GE Security Advisor MASTER integrated intrusion and access control system designers manual Version 1.
Aritech is a GE Security brand. Copyright (c) 2004 GE Security B.V.. All rights reserved. GE Security B.V. grants the right to reprint this manual for internal use only. GE Security B.V. reserves the right to change information without notice.
CONTENTS: 1 System components. ............................................................................................................................ 5 1.1 Control panels ............................................................................................................................... 5 1.2 User Interface.............................................................................................................................. 11 1.3 DGP Expansion modules ..............................
7.1.2 7.1.3 7.1.4 7.1.5 7.1.6 4 Space in Hosings......................................................................................................... 75 Dimensions of devices PCB. ....................................................................................... 76 Control Panel and Memory configurations. ................................................................. 77 Current consupmtion. ..................................................................................................
1 SYSTEM COMPONENTS. 1.1 Control panels The main element of the Advisor MASTER system is the control panel. The idea behind the Advisor MASTER system is to supply a product with the best possible functional parameters for the end user, as well as for the installing technician.
Memory – System bus – The inbuilt memory of the control panel is sufficient to support a typical, medium complexity alarm system (50 users, 250 events, 10 alarm groups). The control panel memory can be expanded using the appropriate modules. The RS485 system bus enables the attachment of manipulators (RAS stations), as well as alarm and access control expansions. The same interface is used to connect the control panels into a network, or to the local bus of other equipment.
Expansion Description Q-ty Size Memory – mounted in the slot on the mainboard, only one of the following modules. ATS1830 1Mb 1 ATS1831 4Mb, IUM ATS1832 8Mb, IUM Computer, printer interfaces – mounted directly on the mainboard, only one of the following modules. ATS1801 Computer, printer interface (two RS232 ports) B+ 1 ATS1802 Printer interface(RS232 port) B+ Communications– MI bus , mounted in housing slots, below the mainboard .
Table 1-3 ATS4500 housing space. L – ATS1642 housing Battery Capacity Free housing slots Free slots below the MBC* BS127N 7,2Ah 2xBS127N 14,4Ah 6xB or 3xBB or 4xB+ or 6xB or 4xB+ or 2xA BS131N 18Ah 2xA BS129N 26Ah 2xBS129N 52Ah *- Communication expansions can be mounted below the mainboard (Mother Board Circuit) 1.1.1.3 ATS3000 8 alarm zones on board expandable to max.
Expansion ATS1811 ATS1820 Description 8 relay outputs. 16 open collector outputs. Q-ty 16 16 Size BB B+ Table 1-5 ATS3000 housing space.. M – ATS1641 housing Battery Capacity Free housing slots Free slots below the MBC* BS127N 7,2Ah 6xB or 3xBB or 1xA 4xB or 2xB+ or 1xA 2xBS127N 14,4Ah 6xB or 3xBB or 1xA BS131N 18Ah 4xB or 2xBB or 1xA *- Communication expansions can be mounted below the maiboard (Mother Board Circuit) 1.1.1.4 ATS2000 8 alarm zones on board expandable to max.
1.1.1.5 Comparison of most important characteristics Table 1-7 Common characteristics of the control panels.
1.2 User Interface The user interface – manipulators, readers – is the only system element the user has direct contact with. It serves to inform the user of the state of the system, allow taking system control actions, and serves as a basic programming and maintenance channel for the installing technician and programmer. The Advisor MASTER system offers a whole range of RAS equipment, differing in appearance and functionality.
Table 1-10 RAS device list (System Bus devices) Product ATS1100 ATS1105 ATS1110 ATS1111 ATS1115 ATS1116 ATS1155 ATS1151 ATS1156 ATS1190 ATS1192 ATS1170 Description Keypad, 2*16 characters LCD/8 zone LEDs Keypad, 2*16 characters LCD /8 zone LEDs with Wiegand reader interface. Keypad, 2*16 characters LCD/16 zone LEDs Keypad, 4*16 characters LCD/16 zone LEDs Keypad, 2*16 characters LCD/16 zone LEDs with inbuilt ATS card reader. Keypad, 2*16 characters LCD/16 zone LEDs with inbuilt ATS card reader.
1.2.1.2 ATS1110/11 LCD display 2x16 characters ATS1110 LCD display 4x16 characters ATS1111 16 area state diodes 3 system state diodes Pry-off tamper alarm Dimensions (LxHxD mm): 92x165x25.4 (closed cover) The ATS1110/11 unit is one of the most basic RAS stations of the ATS system, providing, through the LCD display, access to all system functions. The design of the unit enables access to connector clamps and the DIP switches without opening the device housing.
