Technical Information Brochure - Funkwerk Security Communications
Contents
1. TETRA Secury System 14 11 2012 Localisation of persons by ILB and GPS 19 funkwerk TSS Function Description 1 7 1 Schematic diagram of the localisation of a person by GPS so Lu a LL j p 7 z P Fpl 4 i j 3 i L L p a A nl 7 ee a a b a lat F i wos a T oo F T S aS k Ru a i TE i Pag 2 ae i E p g n i he i i d n 4 cae 4 Fi j m a LE hot i L s m P a j r L aap Tr La ol pes a op i NN ai TE i in i PRE EEE D ete fa m i 5 CU i s Localisation of persons by GPS outdoors Legend Designation and characteristics GPS continually transmits geographic position Technical Information Brochure TETRA Secury System 14 11 2012 20 Localisation of persons by ILB and GPS TSS Function Description 1 7 2 Schematic diagram of the localisation of a person by ILB Localisation of persons by ILB indoors Legend Designation and characteristics p Inductive localisation beacons ILBs continually transmit unique localisation e codes within a defined area Technical Information Brochure TETRA Secury System 14 11 2012 funkwerk security communications 1 8 Alarms Alarms 21 TSS Function Description The mobile personal emergency signal devices have manual and automatic alarm triggering The manual alarms are at first only indicated locally by aural s2. 1 5 Requirements for operation ccccccccsescccceseccceesecceeeeeceaececcseecseeeeeseuseeseeeessageessuseesseseeess 12 1 5 1 Schematic depiction of the requirements for operation Of a TSS cceeeeeee sees 13 SA ER a en ene ene eee eee ee 14 t99 EXISUMO TETRA SyS OR andre este nou sata ee teen est eme 15 1 6 Operation of the TSS ccecccccccceecccceeceeeeeeeeeseeeeeeeeeeesseeeeeeesseeeeeeeeeeseeesseeeeessaeaeeeessssaaaeeeeess 16 1 6 1 Schematic diagram of the requirements for operation of a TSS ee eeeeeeee ees 17 1 6 2 TSS DSS combination possibilities 0 0 0 cece ccccccessseeceeeeeeeeeeeeeeeseeeeeseeeessaeeeeeees 17 1 7 Localisation of persons by ILB and GPS 18 1 7 1 Schematic diagram of the localisation of a person by GPS 19 1 7 2 Schematic diagram of the localisation of a person by ILB ec ceeeceeseeeeeeeee ees 20 te PINS cess chess see cts scare E Ses ce Sage een See ees nce ee sai eerie ve eee 21 1S1 PAVIA OCS santantsaismannpncedaaieen RO demaucataa E AE EEEE R E E RE 21 182 Alarm parameters senice a atteste mea ee tan ter 23 1 8 3 Log in and log off in the secure Secury mode ssssssssssssssrrrsesrrrnesrrrrrsrrrrerrrrrn nn 24 1 9 L c alisation Of DErSONMS aesitecenencticiuadanetevnnicneneeeutnctuanibasheduebainnincastiantoiniedinvantestiaitenadinennatcith 25 1 10 Alarm reporting ssiisccesscasravananstininasniin sxwoxbdnsdiivaxhituvoniusstiidwsuneniaiadsmwnnivdunndt adierdsa
3. 2 4 2 Configuration and operation Once the TSS server has booted up the user is asked to enter a login name and a password Depending on the authorisation status of the user one of two display modes appears on the screen The Secury software has two display modes with differentiated rights e the Operator display mode e the Administrator display mode 2 4 2 1 Operator display mode Here no settings can be altered This display mode is used for day to day operations Floor and site plans can be retrieved but not altered All handsets registered on the TSS server can be seen Logged in handsets are indicated in another colour to those that are not logged in In this display mode new devices cannot be added 2 4 2 2 Administrator display mode This display mode enables system configuration to be carried out Floor and site plans saved on the server are linked via the software to the identifiers of the inductive localisation beacons The TETRA handsets are administered here A unique desig nation for example Electrician can be assigned to each individual handset 2 4 3 Warden s Rounds Command and Control System WGS The Warden s Rounds Command and Control System software module completes the comprehensive control and protocol functions of the Secury software with the active and automated control of guard personnel This software module enables a completely new type of operational organisation of the security service
4. Each permanently installed ILB continually transmits a unique localisation code The signal fields of the ILBs do not overlap and cover an area of only a few square metres signal range can be pre set in 30 cm steps On leaving one signal field and entering another the newly acquired localisation code is detected and saved by the handset The last three ILB codes are memorised by the handset In the event of an alarm the last saved ILB codes are transmitted to the UDSS server The direction of movement can be extrapolated from this data The actual position is indicated at the alarm control point of the TSS server by means of a symbol on the site plan and as text TETE T te niihi wii TET iA E i ML EE RUN Ten sl Se LI a Ce ca ery ia Se NET A APR yo EI UFR ET she i LE PRE COL LCR nn dll il Depiction of the Secury software used for precise localisation by means of inductive localisation beacons By using inductive localisation beacons precise and storey specific space localisa tion with delimitation of localisation is even possible between floors Further infor mation regarding the ILBs and examples of the configurations can be found in the section on Inductive Localisation Beacon Page 40 Technical Information Brochure TETRA Secury System 14 11 2012 26 Alarm reporting TSS Function Description 1 10 Alarm reporting If an FT4 S sensor detects an alarm situation or if the user triggers an alarm manu a
5. IP infrastructures can be integrated without any problem including naturally the DECT based Funkwerk DSS and UDSS Secury systems The TETRA Secury System TSS is an optimised system comprising a alarm control centre and mobile personal emergency signal devices FT4 S A multiplicity of performance features are available for the personal security of your employees This enables an optimised adaptation to their individual working conditions even as far as the precise localisation of casualties with the aid of inductive localisation transmit ters beacons and GPS Equipped with high performance sensors these handsets FT4 S automatically recognise certain dangerous situations and transmit the appropriate alarm with precise localisation of the scene of the emergency directly to the alarm control centre or on the handsets of the rescue personnel Alarm events are shown clearly at the alarm control centre enabling an immediate appreciation of situations even though they may be complex the proper processing of the alarm can then take place In addition to the personal emergency signal functionality the TSS also has messa ging features In this way the operators can also send messages manually In the event of machine or personal alarms messages can be sent automatically to the TSS handsets Intrinsically safe explosion proof versions of the FC4 are available for use in envi ronments with a high explosion risk be it due to a gas or dus
6. Information Brochure TETRA Secury System 14 11 2012 funkwerk security communications Forensic psychiatrists 47 Application examples The clinic has many staff members e Doctors e Therapists e Nursing personnel e Security personnel e Other personnel This application example will illustrate how the Funkwerk TSS can be used to support them in the execution and optimisation of their duties The example describes a possible situation that a therapist may encounter in such a clinic The therapists treat the patients and together with them attempt to determine the causes of the psychiatric illnesses Often these treatments are conducted together with other patients in the clinic in the form of group therapy The group therapy is based on collective activities or group discussions during which the patients exchange their experiences with each other The collective activities can take place indoors or outdoors in the grounds of the clinic Because the patients are convicted offenders altercations may occur during the group discussions The therapist is often physically smaller than the the patients and can have great difficulty in breaking up the disturbance by purely verbal means This is where the Funkwerk TSS can make a difference The therapist concerned sends a silent alarm from the TETRA handset No matter whether the confrontation takes place indoors the clinic or outdoors the alarm location is displayed at the alarm con
