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HF400 - Installation manual

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1. 5 e 0082001218 C T S ee digital shape duration disturbance level e Minimal weight of detected objects sees 20kg 100kg e Speed range of detected objects esses 25cm s 15m s GONCRIPUPOs tipici 6 parametric inputs iS inc M 8 programmed relays e Electrical characteristic of relay outputs NC NO 2A 50Vpc 60W e Mounting cabinet protection i 2 cabinet tampering detectors e Communication interfaces o Communication with Controller unit RS485 with galvanic isolation 9600bit s 38400bit s 8N1 RS232 with galvanic isolation esse 9600bit s 8N1 o Communication with HF400 modules FFSK modem O ZADEN ii RS232 with galvanic isolation e POWOTSBDDIPNO ZER RE EO AE nud dini er 10 5Vpc 48Vpc e Average current consump sessao a a i 0 7A 12Vpc e Operating temperature range i 40 C 55 C e Operating air humidity range eene 0 95 controller e Operating soil humidity range eene 0 9576 cables CND aa IP50 Dimensions EEN 390 x 225 x 42 5 mm Remarks Page 65 of 67 STEKOP SA ul Moldawska 9 02 127 Warszawa Management Office kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekop stekopsa pl WA
2. Zone no 3 Backup power RS485 RS232 supply 48Voc To alarm controller unit RS232 Max lenght 15m 2x RS485 Max lenght 1200m 2x TR400 TR400 Zone no 2 2x 2x TR400 TR400 Bp Zone no 1 Zone no 10 Fig 2 3 Networked configuration of HF400 One cascade can include up to 5 HF400 sensors every one of each can support up to 2 detection zones of maximum length of 200 m each An array can comprise up to 10 independent detection zones of a maximal total length of 2 km Caution Only HF400 sensors in networked version i e type HF400N can be used to create cascades Only filtered terminators i e type TR400 should be used to terminate a cascade Terminating a cascade with DL 30N terminators destined for autonomous configurations can provoke damage to HF400 sensors HF400 version 3 1 Installation manual Page 7 of 67 Zone no 8 Zone no 9 SIEKOP SA ul Moldawska 9 02 127 Warszawa Manufacturing kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekop stekopsa pl 3 HF400 sensor functions The basic function of HF400 sensor is to detect an intruder trespassing one of two detection zones The sensor provides for defining the minimal body weight and the range of speeds of an intruder who would trigger an alarm Additionally there is a possibility to define the acceptable speed of variation of recei
3. HF400 version 3 1 Installation manual Page 11 of 67 SIEKOP SA ul Motdawska 9 02 127 Warszawa Manufacturing kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekopQstekopsa pl While designing active cables layout it is important to exclude from the detection zone of objects which could disturb the device operation Even if permanent objects e g metal lamp posts provoke only a local deformation of the detection zone which translates into an area of lowered detection sensitivity moving objects e g bushes branches of low trees fences moving because of wind can provoke false alarms It is important to take into account watercourses and nonmetal drainage pipes They can modulate the signal received by the device following the flow of water It is a frequent reason of false alarms generated by HF400 sensor When they occur in an operating system it can be very difficult to identify their source and eliminate it Nonetheless it is acceptable to install cables in boggy soils soaked with water and even periodically covered by a static layer of water up to several cm deep In these conditions it is important to take notice that probability of false alarms is higher and sensitivity of the device could be somewhat lowered Table 4 1 indicates minimal recommended active cables distances from various objects Table 4 1 Minimal recommended active cables distances from ground obstacles Distance form act
4. Mame POF PDF writer Properties status Ready Type CUSTPDF writer Where CPWPT130 Comment Paper Size Size Ad Portrait Hetwork Cancel Fig 8 6 Correctly selected print layout 8 5 Detection thresholds configuration Setting up HF400 sensor detection thresholds i e sensitivity level is extremely easy and very intuitive It consists to drag with a mouse the line representing the current detection threshold to a new desired level During the process the software estimates and displays minimal intruder weight which will generate an alarm with this detection threshold When the setting is applied FieldH Manager service software calculates corresponding numeric values of the new detection threshold and saves them in the sensor s configuration memory All this process is transparent for the user who only uses the weight value to program HF400 sensor Depending on the chosen option the new detection threshold can become the base for estimating intruder weight or not Detection thresholds configuration function is accessed by placing the mouse cursor at the last stage signal processing graph i e SUM function and clicking mouse right button fig 8 7 Detection thresholds i Test weight threshold Modify level of detection weight Fig 8 7 Detection threshold change function activation 1 Setting detection threshold for test weight This option allows for defining the reference level for FieldH Manager s
5. Perimetric Protection Sensor HF 400 version 3 1 Installation manual version 1 06 STEKOP SA ul Motdawska 9 02 127 Warszawa Manufacturing kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekop stekopsa pl Contents 1 Principles of operation of HF400 sensor i 3 PN MOU AM CO NE AO EPIIT TT A A TOES 5 So HEJOU SCnsor M C O asie UAE AE E E POT teenie CUM UNE nitate 8 4 Detection zone CeSIGN ccccccccccccccceeseaeeseesesseeeeeeeeeeeeeeeeeeeeaaeseseeesseeeeeeeeeeeeeeeeeeeeaeaaaasaaeseeeeaaaes 11 3 Controller EEE e E EMEN O MEUM 16 GC 3DIC T stalldtiDBo eive A teen ata rn 29 0 Aceti 29 OC OMG CUMIN cb 30 6 3 Active cable connectors installation 3l 04 Passive cables installation en FEE ome NEA ONE ana ME D RUNE 34 6 5 InstalldHoH CHE IS ooo AA E MM RUNI EMI MED 34 0 0 2S6 DV CADIS TO DIE oenietereiivaUs es ena tant SAT eso aotearoa CODES 34 To CNS ON DEED au EE EE 36 S FICIOILTVESBASETE SCPUICC SODANO E Ut tram A EUR Um IURI 38 8 1 Recorded HF400 sensor signals display i 39 B5 2 COSI ARR RS cist ne ea sare DE EBEN Np M MB I NUM 40 8 3 Display or the log of recorded CYGNI adi p URS T bI MI quud i I Eb U UU EEUU 40 9 4 Recorded wavetortW DEHILOUL iecore oderat arie ane e pecado A r 4 0 3 Detection thresholds COMM OUPANOM uasa eee ra aa a ront nr edibus 42 8 6 Service software configuration uuu
6. maxa soca som rote sors SESE i La Connectors of operating f status LEDs Jae BE La LI 1 E m m x Ej E Power supply Binary inputs Relay outputs RS485 RS232 connector 10 5Voc 4B Vac In1 In8 Pk1 Pk8 connector no B Fuses T1 5A RS232 connector Cabinet opening no detector NC NO configuration select of relay outputs Pk1 Pk8 F102 power supply F111 active cable channel B F112 active cable channel A Power status LED Fig 5 2 HF400 sensor microprocessor controller unit Power supply connector HF400 sensor can operate on voltage from 10 5Vpc to 48Vpc In standalone configuration power supply is connected to J121 terminal J128 parallel terminal is used as power supply output for powering external devices connected to HF400 sensor Power supply is connected to J121 terminal if the device is used for powering the whole cascade in networked configuration In other situations the J121 terminal is not used and the device is powered through active cables It is recommended to use 48Vpc voltage for powering networked devices because it minimizes voltage drops on active cables and connectors and ensures the minimal power consumption D152 LED signals power on The F102 fuse is the main fuse of the device and the fuses F112 and F111 protect 2 power circuits supplying cascade They are unused in standalone configuration HF400 version 3 1 In
7. Detection parameters Amplification parameters Service functions Detection thresholds Date and Time Input Output states Inputs configuration Login Relays S S al Input config Input type MC YANO Input 1 Analog ML Input 2 Analog ML Input 3 Digtal gt NC Input 4 Digtal gt ML w Input 5 Digtal gt NC Input 6 Digtal gt ML w Input z Digital INC Input 8 Digtal gt NC Fig 8 24 Inputs configuration tab 8 8 Selecting the language version FieldH Manager service software is offered in different language versions Respective application language libraries are supplied as dll files which should be placed in the same folder as the main application ie FieldH exe file Menu Language Configuration allows previewing available language versions and selecting a user interface language Fig 8 25 To apply a language version change exit and reopen the service program HF400 version 3 1 Installation manual Page 56 of 67 STEKOP SA ul Moldawska 9 02 127 Warszawa Manufacturing kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekopQstekopsa pl Dictionary configura Eg Polski English Cancel Fig 8 25 Language version selection menu 8 9 User interface configuration Fieldd Manager service software allows for user interface configuration Unwanted or rarely used information fields or rapid access function b
8. Fig 6 5 Removing central core insulation mo Using the file remove any splinters and make it even then polish with abrasive plate All metal particles should be removed from the center of the cable Fig 6 7 HF400 version 3 1 Installation manual Page 32 of 67 STEKOP SA ul Moldawska 9 02 127 Warszawa Manufacturing kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekopQstekopsa pl Fig 6 7 Properly primed active cable Clean active cable central core should be covered with a thin layer of grease Then unscrew lightly the rear part of N type connector and push it on the cable as far as you can Then while holding the connector front part with an appropriate tool tighten the other part with the second tool not exceeding torque of 30 Nm Figure 6 8 shows a properly fitted N type connector Fig 6 8 Active cable with fitted NM50R I 2 type connector Caution e Itis possible to damage a connector when not following the above recommendations e Careless connector fitting can allow humidity to penetrate the interior of the connector and cable provoking a deterioration of HF400 sensor operation or even damaging the connection HF400 version 3 1 Installation manual Page 33 of 67 SIEKOP SA ul Moldawska 9 02 127 Warszawa Manufacturing kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekop stekopsa pl 6 4 Passive cables installation Pass
9. HF400 sensor awaits a new device software upload The activated bootloader function can be disabled by pushing Deactivate button If the main software i e MainPrg was successfully loaded to HF400 sensor s HF400 version 3 1 Installation manual Page 60 of 67 SIEKOP SA ul Motdawska 9 02 127 Warszawa Manufacturing kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekopQstekopsa pl memory it will start automatically If it is damaged the bootloader function cannot be disabled In this case it is necessary to reload proper device software to HF400 sensor HF400 sensor device software is supplied as memory image files img files and only these files will be accepted by Flashloader for HF BM program Pushing Upload button starts to transfer to HF400 sensor the file which was selected in Device software image window The upload progress is displayed with a progress bar in Flashloader for HE BM program and messages in Log window Fig 9 3 d Flashloader for HF BM Settings Device software image D APH1_041 img e Upload device software IBootLoader Addr 1 w 1030 HF400 Upload LLL Login Bootloader Password IST EKUPS Packet sent 29 from 256 to addr ACE Receive 28 from 256 from addr 1 Packet sent 28 from 256 to addr 1 ACE Recerre 27 from 256 from addr 1 Packet sent 27 from 256 to addr 1 ACE Recerre 26 from 256 from addr 1 Packet sent 26 from 256 to addr 1 ALE Receive 25 f
10. LED4 Reserved LED5 Network modem active LED6 R5465 port active LED7 R5232 A port active 1 2 3 4 5 6 7 8 Program bootloader LEDO LED7 Flashing line bootloader active MOR Qaonoxdo LLI LLI LLI LLI JI JI J129 1 O W x Q QOQQ W LU LU LLI ul s Fig 5 9 Wiring diagram of LED status indicators HF400 version 3 1 Installation manual Page 26 of 67 STEKOP SA ul Moldawska 9 02 127 Warszawa Manufacturing kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekopQstekopsa pl Active cables connectors High frequency inputs and outputs for active cables are realized as N type sockets Fig 5 10 Only anti spike protection adapters CN UB 280DC SB should be connected directly to HF400 sensor s terminals Active and passive cables should only be connected to these adapters In a situation when only cables form one zone are connected the terminals of the unused zone should be terminated with DL 30N terminators standalone mode or TR400 networked mode Transmitter Transmitter Receiver Receiver zone no 1 zone no 2 zone no 1 zone no 2 Fig 5 10 Active cables connectors Caution In HF400 sensor networked configuration the central core of transmitting cable carries some voltage Because of this DL 30N terminators should never be used for this configuration They are only intended for standalone configuration HF400 controller unit installati
