disarm alarm zone ALA1 at the end of the red time period ALA I RU amp ALAI If you want to arm alarm zone 1 ALA at the beginning and disarm it at the end of the red time period ALA1 RU ALAI RU amp ALAI While the command above is correct there 1s no point of building such a complex equation when you can use a simpler one ALA 7R To understand what individual phrases mean you need to enter the Astro timer configuration window On the picture below it is shown with a red arrow B1 DESK USB CONSOLE SETTINGS DEVICE Bi gt EA Ci DESK gt 9 A1 DESK 4 453 B1 test 810 0 5 51 F3 10051 FA TYPE B1 J AUTO 02 O3 O4 O5 C E3 A1 TEST B1 test Reset gt E4 C1 TEST IP ADDR 10 0 5 51 ANA1 ANA2 ANA3 ANA4 UDP PORT 10051 Ti T2 T3 T4 T5 FIRMWARE VERSION UEM TIME UPDATE ARM T6 T7 T8 T
168. tro Timer The OR function will always change the logic status from 0 to 1 but never the other way The XOR function will change the sign to the opposite as the Timer ranges always give out value T The OFF function will cause the Timer setting to not be taken into account on the corrected Astro Timer diagram This issue was previously described in the Astro Timer section SOFTWARE OPERATION IN SHORT The basic version of the software used to operate the PLC2011B1 Alarm using a PC is delivered together with the device The software does not require installation Simply copy the software file to any location on your computer and run tt 23 1 Starting the software This window will pop out 4 3 New Device USB CONSOLE SETTINGS DEVICE A Configuration IP ADDR 10 0 5 100 UDP PORT 27136 Texts WWW RS232 TTL Next you should connect the power supply to the device and then the device to your computer using an USB cable do the First Run operation It is described thoroughly in the beginning of the manual when you achieve connection with the Alarm it s ready to use 23 2 Main window 3 New Device USB CONSOLE SETTINGS DEVICE B1 aoe PE 21 20 19 18 17 16 15 14 13 12 11 10 9 8 2 7 uu uD UD UD UD UD UD UD UD UD uUD UD UD UD UD UD UD UD UD UD UP h TYPE B1 E it
169. ttings using the Internet after you have successfully executed the First Run procedure and synchronized time meaning you should now be able to communicate with the device via the Internet You will not be able to use this option without proper communication with the device To enter the main configuration panel press the Configuration button in the program s main screen On the picture below this button is marked with a red arrow gt EJ B1 DESK gt 9 C1 DESK gt fg A1 DESK qa B1 test 10 0 5 51 E 10051 EJ TYPE B1 EJ AUTO gt 9 A1 TEST gt EJ Ci TEST USB CONSOLE SETTINGS DEVICE B1 PE 21 20 19 18 17 e 15 14 13 12 11 3333 EHI THE oo zd 9 ALA TMP T je ANA1 ANA2 ANA3 ANA4 JL JI ERE ALA4 ALA6 TDH TDC Configuration MODBUS Password A window with the main configuration panel will pop out IF Address Subnet Mask Default Gateway UDP Port Number WWW Port Number Ethernet MAC address Time server NTP Time server NTP port Outgoing NTP port 80 0 WWW OFF 00 11 12 13 14 15 123 D NTP OFF 27015 10 0 5 100 Battery charging parameters 255 255 255 0 10 0 5 1 127136 RS232 ON OFF Random Geographic Latitude tp Geographic Longtitude A 10 0 5 1 Timezone GMT Summer Winter time settings at local time Summertime begins Summertime ends 6 Auto Summer time m March w Last Su
170. tton The device is now in time synchronization mode In the USB console tab click the Synchronize time round option button Boxes needed for this operation will become highlighted You need to set the timezone enter your password and press the Time synchronization button After a second you should get the message shown below and the device will reboot itself If thb43e password entered is incorrect the device will not reset and the red LED on the left will switch on In this case you need to reenter the password correctly gt EA B1 DESK USB CONSOLE SETTINGS DEVICE B1 i 3 C1 DESK Windows Version 6 2 build 9200 EA Ai DESK FT Init ftStatus 0 2015 07 18 20 00 52 JA B1 test SHA256 AES256 E18E5A655603B15B1509B3E545C5BFOD2F8EBD8C9CEF955D4E08DB2AO02ECE63A 2015 7 6 18 20 0 52 LOCAL Year EJ 10 0 5 51 LOCAL Month LOCAL DayOfWeek LOCAL Day LOCAL Hour LOCAL Minute Ex A1 TEST LOCAL Second LOCAL Milliseconds 760 Ex C1 TEST LOCAL Summer Time 1 LOCAL Day Zone Name Central European Daylight Time FRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRERERHRRRRRHRRHHHRHEHEHHHHH HHHH USB configuration Save configuration Firmware update Synchronize time Password 10 0 5 100 255 255 255 0 10 0 5 1 27136 80 00 11 12 13 14 15 10 0 5 1 3 27015 1 IE 6 Auto Civil twilight Summer honored v w Summer is during European Winter for example PLC is installed in Australia Save configurat