7. Routine patrols on the same beat can be spied upon and this information then used for criminal purposes The Warden s Rounds command and control system assists in this regard by means of randomly assigned beat instructions The guard beats can be altered to suit actual requirements Decentralised time clocks and cards are no longer required instead the ILBs can be used as contact less control points by means of special identifiers Thanks to the Warden s Rounds command and control system you will have the following features at your disposal e Pre programmed guard beats can be assigned manually or randomly e Many guard beats can be managed and monitored simultaneously e On passing a checkpoint the next checkpoint with timing is automatically indi cated on the guard s handset The required measures are automatically displayed on the guard s handset at the correct time and place e When a guard passes a checkpoint the location and time details are automati cally sent to the TSS server Monitoring and logging of localisation and alarms e Control of the guard patrols by means of ad hoc messages to the devices of the guards Technical Information Brochure TETRA Secury System 14 11 2012 funkwerk security communications 2 5 Versions of the Guard module Versions of the Guard module WGS 2 WGS 5 WGS 10 WGS 100 Guard module software licence for up to 2 guard control terminals e up to 100 different
8. S EX Technical Information Brochure TETRA Secury System 14 11 2012 Protected against jetted water and dust proof IP 65 Various alarm modes push button alarm posi tion alarm loss alarm no movement man down alarm time alarm Further information can be found in the product catalogue ATEX and IECEx certified TETRA industrial handset BG PNA certification personal emergency alarm system for use in dangerous workplaces Further information can be found in the product catalogue microSD card 39 funkwerk Handsets security communications 3 4 microSD card All network data user settings alarm programming call lists as well as all saved messages received or sent can if operationally required be saved on an optionally available microSD memory card This simplifies the exchange of defective devices as all user data is saved on the card and not the handset Intervention by a techni cian is therefore not required microSD card In addition to the microSD card slot there is a crypto card slot for TETRA end to end encryption 3 5 Accessories and Enhancements Information regarding the separately available accessories and enhancements can be found in the relevant product brochures Technical Information Brochure TETRA Secury System 14 11 2012 40 Overview Inductive Localisation Beacon 4 Inductive Localisation Beacon 4 1 Overview Inductive Localisation Beacon 4 2 Function I
9. an operational fault in the ship s propulsion machinery a fault report is automatically sent to a fault report server The technical personnel have already been informed by telephone about the problem This is where the Funkwerk TSS can make a difference Each employee receives a Funkwerk TETRA handset for communication via the ship s internal TETRA network The fault report server is connected to the Funkwerk TSS server via an interface The TSS server accepts the incoming fault report alarm and relays it to the technical services employees via the TETRA network A message detailing the fault report and the location of the fault is displayed on the handsets of the technical services They now have real time knowledge of the fault and can react promptly to deal with operational problems This saves time and money and thanks to the rapid exchange of information prevents further operational faults 5 1 2 Nautical Personnel Cruise liners have multiple decks There are many kilometres of passageways on the decks For security purposes each passageway is checked on specified rounds by a member of the crew If a crew member should find a security breach during the course of his her rounds he she must proceed to a reporting station in the passa geway Further measures are then initiated and requested Here too the Funkwerk TSS can lend support Each member of the patrol team receives a TETRA Secury handset for communication via the ship s intern
10. same inductive localisa tion transmitters beacons are used in both systems for the localisation of persons Technical Information Brochure TETRA Secury System 14 11 2012 18 Localisation of persons by ILB and GPS TSS Function Description 1 7 Localisation of persons by ILB and GPS Inductive localisation beacons ILBs are used to achieve room and floor specific localisation of persons in buildings The more ILBs that are installed the more precisely a person can be localised Only electrical power 24V or 230V need be supplied for the operation of the ILBs Further information regarding the inductive localisation beacons can be found in the chapter Inductive Localisation Beacon Page 40 As standard information regarding the current position of the handset is only trans mitted to the TSS server in the event of an alarm Continuous transmission of the position is possible by programming see the section on Warden s Rounds Command and Control System WGS Page 34 The nature of the monitoring depends on the nature of the programming For the exact localisation of persons outdoors GPS is used The handsets receive the geographic position on the site from the GPS In the event of an emergency call this information is automatically relayed to the TSS server A continuous route or time dependant transmission of position is also program mable in the GPS localisation function Technical Information Brochure
11. ATION CX AIC Sse ea ee sains au ina lan onto 44 5 1 Cruise liner operator 5e osnerecennnneensrcennsteer een eeneceneneecitenrrecnensesenbererenenegeepeceune 44 5 1 1 Technical PE SONO ee a di one dr 44 512 Nautical Personnel ivensinrasnercentacsnucansetiandeantiaredensissadinaneat teuioneedtiansiiaditdiasdtessetederriiis 44 5 2 Psychiatric detention facility sise 45 5 3 Manufacturer of chemical products ss 46 Del Produccion OS SONO E EE 46 5 3 2 Technical Personnel Ve 46 5A Forense SY CMGI ISS D een eo dote en er do dati etai 46 6 Overview of the TSS performance features ccccccccssseecccceeeeeeceeseeeecseuseeesseasseeessaeeeessaaeeesseaaes 48 7 Abbreviations used ae encens de dtaes sn ei nets outdiesmoed n e inc es sabot de tant lee rien cts eme ist antte 51 Technical Information Brochure TETRA Secury System 14 11 2012 funkwerk security communications What is TSS TSS Function Description 1 TSS Function Description 1 1 What is TSS Funkwerk Security Communications now offers you the full performance package of a professional personal emergency signal system ina TETRA system The TSS is a modern communications platform with integrated and situation orientated security functions Professional radio communication and standard telephony functions are combined in this system The system can be adapted flexibly to the actual needs and grows with your require ments Existing communication security and
12. LB localisation transmit ters as well as GPS enables an exact site plan display at the alarm control point of the TSS server e The rescue team can be guided directly to the scene of the accident by relaying the alarm with localisation details to the mobile units e Serviceability is ensured by the radio coverage and the functioning of the device being monitored cyclically e Remotely controlled eavesdropping function in the event of an alarm e Comprehensive alarm functions with relaying of alarms e Integration of PABXs and gateways to other communication systems e Connection to video systems e Integration of machines and relays in the alarm process or for automated status reporting Possible integration of the DECT based DSS and UDSS Funkwerk Secury Systems Technical Information Brochure TETRA Secury System 14 11 2012 Messaging 9 funkwerk TSS Function Description security communications 1 4 Messaging By means of the messaging function of a TETRA system it is possible to send text messages and numeric sequences wirelessly between users The TSS server expands the messaging functions The TSS server is an addition to the infrastructure of your TSS system and is respon sible for messaging as well as certain Secury functions It controls the messaging process to the TETRA handsets and also enables connection with paging systems that conform to the system Users can manually create individual text messages at
