Best Lock HC63384 B.A.S.I.S.(tm)V User Manual Exhibit D Users Manual per 2 1033 b3
Best Lock Corporation B.A.S.I.S.(tm)V Exhibit D Users Manual per 2 1033 b3
Exhibit D Users Manual per 2 1033 b3
TABLE OF CONTENTS FEATURES TABLE OF CONTENTS Page Introduction ..................................................................2 Software and hardware features ..................................2 System components ....................................................3 HBV specifications........................................................4 HBV functions ..............................................................5 HBV lever styles ............................................................5 KBV specifications ........................................................6 KBV functions ..............................................................7 Page KBV lever styles....................................................................7 Options ................................................................................7 Software overview ................................................................8 System architecture ..............................................................9 Standard cards....................................................................10 Order procedure ..........................................................10, 11 Battery life chart ................................................................11 INTRODUCTION Introducing B.A.S.I.S.™ V – a highly efficient stand-alone lock system that utilizes card reader technology and is integrated into B.A.S.I S.™ 2000. With B.A.S.I.S.™ V, ID cards are encoded with all the necessary information to control door access. The system integrates with virtually any existing database, and allows unsurpassed capabilities in storing and retrieving access activity data. B.A.S.I.S.™ V involves no costly wiring, is easy to manage, and offers a broad range of integrated features. In fact, everything about B.A.S.I.S.™ V was designed to think ... so you don’t have to. SOFTWARE FEATURES • B.A.S.I.S.™ V (an off-line system) is integrated into BEST’s on-line software, eliminating the inefficiencies of having two separate systems – one for off-line and one for on-line. • Dynamically integrates with most existing databases with real-time information updates, eliminating the tedious process of re-entering user data. • Multiple locations can be networked to conveniently access a single database. • Complete history of access activity can easily be obtained. • Automatic backup reduces the risk of losing data. • Operates on a desktop PC, or laptop PC with minimal system requirements. • Provides easy-to-use menus and dialog boxes. • Is password protected. • Lets you create lockset configurations, which include programming settings and a user card database, from a remote PC. • Stores as many lockset configurations as you have disk space for. • Programs and retrieves data from locks. • Lets you create new lockset configurations by copying and editing existing configurations. • Lets many locks share the same lockset configuration. • Can transfer data between PCs. • Downloading and printing of history events. • Creating standardized lock configuration templates. HARDWARE FEATURES • • • • • • • • • • • Mag stripe available as track 1 or track 2. Swipe reader that reads ISO standard size I.D. cards. Battery life varies depending on the token reader and chassis type chosen. (See page 11 for battery pack chart.) Costs are controlled by availability of replacement parts versus having to replace entire unit. Local factory-trained technical services are available 24 hours a day to meet any emergency need. B.A.S.I.S.™ V can allow or record 5,000 users / history per lockset. Heavy-duty mechanical platform designed and manufactured for the toughest applications. Key override detection records and documents when a key is used. (Key override feature standard on B.A.S.I.S.™ V.) Deadbolt sensing prevents access to unauthorized cards when deadbolt is thrown. Interchangeable core mechanical override allows for emergency access. B.A.S.I.S.