Orion ISS ISO 9001 Access Controller S2000-2 User’s Manual
Orion ISS This User’s Manual is intended to help for studying operability principles and maintenance of S2000-2 or S2000-2 rev.01 Access Controller of version 1.11. The S2000-2 rev.01 access controller is equipped with twofold increased memory capacity for access keys (8192 keys), as well as event buffer capacity (4095 events) against the S2000-2 controller. All information presented in this Manual is applicable for both controllers taking this difference into account.
S2000-2 Features and Design Table of Contents Features and Design.............................................................................................................. 5 Specifications ........................................................................................................................ 9 Operating.............................................................................................................................. 13 Access Keys ...........................................
Orion ISS Wiring the S2000-2 for Turnstile Mode........................................................................................54 Wiring the S2000-2 for Swing-beam Barrier Mode......................................................................56 Wiring the S2000-2 for Two Sluice Doors Mode .........................................................................59 Connecting Readers....................................................................................................................
S2000-2 Features and Design FEATURES AND DESIGN 5 www.bolid.
Orion ISS The S2000-2 access controller (hereinafter referred to as the controller) is designed to control access through one or two access points by means of reading presented access keys (Proximity cards, iButtons, PIN-codes and so on), verification of access rights and closing (opening) relay contacts that operate locking units (electromagnetic locks and strikes, turnstiles, swing-beam drives and so on).
S2000-2 Features and Design and transferred to the network controller (the Orion Workstation), which grants or denies access (only for operation as a part of the PC-based Orion system). To increase the level of authentication two- or three-person access rules can be assign to be applied for a group of access keys.
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S2000-2 Specifications SPECIFICATIONS 9 www.bolid.
Orion ISS ¾ Doors Per Controller Up to 2 ¾ Access Keys iButtons, Proximity cards, PIN-codes, etc. ¾ Readers Per Controller 2 Output Interface Touch Memory (1-Wire, µ-LAN), Wiegand, ABA TRACK II LEDs One or two single color LED, or one double color LED, controlled by logical +5 V CMOS levels Sounder Controlled by logical +5 V CMOS levels ¾ Memory Capacity 4096 (S2000-2) or 8192 (S2000-2 rev.01) key codes ¾ Event Log 2047 (S2000-2) or 4095 (S2000-2 rev.
S2000-2 Specifications ¾ Request-to-Exit Inputs 2 ¾ Alarm Inputs 2 inputs to monitor intruder detectors’ conditions (except for Swing-beam Barrier operation mode) Wire Resistance ¾ Relay Outputs 1 kOhm excluding termination resistance 8.
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S2000-2 Operating OPERATING 13 www.bolid.
Orion ISS ACCESS KEYS To identify keys used to implement different functions of the access controller a variety of electronic keys can be suitable (Dallas iButtons, Proximity cards, PIN-codes) provided that this electronic keys can be read by readers with such output interfaces as Touch Memory, Wiegand, or ABA TRACK II. To do this up to two said readers are to be wired to the S2000-2 controller. The controller operates two LEDs (one double-colored LED) of a reader to provide condition and alarm indication.
S2000-2 ¾ Operating The time periods when arming/disarming alarm loops of the S2000-2 are allowed (see Time Schedules Section below) The following access rights and restrictions are set individually for each access key involved in an access group: ¾ ¾ ¾ The type of the key (is this key intended to be used as User, Locking, Unlocking or Master) The key lockout (a key be locked if necessary, e.g.
Orion ISS OPERATION MODES The controller can operate in one of the following modes: − Two Entrance Doors − One Entrance/Exit Door − Turnstile − Swing-beam Barrier − Two Sluice Doors Two Entrance Doors Mode In this mode the controller provides access via two independent access points (doors), with passing being controlled via key presenting for one direction (entry) and being free by EXIT button pressing for another (backward) direction.
S2000-2 Operating If identification is completed successfully, the reader sounder generates two beeps, the green LED turns on, the door is opened (unlocked), and the ACCESS GRANTED message with the code of the presented key specified is generated. If the reader is programmed to implement two-factor authentication its green LED starts flashing 5 times per second and access is granted only after the valid additional code having been presented.
Orion ISS vation Time parameter, but at least for two seconds, regardless of the time the passing actually takes In order to pass in both directions, a User identifier with the Access attribute is to be presented to a reader mounted near the entrance/exit. If the identification process is completed successfully, the reader sounder generates two beeps, the green LED lights, the door is opened (unlocked) and the ACCESS GRANTED message is generated with the code of key presented included.