13. TRA Secury System 14 11 2012 36 Technical data Handsets 3 Handsets Depending on the application you can choose any of four Funkwerk FT4 TETRA handsets for use on the Funkwerk TSS Each of the handsets has individual charac teristics which differentiate the devices from each other 3 1 Technical data The technical data applies to all FT4 TETRA handsets the relevant specifications can be found in the product brochure of the particular handset Dimensions Size Ix bx h 145 x 60 x 36 mm approx 148 x 60 x 42 mm approx with clip 295 360 g approx depending on the type of device and battery fitted Protection class and temperature range DAJAC NPA Na Ene Intrinsically safe i amp iD according to ATEX amp IECEx standard 21 Protection class gas dust BVS 11 ATEX E 083 X II 2G Ex ib IIC T4 Gb II 2D Ex ib IIIC T125 C IP6X Db IECEx BVS 11 0099X Ex ib IIC T4 Gb Ex ib IIIC T125 C IP6X Db IP protection class IP 65 protected against jetted water and dust proof Operating temperature Can be operated between 15 and 55 C range Display TFT colour display 420 x 320 pixels with 262 000 colours Power supply Mne MUGA Eea 3 7 V for PES and Ex versions able battery MyiallOlaatalelamasiearclec sr lelicmmm 3 7 V for PES and Ex versions battery Charging time 3 hours approx 80 charge 5 hours approx 100 charge Battery stand by time Stand by up to 14 h with a ba
14. ading doors and in the passages of the detention facility in order to localise the FT4 S personal emergency signal devices At the beginning of a shift each enforcement officer is issued with a Funkwerk PES for routine communication purposes as well as personal security The PES is equipped with six different alarm modes push button alarm warning alarm loss alarm position alarm time alarm and man down alarm see TSS Function Descrip tion gt Alarm types Page 21 The enforcement officer is required to test and acknowledge the programmed alarm modes and localisation sensors as soon as he switches on the device The enforcement officer begins his round in a section of the detention facility The Funkwerk WGS sends pre defined way points to the Funkwerk PES In total up to 100 different guard beats can be defined and then called up by the WGS either manually or automatically In addition to the way point the WGS also gives the time by which the guard should have reached his check point Should he not reach the way point an alarm is sent to the alarm control point The PES begins to vibrate and by means of a message on the display requires the wearer to report to the personnel at the alarm control point all alarms and messages on the PES as well as at the alarm control work stations are completely programmable In the event of an attack by the detainees occurring during a shift for example by seizing a PES the loss alarm
15. al TETRA network If a crew member spots a problem he she can immediately summon help If the crew member should be attacked during the rounds or cannot move any more due to a health problem the TSS automatically summons help Technical Information Brochure TETRA Secury System 14 11 2012 Psychiatric detention facility 45 funkwerk Application examples security communications 5 2 Psychiatric detention facility You are person in charge of a psychiatric detention facility and are responsible for the safety of your employees Up to 900 persons are detained in your facility The enforcement officers work on a three shift basis The administration only work during the day shift The total area of your facility covers approximately one square kilo metre or more This application example will illustrate how the Funkwerk TSS can be used to improve the security of your employees You have installed a digital radio infrastructure TETRA Safe for the grounds of your facility The grounds and buildings have complete coverage from their own TETRA network In addition to the alarm control point you have implemented the Funkwerk guard command and control system WGS see TSS Server gt Warden s Rounds Command and Control System WGS Page 34 in the overall system You have installed inductive localisation beacons ILBs see Inductive Localisation Beacon gt Inductive Localisation Beacon Page 40 at all the inter le
16. beats can be administered patrols with predetermined times and or predetermined locations e guard patrols can be initiated manually or automatically e guard alarms can be processed also via the Webnet application e automatic recording of various parameters Guard module software licence for up to 5 guard control terminals e up to 100 different beats can be administered patrols with predetermined times and or predetermined locations e guard patrols can be initiated manually or automatically e guard alarms can be processed also via the Webnet application e automatic recording of various parameters Guard module software licence for up to 10 guard control terminals e up to 100 different beats can be administered patrols with predetermined times and or predetermined locations e guard patrols can be initiated manually or automatically e guard alarms can be processed also via the Webnet application e automatic recording of various parameters Guard module software licence for up to 999 guard control terminals e up to 100 different beats can be administered patrols with predetermined times and or predetermined locations e guard patrols can be initiated manually or automatically e guard alarms can be processed also via the Webnet application e automatic recording of various parameters Versions of the Guard module 35 TSS Server 5 010 403 010 5 010 403 011 5 010 403 012 5 010 403 013 Technical Information Brochure TE
17. chnical Information Brochure TETRA Secury System 14 11 2012 funkwerk security communications Connection type 33 TSS Server 2 3 Connection type LAN cards which must be connected to the available TETRA system are to be found in the TSS server In addition to logic inputs such as door relays the TSS server also has external inter faces which support the following protocols e OPC Protocol e ALPHA 2 Protocol LAN e ESPA 4 4 4 Protocol S for a combination of TSS and DSS These interfaces are controlled serially or via the LAN 2 4 Secury Software The Funkwerk Secury software enables incoming alarms to be displayed against a background of of predefined building and site plans In the event of a personal alarm being activated the operator at the alarm control point of the TSS server can imme diately see the location of the alarm on the screen Help can be summoned right away and the operator can coordinate operations All events are captured by the software recorded and saved in a database Once the alarm has been processed the operator must enter a concluding comment regarding the alarm processing 2 4 1 Overview lie i webnet x F Lan LL T Da ia a A eS eee ek sol ami 4 mmi e T E ee a do ju a Gabal ripen ee BE mi pi ee iint f abe al M A n a 1 L FEJ i Secury Software Technical Information Brochure TETRA Secury System 14 11 2012 34 Secury Software TSS Server
18. ct writing to the display by means of Funkwerk Professional Messaging Automatic log out from the alarm server by placing the device in the charger Handset sends technical alarm to the alarm control point in the event of low battery charge levels Testing of all sensor functions of the handset during the log in process Cyclic connection test Life Check between a arm server and handset in Secury operating mode Technical Information Brochure TETRA Secury System 14 11 2012 funkwerk security communications 51 Abbreviations used 7 Abbreviations used The following abbreviations have been used in this document Abbreviations in document BGR BS8484 DECT Abbrevia Meaning tion Employers Liability Insurance Association directives Germany British Standard n 8484 Digital Enhanced Cordless Telephony Deutsches Institut f r Normung German Standards Institute DECT Secury System Funkwerk Personal Emergency Signal System Enhanced Signalling Protocol for Alarm Processes Funkwerk TETRA 4 TETRA mobile telephone Global Position System Global System for Mobile Communications Inductive Localisation Beacon Internet Protocol Integrated Services Digital Network Local Area Network Micro Secure Digital Card device specific memory card similar to a SIM card Multiple Subscriber Number Network Management System OLE for Process Control Personal Identification Number Personal emergency signal syste
19. d gt Execute customer specific configuration of the Secury server software and the handsets floor plans call groups handset designations etc TSS server is configured Y Done TIP A comprehensive start up and initial configuration guide is included with the system Technical Information Brochure TETRA Secury System 14 11 2012 Overview 31 funkwerk TSS Server security communications 2 TSS Server 2 1 Overview TSS Server This illustration of the TSS server is purely an example The design of the device as delivered may deviate from this illustration 2 2 Function The Secury software is installed on the TSS server and it is used to process and display alarm events The TSS server is linked to the available TETRA system via the LAN The TSS server communicates with the Funkwerk FT 4 handsets via this system Technical Information Brochure TETRA Secury System 14 11 2012 32 Function TSS Server All incoming alarms are evaluated by the TSS server and relayed to the Secury soft ware In parallel complete alarm reports are relayed to the following systems or devices FT4 TETRA Handsets Paging receiver e mail SMS Switching of relays for the control of alarm announcement systems fire alarm or sirens Optionally additional video systems or the Warden s Round command and control system can also be integrated FC4 DECT handsets only if this function is being operated in parallel Te