171. twork The relay the executes a short network settings initiation procedure which may cause loss of a command that was supposed to get to the relay at that moment This is a way of protection against freezing The relay must send out a question and receive an answer from the NTP server If there is no response data packets will be removed and network settings will be initiated again The relay logic processes are not disrupted You need to make sure the computer frequently synchronizes time with the Internet This is the safest method as it eliminates the risk of using a fake time server or someone manipulating with the time server Any computer with any Windows system can be a time server In some systems the time server option is turned off by default You can switch it on using the tools in the SETTINGS tab Also unblock port 123 in the Windows Firewall For your laptop to become your time server you need to start the server service set your laptop s update time to 3600s and unblock a port in the firewall If you are using your laptop in your office even for only five minutes it will be enough for the relays to update the time It is good to have a continuously working router with a time server Geographical location of the device In the devices location fields enter the geographical coordinates of the place where the device is mounted They are required for the Astro timer to work correctly The Astro timer uses this data to calculate the
172. ur keyboard or using your mouse and a virtual keyboard on your screen This is a means of defense against spy software especially programs which register keystroke The entered password is not transmitted through the Internet This password is only used to mathematically generate a substitutionary password using the SHA256 hash function This digest is also not transmitted through the Internet The digest is used to encrypt the data between the user s computer and the device and is automatically wiped from the computer s memory before the software 1s shut down The long password you entered is overwritten in the memory when approved and a memory dump after the software is closed will not reveal our secrets The device has a digest of an identical password entered to it s own memory while it was being configured through USB but does not have a password per se It also does not have a function reading anything from the device s memory that could reveal the password or it s digest It is impossible to extract the password through USB the Internet or from electronic elements of the device You can only change the password personally after connecting the device to your computer by an USB cable and entering the 12 byte PIN code which prevents unauthorized password change through USB During the first phase the password goes through a one way hashing function SHA256 This 1s a cryptographic function which changes any character string to a so called d
173. vent down R TMP1 TMP16 Simple thermostats GD Green event down G TDH1 TDH15 Differential thermostats HEAT 1 3 5 7 BD Blue event down B TDC2 TDC16 Differential thermostats COOL 2 4 6 8 CTC1 CTC4 Clear Timer on Compare match event M1 M32 Shared memory variables DEFAULTS and do not save READ from the device SAVE to the device AC Astro Timer after correction AT Astro Timer R red part of the timer s diagram G green part of the timer s diagram B blue part of the timer s diagram Monday Tuesday Wednesday Thursday Friday Saturday Sunday C Activated C Activated C Activated C Activated Activated Activated Activated Sunrise correction 0 Sunset correctionr 00 00 00 20 00 00 00 00 00 00 00 00 03 00 00 00 00 00 00 00 00 00 00 On 09 01 00 00 CNET 00 00 0 00 00 00 15 00 00 00 oo pan T I T I Stop time 00 00 00 00 E 00 00 E an E Lupe a ne ea eee ppm 58 gan 21 48 10 11 14 15 16 17 18 19 20 21 LC N 1 N 0 N N as DEFAULTS Variables used to detect the beginning or end of the chosen time axis of the Astro Timer ACU ACD ATU ATD RU RD GU BU BD The example below shows the red axis of the Astro Timer but it can be analogically applied to other variables of this type Monday Tuesday Wednesday Thursday Friday Saturday Sunday Activated Activated Activated Ac
174. vice B1 PE 21 20 19 18 17 16 15 14 13 12 11 10 9 N f N F N Fat N f P P p d g 6 g g E 27136 009000 20d ge UD GUB UD GB Ge Ge GLO Ge Ge Ge Ge Ge Ge Ge Ge UD te te ft 3 2 1 Q 9 9 1 Q 9 9 9 9 LED LED3 ALA TMP rDH TOC 1 O2 O3 O4 Os O6 ANA1 ANA2 ANA3 ANA4 aa ALAS Alae HALDA LIAR A LIAS IAG y 77 Configuration MODBUS 1234 5678 ato 00 OO Timer OCi OC2 OC3 OC4 Password The added device will be displayed on the list on the left of the window OFFLINE aaga Q O O9 OQ Q Q 4 52s 1s 0 5s Saat J Ti T2 T3 T4 T5 C D T7 T8 T9 T10 T13 T14 T15 Ti18 T19 T20 RESET 34 9 10 11 12 13 14 15 16 BUS 5V To connect to it you need to choose it enter the password and the accept it Of course the device must be configured and assigned a password earlier These operations are described in earlier chapters of this manual Resetting the device using the software 4 B B1 DESK USB CONSOLE SETTINGS DEVICE B1 Hopes JGODERTAG RH TTTEPPPEPPE RETYPE B1 maaaaad wv Po oo oq FA AUTO 9 0 gt 3 C1 DESK gt fg A1 DESK dAAA gt F3 Bi_test ALA TMP TDH TDC 1 02 O3 O4 O5 O 1s O0 5s gt 9 A1 TEST CN r Reset gt EA C1 TEST K a