™ V hardware is available in trims and most finishes that match BEST’s 9K cylindrical series and 30H mortise series, providing aesthetic continuity. • Weather-resistant for versatile applications, including doors exposed to inclement conditions. • Available in Motorola and HID proximity readers, smart card, mag stripe card, and combination mag stripe dual keypad. STAND-ALONE EL Programming Cable B.A.S.I.S. Software Mag Stripe Encoder Mag Stripe Electronic Lock Smart Card Encoder Mag Stripe Cards/ Proximity Cards/ Smart Card Cards Smart Card Electronic Lock Dual Validation Reader Proximity Reader SYSTEM COMPONENTS DESCRIPTION B.A.S.I.S. Software– Software that lets you define programming settings and the user database for groups of locks, as well as individual locks. The software lets you view and print information about locks at any time. Programming Cable – Programming cable allows you to connect to individual locks. Smart Card Cards – A credit-card-size card with a smart card chip containing information. These cards can be encoded and sent to the user or encoded by the user at their facility. (To order, see page 10.) Mag Stripe Cards – A credit-card-size card with a magnetic stripe containing information. These cards can be encoded and sent to the user or encoded by the user at their facility. (To order, see page 10.) Proximity Cards – A credit-card-size card with a proximity chip containing information. These cards can be encoded and sent to the user or encoded by the user at their facility. (To order, see page 10.) Smart Card Encoder – The device that “reads”, “writes” and “erases” information on the smart card. This also includes the software that controls the card encoder. Requires a PC B.A.S.I.S. software. (To order, see page 11.) Mag Stripe Card Encoder – The device that “reads”, “writes” and “erases” information on the magnetic-stripe card. This also includes the software that controls the card encoder. Requires a PC & B.A.S.I.S. software. (To order, see page 11.) Mag Stripe Electronic Lock – A battery-powered, self-contained swipe reader electronic lock that uses standard mag stripe cards. Controls access to door and can be programmed with B.A.S.I.S. software. (To order, see page 10.) Smart Card Electronic Lock – A battery-powered, self-contained insertion reader electronic lock that uses smart cards. Controls access to door and can be programmed with B.A.S.I.S. software. (To order, see page 10.) Dual Validation Reader – A battery-powered, self-contained dual validation reader electronic lock that combines standard mag stripe and keypad validation. Controls access to door and can be programmed with B.A.S.I.S. software. (To order, contact your local Best Access Systems office.) (To order, contact your local Best Access Systems office.) COMPONENTS DESCRIPTION SYSTEM COMPONENTS SYSTEM COMPONENTS The B.A.S.I.S.™ V System is an electronic access control system that can be programmed to meet your facilities access control needs. The system is designed to secure your facility by granting specific access rights to authorized people, based on a defined time schedule for each lock in the system. By tracking events at the locks, the system provides information to help you maintain the security of your facility. (To order, see page 10.) 10 Proximity Reader – A battery-powered, self-contained proximity card reader electronic lock that uses standard proximity cards. Controls access to door and can be programmed with B.A.S.I.S. software. (To order, see page 10.) PDA (palm top not shown) – A PDA (Personal Digital Assistant) is a palm top device that connects to a PC to transport programming data from a B.A.S.I.S. system to the lockset or retrieve history data. The PDA can also provide diagnostic data from the lockset. Software for the palm device is included in the B.A.S.I.S. software. (Contact your local Best Access Systems office or visit our web site for a recommended BEST–supported device.) ECTRONIC LOCKS HBV SPECIFICATIONS HBV SPECIFICATIONS MECHANICAL Case: Heavy wrought steel, 5 7⁄8" H x 4 1⁄4" D x 1" W steel parts are zinc dichromate plated for corrosion protection. Faceplate: Brass or bronze, 1 1⁄4" x 8" x 7⁄32" . Armored. Adjustable from flat to beveled 1⁄8" – 2" . Strike: Brass or bronze, 4 7⁄8" x 1 1⁄4" x 3⁄32". Fits standard door frame cut out as specified in ANSI A115.1. Correct strike automatically supplied with unit. Strike box supplied standard. Door thickness: For doors 1 3⁄4" - 3" thick. Installation: Lock requires modified door prep to mount the trim. Faceplate dimensions fit standard door preparation as specified in ANSI A115.1. Lockset is reversible for hand of door. Latchbolt: Stainless steel, 3⁄4" throw with anti-friction latch. Deadbolt: Solid stainless steel, 1" throw. Auxiliary bolt: Stainless steel. Die cast trim housing: Dimensions: 10 3⁄8" H x 3 1⁄4" W x 1" D Proximity Reader Dual Validation Reader sloping down to 3⁄4". Lever handle: Brass, bronze or stainless steel. (Lever #3, #14 and #15 conform to California Titles 19 and 24.) Mounting: Lever attached with hardened set screw on inside knob or inside lever. Finish: 605-bright brass, clear coated; 606-satin brass, clear