20. d please see the section on Handsets Page 36 Alarms are displayed and processed at the TSS Secury clients With the aid of the optional Warden s Round command and control systems guard beats can for example be defined and automatically retrieved further information can be found in the section TSS Server gt Warden s Rounds Command and Control System WGS Page 34 Technical Information Brochure TETRA Secury System 14 11 2012 Operation of the TSS 17 TSS Function Description funkwerk security communications 1 6 1 Schematic diagram of the requirements for operation of a TSS Connection of the TSS server to the existing TETRA Safe system Legend Designation and characteristics TSS Server see chapter TSS Server Page 31 Warden s Round command and control system see section TSS Server gt Warden s Rounds Command and Control System WGS Page 34 TSS Secury Clients Alarm processing workstation 1 6 2 TSS DSS combination possibilities The unitary system architecture of the DECT based DSS and UDSS Secury systems as well as the TSS TETRA Secury system allows both systems to be combined with each other The alarms are processed via a single interface using the Secury software In this way an existing DSS can be enhanced with the TSS without any problem Thus all the advantages of TETRA and DECT communication are maintained together with the full Secury functionalities The
21. diagram showing an alarm event Legend Designation and characteristics Call for help alarm Alarm reporting Assistance dispatched Technical Information Brochure TETRA Secury System 14 11 2012 28 Alarm reporting TSS Function Description 1 10 2 Processing an alarm Having received an alarm at the alarm control point of the TSS server the personnel are required to take four processing steps The procedure requires that the following steps be executed 1 t 3 The alarm in progress must be cancelled actively via the Secury software The message HELP IS ON ITS WAY is displayed on the handset that initiated the alarm This indicates to the user who initiated the alarm that the alarm is being processed and that an intervention is being initiated On successful transmission of the display message the handset that initiated the alarm automatically sends confirmation to the TSS server On completion of the rescue or assistance intervention a positive reset authori sation for the relevant handset must be issued via the Secury software Resetting can also take place on the move from other FT4 S or FT4 handsets in the system and at the alarm control point The message ALARM ENDED is displayed on the handset that initiated the alarm On successful transmission of the display message the handset that initiated the alarm automatically sends confirmation to the TSS server The alarm must be reset by
22. ds on the data throughput that is necessary for localisation transmissions and alarm messages One can respond to rising demands simply by adding modems for example in order to support a greater number of TETRA Secury devices in the field or to enable the integration of a Warden s Round command and control system A cost effective version of a personal emergency signal system with maximum flexi bility and scalability is made available by the TSS TMO modem solution The advantages are obvious e Manufacturer independent connections with the TETRA infrastructure e Minimal outlay for installation and commissioning e Redundancy option by using multiple radio modems e Flexible expansion Alternatively a wired connection to an existing TETRA system can be made via the relevant application interface of the infrastructure manufacturer By using this inter face communication between the alarm control point and the personal emergency signal devices is further optimised thanks to the higher data throughput This connection enhances system resources and improves reliability Technical Information Brochure TETRA Secury System 14 11 2012 16 Operation of the TSS TSS Function Description 1 6 Operation of the TSS The TSS server is connected to the LAN of the TETRA system The TSS server uses the existing TETRA system as a communication pathway to the terminals In order to use the functions of the TSS Funkwerk TETRA handsets are require
23. e e Reaction time e Pre alarm time e Aural signal sequence and volume e Signal and display duration Technical Information Brochure TETRA Secury System 14 11 2012 funkwerk security communications Alarms 23 TSS Function Description 1 8 2 Alarm parameters All parameter types are configured by means of the programming tool The program ming tool is secured by means of a dongle The programming is written to the device by means of a USB cable Alternatively a micro SD card can be loaded in the device Programming is then written via a USB cable to the micro SD card and not to the device In this case it is the micro SD card that is programmed and not the device Advantage in the event of a devices being swapped the new device can be taken into use immediately simply by exchanging the microSD card Config Software Technical Information Brochure TETRA Secury System 14 11 2012 24 Alarms TSS Function Description 1 8 3 Log in and log off in the secure Secury mode Directly after removing the FT4 S device from the desk top charger the user is required to test all active security sensors as enabled by the programming of the device If required by the customer the commencement of the start up test can also be performed out manually by means of an appropriate menu Only after the successful completion of the start up test will the device automatically log in to the TSS server This test process is performed each
24. e ILBs do not require a large installation outlay 230 V or 24 V e ILBs can be enhanced with inductive cable loops e ILBs can be installed in areas with a risk of explosion e ILBs continually transmit signals with unique localisation codes This allows the location of an alarm to be indicated unambiguously when an alarm is triggered e Inthe event of an alarm the unique localisation code is sent via the system channel so no additional channel is required for localisation ILBs can have a range of up to 10 m installation on a mast Guard control function for safeguarding the guard personnel Certification of the system architecture in accordance with the following norms and directives e DIN V VDE V 0825 1 e BGR139 In reaction to a failed call a manual acknowledgement can be programmed on the handset Connection to more than one alarm control point at the same time Connection to more than one alarm control point at different times Status of all handsets displayed at alarm control point e Log in e Log out e Alarm status e Operation in silent mode Connection to external systems by means of V 24 interfaces e Alpha 2 e Alpha x e Alarm processor Reception of messages from external systems via LAN in TCP IP CORBA format Coupling to external systems using API or ESPA 4 4 4 Alarm triggering by means of sensor contacts Control of contacts depending on alarms Remotely controlled blocking of the handsets in the event of an a
25. funkwerk security communications TSS TETRA Secury System e Professional communications solution with integrated Personal Emergency Signal and messaging functions e Message and telemetry handling system for the direct notification of all mobile handsets Technical Information Brochure Document type Technical Information Brochure Product TSS TETRA Secury System Publisher Funkwerk Security Communications GmbH John F Kennedy Str 43 53 D 38228 Salzgitter Phone 49 5341 2235 0 Fax 49 5341 2235 709 Copyright in this document is protected All rights reserved The copying distribution translation or conversion of this document in its entirety or any part thereof whether in electronic or otherwise machine readable form is forbidden without the permission of Funkwerk Security Communications GmbH Subject to change without notice Suggestions and concerning this technical information brochure must kindly be directed to the i os above address Last amendment 14 11 2012 Technical Information Brochure TETRA Secury System 14 11 2012 funkwerk Table of Contents security communications Table of Contents 1 TSS Function Description ss 5 Ted WAR IS a E o E EIE A E A E E N A E I I 5 1 1 1 TETRA radio infrastructure se 6 1 1 2 Functional structure of the TSS se 7 12 AG STM ANON ER da en De i note at ed eo 8 1 3 Personal Emergency Signal Functionality 4 8 1 4 ISS SA as ane ee aa en a des ere D nn 9