The ATS1155 keyboard is a solution for areas with high risk of vandalism. The metal, damage resistant keyboard and the electronics part of the device are mounted separately. Additional system state diodes can be mounted separately as well. The set consists of the keyboard, a PCB board and connection cables. The address and bus termination are set using a DIP switch. 1.2.1.
the control panel. To prepare the unit for that mode, the unit has to be programmed with up to 20 user cards. The programming interface is accessible locally via setting the appropriate DIP switches. 1.2.1.
1.3 DGP Expansion modules The DGP expansion modules are system bus devices and are designed to expand the system capabilities. The main task of the DGP is to connect faraway alarm zones, providing a local power source and system outputs. The DGP idea encompasses also access control expansions that enhance the system’s functionality in its work area. Distributed intelligence philosophy allows systems configured from DGP and RAS devices to cover a wide range of most complicated applications. 1.3.1.
1.3.1.2 ATS1203 alarm zone DGP 8 alarm zones on board 32 alarm zones when maximally expanded 8 OC type outputs 32 outputs when fully expanded. High – current, monitored siren output Integrated switched mode power supply 3A Auxiliary battery back-up M – ATS1641 housing A new advanced DGP device, the ATS1203 provides support for a remote ATS area.
Table 1-16 ATS1210/11/20 DGP compatible expansion modules Expansion Description Outputs – installed in available housing slots ATS1810 4 relay outputs ATS1810 8 relay outputs ATS1820 16 open collector outputs. 1.3.1.4 Amt.
1.3.1.5 ATS1290 addressable devices DGP. 32 Point ID® addressable devices 32 system outputs PID bus learning mode Power supply: 12V DC This new device in the Advisor MASTER system allows the use of the local communications bus interface of the DGP module to connect sensors to the alarm system. To communicate with the devices, an open architecture Point ID® interface is used. The bus planning details, recommended wiring etc. can be found in section 3.2.2.
programmed to act as alarm zones of the alarm system. The readers and access control keyboards of the ATS1250 DGP can be used to the alarm system control functions. Configuration details using the ATS1250 device can be found in section 4.4.2. Table 1-19 DGP ATS1250 compatible expansion modules Expansion Description Amt. Size Memory – mounted in the slot on the mainboard, only one of the following modules.
Expansion Description Amt. Size Memory – mounted in the slot on the mainboard, only one of the following modules. ATS1830 1Mb – preinstalled 1 ATS1831 4Mb, IUM ATS1832 8Mb, IUM Outputs– mounted in available housing slots. ATS1810 4 relay outputs. 1 B ATS1811 8 relay outputs. 16 BB ATS1820 16 open collector outputs. 16 B+ 1.3.1.8 Listing of the most important parameters.
Table 1-24 Listing of the access control DGP characteristics Parameter Number of passages Number of onboard reader IF Max. number of readers Local DGP q-ty Onboard zones Max. onboard zones Max. zone quantity Onboard outputs Max. output quantity Siren output Power supply Housing Circuit board size ATS1250 ATS1260 4 doors 4 16 16 16 16 4 relay.+ 8 OC 48 Yes 230V AC M A 4 lifts/ 64 floors 4 16 15 16 16 256 4 relay.
1.4.1.2 ATS7100 ATS7200 ATS7300 ISDN-B communicator Connected to the control panel through the MI bus Supports all ATS reporting functions Uses standard protocols (SIA, CID, etc.) Supports all ISDN configurations Allows remote connections to the TITAN software In case of a reporting need, takes control over the ISDN line. Dimensions: A Voice reporting module. Connected to the control panel through the MI bus Supports voice reporting through all communication channels. Total message duration 35sec.
ATS1743 Fibre-optical converter. Converts the RS485 signal into optical signal, allowing the use of optical fibres in data bus construction. Dimensions: B Parameters: Wavelength: Optical fibre: Converter: Flux budget: AGC: none 1.4.1.5 820nm 62,5/125um multimode LED 15dB Memory modules. The ATS system has three memory modules: ATS1830 ATS1831 ATS1832 1Mb memory module. 4Mb memory module, hardware IUM. 8Mb memory module, hardware IUM.