coated; 611-bright bronze, clear coated; 612-satin bronze, clear coated; 613-oxidized satin bronze, oil rubbed; 625-bright chromium plated; 626-satin chromium plated; 629-bright stainless steel; 630-satin stainless steel. ELECTRONIC SPECIFICATIONS FOR ALL READERS: Primary power: Alkaline standard 4 cell or extended life cell battery pack. Memory backup: Maintains programming and history data for up to 3 months after loss of power. User feedback indicators: Visual and audible. Serial communications port: Can be used to program locks individually. Operating temperature: -35°C to +66°C (-31°F to +151°F). Relative humidity: 10% to 90% non-condensing. Sealing: Weatherproof lens and gasket provides protection for outdoor use. (Usable in all environmental/exterior applications.) Battery Life: See page 11 for battery life chart. Dual Validation – Combination Keypad & Magstripe Reader: Bezel size: 2 5⁄8" x 3 1⁄4" . Material: Bezel– High impact ABS. Keypad– Encapsulated elastomer. ESD Protection: 15KV. Button operating life: 1 million cycles. Operating temperature: -35°C to +66°C (-31°F to +151°F). Compliant to FCC and Canadian EMC requirements; ISO 7816, MP-COS EMV compliant; T0 & T1 protocol standard. Magnetic Stripe Card Reader: Read Rate: 5 inches per second to 50 inches per second. Card thickness: ISO standard .030" ± .003 thick. Compliance to FCC, Canadian, and European EMC requirements; for interference FCC Class A digital apparatus. Proximity Reader: Bezel size: 2 5⁄8" x 3 1⁄4" Material: Bezel–High impact ABS. ESD Protection: 15KV. Reader range: Card reader range 0" – 3". Compliance to FCC, Canadian, and European EMC requirements; for interference FCC Class A digital apparatus. Smart Card Reader – Contacted Insertion Reader: Operating temperature (exterior side of door): -35°C to +66°C (-31°F to +151°F). Smart card adaptation: Trim option that can accept other manufacturers’ cylinder. Compliant to FCC and Canadian EMC requirements; ISO 7816, MP-COS EMV compliant; T0 & T1 protocol standard. STAND-ALONE EL Deadbolt w/ key override Function Mechanical Code FV Latchbolt operated by lever either side,except when outside lever is locked by internal motor drive mechanism; latchbolt is retracted by key outside. Deadbolt operated by key outside and turn lever inside. When deadbolt is extended, turning inside lever or electronically unlocked outside lever retracts both deadbolt and latchbolt simultaneously. Auxiliary latch deadlocks latchbolt. Deadbolt w/o key override LV Latchbolt operated by lever either side, except when outside lever is locked by internal motor drive mechanism. Deadbolt operated by turn knob inside. When deadbolt is extended, turning inside lever or electronically unlocked outside lever retracts both deadbolt and latchbolt simultaneously. Auxiliary latch deadlocks latchbolt. Latch w/key override EV Latchbolt operated by lever either side,except when outside lever is locked by internal motor drive mechanism; latchbolt is retracted by key outside. Auxiliary latch deadlocks the latchbolt. Latch w/o key override NV Latchbolt operated by lever either side, except when outside lever is locked by internal motor drivemechanism. Auxiliary latch deadlocks the latchbolt. Electronic Internal motor drive mechanism operated by electronic signal when presenting valid card. Green light indicates valid access. Red light and sounder indicate invalid access attempt. Lock records card number, time, date and type of event. Electronic sensor recognizes whether deadbolt is retracted or thrown. Lock grants access only to deadbolt-authorized personnel when deadbolt is thrown. Internal motor drive mechanism operated by electronic signal, when presenting valid card. Green light indicates valid access. Red light and sounder indicate invalid access attempt. Lock records card number, time, date and type of event. HBV LEVER STYLES #3 lever #12 lever #14 lever #15 lever #16 lever #17 lever ECTRONIC LOCKS HBV LEVER STYLES Diagram HBV FUNCTIONS HBV FUNCTIONS KBV SPECIFICATIONS KBV SPECIFICATIONS MECHANICAL Materials: Internal parts are brass, zinc or corrosion-treated steel. Chassis: 2 1⁄16" diameter to fit 2 1⁄8" diameter hole in door. Strike: Brass or bronze, 4 7⁄8" x 1 1⁄4" x 3⁄32". Fits standard door frame cut out as specified in ANSI A115.1. Correct strike automatically supplied with unit. Strike box supplied standard. Backset: 2 3⁄4" standard. 