26. he handsets being used With these connections only one subscriber at a time can speak to the group concerned all the others can listen The TETRA infrastructure can be expanded subsequently Each TETRA base station can be expanded with four TETRA carriers The TETRA network can be expanded with many TETRA base stations if required thus expanding the radio traffic capacity An application interface is provided for the connection of additional applications All TETRA base stations and control point components can be equipped with emer gency uninterrupted power supplies to supply power for the TETRA network in the event of a power failure The operating time in emergency mode depends on the capacity of the uninterrupted power supply and must not be less than 30 minutes Technical Information Brochure TETRA Secury System 14 11 2012 funkwerk security communications What is TSS 7 TSS Function Description 1 1 2 Functional structure of the TSS TETRA organisation channel Funkwerk FT4 S Ex TETRA service and NMS TSS Secury Server Lo TSS Secury Client TETRA base station and TETRA antenna TETRA Dispatcher and speech recorder WGS guard beat and control system Alarm relay via TETRA organisation channel and LAN Acknowledgement via LAN and TETRA organisation channel Functional structure of the TSS In the case of a personal alarm a technical device alarm a localisation report based on an i
27. ignals on the mobile device that triggered the alarm pre alarm In order to avoid false alarms the pre alarm can be reset by the user within a defined reaction time In the case of a posi tion alarm the mobile device need only be placed in an upright position 1 8 1 Alarm types Manual alarm modes Alarm designation Application Automatic alarm modes Push button alarm 1 Active Alarm Single touch of the Observed danger button Push button alarm 2 Active Alarm Button pressed 3 Observed danger times Warning alarm 1 Request for back up call for assistance Single touch of the button Warning alarm 2 Request for back up call for assistance Button pressed 3 times Alarm designation Application Loss alarm To recognise an attack situation Tag is torn away Seizure of device Position alarm Fall or feinting Device is tilted at least 55 Technical Information Brochure TETRA Secury System 14 11 2012 22 Alarms TSS Function Description Automatic alarm modes cont d Alarm designation Application A Time alarm One of the prepro grammed keys is not pressed after a prede fined period of time No motion man down alarm Device is static and is not moved with a predefined period of time Periodic testing for activity Lack of movement The person is wedged in or unconscious in a seated position The reporting parameters for each alarm mode are individually programmabl
28. ion and technical personnel The personnel work on a three shift system We will now describe how the implementation of a Funkwerk TSS can improve the safety of the personnel and the productivity of the artisans 5 3 1 Production personnel The individual plants making up the factory are very complex The factories contain many workplaces for lone workers where the production personnel may be injured by a release of chemical substances In such a case it may occur that an injured person is not noticed by the other employees Here the Funkwerk TSS offers an optimal solution All personnel are equipped with intrinsically safe Funkwerk FT4 S Ex handsets If a person collapses due to chemical poisoning the Funkwerk FT4 S detects this with the aid of the position sensor and reports the incident to the TSS server In the factory ILBs are installed at the indivi dual workplaces of lone workers The unique ILB code is thus sent to the TSS server The Secury software operators at the control point can summon help immediately By knowing the exact location the dispatcher knows with which chemical the casualty came into contact and can send the required specialised equipment 5 3 2 Technical Personnel During the course of their assigned shift the technical personnel are responsible for the care maintenance and speedy repair of the individual machines on the premises Up until now a fault report has only been indicated by a continuous signal tone a
29. is scalability allows optimal adapta tion to changing requirements at any time Thanks to the consistent implementation of IP technology TETRA Safe is easy to integrate in existing corporate networks Even the networking of many stations with each other can be carried out cost effectively via the IP network To satisfy the highest security and availability requirements for sensitive areas the main components of TETRA Safe can be implemented redundantly The TETRA Safe system has the following characteristics Compact TETRA system consisting of combined switching base station and inte grated gateways Standard interfaces for the connection of external applications IP based systems architecture e Flexibly expandable redundancy option e Minimal installation outlay minimal location demands and low operating costs Technical Information Brochure TETRA Secury System 14 11 2012 funkwerk security communications Requirements for operation 15 TSS Function Description 1 5 3 Existing TETRA system The Funkwerk TSS TETRA Secury System can be integrated by wire or wirelessly with existing TETRA infrastructures of most manufacturers without any problem For a wireless connection the TSS server is connected to an existing TETRA network via a wireless TETRA modem A wired connection between the server TETRA switching and TETRA base station is not required for this TSS TMO modem solution The number of modems required depen
30. ith a risk of explosion Minimal outlay for HF infrastructure e Fewer radio base stations required for greater radio coverage e Minimal installation costs Graphic alarm display for rapid localisation High speech quality for radio conversations High level of security and reliability in communicating via various encryption mechanisms Start up test and sensor test after removal of the handset from the charger sensor test is repeated after 24 hours Localisation test of the handset before commencing secure operation Professional messaging also for the control of work processes e Messages to all mobile devices External alarm contacts such as for fault reporting Room and floor specific localisation ILB Very fast call set up less than 300ms Simultaneous speech and data transmission messages are even delivered to engaged subscribers TETRA group and speech communication also for everyday work activities Various call types and priorities e Individual calls in full and half duplex e Group calls announcement s e Priority calls emergency calls Transmission of display text messages in the SDS text transmission service format as defined in the TETRA standard Technical Information Brochure TETRA Secury System 14 11 2012 funkwerk security communications 49 Overview of the TSS performance features TSS performance features cont d Performance feature Advantages of the inductive localisation beacons
31. larm and depending on alarm type e g hostage taking Playback of recorded messages announcements depending on alarm type All alarms and alarm related operator actions saved in a data base All messages saved in a data base Localisation of the handset in buildings in the event of an alarm Localisation of the handset by GPS in the event of an alarm Floor plans of buildings displayed with plan view of the alarm at the alarm control point Integration of individual site plans and details photographs drawings etc Relaying of alarm reports as a message to individual Funkwerk handsets or groups Relaying of alarm reports as e mail Relaying of e mail headers to Funkwerk handsets Transmission of messages from the alarm control point to individual Funkwerk handsets or groups of handsets Transmission of messages from the alarm control point to individual Funkwerk handsets or groups of handsets Technical Information Brochure TETRA Secury System 14 11 2012 50 Overview of the TSS performance features TSS performance features cont d Performance feature Creation definition of groups of handsets maintenance medical services guards etc Development of comprehensive message scenarios in the alarm server by means of scripts Differentiated signalling of reports according to type ranging from silent alarms to extremely loud with or without vibration Messages can overwrite override the muting of a handset Dire