S2000-2 Operating In order to pass in any direction, a User key with the Access attribute set is to be presented to a reader installed before the turnstile. If identification is completed successfully, the reader sounder generates two beeps, the green LED lights, the turnstile is unlocked to provide one passage in specified direction, and the ACCESS GRANTED message is generated with the code of the presented key included.
Orion ISS When driving to the swing-beam barrier, a car is slowing down near the reader, the driver presenting its User key with Access attribute set on. If access is granted the green LED of the reader (green light on the traffic control unit) is switched on and the ACCESS GRANTED message is generated with the code of the presented key included.
S2000-2 Operating example, compare the person who entered with an image on the PC monitor) and then make an egress decision. The standard time to enter the sluice after access being granted is 10 seconds. The standard time to leave the sluice after the EXIT button being pressed is 10 seconds. The doors must be equipped with door sensors.
Orion ISS ACCESS MODES In all the controller’s operation modes (Two Entrance Doors, One Entrance/Exit Door, Turnstile, Swing-beam Barrier, and Two Sluice Doors) each of the two readers connected to the controller can operate in one of three following access modes: − Controlled Access Mode − Access Locked Mode − Free Pass Mode If the access is locked (the Access Locked mode) an access can be granted only by the EXIT button or by a remote network controller command.
S2000-2 Operating Switching to the Controlled mode can be implemented by: − repeated presenting the Locking key, or − presenting the Unlocking key, or − the relevant command of the network controller, received via the RS-485 interface Access Locked by Arming of Access Locking Alarm Loops If access has been locked due to the alarm loops locking access are armed, then while presenting a combined key authorized to gain access and to disarm these loops the loops will be disarmed and the access will be
Orion ISS Controlled Access Mode In the controlled mode the controller provides both local and centralized access.
S2000-2 Operating OPERATING PRINCIPLES The operating strategy of the S2000-2 controller is determined by actual parameters of the programmed operation mode (Two Entrance Doors, One Entrance/Exit Door, Turnstile, Swing-beam Barrier or Sluice see below) and access mode (Free Pass mode, Access Locked Mode or Controlled Mode). In the Controlled Access mode the S2000-2 controller operates as follows (with some differences for various operation modes).
Orion ISS − The controller and reader sounders generate a long Error sound − The red LED of the reader flashes three times and then lit steady; − The relay is not switched to gain access − An ACCESS DENIED message is generated.
S2000-2 Operating armed partition will be armed, and vice versa). The condition of the partition is indicated by the reader LEDs within 30 seconds or until another identifier is presented. When the EXIT button is pressed, access is granted, but the ACCESS GRANTED message is generated without indicating a key code (impersonal).
Orion ISS ALARM LOOPS In all operation modes except the Swing-beam Barrier one, two alarm loops with dry contact intruder alarm detectors brought can be connected to the relevant terminals and monitored by the S2000-2 controller. In the Swing-beam Barrier mode the sensors detecting a car located near the readers are included into the alarm loops instead.
S2000-2 Operating Access will be unlocked after disarming of access locking loops. If one or two access locking alarm loops are armed (depending on Lock Access If… parameters setting), presenting a combined key (without entering the Ready to Arm/Disarm mode) will cause disarming the loop (loops) and access granting (of cause, if the key is authorized to disarm the access locking alarm loops).
Orion ISS Besides, reader’s LEDs can display armed (red lighting) and disarmed (LED is off) conditions of the following loops combinations (defined by Normal Mode Condition parameter see Reader Configuration Parameters Section of this Manual): − Alarm loop 1 only − Alarm loop 2 only − Alarm loop 1 or alarm loop 2 − Alarm loop 1 and alarm loop 2 The controller provides any loop monitoring for breaking after the relevant arming command receiving only if the loop resistance (taking into account incl
S2000-2 Operating TWO FACTOR AUTHENTICATION Each of the two controller’s readers can operate in such a mode when not one but two keys (for example, a Proximity card plus a PIN-code) are required to identify the same user so called two factor authentication. This mode can be activated separately for each reader by setting the Two Factor Authentication flag (see the description of this configuration parameter in Reader Configuration Parameters Section of this Manual).
Orion ISS ACCESS RIGHTS To simplify description of the access rights for each key as well as rights to arm/disarm the controller’s alarm loops the Access Group category is used. Each access group is described as a set of rights and restrictions applied for a group of the keys (users). A process of setting the access rights for all the keys can be thus narrowed down to defining access groups and assigning the relevant access group number with each access key.