11. 000 Contact NC NO depending on position JP104 Relay COMM contact Contact NC NO depending on position JP105 Relay COMM contact Contact NC NO depending on position JP106 Relay COMM contact Contact NC NO depending on position JP107 Relay COMM contact Contact NC NO depending on position JP108 Relay COMM contact Contact NC NO depending on position JP109 Relay COMM contact Contact NC NO depending on position JP110 Relay COMM contact Contact NC NO depending on position JP111 Relay COMM contact Ne NI RPI NI FINI RPI NI RF KH FINI L2 N HF400 version 3 1 Installation manual Page 22 of 67 SIEKOP SA ul Moldawska 9 02 127 Warszawa Manufacturing kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekop stekopsa pl Cabinet tamper detector Connector J110 enables connecting 1 or 2 NO type chassis tamper detectors to HF400 Fig 5 6 shows how to connect them These detectors can be used for detecting of opening of the chassis The maximal length of wires connecting switches SW1 SW2 to J110 connector should not exceed 1 m J110 SW1 SW2 Two tamper detection One tamper detection Fig 5 6 Cabinet tamper detectors wiring diagram Caution Only detectors inside the same cabinet as HF400 sensors can be connected to J110 connector It is prohibited to lay wires connecting switches SW1 SW2 to J110 connector outside the cabinet RS232
12. 2008 08 22 14 52 11 2008 05 22 14 50 24 2008 08 22 14 49 30 2008 05 22 14 49 00 2006 06 22 14 48 31 2008 08 22 14 47 56 2008 05 22 14 45 58 2008 08 22 14 46 36 2008 05 22 14 45 07 2006 06 22 14 45 33 2006 06 22 14 44 52 2006 06 22 14 44 05 2008 08 22 14 38 32 gt gt gt Load next 15 gt gt gt Fig 8 4 Measurements log window The device stores parameters i e detection threshold RF circuit amplification active during an alarm in its nonvolatile memory After loading waveforms from Measurements log and pushing the icon with a question mark Fig 8 5 a list of saved device parameters is displayed Read form register Address Zone 1 Fig 8 5 The icon displaying saved operating parameters 8 4 Recorded waveform printout Currently displayed signal waveforms can be printed as a report Starting printing is similar to other MS Windows applications Before printing it is possible to preview the report Print preview function in File menu Because the printing software is optimized for landscape layout report printing it is important to switch the paper layout to Landscape Page setup option in File menu Fig 8 6 It allows for printing on fewer pages HF400 version 3 1 Installation manual Page 41 of 67 STEKOP SA ul Moldawska 9 02 127 Warszawa Manufacturing kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekopQstekopsa pl Print Properties E Printer
13. automatically scans for connected HF400 sensors and in Log window displays their addresses active software and current software version Fig 9 2 The search can always be stopped with Stop button The basic condition for a successful search for connected HF400 sensors is to use the same password entered in Login window as the access passwords programmed in the sensors The default login password is STEKOPSA If HF400 sensor is changed it is possible to load factory defaults In order to do this either place JP102 jumper and push Reset button or disconnect and reconnect the power supply d gt Flashloader for HF BM Settings Device software Image AP Upload device software o om Search Login Bootloader Password IST EROPS Searching finished LOGIN ADDR 1 HF400 HainPrg v1 040 Nr00001 Searching started Initialization COH1 9600 None Fig 9 2 Search for connected HF400 sensors In Upload device software window select the device to replace the device software If this sensor s device software is active i e MainPrg you must activate bootloader program BootLdr by pushing Activation button It is also possible to do a hardware BootLoader activation by placing JP103 jumper and restarting the device BootLoader activity in device software loading mode is signaled by a flashing LED line on HF400 sensor and with a message about BootLoader activation in Log window in Flashloader for HE BM program From this moment on
14. configuration menu 8 10 Saving data directly to file The function to save the data directly to file Fig 8 27 is activated with 4 button situated on the function buttons toolbar of FieldH Manager service software It enables to save simultaneously on the hard disk signal levels from a number of zones recorded by HF400 sensors Data recording starts when a zone is added to the list with Add to list button after selecting HF400 sensor module address zone number and entering the access password The data is saved to a separate file for every zone which was added to the list The file name includes the following elements e COM port no e Zone no and HF400 module address combination e Recording start date in year month day format e Recording start hour in iour minute second format The files are saved to the folder specified in File Open menu There is no limit on recording duration The only limit is the available hard disk space Recorder 240 STEKOPS 166 STEROPSA Address 1 One Zone E Password ISTEKOPSA Add to list Exit Fig 8 27 Signals recorded by HF400 sensors saved directly to file HF400 version 3 1 Installation manual Page 58 of 67 SIEKOP SA ul Moldawska 9 02 127 Warszawa Manufacturing kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekopQstekopsa pl 9 Flashloader for HE BM Service software Flashloader for HE BM service software enables to update
15. damage Zone no l damage Relay switched on when zone no 1 sensor signal damage detected 14 Zone no 2 damage Zone no 2 damage Relay switched on when zone no 2 sensor sienal damage detected Programmed relay outputs functions default values for the sensor are not altered when loading factory NC NO P1A P8A 60Vnus COMM P1B P8B Fig 5 4 Simplified schematic diagram of Pk1 Pk8 relay outputs Pk1 Pk8 relay outputs are potentialless outputs their contacts being programmed by jumpers JP104 P108 for NC NO ie normally open normally closed configuration Relay contacts are protected against voltage and current spikes with varistors and polymer fuses Fig 5 4 shows a simplified schematic diagram of a relay output HF400 version 3 1 Installation manual Page 21 of 67 SIEKOP SA ul Moldawska 9 02 127 Warszawa Manufacturing kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekopQstekopsa pl EH pes OzIr ZOTdC Elo g Leo dodo an Rari HH ELM EOTdf REI SI e l cl Pk1 Pk1 Pk1 Pk1 Pk1 Pk1 Pk1 Pk1 NC NO NC NO NC NO NC NO NC NO NC NO NC NO NC NO 9c if 2c it 601 d 8218 ee Wi e t vOld GOId 9S0Idf LOTA 80Idf 6Oldfl Olldf TTIdP Torr corr j 660601 901f joe Lorza H iza Fig 5 5 Choice configuration of connectors NC NO transmitter outputs Pk1 Pk8 Table 5 3 Pk1 Pk8 relay outputs No spe Omen Spe Darton
16. event Delete all events Event description Event date Intruder speed 2 7 mls gg alarm Input No 2008 08 15 13 07 13 Alarm Input No 2005 05 15 13 07 13 Alarm Input No 2008 08 15 13 07 13 Alarm Input No 2008 08 15 13 07 13 Alarm Input Mo 2008 08 15 13 07 13 H Intruder zone trespassing 2008 08 18 13 15 09 Intruder zone trespassing 2008 08 18 13 15 09 a a Read O bytes Fig 8 3 Alarm events log window 8 3 Display of the log of recorded events HF400 sensor can store up to 203 27 second signal waveforms that generated an alarm Measurement log function displays them from the device s memory It is activated with the button Ps Similarly to other functions Measurement log function can also be accessed from History menu Activating measurement log display function opens a window with a list of recorded waveforms accompanied by the date and the time of their recording and associated events Fig 8 4 Selecting an event and pushing the button Load displays the signal waveform of this alarm on the graph Similarly like it happens when a waveform is loaded from a file graph display can be interrupted with R the button HF400 version 3 1 Installation manual Page 40 of 67 STEKOP SA ul Motdawska 9 02 127 Warszawa Manufacturing kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekopQstekopsa pl Measurement log 2008 05 22 14 53 34 2008 05 22 14 52 53
17. function scanning for HF400 sensors connected to the communication bus is implemented in the service software Actions Serial port scanner The bus scanning algorithm consists to query the devices in every possible address range at the selected transmission rates Before starting the search select the transmission rates to scan for devices and timeout value to receive a reply In order to shorten the scan time when short bus lengths are used it is possible to decrease timeout value defaults to 1000 ms to 200 ms When the scan is accomplished a report is displayed listing found sensors Fig 8 14 Serial port scanner Serial part speed Searching I 9600 bps iw 38400 bps Timeout 500 msec 19200 bps LOG Starting serial port scanning LOG Searching speed 9600 bps DEY Sensor HainPrg v1 041 Nr00001 LOG End searching speed 9600 bps LOG Searching speed 38400 bps LOG End searching speed 38400 bps LOG End Fig 8 14 Bus scanning function window HF400 version 3 1 Installation manual Page 46 of 67 SIEKOP SA ul Moldawska 9 02 127 Warszawa Manufacturing kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekopQstekopsa pl 8 7 Sensor operating parameters configuration HF400 operating parameters are configured in Settings Device menu There are a number of tabs with items grouped by subject To enable easy previewing and saving of HF400 sensor settings every tab includes q
18. ports HF400 sensor is equipped with 2 RS232 ports A and B The RS232 A port can be used for connecting HF400 sensor to system alarm controller unit or to communicate with FieldH service software The RS232 B port is inactive and is reserved for future use HF400 RS232 serial ports are galvanically isolated They require DTR and RTS from controller unit for correct operation Table 5 5 contains the detailed description of RS232 port signals and figure 5 7 shows how to properly wire a RJ45 lt gt DB9F connection cable This cable corresponds to console CISCO RJ 45 cable and should not exceed 15 m Table 5 5 RS232 A J116 and RS232 B J115 ports signals 1 CTS In Clear to send Data Set Ready Received Data Common ground Common ground Transmitted Data Data Terminal Ready Request To Send HF400 version 3 1 Installation manual Page 23 of 67 SIEKOP SA ul Moldawska 9 02 127 Warszawa Manufacturing kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekop stekopsa pl RJ45 connector DB9F female connector 12345678 tt CTS 1 1 RLSD I DSR 2 s uu RxD 3 3 TxD GND 4 4 DTR GND 5 5 GND TxD 6 6 DSR DTR 7 7 RTS RISE 8 CTS 9 RI Fig 5 7 KS RS232 cable wiring diagram R5485 port HF400 sensor R5485 port is equivalent to RS232_A port It can also be used for connecting HF400 sensor to system alarm controller unit or to communicate with FieldH service
19. sensor s features comprises the functions enabling HF400 sensor to interface with other systems The sensor is equipped with 8 general purpose programmed parametric inputs and 8 programmed relay outputs The state of HF400 inputs can be previewed by its controller unit and the state of relay outputs depends on a preprogrammed configuration They can be triggered by a defined event or their state can be entirely controlled by the system controller unit HF400 sensor function list e Intruder detection o Support up to 2 independent detection zone of maximal length of 200 m by each HF400 module o Intruder detection based on simultaneous analysis of received signal amplitude and phase variations o Detection of objects above a predefined body weight value range between 20 and 100 kg o Detection of objects moving with speed of 25 cm s to 15 m s exact value range is programmed o Intruder detection independently of his way of moving i e running walking crawling etc o Detected intruder speed estimation HF400 version 3 1 Installation manual Page 8 of 67 SIEKOP SA ul Motdawska 9 02 127 Warszawa Manufacturing kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekopQstekopsa pl o Elimination of alarms provoked by small animals o Elimination of alarms provoked by rapid variations in received signal e Remote device operation monitoring o Automatic calibration and adjustment of receiving circui
20. should be properly secured during shipment protected against any possibility of mechanical damage and influence of violent vibrations During shipment HF400 sensor s elements should not be subjected to temperatures lower than 40 C and higher than 70 C and to relative humidity higher than 95 HF400 version 3 1 Installation manual Page 63 of 67 SIEKOP SA ul Moldawska 9 02 127 Warszawa kol Porosly 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekopQstekopsa pl Manufacturing 11 HF400 sensor s elements list When ordering it is necessary to include the part s symbol from Table 11 1 and the number of ordered items When ordering cables indicate their length in meters Table 11 1 HF400 sensor s elements Symbol HF400 controller unit standalone HF400 ver 3 1 k2 3 configuration version 3 1 operating channels 2 and 35 HF400 controller unit standalone configuration version 3 1 operating channels 1 and 4 HF400 controller unit networked configuration version 3 1 operating channels 2 and 3 HF400 controller unit networked configuration version 3 1 operating channels 1 and 4 HF400 ver 3 1 k1 4 HF400N ver 3 1 k2 3 HF400N ver 3 1 k1 4 Antispike protection adapter CN UB 280DC 5B Active cable CMC 12I HLFR N type connector male for CMC 12I cable NM50R1 2 N type connector female for CMC 121 cable NF50R1 2 S