32. lly the handset transmits an appropriate alarm telegram on the TETRA system The telegram includes the location of the alarm with the most recently received ILB code indoors or GPS data outdoors and the type of alarm This information is sent via the TETRA network to the TSS server as a prioritised text message The TSS server evaluates the alarm telegram The ILB code or the GPS data is converted to the relevantly configured text information The received alarm is displayed in graphic and or text form at the alarm control point of the TSS server A server acknowledgement is sent to the handset initiating the alarm All in coming alarms reports are saved as a data set in a database transaction table At any stage a history of alarm reports can be requested from the alarm control point of the TSS server for subsequent evaluation If the control point is not manned continuously then all alarms can also be relayed via messaging to other devices in the field In this case the location report is displayed as text Depending on the configuration an alarm can also be relayed to external devices not connected to the TETRA system for example to mobile radios or land line tele phones or in the form of an e mail Technical Information Brochure TETRA Secury System 14 11 2012 Alarm reporting 27 funkwerk TSS Function Description security communications 1 10 1 Schematic diagram showing an alarm event a a CLEE ELL Schematic
33. m Personal emergency signal device Interfaces in the ISDN Short Data Service Session Initiation Protocol Short Message Service Terrestrial Trunked Radio open standard for digital trunked radio Thin Film Transistor Trunking Mode TETRA Secury System Funkwerk Personal Emergency Signal System Universal DECT Secury System Funkwerk Personal Emergency Signal System Universal Serial Bus serial interface on PC Verband der Elektrotechnik German Electro technology Association Technical Information Brochure TETRA Secury System 14 11 2012 Funkwerk Security Communications GmbH John F Kennedy Str 43 53 D 38228 Salzgitter Tel 49 5341 2235 0 Fax 49 5341 2235 709 www funkwerk sc com info funkwerk sc com funkwerk security communications
34. maximum of 20m if required Accessories kit for OS452 Loop connectors for cable loops shorter than 30m 5 010 274 000 Filter for inductive cable Inductive cable loops with a length exceeding 30m must be regis loops tered with the Federal Network Agency IOF 452 localisation filter for Enclosed for I0S452 without monitoring of the ILB 5 010 273 000 Cop ongar Man Som Not enclosed for OS452 without monitoring of the ILB 5 010 273 800 Warning sign for ILB Warning sign is required for persons with pacemakers Persons with 5 010 271 500 pacemakers must remain at least 20cm away from an ILB Further information can be found in the ILB documentation Table of Contents 10 pieces Spares Ferrite antenna 7 770 097 201 Cable blue for external ILB per metre 4 999 054 309 antennas Technical Information Brochure TETRA Secury System 14 11 2012 44 Cruise liner operator Application examples 5 Application examples 5 1 Cruise liner operator You operate a shipping line with a number of cruise ships You crew these ships with many hundreds of people such as technical personnel and nautical personnel The personnel work on a four shift system This application example will illustrate how the Funkwerk TSS can be used to support them in the execution and optimisation of their duties 5 1 1 Technical Personnel The technical personnel are concerned with technical problems and repairs in and around the ship For example if there is
35. means of a softkey on the handset that initiated the alarm Once the alarm has been reset successfully the handset that initiated the alarm automatically sends confirmation to the TSS server Finally once processing of the alarm has been completed with an annotation entry at the alarm control point of the TSS server it is deleted from the report list Y Done TIP Resetting can also take place on the move from other FT4 S or FT4 handsets in the system and at the alarm control point Technical Information Brochure TETRA Secury System 14 11 2012 Scope of supply 29 TSS Function Description funkwerk security communications 1 10 3 Expanded alarm procedures The alarm procedure can be altered to suit the requirements of the customer It is thus possible in an emergency to activate the soeaker mode of the handset without any intervention by the user being required The speaker mode function can also be activated remotely by the alarm control point In the event of hostage taking it makes sense to mute the handset and not allow the device to display any indication that help is on its way Simultaneously the handset can be switched to an eavesdropping mode which cannot be seen on the handset If the control point cannot be manned continuously escalation scenarios can be defined on the UDSS server The TSS also provides for the automatic relaying of outgoing alarms as messages to other handsets In this way the perso
36. n responsible for responding to the alarm is notified of an emergency situation within seconds by means of a display report The message contains information reporting the sender the type of alarm as well as the location of the alarm The alerted personnel can then hurry directly to the location of the alarm or man the alarm control point of the TSS server in order to deal with the alarm lf the alarm is not processed at the alarm control point within a predefined time the TSS offers the possibility of escalating the alarms These escalation scenarios are defined according to the customer s requirements For example warning lights and sirens can be switched on after a pre set acknowledgement time has elapsed or the alarm can be relayed to GSM devices or be e mail Even extensive relay scenarios can be dealt with by means of a script 1 11 Scope of supply The following elements are included in the scope of supply of the TSS A TSS server industrial PC with operating system installed and Secury software A licence dongle An installed and pre configured LAN card A power cable for the TSS server e A back up CD with user manual Technical Information Brochure TETRA Secury System 14 11 2012 30 Putting into operation TSS Function Description Prepare the TSS server 7 Login the handsets to the TETRA network VA Login the FT4 S handsets to the server 7 Configure the TSS server WY 1 12 Putting int
37. naanaidiaaeetiietens 26 1 10 1 Schematic diagram showing an alarm event 27 1 10 2 Processing an alal M giciansdccnasaxdoncatarsicsanndaidsiimananiaaaninanttaenandidaiessanienvicertiaunntnawans 28 1 10 3 Expanded alarm procedures 29 1 11 Scope Of SUPPLY 20 0 0 ce cccccseeeeceeeeeceeeeceeseeeceaeesseasceeeaseeseaesessaeeeeseeeeessaeessegeeessaseesseesesees 29 1 12 Pulung Mio Operation serrian E E 30 A ECTS 1e ea E ee eee eee 31 ON MON ee 31 22 OO eee nd ee ea seer ese easee E oe es eens 31 2 3 Conneccion ype a A ee ee 33 ZA SCC OR oeeo EEEE EE 33 2AN ON en ee 33 2 4 2 Configuration and operation iii 34 2 4 3 Warden s Rounds Command and Control System WGS cceeeeeeeeseeeeeeeeeeeeeees 34 2 5 Versions of the Guard module s crescsiesiccvdssaswncwegiewrseesias beyencs narnia benaaaasnandhaaeeasentaciaeaceetsaaies 35 3 Handsets LR TE on ia ESE 36 el Technica GAT ee e EE E E E E ete ne ee 36 3 2 Handsets messaging only function ss 37 3 3 Hands ts Alarm DANS eee en dec see e Ge ee tie 38 2A ICO SD CAO E ee ee eee 39 3 5 Accessories and Enhancements se 39 4 Inductive Localisation Beacon sise 40 OVNI de ee ee cee 40 OO E E a 40 D e eE NSS E EEE VE esac a E EEE E E E E E eee en on E 41 Ad Technical ANA PP RE DR EE 42 4 5 Accessories and Spares D a a ee ee ne ere 43 Technical Information Brochure TETRA Secury System 14 11 2012 3 Table of Contents 9 PAP UIG
38. nd by switching on the signal lights The machine operator then calls the technical personnel by telephone The artisans must then consult the machine operator in order to find out which plant and machine are involved Furthermore it is not clear what the nature and extent of the fault may be and in whose scope of responsibility it falls This course of events is very time consuming and under certain circumstances can also be very costly Sometimes a fault can also be rectified by the assistants and no specialists are required With the help of the Funkwerk UDSS these problems belong to the past All personnel are equipped with intrinsically safe Funkwerk FT4 S Ex handsets Ifa machine reports a fault this is passed on to the UDSS server via an interface The UDSS server sends a message to the appropriate machine operator and his assis tant as well as to the artisans This message identifies the relevant machine the fault report and the location of the machine All persons concerned are thus notified about the fault report immediately Based on the fault report the extent of the problem can be determined The assistants can thus deal with minor faults and the artisans need only go to the machines in the event of a major fault report 5 4 Forensic psychiatrists You are the director of a psychiatric clinic The clinic treats convicted offenders who have psychiatric illnesses These patients pose a danger to the public and the staff Technical