S2000-2 − Operating Define if necessary the Access Group 2 to Confirm Passage parameter (the number of the access group required to be assigned with a second key which must be presented to confirm the passage in case of the three person access rule If a two or three access rule is given for an access group of the presented, the IDENTIFICATION message is generated by the S2000-2 controller, the green LED of the reader starts flashing 5 times per second, and the controller waits during the next 30 seconds
Orion ISS − If the two person rule access via the controller reader is set for the access group Y too and the access group X is selected to be the Access Group 1 to Confirm Passage for the group Y then access for owners the keys included by the access group X is granted only accompanied by an owner of the key included in the group Y, and vice versa − If the simple passage mode is selected for the access group Y, then the such key holder is allowed as to confirm access by the access group X key, as to pa
S2000-2 − Operating Transferring working days (for example, a day stated in the calendar as Saturday may be announced as Monday) − Programming complex flexible access schedules with repeatable period lasting for less than 7 days or exceeding 7 day period − Programming complex access schedules without an explicit repeatable period Two typical ways of filling the holiday list may be supposed among all the diversified variants: 1.
Orion ISS − None (the S2000-2 controller is not checking any anti-passback rule) − Hard − Timed − Soft The Hard Anti-passback rule requires to prohibit a second passage to a zone up to the moment of logging the exit from it. If someone attempts to violate the rule, access is denied and the ACCESS DENIED message is generated with the Anti-passback rule violation attribute.
S2000-2 Operating An anti-passback rule can be made stronger by setting the Zonal Anti-passback (‘Entry/Exit Control’). If this parameter is set for an access group the S2000-2 controller takes into account all passages of key owners assigned to the access group to all the access zones programmed within the system.
Orion ISS CENTRALIZED ACCESS CONTROL AND ALARM LOOP ARMING/DISARMING If the S2000-2 controller operates as a part of an Orion system, it provides not only local but centralized control for all its operation modes (Two Entrance Doors, One Entrance/Exit Door, Turnstile, Swing-beam Barrier and Two Sluice Doors).
S2000-2 Operating Table 1 Partition Status Indication Partition Status Reader Indicator Behavior Indication Color Disarmed Off – Armed On Yellow (green + red) Intrusion Alarm Fire Alarm Fire Prealarm Arming Failed Blinks 2 times per second Yellow (green + red) Trouble (in a fire partition) Flashes once for a second Yellow (green + red) If the key unknown to the S2000-2 is presented to one of its readers when the communications between the controller and the network controller is lost, the AC
Orion ISS KEY PATTERN BASED ACCESS CONTROL In order to provide identification for a wide range of individuals whose access keys need not or cannot be stored in the S2000-2 or network controller memory (for example, if there are too many keys) the key pattern based access control mode can be implemented by the S2000-2.
S2000-2 Operating meets the pattern) and specify the pattern mask (its ‘opened’ positions) which will be allied to codes of presented keys. Finally, the access group and validity period must be specified for the pattern (see Access Key Pattern Configuration Parameters Section of this Manual).
Orion ISS LIGHT AND SOUND ALARMS The S2000-2 controller transmits signals to its built-in LEDs and sounder, as well as to LEDs and sounders of the readers. READY LED indication is shown in Table 2. The indication of reader LEDs is similar to that of the 1 and 2 controller LEDs and is shown in Table 3. The behavior of reader sounders is similar to the behavior of the S2000-2 sounder and is shown in Table 4.
S2000-2 Operating Condition/Event Lighting Mode Color Centralized partition control, the partition is armed On Yellow (Red + Green) Centralized partition control, the partition is disarmed Off – Centralized partition control, an alarm within the partition Flashes twice per second Yellow (Red + Green) The pause after a car has passed before the swing-beam barrier is lowered down Flashes twice per second Red The door is expected to be closed after entering or exiting the sluice Flashes 5 time
Orion ISS Condition/Event Forced open (the door is open without access granted) Held open (the door is open for more than a specified time, 20 s by default) Loop Alarm Category Sound Signaling Door Held or Forced Open Interrupted sounds 4 times per second Loop Alarms Interrupted sounds 2 times per second Programming Three pairs of short sounds (‘Programming’) mode Programming 3 short + long sounds (‘Programming is finished’) Entering the Master key programming mode Programming ‘Master Programm
S2000-2 Operating DATA COMMUNICATIONS VIA RS-485 INTERFACE The S2000-2 controller connected to an Orion network via RS-485 interface transmits condition and trouble messages to the network controller, enabling remote alarm and trouble indication.