21. stekop stekopsa pl e Power transmitter output power adjusted from 0 1 to 1 W The power must be adjusted in such a way that the RF circuit amplification is at the level of 40dB e Amplitude amplification setting received signal amplification variations processing circuit measurement amplifier amplification This amplification should be selected in such a way that intruder provoked signal disturbances should maximally fill amplitude variations graph but without exceeding OV and 5V lines i e without saturating the measurement amplifier In HF400 sensor typical operating conditions amplification variations processing circuit measurement amplifier amplification is 64 e Phase amplification setting received signal phase variations processing circuit measurement amplifier amplification This amplification should be selected in such a way that intruder provoked signal disturbances should maximally fill phase variations graph but without exceeding OV and 5V lines i e without saturating the measurement amplifier In HF400 sensor typical operating conditions phase variations processing circuit measurement amplifier amplification is 64 e Reference phase received signal phase variations detector reference phase value This parameter allows compensating for the length of passive cables conducting the signal to active cables The reference phase value should be selected in such a way that the line displaying average phase level on received sign
22. zones up to the length of 200 m each and is completely autonomous from other HF400 sensors operating in the system From the point of view of an alarm controller unit an HF400 sensor in autonomous mode can be regarded either as a standard detector Fig 2 1 or either as a so called intelligent detector Fig 2 2 In the first instance the sensor s relay outputs are connected to the inputs of an alarm controller unit The system designer disposes of HF400 sensor s 8 relay outputs and each one of them can be programmed to signal 1 of 14 events Additionally every output can be defined as an NO or an NC output Specific ways to connect relay outputs to monitoring inputs of an alarm controller unit and their setup depend on the type of alarm controller unit used and deployed security system solutions Zone no 1 Zone no 2 lt 200m max lt 200m max 2x Pa 2x DL 30N DL 30N Active cables 4 Passive cables Terminators 7 PC sensor calibration sensor operation monitoring RZE software updating Backup power Pk1 Pk8 supply 12V pc to alarm inputs of alarm controller unit F ig 2 1 Autonomous configuration of an HF400 sensor functioning as a standard detector You can dispose of a broader range of generated events by using HF400 sensor as an intelligent detector The basic condition to use this mode is to deploy an alarm controller unit supporting the dedicated transmission
23. 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekopQstekopsa pl 10 Choose the mode of powering of the device i e powering every unit from the local power supply network or powering of all the units from a central power supply unit 11 Trace power supply lines and calculate expected voltage drops on the wires Check if the voltages on the line ends conform to the HF400 recommended voltages 12 Decide on the manner to connect HF400 sensors to the system controller unit i e relay outputs R5485 or RS232 interfaces 13 Trace the active cables layout 14 Calculate power requirements of the system and decide on backup power sources 15 Choose installation housings and design inside component layout HF400 controller unit voltage spike protection system power supply signal and power cables connectors signal converters etc 16 Prepare element list of the perimetric protection system HF400 version 3 1 Installation manual Page 15 of 67 SIEKOP SA ul Motdawska 9 02 127 Warszawa Manufacturing kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekopQstekopsa pl 5 Controller unit installation HF400 controller unit has a modular design Fig 5 1 It comprises 5 modules 2 emitter modules one for each zone 2 receiver modules and a microprocessor controller unit All the modules are placed in a monolithic aluminum cabinet which is adapted for installation in a special cha
24. 48 90 38 e mail stekopQstekopsa pl Detection parameters Amplification parameters Service functions Detection thresholds Date and Time Input Output states Inputs configuration Login Relays 5 S gj Relays Relay ZONE 2 ready w Relay 2 Alarm intruder in zone 2 Relay 3 Relay not used always switched off Relay 4 Relay nat used always switched aff Relay 5 zone ready w Relay Alarm intruder in zone 1 Relay F Relay not used always switched off ET not used labvays snatched off IR Fig 8 16 Relays tab Detection thresholds tab Fig 8 17 allows for reading out and saving HF400 alarm thresholds Alarm thresholds are independently configured for zone 1 and zone 2 e Detection threshold numerical value of alarm threshold for the reference weight e Intruder weight minimal intruder weight whose trespassing will trigger an alarm HF400 version 3 1 Installation manual Page 48 of 67 STEKOP SA ul Moldawska 9 02 127 Warszawa Manufacturing kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekopQstekopsa pl Device configuration Detection parameters Amplification parameters Service functions Inputs configuration Login Relays Detection thresholds Date and Time Input Output states 5 3 Detection thresholds one 1 one Z 1 4145 Alarm threshold at detection probability 99 and intruder s weight 70kg 30 30 In
25. 50 2 H155 W6 01 OP voltage anti spike protection adapter CN UB 280DC SB HF400 controller unit driver Fig 5 11 Typical installation diagram of HF400 controller unit HF400 controller unit installation consists in mechanically mounting the cabinet to its base connecting ground wire and active cables supervisory security controller system monitoring lines R5485 bus and power supply lines to appropriate terminals The power supply cable should not be longer than 3 m Figure 5 11 shows a typical installation diagram of HF400 controller unit During installation it is important to make sure that the device s terminals are not humid wet or covered with a chemical product with corrosive properties This could provoke a loss of contact For example many popular universal and waterproof silicone sealants contain acetic acid which provokes metal corrosion Products like this should never be used to protect the connectors To protect them against humidity only the self fusing tape this is supplied with HF400 controller unit HF400 version 3 1 Installation manual Page 28 of 67 SIEKOP SA ul Moldawska 9 02 127 Warszawa Manufacturing kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekop stekopsa pl 6 Cable installation 6 1 Active cables laying Active cables layout is extremely important for proper operation of HF400 sensor It influences e Detection zone shape e Sensor sensitivity characteris
26. HF400 sensor device software through RS232 or RS485 serial interface Uploading a new version of device software can be performed locally or remotely Maximal serial connection length between PC and HF400 sensor is the only limitation It is 15 m for RS232 connection and 1200 m for RS485 connection However the distance between PC and HF400 sensor can be increased substantially employing RS232 or RS485 to Ethernet converter e g TIBBO DS100B serial ports server connected to LAN WAN network The connection distance will only be limited by LAN WAN network range Before launching Flashloader for HE BM service software HF400 sensor should be connected to PC The connection type is not relevant From the PC side it is always a COM port Only set COM port number in Flashloader for HF BM service software and transmission rate selecting between 9600 19200 38400 8N1 Fig 9 1 Caution RS485 interface uses 9600 19200 38400 bit s transmission rates for application software and only 9600bit s for Bootloader program Flashloader for HF BM Device software image Upload device software COM port settings Port Baud rate Data bits Parity Stop bits Fig 9 1 COM port configuration HF400 version 3 1 Installation manual Page 59 of 67 SIEKOP SA ul Motdawska 9 02 127 Warszawa Manufacturing kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekopQstekopsa pl Pushing Search button the software
27. Laid cables should be covered with 7 cm layer of sieved sand The trench should then be filled with excavated soil and the ground should be leveled If further ground works are planned for this area before filling the trench the cables should be marked with indicator band placed 18 cm below ground i e on the sand level In some situations active cables can require additional protection against mechanical damage which could be provoked by future ground works In this case shielding pipes cut in half can be used laid above the cables on the sand layer Shielding pipes used for active cables protection should be made of plastic You should never use metal pipes HF400 version 3 1 Installation manual Page 29 of 67 SIEKOP SA ul Motdawska 9 02 127 Warszawa Manufacturing kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 sand V LE base sand Bw Fig 6 1 Active cables below ground laying diagram trench dimensions calculated for optimal cable laying depth of 25 cm m 10 cm Additional remarks In humid boggy stone rocky soils sand priming should be protected from escaping to surrounding soil with geotextile It is laid in the trench and then covered with the first sand layer then the cable is placed and covered with the second sand layer according to the description above Free geotextile sides are folded to overlap and covered with a layer of earth Before covering with earth it is poss
28. RRANTY CARD in case of fault should accompanythe devide Device name Czujnik ochrony obwodowe HF400 type HF400 wykonanie 3 1 WONECHANNEJS MR orsi EO Zoe Ewie AAA asi Sera mumbeft resi PIOGUCHONdde Lila WARRANTY CONDITIONS The manufacturer warrants the device to operate properly for a period of 12 months from the date of purchase This warranty does not cover damages provoked by the purchaser or being a result of improper shipment and storage of operation non compliant to the operating instructions and also of improper maintenance or lack thereof The device must be installed and maintained by qualified personnel with a proper manufacturer s authorization only If faulty the device should be shipped to a manufacturer s collection point listed below and then it will be repaired free of charge Dismounting shipping to a collection point collection after repair 1s on the purchaser s charge these costs are not included into the product s price The duration of warranty service repair is 14 days since the date the device was received by the collection point Any repairs performed by persons unauthorized to perform warranty services void any rights acquired under this warranty COLLECTION POINT STEKOP SA kol Porosty 52 16 070 Choroszcz Signature
29. RS232 interface e Integration with other systems o Support of 8 general purpose parametric inputs o Support of 8 programmed relay outputs with NC NO connections e Installation o No need to obtain a special license in order to operate the device operation on ISM 40 66 40 70 MHz band o Possibility of connecting various types of leaking cables signal cables o Active cables only in networked version used for supplying power and transmission data between cascade modules of maximum length of 200 m no need for additional cabling HF400 version 3 1 Installation manual Page 9 of 67 SIEKOP SA ul Moldawska 9 02 127 Warszawa Manufacturing kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekop stekopsa pl o Protection of all the lines i e signal lines data transmission connections and power lines against electrostatic and atmospheric discharges 2 cabinet tamper sensors support power supply operating voltage 10 5Vpc to 48Vpc resistant to reversed polarity of supplied power external operating temperature 40 C to 55 C acceptable air humidity controller unit 076 to 9576 acceptable soil humidity cables 0 to 100 CO 0 O O O HF400 version 3 1 Installation manual Page 10 of 67 STEKOP SA ul Moldawska 9 02 127 Warszawa Manufacturing kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekopQstekopsa pl 4 Detection zone design Proper