39. nductive localisation beacons ILBs enable an operator to localise the exact position of a person needing emergency assistance In this way the current position of the user can be displayed with precision via the Secury software on the TSS server The ILB need only be connected to a power supply either 24V or 230V Each ILB is wirelessly configured by means of a configuration tool available separately Thereafter the ILB continually transmits a unique localisation code within its signal field The signal field can be precisely set without opening the casing even in the case of sabotage proof surface mounting Technical Information Brochure TETRA Secury System 14 11 2012 funkwerk security communications Properties 41 Inductive Localisation Beacon 4 3 Properties The inductive localisation beacon ILB has the following properties Storey precise localisation and area delimitation between floors low frequency anechoic and attenuation free localisation method with purely magnetic coupling between transmitter and receiver coils induction Range from range from 0 7m to 6m programmable in steps of 30 cm address range 10 000 addresses remote programming of addresses and range possible without direct access or the need to open the enclosure recognition of direction of movement by separate antenna optional coverage of larger areas is possible by means of external loop antennas for loca tion in the ground o
40. nductive localisation transmitter beacon or GPS the mobile device transmits a report in data form via the TETRA organisation channel This data is then analysed by the TSS server and displayed at alarm control point of the TSS server in text and on a site plan as well as being relayed to the mobile handsets Technical Information Brochure TETRA Secury System 14 11 2012 8 Certification TSS Function Description 1 2 Certification The TSS complies with the Employers Liability Insurance Association s BGR direc tives required in Germany as well as all the test points of the DIN V VDE V 0825 1 PES test norms The TSS also fulfils the functions of BS8484 The personal emer gency signal devices FT4 S are also available with ATEX and IECEx certification 1 3 Personal Emergency Signal Functionality The risk of injury to personnel is minimised by using personal emergency signal systems Damage to assets can be avoided Based on the German Employers Liability Insurance Association s BGR directives for personal emergency signal systems BGR 139 and the DIN V VDE V 0825 1 the Funkwerk TSS may be used for the personal security of lone workers The automatic sensor based recognition of emergency situations and the automatic relay of the alarm to other active TETRA handsets on the system enables assistance to be rendered swiftly e Clear display and processing of alarms e Precise localisation of the casualty by means of optional I
41. o operation The procedure requires that the following steps be executed 1 Connect the TSS server to a TETRA infrastructure gt Connection via LAN or API to the TETRA network TETRA Safe gt Alternatively Connection via TETRA TMO modem 2 Customer supplied user interfaces monitor keyboard and mouse are connected to the TSS server 3 The TSS server is powered up The server boots up All the necessary software tools start automatically 4 Login to the TSS server gt Login as User The user has no rights to make settings to configure the system gt Login as Administrator As the administrator settings can be made to confi gure the system Comprehensive information regarding the login process can be found in a sepa rate guide to commissioning 5 Test the connection between the TSS server and the TETRA system with the aid of the software tools The TSS server is ready to operate The procedure requires that the following steps be executed gt Login to the TETRA network according to the manufacturer s instructions Handsets logged in to the TETRA network The procedure requires that the following steps be executed 1 Register the FT4 S handsets on the TSS server via the TSS mask This is required for all ISSI and GSSI 2 Set the FT4 S handset in the Secury mode menu Test the login to the TSS server FT4 S handset logged in to server The procedure requires that the following steps be execute
42. ptional sabotage proof installation e g surface mount possible ATEX certification optional Function monitoring with alarm optional Range Function Operating voltage Antenna condition Total failure Sabotage Technical Information Brochure TETRA Secury System 14 11 2012 42 Technical data Inductive Localisation Beacon 4 4 Technical data The following information pertains to the standard IOS 452 device Dimensions Size Ix b x h 200 x 120 x 60mm approx Protection class and temperature range EX protection optional Intrinsically safe i amp iD according to ATEX amp IECEx standard Protection class gas dust BVS 11 ATEX E 083 X II 2G Ex ib IIC T4 Gb II 2D Ex ib IIIC T125 C IP6X Db IECEx BVS 11 0099X Ex ib IIC T4 Gb Ex ib IIIC T125 C IP6X Db IP protection class IP 65 jet proof and dust tight suitable for outdoor use and surface mounts Operating temperature Can be operated between 15 and 55 C range Power supply Mains supply 230 V AC 50 60 Hz or 24 V DC Technical Information Brochure TETRA Secury System 14 11 2012 Accessories and Spares 43 Inductive Localisation Beacon funkwerk security communications 4 5 Accessories and Spares Accessories Configuration Tool For inductive localisation beacons 10S451 and I0S452 4 999 017 053 Supplementary antenna for With 10m connecting cable can be shortened or lengthened up to a 5 010 272 000 lIOS452
43. recorder and TETRA Service NMS The following schematic diagram shows an example of the implementation of a Funkwerk TSS in an existing TETRA Safe system Technical Information Brochure TETRA Secury System 14 11 2012 Requirements for operation 13 funkwerk TSS Function Description security communications 1 5 1 Schematic depiction of the requirements for operation of a TSS Example of a TETRA Safe installation on the premises of a client Legend Designation and characteristics LAN connection cable TETRA Antenna system TETRA Safe TETRA Base station TETRA Safe TETRA Dispatcher speech and data recorder TETRA Service NMS Technical Information Brochure TETRA Secury System 14 11 2012 14 Requirements for operation TSS Function Description 1 5 2 TETRA Safe TETRA Safe is a compact TETRA system solution which makes the powerful TETRA technology available to all users The highly compact system Is easy to install and integrates switching base station and gateways in a single device This also allows for example conversations over the telephone network to be conducted via an integrated telephone interface Enhancement of the performance spectrum is possible by connecting further applica tions such as a dispatcher or speech and data recorder Furthermore the TETRA Safe can be expanded at any time in terms of capacity additional TETRA carriers and radio coverage additional base stations Th
44. t atmosphere The TETRA organisation channel is used to exchange information between the TSS server and the handsets for the messaging personal security and localisation features Technical Information Brochure TETRA Secury System 14 11 2012 5 6 What is TSS TSS Function Description 1 1 1 TETRA radio infrastructure The TSS uses a multi channel TETRA infrastructure for its operation For seamless coverage of the premises a two cell radio system is usually employed This TETRA infrastructure also supports the mobile communication network of the company Depending on the number of mobile subscribers the required traffic capacity can be expanded by two or more transceiver modules per TETRA carrier This also ensures that in the event of a carrier going down the communication is not interrupted Each TETRA carrier has four independent speech channels Each speech channel consists of one frequency for the downlink stationary to mobile and one frequency for the uplink mobile to stationary For each TETRA base station one channel is used as an organisation channel control channel for management purposes and for the transmission of data A PABX can be connected to the TETRA system via an SIP standard interface This enables the handsets to telephone on the PABX as well as on the public telephone network via the PABX Group calls and individual calls are conducted as semi duplex connections cont rolled via the PTT key on t
