PAC 512 | Two Door Access Controller 1 1 Access Controller | Overview The Two Door Access Controller Series (PAC 512 and IP-enabled PAC 512IP) can be used in two ways: 1) Standalone (Stanley PAC Lite), an ‘everyday’ system consists of PAC 512 controllers only 2) Managed by an Access and Alarm Server (PAC 500) Enables fully customized configuration of access control. Scenarios global input/output linkage (Event to Action), sophisticated alarm management, control of elevators and the use of digital video The PAC 512 Series includes support for the connection of an entry reader, exit reader, a door strike to lock and unlock the door, and door contact to detect the door’s position for both doors. A programmable auxiliary input per door channel may be used for alarm system integration, and an auxiliary output per door channel enables a buzzer or strobe when security is breached or a door is left open. Each controller has a tamper input, which enables the monitoring of a cabinet door, and an override input that will release both doors. Both inputs and outputs can be managed independently of the door activity by the PAC 500 2 2 Access Controller | Key Features The PAC 512 provides the following advanced design features: Support for a comprehensive range of reader technologies including Proximity, Keypad, Biometric, Magnetic Stripe and Smart Card Readers. PAC 512 – RS-232 Port / PAC 512IP – RJ-45 Port Support for two doors Support for both entry (IN) and exit (OUT) readers on two doors using PAC Format output on the Stanley GS3-Series, K2000-Series or KeyPAC K3000 readers 5V/12V reader data provided for connected readers Monitoring of a door contact input (two or four state) Monitoring of a request-to-exit device (two or four state) Monitoring of up to two input devices Lock sharing for all doors One-Touch™ installation testing mode 12/24V Input Power 3 3 Access Controller | Key Features (Continued) Supervision mode for input connections Dial-up PSTN support (PAC 512) Up to 20,000 cardholder database (75,000 cardholder support in conjunction with Access and Alarm Server (PAC 500) dynamic FIFO (First in, First Out) cardholder management) 16,000 event buffer 20 system holidays with 20 start and stop dates and times 200 time profiles with up to 4,000 weekly periods 5,000 access groups, each with 3 time profiles and 2 area lists Area and local anti-passback and area usage Man-Trap capability Watchdog reset for maximum system reliability Communications status LED Power status LED, confirm correct operation for all supported functions Non-volatile memory storage, monitored and status reported Flash memory for upgradeable firmware maintenance through Stanley PAC administration software, significantly reducing overall maintenance times 4 4 Access Controller | PAC 512 Secure Communications Typically, the Two Door Access Controller (PAC 512) communicates with the system via one of the 2 available RS-485 channels provided by an Access and Alarm Server (PAC 500) or when used standalone connection via serial or TCP/IP to the Host PC, these channels are encoded to safeguard network security. The PAC 512 has been designed so that it can be easily mounted in any appropriate location. This includes convenient installation it near the door which it controls, or installation in a centrally located cabinet. Up to 24 devices (including PAC 512s) may be connected to each channel of a PAC 500, giving a total of 48 devices. Up to 32 devices (PAC 512s) can be connected to each Comm Port on a Host PC. 5 5 Access Controller | Board Layout PAC 512 Series can be used standalone or as part of a network controlled by an Access and Alarm Server. Connection options include RS-232, RS-485 or a TCP/IP 6 6 Access Controller | Port Layout for PAC 512 and PAC 512IP 7 7 Access Controller | Meeting Standards for Accessible Design Stanley PAC systems offers the ability to grant individual users additional door entry time. Support for dual entry (IN) and dual exit (OUT) readers on each door, enables alternative reader locations to be accommodated. For example, an additional reader can be placed on a post for easy wheelchair user access Oneprox Readers, such as the Designer Mullion and Designer Standard utilize a high visibility green expanding and contracting light effect together with an audible sounder to indicate that access has been granted. Individual extended held open and strike times (ADA Required) 8 8 Access Controller | Third Party Reader Support A range of readers from alternative manufacturers have been tested for use with the PAC 512, including HID iClass and Corporate 1000. Applications • • Biometric readers • • Vehicle credentials Hands free readers and credentials Long range