175. w wire org TEMP 17 TEMP 18 133 INPUT v 33 NEG 34 INPUT W134 NEG These errors can be caused by 1 Interferences from electrical machines 2 1 Wire wiring being installed to close to electrical wiring 3 Wrong 1 Wire topology 4 Cords in use being too long 5 Use of wrong cords with too much capacity In the 1 W ERR field you set how many temperature queries can be erroneous in relation to one read correctly If you set the value to 100 it will mean that if at least 1 in a 100 readings 1s correct the temperature for the chosen thermometer will not disappear Of course as the controller is getting erroneous readings with incorrect CRC control sum then it is not refreshing thermometers until it gets at least one correct reading in the chosen range For bus testing and initial observation the value set should be 0 For normal use the value should be between 5 and 10 In case of very bad communication the maximum value can be 250 The information about the status of the bus and the serial number will be refreshed every second without regard to what 1s set in the 1 W ERR field Therefore bus errors will be visible in these fields even though momentary thermometer disappearances will be ignored How to read the thermometer s serial number To read the serial number you need connect the thermometer to the device like in the diagram below DATA When you connect the thermometer it s serial number
176. y Analogically if you place it in Paris Berlin or Rome then during the summer the time zone stays GMT 1 you do not change it to GMT 2 If the device is placed in the southern hemisphere then remember to check the checkbox for the option that makes the device recognize this Otherwise the device will not properly recognize it s time zone and time changes will be executed in an improper manner Example of settings for a device located in Paris gt E B1 DESK USB CONSOLE SETTINGS DEVICE B1 l mB C1 DESK Windows Version 6 2 build 9200 gt EJ A1 DESK WM DEVICECHANGE DBT DEVNODES CHANGED 2015 07 16 4 FABI test WM DEVICECHANGE DBT DEVNODES CHANGED 2015 07 16 er ge WM DEVICECHANGE DBT DEVNODES CHANGED 2015 07 16 10 0 5 51 WM DEVICECHANGE DBT DEVNODES CHANGED 2015 07 16 10051 WM DEVICECHANGE DBT DEVNODES CHANGED 2015 07 16 TYPE B1 EF A1 TEST 9 C1 TEST USB configuration Save configuration CO Firmware update Synchronize time Password IP MASK GW UDP WWW 10 0 5 100 255 255 255 0 10 0 5 1 27136 80 MAC ADDR NTP SERVER IP 00 11 12 13 14 15 10 0 5 1 PORTS NTP OUT 123 27015 GMT and Summer time 6 Auto Civil twilight Summer honored v Summer is during European Winter for example PLC is installed in Australia Save configuration Time synchronization PIN for USB functions Open firmware Test firmware Write firmware Example of settings for a device located in Melbourne gt EJ B1 DESK USB C
177. z B7A 37A z535A8655 AES 256 Decrypt OQOOOOOOO000000000000000000000000 with our digest 50a129435FO8E38504FSG0IES04zZED1CB5U FT Write ftStatus 2012 05 09 19 56 13 Configuration written properly 0x99 2012 05 09 19 56 13 HRP RPPRRRP RP RR RPP RRRR PRR RRSP RRR RRR RSPR RRR RRR RRR RRR PRR RRR RRRBRRRRRS As you can see both are completely different When assigning a password you need to pay attention whether Salt is on or not If you assign a password with Salt switched on and then you switch the Salt option off you will not be able to connect to your device because even though the password is seemingly the same the hash is completely different for the salted and unsalted versions of the password A hash with or without salt is generated each time you enter the password and confirm it using the Accept button If you pick from the list a device without salt or with a different salt you need to enter the password again The password 1s destroyed immediately after being confirmed and the software 1s operating solely with the mathematically processed hash of that password and with or without values from the Salt options It may happen that you will not be able to connect to the device without any apparent reason You should then check the Salt settings remind yourself what settings have you made in the software and how did you configure the device via USB If the device password was set without Salt then you need to switch off the Salt PLC op
178. ze New folder 3 mn e iW This PC k Desktop F Documents J Downloads A Music Pictures Videos File name my settings ccr After pressing Open the file will be loaded and the device will restart itself This will not be immediate it may take several seconds Alarm input sensitivity If you want the inputs to work as alarm inputs and recognize each of the four connected sensors then the Analog hysteresis or alarm sensitivity column is important If the input works as an alarm input then this column set it s sensitivity for resistance changes If it s supposed to work as analog then you can set a hysteresis between on and off state Alarm input sensitivity defines how much must the resistance change for the alarm to be triggered The value of 0 25kQ is a default value It means that if the resistance changes by 0 25kQ the alarm will be triggered INP12 ALAL OWRL OWR OC fri T13 Confipi Config2 TMP Legend1 Legend 2 Android Alarm and analog Inputs 1 to 11 Compensate line An hysteresis or fAnalog trigger Alarm or analog zone binding Required Input calibration resistance k9 al sensitivity kai fevel k9 for resistance measurement 0 10 k9 on ARM to 7 5 kQ 0 00 0 25 0 07 E INPUT 7 INPUT 8 INPUT 9 INPUT 10 E INPUT 11 SAVE to the device You can set any value with p

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