45. the alarm control point or retrieve defined texts from the clients or the handsets These texts can then be sent to individual subscribers groups or all subscribers In the event of an alarm report being sent by a machine a text message can be sent automatically to the relevant employee The content of the message must be prede fined and assigned In this way all relevant information can be conveyed in the message for example the designation and location of the machine and error code of the alarm This type of message is displayed directly on the display The FT4 handsets support this message format Normal TETRA short messages are written in the memory provided for this purpose To display the various levels of urgency of the messages you can perform additional programming over and above the standard signalling The standard signalling of all call types is by vibration alarm as well as the display keyboard lighting For each call type you can adapt the ring tone display duration the signal duration and the volume Technical Information Brochure TETRA Secury System 14 11 2012 10 Messaging TSS Function Description The following additions to the messaging features are possible Secury and alarm condition even after device deactivation e Saving of Secury log in condition alarm condition hostage mute localisation information e After reactivation of the device the alarm hostage mute are continued and the Sec
46. time the device is taken into service or at least once every 24 hours The cyclic monitoring of the connection between the handset and the TSS server now begins During this monitoring the handsets are continuously tested for device faults If a device develops a fault or reports a commu nication failure then this information is reported immediately Log off occurs automatically when the device is placed in the desk top charger Cyclic monitoring of this FT4 S device then ceases As with login log off can also be performed manually by means of a menu selection TIP Automatic testing of individual sensors and automatic login can also be switched off if the customer so requires Technical Information Brochure TETRA Secury System 14 11 2012 Localisation of persons 25 funkwerk TSS Function Description security communications 1 9 Localisation of persons In order to localise personnel in the field the TSS must be aware of the actual posi tion of the mobile devices being carried thus determining the locality of each indivi dual A permanently installed network of inductive localisation beacons ILBs is required to enable localisation Precise localisation in outdoor areas is possible by using GPS data without inductive localisation beacons being required Already when the TETRA handset is logged in to the secure mode the user is required to enter the signal field of an ILB this requirement can be switched off as an option
47. trol point of the security personnel either using GPS coordinates or the ILBs The data is relayed automatically to the TETRA handsets of security personnel in the vicinity of the alarm location Thus the security personnel can intervene and quell the confrontation as quickly as possible Technical Information Brochure TETRA Secury System 14 11 2012 48 Overview of the TSS performance features 6 Overview of the TSS performance features Here you will find an overview of the performance features of the Funkwerk TSS TSS performance features Performance feature Cyclically monitored personal emergency signal system after removal of the handset from the charger Battery charge level monitoring on the handset with relay function Alarm processing and logging for situation analysis Outdoor localisation of the TETRA devices via GPS Automatic switch over to constant localisation in the event of an alarm for tracking the preservation of evidence for example in the event of hostage taking Data communication SDS packet data e Data rate Unsecured up to 7 2 kbit s Direct connection of a PABX via a SIP standard interface Secury software shows colour coded indication of handsets in operation Signal strength loss alarm on the handsets cyclic monitoring Remotely controlled communication functions e Loudspeaker hands free muting and eaves dropping for example hostage taking Suitable for operation in atmospheres w
48. ttery capacity of 1 700 mAh up to 24 hours with a battery capacity of 2 700 mAh not Ex at 5 transmit time 5 receive time and 90 stand by time Technical Information Brochure TETRA Secury System 14 11 2012 funkwerk security communications Handsets messaging only function 37 Handsets TETRAcharacteristics 380 MHz to 430 MHz 410 MHz to 470 MHz 10 MHz 880 MHz to 470 MHz Frequency range Duplex spacing EUREM easa 1 Watt Range extension Extension via 2 dB gain antenna D 3 lt O Q a ai O P e SIM card for E2E encryption e microSD card for saving network and user data Audio Aural signalling up to 100 dB A Ex versions up to 94 dB A at a distance of 30 cm Loudspeaker rear mounted Hands free very good intelligibility Vibrating alarm supplementary or mute signalling 3 2 Handsets messaging only function Handsets messaging only function Illustration Special features FT4 Voice e Protected against jetted water and dust proof IP 65 Further information can be found in the product catalogue FT4 EX e ATEX and IECEx certified TETRA industrial handset e Further information can be found in the product catalogue i Technical Information Brochure TETRA Secury System 14 11 2012 38 Handsets Alarm Function Handsets 3 3 Handsets Alarm Function Handsets Alarm Function Illustration Special features FT4S FT4
49. ury log in is executed Hostage mute function e The alarm control centre can command the FT4 devices to be deactivated speech and eavesdropping of conversations is no longer possible devices are in idle mode e This condition is maintained even if the batteries are removed e Resetting is only possible via programming by the Secury control centre A 24 hr sensor test is carried out with pre warning Additionally technical alarms can be repeated until the cause of the alarm has been cancelled Schematic diagram Professional Messaging TIP Further information on the subject of messaging can be found in the Funkwerk Professional Messaging document Technical Information Brochure TETRA Secury System 14 11 2012 Messaging 11 funkwerk TSS Function Description security communications Technical Information Brochure TETRA Secury System 14 11 2012 12 Requirements for operation TSS Function Description 1 5 Requirements for operation A complete TETRA infrastructure is required for you to operate a Funkwerk TSS It is possible to integrate TSS in an existing TETRA Safe system or to enhance an exis ting TETRA system with TSS e TETRA Antenna system with the TETRA base stations TETRA Safe see section on TETRA Safe Page 14 with TETRA Dispatcher Voice recorder and TETRA Service NMS e Existing TETRA system see section on Abschnitt Existing TETRA system Page 15 with TETRA Dispatcher Voice
50. will send an alarm message to the alarm control point The PES is programmable in such a way that the microphone can be switched on immediately without any alarm indication being shown on the triggered device The detainees thus receive no notification of the triggered alarm or that the officials at the alarm control point are eavesdropping The unique localisation code received from the installed inductive localisation beacons are transmitted as part of the alarm message In this way the personnel at the alarm control point immediately receive the precise location where the alarm has been triggered as well as the the direction of movement of the PES shown on a site plan and can then react accordingly Other enforcement officers receive an appropriate message on their displays infor ming them of the incident and the locality of the alarm You can thus optimally ensure the safety of your personnel with the Funkwerk TSS and Funkwerk PES and guarantee that in the event of an extreme situation they will receive help as soon as possible Technical Information Brochure TETRA Secury System 14 11 2012 46 Manufacturer of chemical products Application examples 5 3 Manufacturer of chemical products You are the CEO of a large chemical company Your premises cover many square kilometres Various factories producing chemical substances are located on the property You have many thousands of employees in total These are divided into product
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