30. ables the HF400 sensor uses standard leaking cables employed universally for enhancing radio signal in places where radio waves propagation is diminished Because of this the active cable cost is lower Additionally the cable is available on standard spools from which it is laid and cut to required length directly on the installation site It simplifies the design of the system and its setup and also lowers the total cost of the system A single HF400 sensor module can protect up to 2 independent detection zones with a total length of 200 meters each The operating frequency range of the HF400 sensor is located in ISM 40 66 40 70 MHz band which is reserved for similar devices The sensor conforms to all the norms relevant to radio waves transmitters and transceivers which do not require operation licenses For this reason installation and operation of the device does not require any frequency allocation or license Contrary to surface and fence based perimetric systems when installed the HF400 sensor is completely invisible to potential intruders preventing them from remotely detecting this perimetric protection system and preparing in advance to penetrate it Detection of the HF400 system through radio frequencies scanning is difficult because of low levels of energy emitted by the transmitting cable The sensor being below the ground surface is highly resistant to sabotage attempts and accidental damages Possible cable damages due for exam
31. al phase variations graph should be as near as possible to 1 V level Service functions tab Fig 8 22 allows for setting logical address HF400 sensor RS485 port transmission rate and displaying the software version HF400 version 3 1 Installation manual Page 53 of 67 SIEKOP SA ul Moldawska 9 02 127 Warszawa Manufacturing kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekopQstekopsa pl Device configuration Detection thresholds Date and Time Input Output states Inputs configuration Login Relays Detection parameters Amplification parameters Service functions S w Software version MainPrg 41 041 Nr0000 H5 485 configuration 94600 w Set Device address change 1 Sel Service functions Main program reset Activate bootloader Deachvate bootloader Fig 8 22 Service functions tab Inputs Outputs states tab displays in detail input Inl In8 lines states relay outputs states and LEDs states Fig 8 23 Input lines states are displayed graphically color indicator and descriptively The color indicator displays input state according to Table 5 2a and Table 5 2b i e yellow Sabotage green Normal red Alarm Parametric inputs description includes their type i e parametric binary NC NO voltage and resistance connected at the input Binary inputs description includes their type Caution When using recommended parametric resistors section 5 Ge
32. ays graphically recorded signals in the amplitude and phase processing circuits Displayed data can be read directly from the devices or from saved text files from computer hard drive Data directly read from the sensor After correctly setting up communication parameters of the service software it is possible to display received signal directly from HF400 sensor Pushing the button Q on the application toolbar starts sensor signals recording The button stops recording To delete the currently displayed signals push the eraser button 2 Data accessed from saved files The play back will start after pushing button and selecting a signal file To stop push M button The eraser button will behave similarly as above and will delete displayed signals 3 Save data to file In order to save signals to file select File on the menu then option Save as select file name and its location Caution Only data displayed in Recorded sensor signals window will be saved All the above functions can be also accessed form the context menu Actions When the signals are displayed current operating parameters panel displays the numerical values of the displayed signals in recordered sensor signal window The user can manually change the scale of displayed amplitude and phase signals by deselecting Automatic scale option and selecting an appropriate amplification factor respectively for amplitude and phase To read other device s operating parameters it i
33. either pushing SW101 switch Fig 5 2 on the microprocessor controller board to restart the system or switching off and on the sensor After restarting the system the jumper should be removed Table 5 7 Default factory settings activated with JP102 jumper Address 01h RS485 transmission rate 9600 bit s Active software System software Password STEKOPSA Caution During routine operation there is no need for activating bootloader or loading default settings because all of the sensor s settings can be programmed remotely HF400 version 3 1 Installation manual Page 25 of 67 SIEKOP SA ul Moldawska 9 02 127 Warszawa kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekopQstekopsa pl Manufacturing Jumpers JP102 and JP103 are meant to be used in a case of HF400 sensor s main software fault or in a situation when the sensor s configuration is lost and there is no possibility to communicate with it Signal LEDs J129 connector on the microprocessor controller board Fig 5 2 enables to connect 8 LEDs which indicate the device s operating status Table 5 8 describes their functions Figure 5 9 shows their wiring diagram The LEDs should be connected with a 10 wire AWG28 1 27 mm cable with an IDC10 connector The cable should not exceed 20 cm Table 5 8 LEDs functions Main software LEDO Reserved LED1 Reserved LED2 Reserved LED3 Reserved
34. erminals of the other zone should be terminated with the supplied terminators 6 3 Active cable connectors installation Recommended tools and accessories e SPTC 50R1 2 tool for stripping CMC 12I type active cable fig 6 3 e N type connectors for CMC 12I type active cable fig 6 4 o Female type NF50R1 2 Male type NM50R1 2 Fine toothed metal saw File Non metallic abrasive plate o Acidless grease impregnated cloth e Universal adjustable wrench with flat jaws o Size2x 22mm o Sizelx 19mm O O HF400 version 3 1 Installation manual Page 31 of 67 SIEKOP SA ul Motdawska 9 02 127 Warszawa Manufacturing kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekopQstekopsa pl w n m t T o dnd o Wf di inte WE ANA DONS Sa Fig 6 3 SPTC 50R1 2 tool Fig 6 4 N type connectors for CMC 121 type active cable AM m Preparing active cable for connector fitting Cut a square hole at the end of the cable using the metal saw and then remove the central core insulation for length of 14 mm using the SPTC 50R1 2 tool Then remove dielectric substance from between the shield and the central core for length of 23 mm see fig 6 5 and fig 6 6 Uncovered shield and central core surfaces must be clean and free of any remaining insulation on all their length PRAT 92174 Waites o Id EE Va E A M e Fig 6 6 Removing dielectric w 2 2
35. ervice software weight estimation It is usually used during HF400 sensor calibration when the graphs display the signals from an intruder with a known weight In order to define reliably the threshold SUM function graph should clearly display the instants of sensor triggering Setting up the detection threshold consists in selecting Test HF400 version 3 1 Installation manual Page 42 of 67 STEKOP SA ul Moldawska 9 02 127 Warszawa Manufacturing kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekopQstekopsa pl weight threshold setting option from the Detection thresholds context menu and aligning the line showing the detection threshold with the peaks of intruder generated disturbances Fig 8 8 Fig 8 8 HF400 sensor reference threshold change After accepting the new position of the line showing the detection threshold it is necessary to input intruder weight for the recorded disturbance Fig 8 9 Fig 8 9 Recorded object weight input window The modification can be confirmed in Current operating parameters panel window Fig 8 10 Voltages in signal processing tracts Amplitude processing tract Momentary value 2 98 Vv Medium value D SU Vv Phase processing tract Momentary value 2 77 Vv Medium value Obs Detection thresholds Detection threshold 9303 Intruder weight 30 kg Fig 8 10 Detection thresholds window in Current operating parameters panel 2 Detect
36. hange in zone no 1 Relay switched on when intruder detection in zone no 2 probability is lowered e g Zone no 2 intruder detection not ready 5 Zone no 2 not ready signal sensor undergoing detection circuits calibration after a sudden environmental conditions change in zone no 2 Communicating with Communicating Relay switched on when data exchanged controller unit with controller unit with system controller unit signal Relay always on Relay not supported Relay always switched on by HF400 sensor Relayed controlled by Relay state Relay switched on off remotely by system controller unit controlled remotely controller unit Sabotage Sensor sabotage Relay switched on when a sabotage attempt signal detected i e cabinet tampered with or one of the active cables damaged HF400 version 3 1 Installation manual Page 20 of 67 STEKOP SA ul Motdawska 9 02 127 Warszawa Manufacturing kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekopQstekopsa pl 10 Internal temperature too low Too low operating temperature signal Relay switched on when internal temperature below 35 C 11 Internal temperature Too high operating Relay switched on when internal too high temperature signal temperature above 45 C 12 General damage Sensor damage Relay switched on when microprocessor signal controller unit damage detected 13 Zone no 1
37. ible to lay indicator band on geotextile 6 2 Connecting cables Invisible HF400 system detection zone is created by underground special construction active cables They are connected to HF400 controller unit by intermediary of passive cables which are not a part of the protection zone Passive cables are connected to zone TX and RX terminals Their other end is connected to active cables with N type connectors Active cables are in their turn terminated with terminators Fig 6 2 shows a detailed wiring diagram of cable connections and the types of used connectors HF400 version 3 1 Installation manual Page 30 of 67 SIEKOP SA ul Motdawska 9 02 127 Warszawa Manufacturing kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekopQstekopsa pl N type connector N type connector male NM50R 1 2 female NF50R 1 2 N type connector male on cable active cables passive cables controller N type connector female N type connector female on cable H 155 Terminator 50Q with N type connector male DL 30N Fig 6 2 Active cables connections wiring diagram All the connections between HF400 sensor passive cables active cables and terminators should be accomplished using the manufacturer supplied connectors All the connections should be protected against corrosion and humidity using self fusing tape If only one HF400 protection zone is used unconnected TX and RX t
38. ion weight modification Selecting Modify level of detection weight option from Detection thresholds context menu allows to modify intruder weight for generating alarms by the device Similarly to the above case the detection threshold is defined by moving the line indicating it to the required position During the process the software estimates and displays estimated minimal intruder weight which would generate an alarm with this detection threshold HF400 version 3 1 Installation manual Page 43 of 67 SIEKOP SA ul Motdawska 9 02 127 Warszawa Manufacturing kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekopQstekopsa pl Fig 8 11 Detection threshold change with an estimated intruder weight The modification can be confirmed in Current operating parameters panel window Fig 8 10 Caution After detection threshold change the device generates 4 autocalibration impulses 8 6 Service software configuration FieldH service software parameters are configured in Settings Program menu There are 2 groups of settings Under the tab General Fig 8 12 the following parameters are defined Scale scaling factor of displayed waveforms in amplitude and phase processing circuits Time scale time axe scale Samples no for surface calculation this parameter is not used in the version 3 1 of HF400 sensor before it was used to determine the number of samples taken into account by FieldH Manage
39. ive cables Building wall Rigid metal fence e g welded metal bars Moving metal object e g gate vehicle elastic fence metal mesh etc Electric underground cables Water reservoir lake pond etc It is recommended to lay active cables perpendicularly to pipes to minimize the influence of metal piping on the characteristics and shape of HF400 sensor detection zone when active cables must cross a sewage pipe or a watercourse Recommended minimal distance between a pipe and active cables should be 1 m It is important to shield pipes made of a nonconducting material e g PVC cement Figure 4 2 shows an example of shielding a sewage pipe Another method consists in driving the pipe through a section of metal pipe In this situation recommended minimal distances are the same as for shielding with metal sheet Fig 4 2 It is important to protect the shield against rust so it can still be effective after a number of years underground HF400 version 3 1 Installation manual Page 12 of 67 SIEKOP SA ul Moldawska 9 02 127 Warszawa Manufacturing kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekopQstekopsa pl view from side 25 cm ground surface iets shield sewage view from above s metal shield Fig 4 2 Example of shielding a sewage pipe While designing active and passive cables layout it is important to follow the recommended distance