3 3⁄4" and 5" available. Door thickness: For doors 1 3⁄4" - 2 1⁄4" thick. Installation: Lock dimensions requires modified door prep, ANSI A156.2 Series 4000, Grade 1 to mount housing. Latchbolt: 9⁄16" throw. Die cast trim housing: Dimensions: 10 3⁄8" H x 3 1⁄4" W x 1" D sloping down to 3⁄4". Magnetic Stripe Reader Dual Validation Reader Lever handle: Made from high-quality zinc alloy. Body is approximately 1 ⁄8" in diameter. Handle is approximately 4 3⁄4" in length (from center-line of chassis). (Lever #3, #14 and #15 conform to California Titles 19 and 24.) Finish: 605-bright brass, clear coated; 606-satin brass, clear coated; 611-bright bronze, clear coated; 612-satin bronze, clear coated; 613-oxidized satin bronze, oil rubbed; 625-bright chromium plated; 626-satin chromium plated. ELECTRONIC SPECIFICATIONS FOR ALL READERS: Primary power: Alkaline standard 4 cell or extended life cell battery pack. Memory backup: Maintains programming and history data for up to 3 months after loss of power. User feedback indicators: Visual and audible. Serial communications port: Can be used to program locks individually. Operating temperature: -35°C to +66°C (-31°F to +151°F). Relative humidity: 10% to 90% non-condensing. Sealing: Weatherproof lens and gasket provides protection for outdoor use. (Usable in all environmental/exterior applications.) Battery Life: See page 11 for battery life chart. Dual Validation – Combination Keypad & Magstripe Reader: Bezel size: 2 5⁄8" x 3 1⁄4" . Material: Bezel– High impact ABS. Keypad– Encapsulated elastomer. ESD Protection: 15KV. Button operating life: 1 million cycles. Compliant to FCC and Canadian EMC requirements; ISO 7816, MP-COS EMV compliant; T0 & T1 protocol standard. Magnetic Stripe Card Reader: Read Rate: 5 inches per second to 50 inches per second. Card thickness: ISO standard .030" ± .003 thick. Compliance to FCC, Canadian, and European EMC requirements; for interference FCC Class A digital apparatus. Proximity Reader: Bezel size: 2 5⁄8" x 3 1⁄4" Material: Bezel–High impact ABS. ESD Protection: 15KV. Reader range: Card reader range 0" – 3". Compliance to FCC, Canadian, and European EMC requirements; for interference FCC Class A digital apparatus. Smart Card Reader – Contacted Insertion Reader: Operating temperature (Exterior side of door): -35°C to +66°C (-31°F to +151°F). Smart card adaptation: Trim option that can accept other manufacturers’ cylinder. Compliant to FCC and Canadian EMC requirements; ISO 7816, MP-COS EMV compliant; T0 & T1 protocol standard. STAND-ALONE EL Mechanical DV Dead locking latchbolt operated by lever either side, except when outside lever is locked by internal motor drive mechanism; latchbolt is deadlocked. Cylindrical Latch w/key override Electronic Internal motor drive mechanism operated by time-activated electronic signal, or presenting valid card/PIN. Green light indicates valid access. Red light and sounder indicate invalid access attempt. Lock records card/PIN number, time, date and type of event. KBV LEVER STYLES #14 lever #15 lever #16 lever OPTIONS AL– Abrasive levers from Best Access Systems are available with a special abrasive feature. Abrasive strip on the lever immediately identifies warnings on doors to hazardous areas for the blind. FM– The Free Motion feature allows the lever handle to move 45 degrees from parallel to the horizontal plane without engaging the latchbolt assembly. When the lockset is in the locked mode, this feature makes over-torque or over-leverage abuse more difficult to achieve. (Lower cost option.) KBV FUNCTIONS Function Code KBV LEVER STYLES Diagram OPTIONS KBV FUNCTIONS SH– Security head screws provided for all exposed screws. Thick door– Specify thickness if other than 1 3⁄4" . TL– Tactile levers may be used in areas where improved grip is required or as a warning in hazardous or Safety First areas. Grooves are machined into the back of the hand grasp portion of the lever to improve grip and/or provide a sensory warning. This option can be used for blind, safety, or accessibility applications. ECTRONIC LOCKS SOFTWARE OVERVIEW SOFTWARE OVERVIEW Laptop Computer Programming Cable B.A.S.I.S Software PDA Photo ID Cards The next generation of security & facility management systems Best Access Systems Integrated Solutions (B.A.S.I.S.) system for Microsoft Windows® 2000, NT 4.0 and Windows® 98 combines the power of access control, alarm monitoring, ID card production, and personnel management into a single seamlessly integrated software solution! One powerful and easy-to-use system allows you to create and encode identification cards, assign cardholders access to restricted areas, and monitor security zones. This comes complete with context-sensitive help. Seamless integration means single system efficiency A single seamlessly integrated solution for badge creation, ID management, access control, and alarm monitoring. Every step is simplified, easy