receivers There are two reasons for supporting third party readers To provide functionality not provide by Bosch Readykey X, such as biometric readers (For example, because Bosch Readykey X supports multiple card types per cardholder, an installation with ‘passive’ Readykey readers and credentials could provide some users with an additional ‘active’ non-Readykey credential which could be attached to the windshield and used to open a car park barrier with a long-range reader) To allow for system replacement (system ‘takeover’) with the minimum loss of the customers existing equipment, and without the need to change the cards and readers already in use. 9 9 Note. Use of Wiegand readers reduces PAC 512 reader support from dual entry and exit to single entry and exit reader support per door. Access Controller | Standalone PAC 512 Installations 10 Access Controller | K2000 and PAC 500 Series Installations 11 1 1 PAC 512 Access Controller | One-Touch™ Testing Mode One-Touch™ ensures error-free installation. Just one installer can fully test the installation and door hardware at the reader before the PC software installation and programming, One-Touch™ Button 12 1 2 Access Controller | Door Controller Diagnostics Diagnostic information enables remote monitoring of the controller condition by an operator. This includes status of all the controller batteries and diagnostic codes which show whether the controller has suffered from power failures or other critical events. 13 1 3 Access Controller | Tamper Inputs The Two Door Access Controller (PAC 512) has an input for tamper detection and triggers a system alarm event if an unauthorized access to the cabinet door is detected. Tamper Switch 14 1 4 Access Controller | Door Override Input - Normal The Two Door Access Controller (PAC 512) has an input for door override which when activated by a fire panel will release the locks on both door channels when an override condition exists. 15 Access Controller | Door Override Input - Supervised The Override Input can be monitored with four-state supervision to minimize the occurrence of false alarms. Both short-circuits and open-circuits on the cable can be detected and reported 16 1 6 Normal 2.2k Active 6.9k Tamper ∞k Short 0k Access Controller | Mode Profiles Mode Profiles extends the concept and flexibility of time profiles, by offering the ability to configure the exact operational mode of an area, door, or reader for any given time period. This makes it far simpler to determine the mode of operation of an area, door, or reader at a given point in time. The following profiles are available: Area Mode Profile Door Mode Profile Reader Mode Profile 17 1 7 Access Controller | Mode Profiles Area Mode Profiles The following profiles are available: Disarmed Disarmed with anti-passback Disarmed with airlock Disarmed with airlock and anti-passback Armed Armed with anti-passback Armed with airlock Armed with airlock and anti-passback 18 1 8 Access Controller | Mode Profiles (Continued) Door Mode Profiles The following profiles are available: Secured (default) First Key Open Open (unlocked) Bolted Anti-Passback First Key Open can be use for ‘Snow days’ allowing the first cardholder from a specified access group (or a specific person) at a site in the morning to unlock the site. If there's a snow day, and that cardholder never arrives, the facility remains locked. 19 1 9 Access Controller | Mode Profiles (Continued) Reader Mode Profiles Each mode option can be additionally specified to require two-key access so that two cardholders must present their tokens to the reader in order to gain access. The following profiles are available: Token (default) PIN only Token only Token or PIN Token and PIN 20 2 0 Access Controller | Configurable Card Formats For use with magnetic stripe or Wiegand credentials enabling the layout of the card format fields (including facility code, token code, and issue code) that are to be found on the credential up to 64bit. The starting position and length of each of these fields can be configured from the organizational options dialog allowing complete control over how credentials are interpreted by the readers. Direct encoding with a magnetic stripe encoder is supported. 