40. ive cables do not generate electromagnetic fields and do not detect its variations Because of this they are not sensitive to intruders and environmental changes They can follow any trace The only limit is the maximal passive cable length which should not exceed 20 m and the minimal curvature radius which is 35 mm for H155 cable They should be laid in plastic protective tubes There should be at least 10 ferrite beads RI PKCF 05 A5 on each of them The beads should be placed every 30 cm starting from the active passive cables connection The cable ends should be fitted with the supplied N type female connectors from the active cables side and male ones from the HF400 controller side A specialized tool should be used for fitting the connectors 6 5 Installation check After connecting passive active cables and terminators the resistance at the cables N types connectors from the HF400 controller side must be checked with a meter The cables should be disconnected from HF400 sensor If the system employs TRAOO type filtered terminators they should be replaced with DL 30N type terminators to take the measurement The resistance between the shield and the central core on the N type cable connector in the direction of the DL 30N type terminator should amount to 500 2 If it is different check carefully the cables their connections correctness of fitting the N type connectors and the terminators If the resistance measurement is correct protect
41. larm duration ttt tit 040 haan 24 DD Max alarm duration Mas alarm duration HH HHI 2400 ttt ttt Fig 8 19 Detection parameters tab Defined parameters of o MEE 30 Number from range 1 20 Sensitivity level and activity flag sensitivity level determines device s susceptibility to quick variations of amplitude and transitory phase signals Its default value is 2 0 and activity flag is off Activity flag i e zd respectively activates aooe E or blocks AR 2 alarm verification algorithm based on speed of variations of received signals If this algorithm is off the sensitivity factor value is not relevant and triggering an alarm signal depends only on the duration of disturbances exceeding detection thresholds If alarm verification algorithm based on speed of variations of received signals is on an alarm signal is triggered when the following conditions are met e Alarm threshold was exceeded for time not shorter than minimal alarm duration and not longer than maximal alarm duration e Speed of amplitude variations analysis algorithm triggered an alarm signal when the received signal exceeded alarm threshold e Speed of phase variations analysis algorithm triggered an alarm signal when the received signal exceeded alarm threshold Caution When Sensitivity level value is too low HF400 sensor possesses a greater susceptibility to external environmental influences e g precipitations however when the value is too high the p
42. led cascades and their sensory cables are used to supply power and to transmit data signals Transmitting cables are used for supplying power and receiving cables are used for data transmission between sensors and the controller unit Because of this the cable layout of the perimetric protection system is simplified to a large extent There is no need for a separate power supply and data cables for every HF400 sensor included in the system It is enough to connect these cables to any of the cascade modules Any of HF400 sensors can become a communications gateway between the system controller unit and other HF400 sensors The gateway function is activated automatically based on analysis of controller unit queries sent to R5485 or RS232 The 48Vpc voltage is recommended for powering the elements of a cascade This allows to limit the current from the backup power supply unit and to lower voltage drop on active cables and connectors HF400 version 3 1 Installation manual Page 6 of 67 SIEKOP SA ul Moldawska 9 02 127 Warszawa Manufacturing kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekopQstekopsa pl Zone no 4 Zone no 5 Zone no 6 Zone no 7 2x 2x TR400 gt lt 4 lt 200m max 200m max lt 200m max 200m max Terminators with filter Active cables Passive cables
43. levels in received signal amplitude and phase variations processing circuits Additionally it is possible to preview the channel number for every ZONE Device configuration Detection thresholds Date and Time Input Dutput states Inputs configuration Login Relays Detection parameters Amplification parameters Service functions 2 5 gi fone one z 2 Transmitter channel 3 Transmitter channel E Hecerver channel 3 Hecerver channel 0 50 Power w 0 50 Power wi Amplification level Amplificatian level Amplitude E4 Amplitude 64 JH Phase B4 w EF Phase B4 Reference phase Reference phase 90 d O w Fig 8 21 Amplification parameters tab Tuning of amplitude and phase variations processing circuits is performed after HF400 installation during its start up procedure It allows for selecting optimal operating parameters of HF400 sensor measuring circuits for given environmental conditions Measurement circuits parameters Transmitter channel transmitter channel no for a given zone This channel must be the same as the receiver channel for this zone Receiver channel receiver channel no for a given zone This channel must be the same as the receiver channel for this zone HF400 version 3 1 Installation manual Page 52 of 67 SIEKOP SA ul Moldawska 9 02 127 Warszawa Manufacturing kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail
44. neral purpose inputs displayed resistance values can differ by 10 from nominal resistor values Relay outputs and LEDs states are displayed as a color indicator and a numerical value Red indicator and a value of 1 signals relay on LED on grey indicator and a value of 0 signals relay off LED off HF400 version 3 1 Installation manual Page 54 of 67 SIEKOP SA ul Moldawska 9 02 127 Warszawa Manufacturing kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekopOstekopsa pl Device configuration Eg Detection parameters Amplification parameters Service functions Inputs configuration Login Relays Detection thresholds Date and Time Input Output states i 3 5 Input states mou fs finaegNe Tav Open Input 2 Is AndogNE E2V pen Input 3 I Data 0000000000 Input 4 I Ditin Input 5 Y Dane Input E Y Dial Input 7 I Daan 0000000000 Input 8 I Da a 0000000000 hm ME a ao AM re 8 nulla 4 dd I I LED states 0000 0 0 121111111 Fig 8 23 Inputs Outputs states tab Inputs configuration tab allows configuring general purpose inputs In1 In8 Fig 8 24 A list box enables to set every input independently as binary parametric and NC NO HF400 version 3 1 Installation manual Page 55 of 67 Manufacturing Device configuration SIEKOP SA ul Moldawska 9 02 127 Warszawa kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekopQstekopsa pl
45. nto protection zones Check if the soil in every detection zone is uniform and if it does not contain high conductivity minerals e g iron ore If there is a sudden change in soil conditions inside the zone e g sand subsoil clay divide the detection zone into 2 independent zones i e an independent zone for each kind of soil Trace precise active and passive cables layout on the area diagram Choose HF400 sensor configuration i e standalone or networked Choose frequencies for the protection zones taking into account that 2 neighboring zones cannot operate on the same frequency channel and that zones operating on the same channel should be maximally distant from each other Define HF400 controller units localization It is recommended to mount the controller units inside the protected site in a location with a difficult access for an intruder They should be protected against sabotage by use of special housings or installation wells etc Check if the protection zones do not contain objects which could deform their shape or provoke false alarms and if the minimal distances Table 4 1 from such objects to active cables are respected Check lengths of active cables passive cables and radii of their curvature in every designed zone They should never exceed the installation recommended values Table 4 2 HF400 version 3 1 Installation manual Page 14 of 67 STEKOP SA ul Motdawska 9 02 127 Warszawa Manufacturing kol Porosty 52
46. ol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekopQstekopsa pl 8 FieldH Manager service software FieldH Manager service software makes possible to set optimal device parameters for a given installation site and following client s requirements The application allows for real time preview of operating parameters of HF400 sensor and their modification The main application window is divided into three functional zones e Recorded sensor signals window graphically displays signals recorded by HF400 sensor the first 2 graphs from the top display amplitude and phase variations of received signal and the other graphs display the different stages of signal processing by the sensor s software e The window of the current operating parameters of the sensor displays the current operating parameters of HF400 sensor e The sensor alarm events history window displays alarm events loaded from HF400 memory application buttons enable you to delete events form the list and to refresh the list HF400 Manager Field H Logged in File View Settings Actions History Language Help PASSWORD STEKOPSA Logout Q A 4 amp 9 Sensor 1 Zone 1 Charts auto scaling amp utoscaling Amplitude tract gain Recorded sensor Phase tract gain sig nals window Voltages in signal processing tracts Amplitude processing tract Momentary value 2 81 V Medium value 296 The window Phase processing tract of the c
47. on The installation place depends on the protected site but always should be located inside it Possible locations for HF400 controller unit installation include e Inside of building e External building wall e Installation cabinet near the fencing e Installation well e Other ground level wells protected against flooding and equipped with grounding If the system is intended to provide perimetric protection of a building the recommended HF400 installation location is an inside space of this building protected with the security systems guarding this building If HF400 system is installed outdoors it is recommended to place it in a separate installation cabinet protected against sabotage This cabinet should include HF400 version 3 1 Installation manual Page 27 of 67 STEKOP SA ul Moldawska 9 02 127 Warszawa Manufacturing kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekopQstekopsa pl e HF controller unit e Backup power supply e Backup batteries e Signal and power connectors The controller unit should never be located in a place visible to intruders or easily accessible for unauthorized persons Rx KF KO KF KF KO KF Rx to active to active cables KF KO KF KF KO KF cables zone no 1 zone no 2 Tx T g x 4xNM z B p M 4xOP to power power Rs4g5 t0 master supply system 12Vbc 1A SCADA Legend KF ferrite bead RI PKCF 05 A5 KO passive cable H 155 NM N type socket N
48. operation of HF400 sensor depends on correct installation of cables and in particular of active cables Because of this it is important to take into account a number of recommendations already during the design stage It will allow for avoiding basic errors provoking an unstable functioning of HF400 sensor HF400 sensor detection zone shape is similar in its cross section to a deformed ellipse The borders of the zone are not sharp and because of this they are quite difficult to detect Its real shape and dimensions depend among other things on e The distance between active cables bigger the distance wider the zone e Soil quality in light soils sand the zone is bigger with more fuzzy borders in heavy soils e g clay the zone is smaller and better defined e Defined HF400 sensor detection threshold the lower HF400 sensor detection level the bigger the detection zone e Environment surrounding active cables various objects in proximity of the cables e g sewage piping metal fencing can modify the detection zone s shape Detection zone A Active cables Fig 4 1 Cross section through the detection zone Figure 4 1 shows a cross section through the detection zone of HF400 sensor for average environmental conditions cables being placed 25 cm below ground In case of need the cables can be situated deeper or shallower without a direct influence on sensor detection capacity Acceptable depth range is from 15 to 50 cm below ground