to perform, and tightly integrated to provide optimum efficiency and maximum security. This uses a single database server to ensure data integrity, allow for real time security operations, and simplify system administration tasks. Truly distributed network architecture Wiring from access control panels does not have to run to a central host computer, unlike traditional systems that must have all panels wired to a single PC. This allows you to control access to any secured area and monitor any alarm from any PC on the network. Open architecture design means optimum flexibility Supports an unlimited number of workstations, card readers, and cardholders. Its modularity allows you to easily upgrade or add equipment at any time, without replacing the software. It works with any industry standard network protocol and supports all industry standard ID card and reader technologies, including Wiegand, Proximity, bar code, and magnetic stripe. It also supports industry standard databases including Microsoft SQL Server, Oracle Server, and Microsoft Access. Easiest-to-use graphical user interface in the Industry Using the keyboard or mouse, every important task can be accomplished in one or two steps! There are no overlapping windows, confusing nested screens, or excessive menu options found in other systems. Multimedia integration Real-time, dynamic graphical maps mean that the graphical map screen will not have to repaint or refresh each time a new alarm or event condition occurs. It supports customized voice alarm annunciation and flashing colored system icons for each alarm that occurs. It also supports text instructions and pre-recorded audio voice instructions. It integrates real-time live video user verification into alarm monitoring to allow guards to monitor cardholder activity in secure areas. Seamless migration path Upgrading is fast, efficient, and easy. All systems are 100% upwardly compatible. Even the graphical user interface is identical for all systems, meaning the upgrades are virtually transparent to the user. Hot standby, fault tolerant server architecture Supports a fault tolerant server and redundant database architecture to allow for normal operations to occur in the event that the database server fails. In the event of a server failure, it will automatically switch over to a backup server. A complete solution • Configuration Wizards • Complete Reporting Capabilities • Windows® 2000, NT 4.0 and Windows® 98 based • Simple Operation, Maximum Security • Multi-Technology Cards • Data Import/Export Capabilities • Supports Standard ID Card Technologies • Magnetic Stripe • Proximity • Wiegand • Bar-code E-Visitor E-Visitor is an Internet-based solution that allows enterprise visitors to be enrolled and managed through standard Web browsers. E-Visitor uses a customer’s existing desktop infrastructure, which means no additional software or hardware installation is required for existing client workstations. Other advanced features of E-Visitor include visitor pre-enrollment, visitor tracing, complete reporting capabilities and automatic e-mail notification of impending visits. E-Visitor provides the ability to customize the system’s visitor screens and badge layouts according to the individual needs of the installation. Asset Management Asset Management is the only seamlessly integrated solution that is fully IBM Asset ID® enabled, utilizing HID RS-485 RFID technology. Asset tracking allows both an asset and the employee to which it is assigned, to be traced throughout an enterprise. Asset Management delivers a truly distributed system architecture with which all asset decision-making occurs in the Intelligent Asset Controller devices. Asset Management supports multiple asset control technologies and has complete reporting capabilities. STAND-ALONE EL Digital Video Management Video Management is a Windows® NT-based Digital Video Management system that seemlessly integrates with the Access Control & Alarm Monitoring and Asset Management applications, which collectively uses a single database and one graphical user interface. Video Management is the only solution in the industry that can link digital video with access control alarms and events in real time. In addition, Video Management can display live and pre-recorded video directly on alarm monitoring workstations. Open Architecture B.A.S.I.S. was developed to be a true open architecture system and supports industry standards for databases, networks, ID card printers, and video cameras. There is no customized or proprietary PC or ID badge creation software or hardware required to Access Control make the SYSTEM operate. The