1.5 ATS8100 – TITAN Software 1.5.1.1 Programming Tool The TITAN system provides a simple, Windows® compatible interface, which simplifies programming of the Advisor MASTER system control panel. 1.5.1.2 Data Sending/Receiving A PC with a working TITAN system can be connected to the control panel either remotely (via the inbuilt PSTN communicator), or locally (through a RS232 connection).
1.5.1.7 Photo ID The TITAN system provides a fully integrated Photo ID solution, which allows creation of user, guest or client identification cards with their photo. The photographs can be captured from a camera video stream, or imported in digital format. The TITAN system enables design and priming of any user card sets either with detailed information about the company and user (taken from the database), or without. 1.5.1.
2 SYSTEM POWER SUPPLY. In every security system, the power supply design is an essential part. Providing the equipment with adequate working conditions in critical situations is vital for building security. Below are some of the critical aspects of the power supply problem, pertaining to system design: • Power supply efficiency; • Backup power – batteries and their recharging; • Power requirements of the equipment; • Power transmission losses; • Shielding and grounding.
Table 2-1 Power supply efficiencies, and power requirements. Device ATS2000 ATS3000 ATS4000 ATS4500 ATS1201 ATS1203 ATS1250 Current consumption PSU Current Draw Max. Average 2.2A 2.2A 2.2A 2.2A 2.2A 3.0A 4.5A 250mA 250mA 250mA 250mA 120mA 120mA 275mA 170mA 170mA 200mA 200mA 75mA 75mA 275mA Comment 250mA max. all inputs active 120mA max. all inputs active Access control device.
2.2 System equipment power consumption. Devices equipped with a power supply – control panels, and some DGP – have safety measures which prevent excessive battery discharging, switching them off if the voltage drops below 10.5V. For other devices, the minimum voltage required to operate correctly has been gathered in table Table 7-9 placed in the last chapter of the manual. The values for equipment connected to devices equipped with a power supply are only for orientation purposes.
Connected equipment Description ATS1801 ATS1802 ATS1830 ATS1831 - ATS1832 - ATS7100 ATS7200 ATS7300 ATS1410 - Control panel RS232 computer/ printer interface (2 ports) Control panel RS232 printer interface ATS3000/4000 control panel 1MB memory expansion ATS4000/4500 control panel and ATS1250 controller 4MB Intelligent User Memory. ATS4000,4518 control panel and ATS1250 controller 8MB Intelligent User Memory.
Table 2-7 Expanded ATS4500 control panel power requirements.. Device ATS4500 ATS1202 ATS1202 ATS1811 ATS1811 ATS1831 ATS1801 ATS7100 Description Control panel 16 zones (up to 256), 16 areas, with a dialler, L type power supply housing Current consumption mA Max.
2.3 Wiring. The proper grounding and isolation of the devices is an important issue in each wide area system. All the system elements are equipped with a grounding connector, and should be connected to a common grounding point in the central station via a 2.5mm2 wire. The data bus shield should be connected to common ground on one end only. The data shield should not under any circumstances be grounded on both ends of the transmitting wire.
3 COMMUNICATIONS The alarm and access control system has extended communication capabilities. Viewed globally, the communications, that is, the bi-directional data transmission, should be divided into two aspects: system internal communications, and communications between the system and the outside world – reporting events to monitoring stations.
as DGP number 16. The device number – its address – is set in each device attached to the bus by a DIP switch or through software. There are no limitations as to the sequence of addresses of the connected devices. The control panel queries each ATS system component connected to the system data bus. Lack of response to the polling signals sent triggers the tamper alarm with appropriate consequences.
• Aritech WCAT54 Use of the abovementioned cables guarantees failure-free operation, and the maximum declared bus range – 1500m. For data bus wiring, other cables can be used if meet following requirements: cat 5, twisted pair, STP or FTP. Table 3-2 Technical parameters of the suggested cables. Cable type Description Wire count Pair count Single wire resistance (Ohm/km) Capacity between wires (nF/km) Capacity between the wire and the shield (nF/km) Maximum transmission range(m) 3.1.1.