Orion ISS DOOR CLOSED The door has just been closed after being propped open or forced open TAMPER ALARM S2000-2 enclosure has just been opened TAMPER RESTORE S2000-2 enclosure has just been closed POWER FAILED The device input voltage is out of range POWER RESTORED The device power supply has just been repaired after a failure BATTERY FAILED The voltage of the controller clock battery has dropped or the battery is removed BATTERY RESTORED The voltage of the controller clock battery has just be
S2000-2 Installation INSTALLATION 47 www.bolid.
Orion ISS STANDARD DELIVERY Find the following when unpacking the S2000-2 controller: ¾ ¾ ¾ ¾ ¾ ¾ S2000-2 Access Controller This User’s Manual Six 8.2 kOhm Terminating Resistors Three Woodscrews Three Wallplugs DIN 7982 Flat Head Tapping Screw with Cross Drive 2,2х6,5 S2000-2 MOUNTING 124 ∅7 READY 1 3 Guide elements for DIN-Rail mounting 82 107 2 2 holes ∅ 3 142 157 36 Snap-on clip for DIN-Rail mounting To remove the cover press here and pull out Figure 2.
S2000-2 Installation S2000-2 PCB LAYOUT The layout of the S2000-2 access controller PCB is shown in Figure 3. V LOOP2 V LOOP1 LOOP2 LOOP2 V V V Figure 3. S2000-2 PCB Layout 49 www.bolid.
Orion ISS WIRING THE S2000-2 FOR TWO ENTRANCE DOORS MODE Figure 4 shows the wiring diagram for a S2000-2 controller operating in the Two Entrance Doors mode. In this operating mode alarm loops are not involved in access strategy and are not shown in the connection diagram. However they can be used as intruder alarm loops in the Orion system in which the S2000-2 controller operates on-line (see Alarm Loops Section of this Manual).
S2000-2 Installation Door Sensor S2000-2 8.2 kOhm XT2.1 DOOR 1 DOOR1 8 GND1 10 EXIT1 9 8.2 kOhm Lock/Strike XT2.2 K1 K1 To the Lock/Strike Power Supply 11 12 Reader 1 XT2.3 RIP-12 +12V 0V RS-485 XT1.1 3 4 1 2 BEEP1 LEDR1 LEDG1 D1-1 D0-1 +12V1 GND1 EXIT 7 6 5 4 3 2 1 BEEP LEDR LEDG D1 D0 +12V GND +12V 0V Door Sensor 8.2 kOhm XT1.2 XT3.1 A B DOOR2 8 GND2 10 EXIT2 9 DOOR 2 8.2 kOhm Lock/Strike XT3.2 K2 K2 To the Lock/Strike Power Supply 11 12 XT3.
Orion ISS WIRING THE S2000-2 FOR ONE ENTRANCE/EXIT DOOR MODE Wiring diagram for a S2000-2 controller operating in the One Entrance/Exit Door mode is given in Figure 5. In this operation mode alarm loops are not involved in access strategy and are not shown in the connection diagram. However they can be used as intruder alarm loops in the Orion system in which the S2000-2 controller operates on-line (see Alarm Loops Section of this Manual).
S2000-2 Installation S2000-2 Reader 1 XT2.1 BEEP1 LEDR1 LEDG1 D1-1 D0-1 +12V1 GND1 7 6 5 4 3 2 1 BEEP LEDR LEDG D1 D0 +12V GND ENTRANCE* XT2.2 8.2 kOhm EXIT1 9 GND1 10 DOOR1 8 RIP-12 3 4 Door Sensor +12V 0V Lock XT2.3 K1 K1 XT1.2 RS-485 1 2 A B DOOR 8.2 kOhm XT1.1 +12V 0V Access zone controlled by Reader 2 11 12 EXIT* XT3.1 GND2 10 EXIT2 9 8.2 kOhm Access zone controlled by Reader 1 Reader 2 XT3.
Orion ISS WIRING THE S2000-2 FOR TURNSTILE MODE S2000-2 BEEP1 LEDR1 LEDG1 D1-1 D0-1 +12V1 GND1 RIP-12 +12V 0V Reader 1 XT2.1 7 6 5 4 3 2 1 BEEP LEDR LEDG D1 D0 +12V GND XT1.1 3 4 +12V 0V XT2.2 8.2 kOhm EXIT1 9 GND1 10 DOOR1 8 * ENTRANCE and EXIT buttons are used when remote manual turnstile control is required Access zone controlled by Reader 2 ENTRANCE* XT2.3 K1 K1 11 12 XT3.1 K2 K2 11 12 Passage Sensor 2 8.2 kOhm Entrance TURNSTILE Entrance Exit Exit 8.2 kOhm XT3.