21 Access Controller | Local Anti-Passback (PAC 512 Controller) Local Anti-passback functionality allows you to configure on a door by door basis that cardholders must enter and exit in a specified sequence. This lets you force entry and exit travel through a site, and monitor the exact number of cardholders entering a particular location. Local anti-passback does not require the use of an Access and Alarm Server (PAC 500) and supports the following modes: Timed Anti-Passback: Limit re-use of a card at a single reader within a specified amount of time. Attempts to re-enter a door in “Timed Anti-Passback” mode within the duration will result in access being denied and a “Timed Passback Restricted” violation message reported to the Audit Trail. Hard Anti-Passback: In this mode, cardholders must use their access card to gain entry (in reader) into and exit (out reader) from a defined locality. A optional time of day mode “forgives” a cardholder permiting them to exit or enter, where normally this would produce an anti-passback violation. Hard Anti-Passback: In this mode, cardholders must use their access card to gain entry into and exit from a defined locality. If a valid cardholder has presented their access card to enter a locality and not presented the card when exiting they are in breach of the anti-passback rules. The next time the cardholder attempts to enter that same locality a hard anti-passback alarm will be raised and that cardholder will not be permitted entry into the locality for a defined “anti-passback timeout”. 22 Access Controller | DIN-Rail Mounting The Two Door Access Controller (PAC 512) packaging features a green clip mount that allows assembly into any industry-standard DIN-rail application. This design enables the PAC 512 to be installed in a multitude of enclosure options, its compact form factor affords very high density mounting configurations, which are suitable for either centralized or ‘home run’ architectures. 23 2 3 Fast and convenient installation PAC 500 Series DIN Mount Access Controller | Cabling Controller reader (6c) and RS-485 (4c) connections can be made with 22AWG unshielded cable. Stanley PAC’s architecture enables you to freely choose: Centralized or ‘Home Run’ Architecture Controllers, power supplies, input, output and door controller modules are located in a central location. The advantage of this approach includes the ability to monitor and protect access to this central location and enables a service technician to troubleshoot components from a single position. This architecture often requires a large quantity of cable to be installed. Distributed Architecture Controllers, power supplies, input, output and door controller modules are located in close proximity to the access device. Advantages of this approach includes a reduction of cable quantities required. The door or input/output controller is generally installed in a locked, tamper switched enclosure above the finished ceiling on the secure side of the controlled door. Both home run and distributed have their advantages and disadvantages. Stanley authorised resellers are a valuable asset in determining which architecture is best suited for the operation and maintenance a particular system. 24 2 4 Access Controller | DIN-Rail Enclosures A range of metal DIN-Rail enclosures are available to house the PAC 500, PAC 512, PAC 520, PAC530 and Power Supply Units. Metal Cabinets available: Four-way H: 15.69 in. L: 20.47 in. D: 3.74 in. (H: 500 mm L: 520 mm D: 95 mm) Six-way H: 27.56 in. L: 19.69 in. D: 3.74 in. (H: 700 mm L: 500 mm D: 95 mm) Each cabinet is lockable 25 2 5 Access Controller | Power Supplies Durable and reliable power supply units able to meet demands in any environment where consistency of performance is crucial. All PSU’s are supplied with DIN-Rail mounts for easy installation. Power Supply Options: 26 3AMP Single Output at 12VDC with battery charging cables 7AMP Single Output at 12VDC or 24VDC 2 6 Access Controller | Flash Firmware Flash memory allows the easy upgrading of the PAC 512 firmware. Enables firmware updates to be downloaded Upgradeable via Stanley PAC Administration Software 27 2 7 Access Controller | Specifications The following are the physical and environmental specifications for the PAC 512: Dimensions: 125mm x 180mm x 60mm Temperature: (7.3" x 5.1" x 5.1") -10oC to 55oC - operating (14°F to 131°) -25oC to 80oC - storage (9°F to 176°) 28 Humidity: 0% to 85% RH non-condensing Mount: DIN Rail Mount or Summary With unprecedented scalability and flexibility, a PAC 512 can be used either alone, or as part of a system controlled by the powerful Access and Alarm Server (PAC 500). Used alone, all events are processed locally with a database of 20,000 cardholders and a 16,000 event buffer, ensuring access decisions in the event of a communications failure with the host or optional Access and Alarm Server (PAC 500). When operating in conjunction with an Access and Alarm Server, the PAC 512 serves as part of an integrated solution that can include both input and output controllers, elevator control and sophisticated anti-passback capabilities providing a scalable solution for even the largest applications. 29 2 9