Table 3-3 Data bus power supply – Maximum Range. Current mA 50 100 150 200 250 Belden 261m 131m 87m 65m 52m WCAT52/54 179m 89m 60m 45m 36m WS108 167m 83m 56m 42m 33m 3.1.2 Device Addressing All the functional ATS devices – DGP and RAS – communicate with the control panel using the data bus. The data bus address space (RS485 – 32 devices) is divided into two groups, DGP and RAS, addressed separately. The system bus compatible RAS and DGP device list can be found in Table 1-10 and Table 1-22.
default, after system memory restart, only the RAS number 1 is pooled. All RAS device activity is saved in the system according to their number. The RAS station number also defines the door number for central station based access control. 3.1.3 Bus topology In accordance with the RS485 interface specification, the basic layout for the system bus is a cascade connection of 32 devices.
T 1 2 .... 4 32 T 9m 3 5 31 1500m Drawing 3-5 Chain connection with branches from the main bus course. 3.1.3.2 • Increasing the system bus range ATS1740 Repeaters - Isolators The system bus can be increased using the insulator/amplifier ATS1740. Each repeater increases the bus range by 1500m. The total bus range is limited to 6km which means that the maximum number of cascade connected repeaters is 3. Galvanic insulation1.5kV T 1 2 ....
T 1 Galvanic insulation 2 T ATS1743 ATS1743 1500m .... 32 T T 1500m L Drawing 3-7 Connecting two branches using two optical fibres via the ATS1743 interface. A typical use of the fibre-optic modules, besides extending a single bus branch, is a branched bus configuration. The main bus is laid out using an optical channel, and the branches using the RS485 interface. This way, many branches can be designed that should total less than 6km in length and not exceed 1500m for a single branch.
1 .... 32 ATS1743 ATS1743 ATS1743 Galvanic insulation Optic fibre L Drawing 3-9 Fibre-optic bus design using the ATS1743 interfaces • Dedicated leased line modem T 1000m T .... 32 ATS1741 2 MOD6000 1 ATS1741 T MOD6000 A modem connection on a dedicated line can be used to extend the bus range. Maximum range of the connection is 3km – minimum cat. 2 phone cable, line without amplifiers, MOD6000 modems. It is not permissible to use the internal phone network to connect the subsystems.
T 1 Galvanic insulation 1.5kV .... 5 T ATS1740 T L .... 15 T ATS1740 T L .... 3 T T ATS1740 T L Drawing 3-11 Star configuration using ATS1740 insulators. In case of replacing an older system with Advisor MASTER, the existing bus wiring can be adapted. In that case, using ATS1470 amplifier/insulator modules, up to 6 branches of non-twisted, non-shielded 300m cable can be connected.
1 2 .... 5 .... 15 .... 12 ATS1743 ATS1743 ATS1743 ATS1743 Drawing 3-12 Star configuration using ATS1743 modules. 3.1.3.4 • Other bus configurations RS485 Loop In the case of a risk of system bus severance, an ATS1742 loop interface can be used. The device provides bus cut signalling, and sustains communications with both bus branches after bus cut. The loop interface also has an amplifier, so the length of the loop is not dependant on the connection topology.
• Remote star In case the need arises to design a remote star configuration too extensive to allow the use of the ATS1740 amplifier modules (the total of the branch length is more than 6km), the fibre-optic modules can be used – Drawing 3-14. T Galvanic insulation 1.5kV Galvanic insulation 1 T ATS1743 .... T ATS1743* T ATS1740 T 1000m L .... * -Additional power supply necessary 5 15 T ATS1740 T 1000m .... 3 T T ATS1740 T 1000m Drawing 3-14 Remote star configuration. 3.2 Local bus 3.2.
reader inputs have been doubled as local bus devices – readers (local bus RAS) with addresses from 1 to 4. 3.2.2 ATS1290 addressable sensor DGP The ATS1290 addressable sensor DGP uses the PointID® interface for communications. It is a serial, bi-directional, open–topology interface. Its range is limited only by the load of the devices connected to the bus. The bus can have either two or four wires, depending on the power supply assumptions for the devices.
Q Y X X Z DD G GPP P R G PP DDG G PP DDG G PP DDG n tro C Coo n t rl o l Panel P anel R e mL u om t ep esdt a r d CD is a trib s c au te de SStat ar r RR e emmoo tte e DDGGP P Drawing 3-15 Typical Point ID® configurations. The cables in Table 3-7 have been listed by preference. When using shielded cables, the shield should be left unconnected, as this causes an increase of bus wiring capacity. Table 3-7 Tested cable types. Product Description Diameter mm2 WCAT54 FTP cat.
3.2.2.2 Device Addressing. The Point ID® interface address space contains 256 entries from 0 to 255. This allows addressing of a different number of devices depending on the number of supported inputs and outputs. The Point ID® interface assumes sequent addressing of the inputs and outputs and providing direct access to them in the alarm system.