S2000-2 Installation Figure 6 shows wiring diagram for a S2000-2 controller operating in the Turnstile mode. In this operation mode alarm loops are not involved in access strategy and are not shown in the connection diagram. However they can be used as intruder alarm loops in the Orion system in which the S2000-2 controller operates on-line (see Alarm Loops Section of this Manual).
Orion ISS WIRING THE S2000-2 FOR SWING-BEAM BARRIER MODE Figure 8 shows the wiring diagram for a S2000-2 operating in the Swing-beam Barrier mode. In this mode the first relay is used to lift the swing-beam, while the second relay is used to lower it down. ENTRY and EXIT buttons are used to grant access remotely, e.g. from a guard post.
S2000-2 Installation S2000-2 RS-485 XT1.1 1 A 2 B Reader 1 XT2.1 BEEP1 LEDR1 LEDG1 D1-1 D0-1 +12V1 GND1 7 6 5 4 3 2 1 XT4.1 LOOP1+ 1 LOOP1- 2 BEEP LEDR LEDG D1 D0 +12V GND Access zone controlled by Reader 2 Car Presence Detector 8.2 kOhm 8.2 kOhm XT2.2 DOOR1 8 GND1 10 EXIT1 9 Passage Sensor 1 ENTRY XT2.3 XT3.1 K1 K1 11 12 K2 K2 11 12 8.2 kOhm Guard Post RIP-12 +12V 0V XT1.2 3 4 +12V 0V XT3.3 BEEP2 LEDR2 LEDG2 D1-2 D0-2 +12V2 GND2 Lower Lower 8.2 kOhm XT3.
Orion ISS If access is granted by ENTRY button pressing, the green LED of the first reader and/or green light on the traffic control unit directed to the first reader is switched on. If access is granted by EXIT button pressing, the green LED of the second reader and/or green light on the traffic control unit directed to the second reader is switched on. In the Access Locked mode the swing-beam barrier can be lifted only with the help of ENTRY and EXIT buttons.
S2000-2 Installation WIRING THE S2000-2 FOR TWO SLUICE DOORS MODE S2000-2 Reader 1 XT2.1 BEEP1 LEDR1 LEDG1 D1-1 D0-1 +12V1 GND1 7 6 5 4 3 2 1 BEEP LEDR LEDG D1 D0 +12V GND Door Sensor 1 XT1.1 RS-485 1 2 A B DOOR 1 XT2.2 K1 K1 EXIT1 GND1 DOOR1 EXIT 1 11 12 9 10 8 Lock 8.2 kOhm 8.2 kOhm SLUICE CHAMBER XT3.1 DOOR2 GND2 EXIT2 K2 K2 RIP-12 +12 V 0V 3 4 To the lock power supply 8 10 9 12 11 8.2 kOhm Lock XT1.2 EXIT 2 +12V 0V DOOR 2 Reader 2 XT3.
Orion ISS Wiring of a S2000-2 controller operating in Two Sluice Doors mode is shown in Figure 10. In this operation mode alarm loops are not involved in access strategy and are not shown in the connection diagram. However they can be used as intruder alarm loops in the Orion system in which the S2000-2 controller operates on-line (see Alarm Loops Section of this Manual).
S2000-2 Installation CONNECTING READERS In order to identify users, two readers with Touch Memory, Wiegand or ABA TRACK II (magnet cards) output interface are to be connected to the S2000-2 controller. The S2000-2 terminals used to connect the first and the second reader are similar and described in Table 5. Table 5.
Orion ISS code into the controller memory, the card will be recognized correctly by the controller via a reader with the Touch Memory interface and vice versa. Wiring diagrams for some models of readers are shown in the Appendix. Connecting Dallas IButton Readers S2000-2 red LEDR*) LEDG Dallas IButton Reader *) green D0 GND *) If a Dallas IButton Reader is equipped with a single color LED it must be connected to the S2000-2 LEDG contact without regard to actual lighting color Figure 12.
S2000-2 Installation Connecting Readers with Wiegand Output Interface Variant 1 Variant 2 is intended for readers with current is intended for readers with high current consumption not exceeding 100 mA and consumptions or far from the controller more located within 50m from the controller than 50m S2000-2 Reader BEEP LEDR LEDG D1 D0 +12V GND Reader S2000-2 BEEP LEDR LEDG D1 D0 +12V GND BEEP LEDR LEDG D1 D0 GND BEEP LEDR LEDG D1 D0 +12V GND RIP-12 +12V 0V 1) If a reader is equipped with a s
Orion ISS CONNECTING DOOR OR PASSAGE SENSORS DOOR1 and DOOR2 terminals of the С2000-2 controller (see Figure 3) are intended to connect door sensors (or door open detectors, or door contacts) as well as various passage sensors or turnstile rotation detectors.