49. ple to ground works conducted around the protected site do not require to replace the cables The cables can be easily repaired in field conditions It is also very important that the protection system built with the HF400 sensors is completely invisible and does not deface the architecture of the protected site The elasticity of sensory cables enables the designer to create protection systems using the HF400 sensors with highly sophisticated outline shapes which is extremely difficult to do with linear sensors e g microwave barriers and usually requires putting in place a high number of these devices A single module of HF400 sensor comprises e Microprocessor controller unit HF400 e Sensory cables active e Passive cables e N connectors HF400 version 3 1 Installation manual Page 3 of 67 STEKOP SA ul Motdawska 9 02 127 Warszawa Manufacturing kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekopQstekopsa pl e Terminators e Power supply unit e System software HF400 version 3 1 Installation manual Page 4 of 67 STEKOP SA ul Moldawska 9 02 127 Warszawa Manufacturing kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekopQstekopsa pl 2 Operating configuration HF400 sensor can be configured to operate in two modes standalone or networked The standalone mode is default and it is used most frequently In this mode the sensor can protect two independent
50. protocol of HF400 sensor In this mode the controller unit receives complete information about sensor operation e g detected events state of inputs and outputs level of received signal in every detection zone power output of the emitter voltage levels in various sensor circuits its internal temperature alarm levels It is possible to diagnose the sensor its software and even to update its system software from an alarm controller unit HF400 sensor is connected to an alarm controller unit through RS485 or RS232 interface Both interfaces provide for galvanic isolation of sensor circuits from alarm controller unit circuits RS232 interface supports only 1 device but R5485 interface supports a whole array of HF400 sensors HF400 version 3 1 Installation manual Page 5 of 67 SIEKOP SA ul Moldawska 9 02 127 Warszawa Manufacturing kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekopQstekopsa pl Zone no 1 Zone no 2 lt 200m max gt lt 200m max gt 2x 2x DL 30N P DL 30N Active cables 72d Passive cables Tinto 47 psu RS485 RS232 Backup power To alarm controller unit RS232 Max length 15m 1 HF400 sensor supply 12Voc RS485 Max length 1200m max 31 HF400 sensors Fig 2 2 Autonomous configuration of an HF400 sensor functioning as an intelligent detector In networked configuration HF400 sensors are daisy chained into so cal
51. r 1 Packet sent 255 from 256 to addr 1 ACK Receive 254 from 256 from addr 1 Packet sent 754 from 256 to addr 1 ACE Recerre 253 from 256 from addr 1 Packet sent 753 from 256 to addr 1 ALE Receive 252 from 256 from addr 1 Packet sent 252 from 256 to addr 1 ACK Hecerve 251 from 256 from addr 1 Parka cank JET From JRE Fn addr 1 IM D OUT Fig 9 4 Successful device software upload and HF400 sensor device software start HF400 version 3 1 Installation manual Page 62 of 67 SIEKOP SA ul Motdawska 9 02 127 Warszawa Manufacturing kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekopQstekopsa pl 10 Storage and shipment 10 1 Storage HF400 sensor s elements i e HF400 controller unit connections passive and active cables should be stored in manufacturers packaging inside building in temperatures from 5 C to 40 C with relative humidity not higher than 80 The storage room should be void of corrosive gases volatile sulfur compounds and of vapors of acids and alkalis During storage HF400 sensors elements should not be subjected to direct sunlight or direct exposure to heating devices 10 2 Shipment HF400 sensor s elements shipment i e HF400 controller unit connections passive and active cables enclosed in their original packaging can be performed with any transportation means while taking into account any limitations indicated on the packaging HF400 sensor s elements
52. r service software to calculate the surface of an intruder triggered disturbance Samples no for average calculation this parameter is not used in the version 3 1 of HF400 sensor before it was used to determine the number of samples taken into account by FieldH Manager service software to calculate the average value of a processed signal Field scale scaling factor for waveform display on SUM function graphs Automatic temperature readout HF400 sensor automatic internal temperature readout on off Automatic date and time readout HF400 sensor automatic real time clock readout on off Automatic inputs outputs state readout HF400 sensor automatic inputs outputs state readout on off Automatic event log readout HF400 sensor automatic event log readout on off Automatic device log in FieldH Manager service software automatic log in on off Selecting parameter automatic readout option activates the refreshing by FieldH Manager service software of the specific field in Current operating device parameters window The refresh frequency depends on the number of selected automatic readout fields Because of this it is better to avoid activating the automatic readout of parameters which are insignificant for the moment being HF400 version 3 1 Installation manual Page 44 of 67 STEKOP SA ul Moldawska 9 02 127 Warszawa Manufacturing kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekopQstekopsa pl Setting
53. r to obtain reliable intruder speed values estimated by HF400 sensor perform zone trespassing between autocalibration Fig 8 20 impulses and when amplitude and phase processing circuits signals stabilize a Fig 8 20 Typical autocalibration impulse waveform e Alarm duration alarm duration limit is for both lower and higher values It is defined by 2 parameters o Minimal Alarm duration minimal duration of a signal exceeding alarm threshold o Maximal Alarm duration maximal duration of a signal exceeding alarm threshold HF400 version 3 1 Installation manual Page SI of 67 SIEKOP SA ul Moldawska 9 02 127 Warszawa Manufacturing kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekopQstekopsa pl Alarm signal is only triggered when alarm threshold is exceeded for a duration included between Minimal Alarm duration and Maximal Alarm duration The default values for these parameters are respectively 0 4 s and 24 s Caution While defining minimal and maximal alarm duration it is necessary to take into consideration the detection zone width and set accordingly durations of received signal exceeding alarm threshold For a detection zone of 6 m width the durations of zone trespassing for an intruder with a movement speed of 0 25 m s and 15 m s attain respectively 24 s and 0 4 s Amplification parameters tab Fig 8 21 allows for optimal selection of transmitter power and of amplification
54. robability of detecting an intruder is lowered especially with a low weight or high speed intruder Because of this HF400 version 3 1 Installation manual Page 50 of 67 SIEKOP SA ul Motdawska 9 02 127 Warszawa Manufacturing kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekopQstekopsa pl it is recommended not to use Sensitivity level values lower than 1 3 and higher than 3 e Detection zone width the value of detection zone width is needed for HF400 software to determine intruder speed Default detection zone width equals 6 m and is indicated with 0 1 m resolution However usually it is not possible to determine the exact detection zone width because its dimensions depend on the preprogrammed sensitivity threshold subsoil type or emitted along the active cable power variations Because of this usually an average value obtained through testing an installed device is indicated The detection zone width should be determined experimentally in the middle of the active cable The detection zone should be trespassed perpendicularly to active cables with a constant known speed and then the real speed of movement should be compared to the speed calculated by the sensor and loaded from the event log under Intruder zone no trespass If the speed difference is significant change the preprogrammed detection zone width in such a way that the speed estimated by the sensor corresponds to the real value In orde
55. rom 256 from addr 1 Packet sent 25 from 256 to addr 1 ACE Recerre 24 from 256 from addr 1 Packet sent 24 from 256 to addr 1 ACK Receive 23 from 256 from addr 1 Packet sent 23 from 256 to addr 1 ACE Recerre 22 from 256 from addr 1 Packet sent 22 from 256 to addr 1 ACE Recerre 21 from 256 from addr 1 Packet sent 21 from 256 to addr 1 ACK Barciva 370 fram IRE fram addr 1 Log OUT Fig 9 3 Device software upload to HF400 sensor When the device software is successfully uploaded it starts automatically Fig 9 4 Because it is stored in HF400 sensor s nonvolatile memory since then it will launch automatically after every device restart or power reconnection New device software can comprise new configuration parameters not present in the previous version Because of this it is important to inspect saved HF400 sensor operating parameters HF400 version 3 1 Installation manual Page 61 of 67 STEKOP SA ul Motdawska 9 02 127 Warszawa Manufacturing kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekopOstekopsa pl Flashloader for HF BM Settings Device software image D APH1_041 img Upload device software Searching finished LOGIN ADDR 1 HF400 MainPrg v1 041 Hr0000 Searching started Software loading finished ACE EUT received from addr 1 EDT packet sent to addr 1 ACE Recerre 256 from 256 from addr 1 Packet sent 256 from 256 to addr 1 ACE Receive 255 from 256 from add
56. s General Port settings Scale i Scale period 5 seconds Automatic update of temperature Automatic update of date and time Automatic update of input and output states Field scale 50 W Automatic event log display W Automatic login Cancel Fig 8 12 Application parameters General tab The second tab of FieldH Manager service software parameters contains the settings Fig 8 13 of COM port used to communicate with HF400 sensors The parameters which can be programmed include e Port PC COM port no e Bits per second transmission rate default 9600 e Data bits no of data bits in a frame default 8 e Parity data parity check default none e Stop bits no of stop bits default 1 e Frame controller time period of time PC waits for a reply from HF400 sensor e Maximum no of lost frames maximal no of lost consecutive data frames above of which FieldH Manager service software generates a timeout error and stops communication with HF400 sensor default 1000 ms HF400 version 3 1 Installation manual Page 45 of 67 STEKOP SA ul Moldawska 9 02 127 Warszawa Manufacturing kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekopQstekopsa pl Settings General Port settings Port Baud rate Data bits Parity Stop bits Frame time aut Maximum number of lost frames Cancel Fig 8 13 Application parameters Port setting tab Automatic
57. s between cables and their lengths from table 4 2 HF400 version 3 1 Installation manual Page 13 of 67 SIEKOP SA ul Moldawska 9 02 127 Warszawa Manufacturing kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekop stekopsa pl Table 4 2 Recommended HF400 sensor cables installation requirements Distance between zone active cables 2m Minimal radius of active cable curvature 120cm Active cables depth below ground 25cm optimal 15 50cm acceptable Neighboring zones superposition om Active cable maximal length 200m Passive cable maximal length 20m The borders of neighboring zones should be superposed In the contact point active cables should be laid to form an overlap It is recommended to shorten a detection zone and terminate it on the line of soil conditions change If there is a sudden variation of soil conditions e g from sand to clay The design process of a perimetric security system using HF400 sensors comprises several stages It is recommended to follow them all because passing over one of them can result in posterior difficulties in proper installation of HF400 sensors their putting into operation or their reliable operation Un Design process of a perimetric security system employing HF400 sensors Delimit a strip of land on which active cables will be laid along the border of protected area Divide the border of protected area i
58. s indispensable gt to push the current configuration load button 4 Some of these parameters can be refreshed automatically Their complete description can be found in Service software configuration section Service software enables the user to set markers in the signal recordings While reading data directly from the sensor when you push the button Start marker is set Pushing the button s sets Stop marker Fig 8 2 When the data is saved to file the markers are included MARKER START MARKER STOP CT c E Fo Fig 8 2 Markers in the signal recordings HF400 version 3 1 Installation manual Page 39 of 67 SIEKOP SA ul Moldawska 9 02 127 Warszawa Manufacturing kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekopQstekopsa pl 8 2 Alarm events The alarm events log window displays the list of alarm events recorded by HF400 sensor in chronological order Fig 8 3 If Automatic event log display option is not active the complete description can be found in Service software configuration section event display from the sensor s memory is activated with the button Load events The buttons Delete event and Delete all events enable to delete events from the list After selecting an event on the alarm events list the information window displays detailed data concerning this event input number zone number estimated intruder speed etc Description Zone 1 Delete