Table 3-12 List of ATS1230 DGP compatible transmitters. Product RF320I4 RF352I4 RF354I4 RF356I4 RF360I4 RF425I4 RF425I4PI RF572NSTI4 RF620I4 RF620I4B RF903I4 RF900I4 Description Wireless magnetic sensor (or a transmitter for a wired sensor – type NO/NC), sabotage Remote control, keyfob 2 buttons Remote control, keyfob 4 buttons Wireless panic button in form of a wristwatch. Water resistant wireless panic button, belt clip or neck leash.
• Have to be initiated from the system keyboard; • Must be confirmed by the Master User Code; • The connection is limited to 40min – after that the connection is automatically discontinued. Those limits, while protecting the system from unauthorized user access, define the use of the connection only for control panel programming and maintenance purposes. Table 3-13 J18 transmission parameters.
The ATS1801 interface has two RS232 ports that enable communications with a computer and printer or a digital video recorder. The connection isn’t time-limited and the connection security is ensured by a 10-digit security code that must be the same in the control panel, and the PC to activate the connection. 3.3.3 Increasing the range between the control panel and PC. Often the control panel is located a considerable distance from the PC on which the system management program is running.
A serial port emulator is supplied together with the ACA300. Using the program enables the use of a network card for communications with the TITAN® software, which only uses serial ports for communications. 3.3.4 Modem connection The control panel communicators are equipped with a modem, which can be used for service communications, and for system programming. Using the inbuilt communication methods is limited by the small bandwidth, which excludes them from being used for system monitoring.
3.4.1 Control panel bus topology and wiring The basic control panel bus implementation is the RS485 interface. The design guidelines for the control panel bus are the same as the wiring– see 3.1.1 – and topology guidelines – see section 3.1.3 – for the system bus. Drawing3-17 shows a basic control panel network using the system bus interface and accessories.
• The monitoring station has a direct connection to the control panels in the given location. • One of the control panels is located in a separate building, connected only by Ethernet wiring. • Beyond the premises (eg: another city) are two additional control panels, which should be queried once a day, at a given time to synchronise the event log. One of them doesn’t have access to a phone line.
• Serial – The system sends the message until the first successful transmission to any of the programmed CS stations; • Parallel – The system sends reports to each programmed CS stations until all confirm receiving the message.
4 CONFIGURATION OF THE ADVISOR MASTER INTEGRATED SYSTEM The design of an integrated system is limited to a configuration for a single control panel – the systems controlled by a single control panel. Designing larger systems – networked systems – consists of steps described in chapter 5 and multiple repeats of the procedure described here.
The access control functions in the Advisor MASTER system are integrated with other system components. It allows the same devices that control the alarm system to verify user access rights. The same applies to alarm zones – the sensors used to check door opening can be used to secure the area in the alarm section. In this regard, the system is unified and consistent but needs to be carefully designed. 4.
• The characteristic values of the alarm system – alarm zones, areas – those parameters describe the capacity of a system based on a selected control panel. Although they depend on the DGP expansion configuration (number of alarm zones), the control panel type unequivocally defines their maximum number in the system. • Computer or control panel network connection – system monitoring, event printer, network operation – define the need to install the ATS1801/02 computer/printer interface.
4.1.1.2 Step II. Connecting the system to a PC YES NO Connection with a PC, printer or CCTV system ATS2018 ATS3018 ATS4018 ATS4518 ATS3018* ATS4018 +ATS1801/02 ATS4518 *- only ATS1830 memory- 1Mb Drawing 4-2 Connecting the control panels to a computer, printer or CCTV system.
on Drawing 4-3. However every configuration shown below is available for the ATS1250/60 access control DGP. The manual’s appendices contain a table with all memory and control panel configurations.
Photo ID database to cost effective and simple design and print custom, personalised access cards. The TITAN software works with every Windows compatible card printer. 4.1.1.4 Step IV. Expanding alarm zones and system outputs. The control panels allow extending the number of available alarm zones using DGP modules (described in section 4.2) and by using the ATS1202 control panel expansion. Connecting the ATS1202 modules in cascade up to 32 alarm zones can be achieved.