S2000-2 Installation Variant 1 Suitable for normally close contacts S2000-2 DOOR Variant 2 Suitable for normally open contacts S2000-2 8.2 kOhm 8.2 kOhm DOOR GND GND Variant 3 Suitable for NPN open collectors, NC outputs S2000-2 8.2 kOhm Variant 4 Suitable for NPN open collectors, NO outputs Passage Sensor S2000-2 DOOR DOOR GND GND 8.
Orion ISS CONNECTING ALARM LOOPS In all S2000-2 operation modes except the Swing-beam Barrier (see above) LOOP1 and LOOP2 terminals of the S2000-2 controller are used to connect intruder alarm loops (see Alarm Loops Section of this Manual). Figure 17 shows how to bring detectors with normally closed and normally open contacts into a S2000-2 alarm loop. S2000-2 LOOP+ 8.2 kOhm LOOP− Figure 17.
S2000-2 S2000-2 Programming S2000-2 PROGRAMMING 67 www.bolid.
Orion ISS The S2000-2 configuration parameters are to be modified by UPROG Configuration Tool software of 4.0.0.821 version or later which operates on a PC under the Windows-98 and higher. Programming all the parameters of the controller (including the key serial number length, access templates and possibility to program up to 8192 keys in the S2000-2 rev.01) are provided via the UPROG Configuration Tool software of 4.0.0.915 version or later.
S2000-2 S2000-2 Programming Description Range Default value Maximum PIN-code Length Maximal number of the PIN-code digits for readers that have the Wiegand interface and send the PIN-code to the controller as one digit at a time 1…12 6 Key Serial Number Length Limits the number of significant bits in a serial number to be read while reading the key codes.
Orion ISS ceiving a code of the card from any reader the controller will set the high-order bits (from 25 to 48) of the card code to 0, and the code will be the same regardless of the type of the reader. Decreasing the Key Serial Number Length value (to less than 48 bits) can be used while importing a key database from any other system to an Orion system in the case if the keys were stored with shortened serial numbers.
S2000-2 S2000-2 Programming Parameter Description Range Factory Value Forced Open Monitoring1 Activates monitoring the time of the door being open On/Off Off Held Open Monitoring1 Activates monitoring for the time the door is open for On/Off Off 1…255 s 20 s The time needed to expire for the door which has just been opened is considered as held open 1 Held Open Timeout Lock Access If Any Loop Is Armed Lock Access If All Loops Are Armed LP 1 LP 2 LP 1 LP 2 LED Control Polarity LED Quie
Orion ISS Output Interface parameter (Touch Memory, Wiegand, or ABA TRACK II) is set to be in agreement with the output interface of the reader connected to the S2000-2 controller. If a reader with the Touch Memory interface is in use then the Time to Hold Keys for Arming/Disarming parameter makes it possible to arm/disarm alarm loops by means of the combined key (both to access and to arm/disarm) without preliminary switching the controller to the Ready to Arm/Disarm mode.
S2000-2 − S2000-2 Programming For Two Entrance Doors, One Entrance/Exit Door and Turnstile modes, after granting the access the controller is waiting for a passage to be detected (the door to be open, the turnstile to be rotated and so on) for the Relay Activation Time, but at least for 10 seconds.
Orion ISS The Sound Alarms switches enable reader sounder turning on for each category of the alarms available (see Light and Sound Alarms Section of this Manual) If readers with different interface types (Touch Memory, Wiegand-26, Wiegand-44, etc.), designed for operating with identifiers of the same type are connected to the S2000-2 controllers of the Orion system, the code of an identifier presented to one reader unit may not coincide with the code of the same identifier presented to another reader.
S2000-2 S2000-2 Programming ALARM LOOP CONFIGURATION PARAMETERS Each of the two controller’s loops has the same configuration parameter, Arming Delay. In all the controller operation modes, except for the Swing-beam Barrier mode, this parameter defines the delay time for starting alarm loop condition monitoring after the Loop Arming command has been received.
Orion ISS The maximum time of the relay activation while granting access is given by the Relay Activation Time parameter. The maximum relay activation time can reach 2h 16min 31.875s, the incremental step being 0.125s. For all the controller operation modes a standard time period is provided for passing after access is granted.