59. software In comparison to RS232 port the R5485 port creates a connection which can be longer have a higher transmission rate and can be used to communicate with a number of HF400 sensors The RS485 transmission rate is programmed with FieldH in the range from 9600bit s to 38400bit s It is possible to select one of the following transmission rates 9600bit s 19200bit s and 38400bit s Table 5 6 R5485 port Deme me a morgi RS485 non inverting input output RS485 transceiver common ground RS485 inverting input output One RS485 bus of maximal length of 1200 m can connect up to 31 HF400 sensors and 1 controller unit When the RS485 bus length is insufficient signal repeaters or RS485 amplifiers e g ADAM 4510S of Advantech can be used to prolong it Another solution consists to use another transmission medium e g optical fiber Ethernet network using appropriate converters It is important to follow all the TIA ELA 485 A norm recommendations for RS485 bus and it is particularly important to use a twisted pair 24AWG copper wire with wave impedance of 100 2 e tis prohibited to exceed the bus maximal length e tis not possible to branch the bus except while using an RS485 repeater e The bus terminals must be terminated with 100Q terminators e All connected RS485 transceivers should have their common ground potential equalized HF400 version 3 1 Installation manual Page 24 of 67 SIEKOP SA ul Mo
60. ssis The connectors of the device power supply connectors general purpose inputs connectors relay outputs connectors and its interfaces RS232 and RS 485 are situated under the transparent protective screen on the external side of the cabinet Configuration jumpers of the microprocessor controller unit can be accessed after removing the CPU module cover Fig 5 2 They can be used to do a hardware device reset switch 5W101 loading default settings jumper JP102 and starting bootloader function jumper JP103 Caution There is no need to open the high frequency module cover of HF400 sensor The transmitter and receiver modules do not include any control elements which could be adjusted by either the installer or the user Transmitter Transmitter Receiver Receiver module module module module channel A channel B channel A channel B Microprocessor controller unit CPU Fig 5 1 HF400 controller unit cabinet modules layout HF400 version 3 1 Installation manual Page 16 of 67 STEKOP SA ul Motdawska 9 02 127 Warszawa Manufacturing kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekopQstekopsa pl 2102 loading default Power from Software settings RS485 bus active cables JP103 activate bootloader RT clock battery ransmitter module ransmitter module Receiver module Receiver module channel A channel B channel A channel B RA trl
61. stallation manual Page 17 of 67 SIEKOP SA ul Motdawska 9 02 127 Warszawa Manufacturing kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekopQstekopsa pl Table 5 1 Power supply connectors pese tie et eee J121 Device power supply input 10 5Vpc 48Vpc 2 GND Power supply ground terminal 2 J128 1 PWR Output power terminal for external modules 2 GND Power supply ground terminal General purpose inputs HF400 sensor is equipped with 8 general purpose inputs In1 In8 whose state can be accessed by the controller unit These inputs are intended for connecting of installation cabinets sabotage detectors They can also be used for connecting additional external detectors complementing perimetric detectors of HF400 system Each of them can be configured as a binary or a parametric input depending on the required alarm system class It is also possible to define the input as NO normally open or NC normally closed The figures 5 3a and 5 3b show simplified diagrams of In1 In8 inputs in every one of their possible configurations and their terminal wiring Table 5 2 In1 In8 general purpose inputs LLLI MNT M J118 Input no 1 2 AGND Ground 3 IN2 Input no 2 p J125 1 IN3 Input no 3 2 AGND Ground 3 INA Input no 4 3 J126 1 IN5 Input no 5 2 AGND Ground 3 INO Input no 6 4 J127 1 IN7 Input no 7 2 AGND Ground 3 INS Inpu
62. t no 8 HF400 version 3 1 Installation manual Page 18 of 67 SIEKOP SA ul Motdawska 9 02 127 Warszawa Manufacturing kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekopQstekopsa pl Microprocessor control unit CPU Maximal K connector resistance 1kQ Fig 5 3a Simplified schematic diagram of In1 In8 inputs configured as binary inputs Table 5 2a In1 In8 inputs states in binary configuration Input controller Controller contact Input voltage Input state contact type state Normally closed closed Uinx lt 0 6V NORMAL NC open Unx gt 4 0V ALARM Normally open closed Umx lt 0 6V ALARM A open Umx2 4 0V NORMAL where X 1 8 indicates input no Parametric inputs use two resistor parameterization scheme so called 2EOL E24 type tolerance of 5 resistors of 15kQ and 7 5kQ are deployed as parametric resistors 9V 10kQ K1 ALARM In1 In8 l Microprocessor controller unit AGND 10kQ K2 NC TAMPER Fig 5 3b Simplified schematic diagram of Inl In amp inputs configured as parametric inputs HF400 version 3 1 Installation manual Page 19 of 67 SIEKOP SA ul Moldawska 9 02 127 Warszawa kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekopQstekopsa pl Manufacturing Table 5 2b In1 In8 inputs states in parametric configuration Input controller Controller contact Input voltage Inp
63. t one if you have accomplished with success the previous one Disregard of this recommendation can result in faulty HF400 sensor operation its low efficacy of intruder detection or a high number of false alarms 10 11 The HF400 sensor start up and calibration procedure for one zone Check if HF400 controller unit passive cables active cables and terminators are properly installed Set the zone transmitter power in order to obtain RF circuit amplification of 40dB Set the zone phase reference level in order to obtain average voltage in phase processing circuit of 1V Activate real time imaging of voltage variations of amplitude and phase processing circuits in the service software Perform test trespassing of the detection zone in regular intervals e g every 10 m on the whole length of the active cable waiting every time for signals from amplitude and phase processing circuits to stabilize If the circuit is saturated ie signal graph exceeds OV or 5V value lower amplification value In the opposite situation increase amplification Repeat steps 4 and 5 until achieving maximal dynamic of signal variation in the amplitude and phase processing circuits i e the signal graph should fill the entire window but should not cross OV and 5V lines Select Field scale factor in the service software in order for intruder disturbances to reach 70 80 of SUM Function graph Set the reference weight for the intruder weight estima
64. tdawska 9 02 127 Warszawa Manufacturing kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekopQstekopsa pl Master system CA or SCDA Rk 1000 JJ viva I dcc ce cM OOOOOOOOC U 0000000000 t 2000000001 RS485 converter Fig 5 8 RS485 bus cable wiring diagram Terminal line resistors Rk are usually built into device equipped with RS485 interface In this case RS485 bus is terminated by placing a jumper JP101 jumper serves this purpose in HF400 sensor Fig 5 2 RS485 transceivers used in HF400 sensors are galvanically isolated circuits Because of this it is important to equalize RS485 bus common ground potential An additional wire connecting COM terminals of all connected to the bus devices serves this purpose Fig 5 8 Caution COM terminal is the common ground only for RS485 transceivers This neither constitutes the common ground for electronic circuits of HF400 sensor nor of power supply circuits In this respect COM terminals and power supply GND terminals should not be connected In this manner galvanic isolation of RS485 bus would be breached Configuration jumpers Configuration jumpers JP102 and JP103 Fig 5 2 load default settings jumper JP102 and activate bootloader jumper JP103 Switching chosen function on is accomplished by placing appropriate jumper on its pins i e jumper JP102 to load default settings and jumper JP103 to activate bootloader and
65. ted by the sensor following the instructions from Chapter 8 5 Measurement thresholds configuration Setting measurement threshold for test weight Set the alarm threshold following the instructions from Chapter 8 5 Measurement thresholds configuration Detection weight movement Experimentally determine the detection zone width following the instructions from Chapter 8 7 Sensor parameters configuration Tab Detection parameters Detection zone width HF400 version 3 1 Installation manual Page 36 of 67 SIEKOP SA ul Motdawska 9 02 127 Warszawa Manufacturing kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekopQstekopsa pl 12 Set the minimal and the maximal intruder speed for the sensor to generate an alarm Taking this and the detection zone width determine minimal and maximal signal disturbance time for the sensor to generate an alarm 13 Taking into account the level and the type of disturbances present on HF400 sensor installation site select sensitivity factor following the instructions from Chapter 8 7 Sensor parameters configuration Tab Detection parameters Sensitivity factor and activity flag 14 Perform test trespassing of the detection zone in regular intervals e g every 10 m on the whole length of the active cable and check the reliability of intruder detection HF400 version 3 1 Installation manual Page 37 of 67 SIEKOP SA ul Motdawska 9 02 127 Warszawa Manufacturing k
66. the cable segment running in HF400 direction and a male connector i e NM50R1 2 should be fitted at the end of the cable segment running towards the terminator After checking the integrity of repaired active cable both connections must be secured with self fusing tape HF400 version 3 1 Installation manual Page 34 of 67 SIEKOP SA ul Motdawska 9 02 127 Warszawa Manufacturing kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekopQstekopsa pl A repair kit comprises e 1 female connector NF50R1 2 e 1 male connector NM50R1 2 e self fusing tape HF400 version 3 1 Installation manual Page 35 of 67 SIEKOP SA ul Moldawska 9 02 127 Warszawa Manufacturing kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekop stekopsa pl 7 Sensor start up The FieldH software is the main tool needed to successfully put into operation HF400 sensor Because of this you should start by setting up an RS232 or an RS485 connection launching FieldH service software and logging in to the device If you do not know the password or the transmission rate for the RS485 interface if it is used load the factory defaults of the device following the instruction from Chapter 5 Controller unit installation Configuration jumpers It 1s also indispensable to consult the service software manual The start up procedure comprises a number of steps You should only advance to the nex
67. the connections with self fusing tape Its principal purpose is to protect the connections against humidity penetration If the tape is missing or is improperly fitted the connection can corrode which could provoke HF400 sensor faults in future 6 6 Active cable repair There is no need to replace a damaged active cable with a new one It can be easily repaired in field conditions If the damage is local the cable should be cut in the damaged point and a pair of N type connectors installed a female one i e NF50R1 2 and a male one i e NM50R1 2 and then the new connection should be protected with self fusing tape In order to preserve the system structure and to be able to test the active cable by connecting a terminator it is recommended to fit a female connector i e NF50R1 2 at the end of the cable segment running in HF400 direction and a male connector ie NM50R1 2 at the end of the cable segment running towards the terminator The number of such connections should not exceed 3 on the whole length of active cable If the damage concerns a bigger cable length and it is not possible to repair it by mounting a pair of N type connectors it is recommended to replace the whole damaged segment 2 repair kits and a new CMC12I active cable of appropriate length are needed The suggested order of N type connectors installation is the same as in case of point damage i e a female connector i e NF50R1 2 should be fitted at the end of