Table 4-4 Available DGP modules and their expansions. Expansion ATS1201 ATS1203 ATS1210/11 ATS1220 ATS1290 ATS1230 Zones MBC 8 8 8 4 32 32 ATS1202 3x8 3x8 Outputs ATS1810 2x4 2x4 2x4 ATS1811 2x8 4x8 2x8 Remarks ATS1820 1x16 2x16 1x16 Max outputs 16 Max outputs 32 The housing does not allow installation of additional expansions , device without a power supply. Planning for maximum DGP expansion the maximum system capacity – 256 zones- can be achieved using 7 DGP modules.
Table 4-6 DGP siren address map. DGP 16 Output 2, 15, 16 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 32 48 64 80 96 112 128 144 160 176 192 208 224 240 - Description Control panel : Lamp, internal, external Siren. External siren External siren External siren External siren External siren External siren External siren External siren External siren External siren External siren External siren External siren External siren Output 256 is not available 4.
Table 4-7 Passage and elevator addressing in the ATS system. 1-16 Elevator number None DGP address 16 17-20 21-24 25-28 29-32 33-36 37-40 41-44 45-48 49-52 53-56 57-60 61-64 17-20 21-24 25-28 29-32 33-36 37-40 41-44 45-48 49-52 53-56 57-60 61-64 1 2 3 4 5 6 7 8 9 10 11 12 Door number Remarks The RAS stations of the control panel – unidirectional door control ATS1250/60 Access control DGP: Bi-directional door control, Advanced access control functions 4.4.
9 10 Number 1 2 3 4 5 6 7 8 9 10 Description External power supply 12 or 24VDC RS485 data bus ATS system power supply12VDC – optional Two alarm zones Door open sensor – one alarm zone Lock – with optional activation sensor Exit button RAS station – reader or keyboard Data bus output for additional devices – optional Power output for additional devices – optional Drawing 4-4 Control panel based access control. The doors controlled by the control panel have some functional limits.
implementation of all the basic access control functions without requiring additional expansions The access control DGP– ATS1250/60 – stores a local copy of the user database and other settings pertaining to access control. This causes the reaction to the user presenting the card to be instantaneous even with a high number of users. The ATS1831/32 IUM modules used with 17k and 67k users support not only the card learning functions but also the quick searching of the database.
Table 4-11 Mapping zones to access control functions – local addressing. Passage Door 1 Door 2 Door 3 Door 4 Open door blocked zone 1 4 7 10 Exit button DOTL Spare 3 6 9 12 16 15 14 13 2 5 8 11 4.4.3 Advanced Access Control of the ATS1260 DGP The elevator controller uses 256 inputs and 256 local outputs.
Table 4-12 Mapping zones and outputs in the elevator controller. Elevator – local address Elevator 1 Elevator 2 Elevator 3 Elevator 4 First input First zone 1 65 129 193 1 65 129 193 4.5 Cards and Readers 4.5.1 Advisor MASTER System Readers The list of ATS system devices that can serve as user interface for access control is contained in Table 1-10. These are keyboards, readers, keyboards with integrated readers and the interface to connect other readers.
Besides hardware compatibility, the user card compatibility needs to be ensured. The ATS system supports many access card formats - see Table 4-19 – but not all of them are supported by the control panel. The HID readers – see Table 4-13 – are compatible with the HID access control cards in the ATS Wiegand 32 bit format – see Table 4-14. Cards of this format are supported by the ATS1250/60 DGP, which means it’s sufficient to program the card series for it to be active in the system.
The MIFARE card format - Table 4-17 – is not supported directly by any ATS module. Therefore, to use cards of this type, the IUM function needs to be used. This function allows storing the data stream (up to 48 bits) of the card in the user database. To program the cards, all of them must be read.
Format Description ATS Wiegand 32 bit Aritech Wiegand 32 bit card format Control Panel ATS1250/60 x The control panel supports only formats supplied with the Advisor MASTER system. The flexibility of memory configurations of the system enables using all the cards mentioned in Table 4-19 in the control panel as well as throughout the system.
5 NETWORK SYSTEM CONFIGURATION Designing the alarm system described in this chapter consists of translating the design requirements to the number and type of control panels, optionally the expansions used to build the system. In the most general view, the design requirements for an integrated system are outlined in Table 4-1. Based on those parameters, assuming full use of the system address space, the number of control panels can be assessed – see Table 5-1 – keeping in mind the design limits.