S2000-2 S2000-2 Programming ACCESS GROUP PARAMETERS The significant part of access rules for each access key are specified by means of assigning this key to a relevant access group number. Access rights and limitations defined for the access group are extended to all the keys assigned to this group. Up to 32 different access groups can be described for the S2000-2 controller. The parameters of an access group are listed in Table 9.
Orion ISS Parameter Function Description Value Range Entry Mode Defines the rules to access the zone with the specified number (zone controlled by the first reader of the S2000-2) for owners of the keys of the programmed access group Locked Simple Confirmation Only Two-person Rule Three-person Rule Exit Mode Defines the rules to access the zone with the specified number (zone controlled by the second reader of the S2000-2) for owners of the keys of the programmed access group Locked Simple Confirmat
S2000-2 S2000-2 Programming If the Confirmation Only entry (exit) mode is selected for the all keys included in the access group such the keys are used only to confirm access rights for keys of another access groups and cannot be used to gain access by itself.
Orion ISS ACCESS KEY CONFIGURATION PARAMETERS Up to 4096 key descriptors (8192 for the S2000-2 rev.01) can be stored in the controller database. The keys can be Dallas iButtons, Proximity cards, PIN-codes and so on. Each key is described by a set of parameters which is shown in Table 10. Table 10.
S2000-2 S2000-2 Programming The Access Group (the number of the access group) defines the access rights and restrictions for the User key, as well as its rights to arm/disarm loops (see Access Rights Section of this Manual). The Master key access group is inherited by all the keys programmed by hardware (see Key Programming Section of this Manual). If the Validity Limitation parameter is set, the date of the key validity starting and validity expiration are set by the Validity Period parameter.
Orion ISS code is not stored in the controller memory on the contrary to codes of individual keys. The base code can be typed manually or read by presenting to a reader a key fitting the pattern. The Code Mask parameter specifies digits of the base code which are significant while presented keys being identified (that is ‘opened’ digits which values must be equal both for the base and the presented key) and are mindless and ignored by the controller (that is can differ for different keys).
S2000-2 S2000-2 Programming KEY PROGRAMMING If the S2000-2 controller operates as a part of a PC-based Orion system, codes of iButtons, Proximitycards and other identifiers are saved to the S2000-2 database (into the controller non-volatile memory) with the help of the Orion Database Administrator utility of the Orion Workstation software.
Orion ISS S2000-2 database, or the access group descriptor of an existing key is modified, the sounder will sound two short signals, and the LED of the reader will be switched on for 2s (green color). Single short sound and 1s long lighting of the green LED mean that the key belonging to the access group of the Master key has already been saved in the S2000-2 memory. Long sound and triple blinking of the red reader LED mean that key code saving was failed (the memory is full).
S2000-2 S2000-2 Programming PROGRAMMING THE CONTROLLER DEPENDING ON ITS OPERATION MODE Two Entrance Doors Mode Programming In order to program the S2000-2 controller for operating in Two Entrance Doors mode by means of UProg Configuration Tool: 1. Select the ‘Two Entrance Doors’ value in Operation Mode field on the Device tab. 2. If door sensors are in use set the relevant Passage Sensor flags on, else unset them. 3.
Orion ISS One Entrance/Exit Door Mode Programming In order to program the S2000-2 controller for operating in One Entrance/Exit Door mode by means of UProg Configuration Tool: 1. Select the ‘One Entrance/Exit Door’ value in Operation Mode field on the Device tab. 2. If a door sensor is in use set the first Passage Sensor flag on, else unset it. 3.
S2000-2 S2000-2 Programming 5. Set the Relay Activation Time parameter to a 0.25 ÷ 1s value (which is sufficient to unblock the turnstile when one person is passing) 6. If Global Anti-passback or Time&Attendance features are to be implemented within a security system (the S2000-2 operates as a part of networked system) pay attention the access zone numbers for both readers to be given correctly. Other configuration parameters are adjusted depending on specific user needs and desires.
Orion ISS − 1 ÷ 5s in the Relay Activation Time fields (the time sufficient for the strike to be actuated) − ‘Switch off after door being opened’ flag (for the strike to be cocked properly upon quick passing) Please note that Free Pass Access mode can not be implemented for an access point if the electric strike is used as a locking unit.
S2000-2 Maintenance MAINTENANCE 89 www.bolid.
Orion ISS TECHNICAL INSPECTIONS To make sure your S2000-2 controller keeps proper operability it must be inspected by a competent specialist at least on receipt and annually.