68. tic fluctuations in a given detection zone point e Sensor susceptibility to generate false alarms e Long term reliability Because of the above it is important to follow all the recommendations for preparing cable trenches cable laying connector installation and protecting General recommendations In order to obtain a homogenous detection zone active cables should be laid in a physically uniform environment They must be placed in the same subsoil be the subject of constant external disturbances be equally distant from power lines underground pipes watercourses metal fences trees bushes etc If there is a sudden change in soil conditions around the active cables e g sand subsoil clay it is recommended to terminate the detection zone on the subsoil conditions change border and start a new zone Subsoil preparation Active cables should be laid on a constant depth below ground in the range from 15 to 50 cm optimal depth being 25 cm in a distance from 1 5 to 2 0 m from each other in 15 cm width trenches prepared beforehand If there is need for sand priming it is important to take into account that the trench should be 10 cm deeper space for priming The trench bottom should be covered with 10 cm layer of sieved sand so the depth of the trench should not exceed 50 cm active cable laying level Cables should be laid in the prepared trenches without kinks horizontal undulation not exceeding 576 of the distance between the cables
69. tripping tool for CMC 12I cable SPTC 50R1 2 Passive cable H 155 N type connector male compression type for H 155 cable N 50 2 H155 W6 01 N type socket female compression type for H 155 cable N 50 2 H155 G11 01 Ferrite bead compression type for H 155 cable RI RKCF 05 A5 Terminator 5002 2W DL 30N Terminator 5062 2W with filter TR400 RS 232 service cable RJ 45 lt gt DB 9F KS R5232 Active cable repair kit CMC 12I ZN CMC 121 Self fusing tape Remarks a possibility of custom order for HF400 controller unit supporting only 1 zone i e operating on only 1 selected channel HF400 sensor networked version is not part of our standard offer and is available as a custom order only HF400 version 3 1 Installation manual Page 64 of 67 SIEKOP SA ul Motdawska 9 02 127 Warszawa Manufacturing kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekopQstekopsa pl 12 Basic technical data function available only in HF400 sensor networked version programmed value HF400 version 3 1 Installation manual e Operating frequency ISM band ISM 40 66 40 70 MHz 4 channels e NUMDEGOLZONE esa REA AE ERA WER 2 e Maximal protected zone IENStnases ocen OE AGA terni 200 m MOIALDAFENOCADI TENS UE c 20m e Maximal number of HF400 sensors in cascade configuration
70. truder weight m kg at detection probability 99 Fig 8 17 Detection thresholds tab Login tab Fig 8 18 allows for changing the login password for HF400 sensor This function does not enable to read the current password Only a new password can be saved The password comprises 8 ASCII characters Device configuration Detection parameters Amplification parameters Service functions Detection thresholds Date and Time Input Output states Inputs configuration Login Relays 53 Login password Press Set button to set new login password Login password Fig 8 18 Login tab Detection parameters tab Fig 8 19 allows for defining operating parameters of implemented in HF400 sensor algorithms for verifying alarm signals triggered when received signals exceed alarm threshold HF400 version 3 1 Installation manual Page 49 of 67 SIEKOP SA ul Motdawska 9 02 127 Warszawa Manufacturing kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekopQstekopsa pl Device configuration Detection thresholds Date and Time Input Output states EU Inputs configuration Login Relays Detection parameters Amplification parameters Service functions SS gj Sensitivity level w Active 3 0 Number fram range 1 20 fone one z E Detection zone Detechon zone width in meters width in meters HHHH HE HHHH H 0 40 Min alarm duration hin a
71. ts amplification taking into account environmental variations due to precipitations and temperature variations o Device autodiagnostic on switch on o Continuous diagnostics comprising Detection disturbances lookout e g radio channel disturbances detection of operating anomalies e g a sheet of metal placed above the active cables in order to neutralize detection field Monitoring of power level of transmitters Monitoring of amplification level of receiving circuits Monitoring of voltage levels of various device circuits Monitoring of internal device temperature o signaling through built in LEDs of basic operating status e Communication with system controller unit o Communication through galvanically isolated RS 485 or RS 232 interface o Device access protected with a 8 character login password o Event transmission o Device operating status signaling i e received signal levels amplification level of receiving circuits power level of transmitters voltage levels of various device circuits o Preview of the waveform of registered signals which generated an alarm non volatile memory of 203 10 second signal recordings o State of inputs and outputs display and programming of detection parameters minimal body weight speed range display and setting of internal real time clock o Setup of relay outputs o Remote upgrade of system software i e uploading a newer version of system software through RS485 or
72. ua eee aaa aaa aaa aaa aaa aaa aaa aaa a wawa aaa nenne nnne sna nnne nnns 44 8 7 Sensor operating parameters configuratton uuuu aaa aaa aaa aaa aaa aaa aaa aaa aaaaaaaaaaaeeeeeaaa naa 47 So SACHS DIARIO 56 SUSE Trac CON SUI EA ARE O A Ea Sfi S I0 Davi data diro eine 58 9 Flashloader for HF BM Service softWare 59 IO Storace SPE 63 POT OTA SC aa AAAA AERO OGAR O RAE OO 63 DZA OSZENIA 63 He OO sensor selements soc OG Genie O O OCE 64 Basilica 65 HF400 version 3 1 Installation manual Page 2 of 67 SIEKOP SA ul Moldawska 9 02 127 Warszawa Manufacturing kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekop stekopsa pl 1 Principles of operation of HF400 sensor HF400 sensor is used for perimetric protection of buildings and large areas Its principle of operation is detection by the receiving cable of distortions of electromagnetic field generated by a transmitting cable parallel to it and placed in a distance of 2 meters Both cables are placed 15 50 cm below ground on the border of the protected area and generate an invisible spatial detection zone Its trespassing by an intruder is detected and triggers an alarm The HF400 system uses special concentric cables which are built to emit electromagnetic field to outside These are so called leaking cables Contrary to other commercial subsurface perimetric protection systems which use special dedicated sensory c
73. uick access buttons 5 e tab parameters send to sensor 7 lt j tab parameters load from sensor GE all tabs parameters load from sensor Date and Time tab Fig 8 15 enables accessing HF400 sensor real time clock and programming it Device configuration Inputs configuration Login Relays Detection parameters Amplification parameters Service functions Detection thresholds Date and Time Input Output states S 5 2 Date and Time Press Set button to set current date and time Device internal date and time 08 08 18 74 00 06 Fig 8 15 Date and Time tab Relays tab Fig 8 16 allows to configure HF400 sensor relay outputs You can assign an event detector state changing relay state to every output In all there are 14 available relay outputs They are selected from a list box for every relay Relay outputs functions e System software active e Alarm intruder zone 1 e Alarm intruder zone 2 e Zone 1 not ready e Zone 2 not ready e Communication with controller system PC e Relay unused permanently off e Relay controlled by controller system PC e Sabotage e Internal temperature too low e Internal temperature too high HF400 version 3 1 Installation manual Page 47 of 67 Manufacturing e General damage e Damage zone 1 e Damage zone 2 Device configuration STEKOP SA ul Moldawska 9 02 127 Warszawa kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 7
74. urrent Momentary value 0 61 V Medium value 10 20 V operating parameters of the sensor Detection thresholds Detection threshold 3437 truder weight 30 kg Power supply voltage The sensor Receiver module 9 10 V alarm events Transmitter module 8 88 V history window RF module 0 00 V CPU module 8 84 V Others RF tract gain 43 78 dB Transmitter output power 0 48 w Med val calculation period 30 s Number of samples 4 Sampling frequency 20 Hz Internal temperature 33 25 C Date and time 08 08 18 13 06 27 Input Output states Delete event Delete all events Parameter ipti IA 4 46H BU MA Input states Number Event description Eventate I I Start of the main program 2008 08 18 13 07 13 Output states Tamper 2008 08 18 13 07 13 J Il J J J J J Alarm Input No 2008 08 18 13 07 13 Alarm Input No 2008 08 18 13 07 13 113 4 1 Alarm Input No 2008 08 18 13 07 13 Controlled relays Alarm Input No 2008 08 18 13 07 13 Im EEE ay e Alarm Input Mo 2008 08 18 13 07 13 U J JA J J J J mena A am am m acm Read 0 bytes NUM Fig 8 1 The main FieldH application window HF400 version 3 1 Installation manual Page 38 of 67 SIEKOP SA ul Moldawska 9 02 127 Warszawa Manufacturing kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekop stekopsa pl 8 1 Recorded HF400 sensor signals display Recorded sensor signals window displ
75. ut state contact type state Normally closed closed 2 1V Umx lt 2 8V NORMAL NC 34V lt Uinx lt 40V ALARM SABOTAGE ALARM NORMAL SABOTAGE open other cases 21V Umx lt 2 8V 3 4V Umx lt 4 0V any Normally open NO closed open other cases Any where X 1 8 indicates input no Relay outputs HF400 sensor is equipped with 8 relay outputs Pk1 Pk8 Every one of them can be assigned to one of 14 functions table 5 3 Depending on output configuration it can be used for HF400 connection to its controller system e g security system alarm controller unit or controller unit can control a device connected to HF400 sensor e g a siren Table 5 3 Relay outputs functions rr rze REN Relay switch on condition Software running Main software Relay switched on when system software operation signaling runs switched off when bootloader function on Relay switched on when all the condition 2 Alarm intruder Zone no 1 alarm zone 1 signal for alarm signal for zone no 1 fulfilled 3 Alarm intruder Zone no 2 alarm Relay switched on when all the condition zone 2 signal for alarm signal for zone no 2 fulfilled Zone no 1 intruder detection not ready signal 4 Zone no 1 not ready Relay switched on when intruder detection in zone no 1 probability is lowered e g sensor undergoing detection circuits calibration after a sudden environmental conditions c
76. uttons can be selectively hidden or made visible It makes running of the software easier on computers with a low screen resolution i e 800x600 when a window of current operating parameters does not fit on the screen In this case hiding unwanted service software graphical user interface elements enables to decreases the required screen space needed Menu View enables to select active information fields windows and rapid access buttons Fig 8 26 The last position on View menu Loop file playback is an exception It does not modify directly the user interface appearance When activated data saved to file see section 8 1 displays in a continuous loop Because of this FieldH Manager service software can be used as an automatic presentation playing back in loop waveforms which were previously recorded by HF400 sensor HF400 version 3 1 Installation manual Page 57 of 67 STEKOP SA ul Motdawska 9 02 127 Warszawa Manufacturing kol Porosty 52 16 070 Choroszcz tel 085 748 90 00 fax 085 748 90 38 e mail stekopQstekopsa pl lt HF400 Manager Field H Logged in File SER Settings Actions History Language Help pai w Action bar Logout 3 e w Login bar Address bar Status bar w Charts auto scaling w Show grid w Voltages in signal processing tracks TE Loop playback w Detection thresholds w Power supply voltages w Others w Input FOutput states w Controlled relays Fig 8 26 User interface
77. ved signal In this way it is possible do limit the influence of external disturbances e g atmospheric discharges on alarm signaling HF400 sensor is equipped with an automatic adaptation to external conditions function e g variations in soil conductivity provoked by rain and with diagnostic functions Automatic adjustment to environmental conditions includes correcting signal power level of the transmitter amplification of the receiver circuits and adjustment of preprogrammed detection thresholds The last correction is based on measurement of calibration impulse generated cyclically by the sensor Device diagnostic functions comprise monitoring of operating parameters vital to intruder detection i e power supply voltages in different circuits signal power level of the transmitter received signal level amplification of the receiver circuits integrity of active cables internal temperature of the sensor Based on the parameter divergence from the preprogrammed value this new value is either interpreted as sensor not ready or a physical damage of the sensor components Communications functions constitute the third group of sensor features These enable to send messages about events remotely control the sensor real time preview received signal level and all the stages of its processing independently in amplitude and phase variation measuring circuits to program operating parameters and to update the system software The last group of

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