6 ATS SYSTEM SMART CARDS. The Smart card technology is an integral part of the ATS system. The ATS product list contains a whole range of products (cards, readers, key fobs programmer, etc.) providing a complete access control solution. Card programming and reader support are an integral part of the TITAN software. The program is supplied with additional tools, card and user support functions (Photo ID, card customization and printing, etc.
Table 6-3 Characteristic parameters of the Smart card readers. Parameter Value ATS1190 ATS1192 ATS1115 ATS1116 Reader range 6-12 cm 6-8 cm Work temperature -35 – 60*C 0 – 50*C Housing resistance IP54 IP30 Current consumption 30mA 86mA Voltage 12V DC Output load 50mA Credit applications Yes NO* *- a keyboard not connected to the system bus displays the ”System error” message 6.
6.4 Safeguards Due to the sensitivity of the problem, the security of the system using the ATS Smart technology is detailed in a separate chapter.
Thanks to several safeguard parameters mentioned above: • The security code of the card has 1284 possible combinations. • The values for the system codes can be from 0 to 2047 • The cards can have numbers from 1 to 65535 There are 3.6*1016 different user cards.
7 TECHNICAL DESIGN DATA. 7.1.1 Housings dimensions. Table 7-1 Available housings. Housing ATS1640 ATS1641 ATS1642 ATS1643 ATS1644 Dimensions Description Empty metal housing – size S Empty metal housing – size M Empty metal housing – size L Empty metal housing for expanders Empty polycarbonate housing for expanders W L D 315 315 475 126 87 388 445 460 166 124 85 85 160 37 34 Dimensions in mm Table 7-2 Housing equipment.
Housing ATS1640 Product Battery B BB B+ A ATS2000 ATS3000 BS131N Other BS131N Other BS131N Other - 4 6 2 4 6 8 6 6 2 3 1 2 2 4 3 3 2 4 0 2 2 4 4 4 1(2) 1(2) 0(1) 1(2) 1 2 2 2(3) ATS4000 ATS1641 ATS1201/03 ATS1250 ATS4500 ATS1642 () – dialer and communication devices (pcb A) can be mounted under Control Panel PCB Table 7-6 Space for expanders – Empty housings.
Product B BB B+ A C- ATS3000 C D x ATS4000 x x ATS4500 7.1.4 Control Panel and Memory configurations. Table 7-8 Control Panel and Memory configurations.
7.1.5 Current consupmtion. Table 7-9 ATS devices current consumption. Current cons. mA Device Connected Expansion ATS1100 - System keypad, LCD 2x16 character display, 8 area status LED 185 - System keypad, LCD 2x16 character display, 8 area status LED with Wiegand reader interface 185 ATS1105 Description ATS1105 system keypad with ATS1410 magnetic ATS1410 card reader connected Max.
Device Connected Expansion ATS1156 - ATS1170 ATS1190 Current cons. mA Max. Typical Required voltage V System keypad, 3 system status LED, metal housing, with magnetic card reader (ACT600) 45 39 7,35 Wiegand reader interface, PCB only 45 32 Description Wiegand reader interface, with proximity reader ATS1190 connected ATS proximity Smart Card reader (do not require interface) Notes Each LED lit add: +9mA; Card swipe add: +5mA.
Device Connected Expansion ATS1740 - ATS1741 ATS1743 ATS1201 - ATS1810 - Output expansion module 4 relays (NO/NC) – PCB ATS1811 - Output expansion module 8 relays (NO/NC) – PCB ATS1820 - Output expansion module 16 OC – PCB ATS1801 - Computer and printer interface, 2 RS232 ports ATS1802 - Printer interface, RS232 port ATS1830 ATS1831 ATS1832 - Memory expansion module, 1MB Memory expansion module, IUM, 4MB Memory expansion module, IUM, 8MB ATS7100 - ISDN communicator, B-channel ATS
7.1.6 Card Readers Technical Data. Table 7-10 Proximity Readers Technical Data. Parameter ATS ATS1190 ATS1192 Reading range 6-12 cm Keypad Operating voltage 8-13,8VDC Current Cons. 29mA Typical Current Cons. 50mA Max. Dimensions 34x110x17 42x149x15 Housing IP54 Operating temp. -35 – 60st.C Frequency 127kHz Humidity MIFARE ATS1115/16 ACI406 6-8 cm Tak 9-13,8VDC 30mA 5-6cm 5-6cm Tak 8-28,5VDC 100mA ACI407 165mA 92x165x25 IP30 0 – 50st.C 127kHz 110x43x24 IP47 -40 – 55st.