S2000-2 Maintenance S2000-2 XT4.1 8.2 kOhm±5% 1 2 LOOP+ LOOP− XT4.2 3 4 8.2 kOhm±5% LOOP+ LOOP− Reader XT2.2 BEEP1 LEDR1 LEDG1 D1-1 D0-1 +12V GND1 7 6 5 4 3 2 1 BEEP LEDR LEDG D1 D0 +U GND Reader XT3.2 XT2.1 8 DOOR1 9 EXIT1 10 GND1 8.2 kOhm 8.2 kOhm ±5% ±5% BEEP2 LEDR2 LEDG2 D1-2 D0-2 +12V2 GND2 7 6 5 4 3 2 1 BEEP LEDR LEDG D1 D0 +U GND XT3.1 8 DOOR2 9 EXIT2 10 GND2 S2000 XT1.1 B A 2 1 4 3 2 1 8.2 kOhm 8.2 kOhm ±5% ±5% XT1.
Orion ISS Self-Diagnostic Test WARNING! Disconnect if necessary all locking units before testing the S2000-2 controller in self-diagnostic mode To start self-diagnostic test remove the top cover of the controller enclosure and make three short and one long pressing on the tamper switch. ‘Short pressing’ means ‘press and held the tamper switch pressed for 0.1 - 0.5s’, while ‘long pressing’ means ‘press and held the tamper switch pressed for at least 1.5s’. Pauses between pressings must not exceed 0.5s.
S2000-2 Maintenance Condition Inspection of LOOP, DOOR and EXIT Circuits To inspect the conditions of electrical circuits, connected to the LOOP, DOOR and EXIT terminals of the S2000-2 controller, request its ADC readings using the S2000(M) console by doing the following: ENTER CODE:_ Power on the S2000(M) console and enter your PIN-code v 5 REQUEST INFO Select REQUEST INFO command by 3 or 4 console button and press ENTER, or use 050 console button as the hot key v 51 ZONE ADC Select ZONE ADC comman
Orion ISS www.bolid.
S2000-2 Appendix Connecting Some Models of Readers to the S2000-2 Controller 95 www.bolid.
Orion ISS BOLID S2000-PROXY / S2000-PROXY N READER CONNECTION S2000-Proxy (S2000-Proxy N) Indicator (LEDR) Output (D0) Common (GND) Power (+V) S2000-2 4 3 2 1 5 3 1 2 XT2 (XT3) LEDG1(2) D0-1(-2) GND1(2) +12V1(2) S2000-2 Configuration Settings Reader Output Interface 1 – Touch Memory LED Control Polarity Forward (1 active) BOLID PROXY-2A / PROXY-3A READER CONNECTION Proxy-2A, Proxy-3A +12V GND D0 D1 LEDG LEDR BEEP S2000-2 1 2 3 4 5 6 7 XT2 (XT3) +12V1(2) GND1(2) D0-1(-2) D1-1(-2) LEDG1(2) LEDR1
S2000-2 PR-A03 / PR-A05 / PR-P09 READER CONNECTION Variant 1 –Touch Memory Interface PR-A03, PR-A05 Variant 2 –Wiegand Interface PR-A03, PR-A05, S2000-2 PR-P09 XT2(3) S2000-2 XT2(3) GND Black 1 GND1(2) GND Black 1 GND1(2) +V Red 2 +12V1(2) +V Red 2 +12V1(2) D0/Sig Green 3 D0-1(-2) D0/Sig Green 3 D0-1(-2) D1 White 4 D1-1(-2) D1 White 4 D1-1(-2) Led-G Orange 5 LEDG1(2) Led-G Orange 5 LEDG1(2) Led-R Brown 6 LEDR1(2) Led-R Brown 6 LEDR1(2) BEEP Yellow 7 BEEP1
Orion ISS Variant 1 – Touch Memory Interface Variant 2 – Wiegand Interface Reader’s Jumpers S2000-2 Settings Reader Output Interface 1 Touch Memory LED Control Polarity Sounder Control Polarity red remove yellow remove Forward (1 active) orange Forward (1 active) green S2000-2 Settings Reader’s Jumpers red put on yellow remove Reverse (0 active) orange put on Reverse (0 active) green put on Reader Output Interface 2 Wiegand remove LED Control Polarity remove Sounder Control Pol
BOLID ONE YEAR LIMITED WARRANTY Bolid Company and its divisions and subsidiaries («Seller»), 4 Pionerskaya Str., Korolev 141070, Moscow Region, Russia warrants its security equipment (the «product») to be free from defects in materials and workmanship for one year from date of original purchase, under normal use and service.
4 Pionerskaya Str., Korolev 141070, Moscow Region, Russia Phone/fax: +7 495 513-32-35 Email: info@bolid.ru www.bolid.