software was written to operate on a Windows® NT multi-tasking, multi-threading 32-bit operating system as a true, native 32-bit, application. B.A.S.I.S. is both scalable and portable to give the Customer the ability to increase performance based on customer requirements. This gives the customer maximum flexibility and room for unlimited growth. SYSTEM ARCHITECTURE SYSTEM ARCHITECTURE Open Database Connectivity Compliance B.A.S.I.S. is Open Database Connectivity (ODBC) compliant and supports any relational database management system with the proper 32-bit ODBC drivers. Examples of these databases include, but are not limited to, Microsoft SQL Server and Oracle Server. These databases, through ODBC, are true client/server, high performance databases capable of handling high transaction rates and multiple users concurrently accessing and modifying the database. The SYSTEM also employs advanced database segmentation functionality. Each segment is allowed to have its own unique set of hardware and system parameters, regardless of the ISC that generated the event. Graphical User Interface B.A.S.I.S. has an easy to use Windows Graphical User Interface. It is intuitive and all messages and commands are in English prose. All functions are both keyboard and mouse driven. Within the alarm monitoring module of the SYSTEM, all major functions can be accomplished in one or two mouse clicks. Help icons are available in all modules of the software giving System Operators the ability to obtain on-line help with a single click of the mouse. Upgrading B.A.S.I.S. from system level to system level is efficient, easy, and requires only a change in the software / hardware license key code for the application portion of the SYSTEM. Advanced Network Architecture B.A.S.I.S. has been designed to allow it to work with any industry standard network protocol and topology such as TCP/IP, Novell NetWare (IPX/SPX), and Digital (Pathworks). The SYSTEM supports an advanced distributed network architecture, whereas Intelligent System Controllers (ISC) do not need to be home-run wired back to the database server. ISCs can be wired to any Windows NT based PC that is licensed to run the software. The SYSTEM supports Remote Dial Up operations to and from the ISC. The dial up connection can be either a constant connection or a scheduled connection. Also, Intelligent System Controllers (ISC) can be connected to a Local Area Network/Wide Area Network via industry standard TCP/IP communication protocol. Network based ISCs are able to communicate back with the database server through industry standard network switches and routers and do not have to be on the same subnet, which means that any alarm in the SYSTEM can be routed to any workstation(s) on the network. Bi-Directional Data Interface B.A.S.I.S. supports a bi-directional data interface to external databases such as Human Resources, Time & Attendance, and Food Service Systems. The interface can be placed on a schedule to automatically import data into or export data out of the SYSTEM database as needed. Seamless Integration All B.A.S.I.S. application modules, features, and functions are generated from a single source code set. The access control, alarm monitoring, and ID management modules of the software are created from this single source code set. All SYSTEM data reside in a single database on the network and are instantly accessible to every/any workstation connected to the network which is licensed to do so. This provides automatic change propagation to all workstations on the SYSTEM as well as a common database to consolidate all information and allow for better disaster recovery. This means that any modifications made to either cardholders, time zones, or access levels are downloaded in real-time to all Intelligent Field Panels. ECTRONIC LOCKS STANDARD CARDS STANDARD CARDS Card Specifications: • Standard credit card size • ISO standard .030" ±.003 thickness (PVC or Polyester) • High coercivity ABA 3 tracks Custom Graphics Card ORDER PROCEDURE Photo I.D. Card Best Serialized Cards Magnetic Strip / Proximity / Smart Card ORDER PROCEDURE BV SERIES SYSTEM Part Description Catalog Number Programming Cable Mag Stripe Encoder Smart Card Encoder BASD – CAB BASD – MSE BASD – SCE B.A.S.I.S. Software BAS – SWS – V BV SERIES ACCESSORIES (not shown) Part Description McGard™ Battery Door Screw (Specify Finish) McGard™ Driver Bit Standard Driver Bit Cleaning Cards (Box of 50) Electrostatic Discharge (ESD) Kit Replacement Battery Pack Extended Battery Pack Catalog Number VPD – HS – SCRW VPD – HS – DRVR VPD – T15 VPD – CLN VPD – ESD VPD – BB VPD – EXBB BV SERIES CARDS AND CARD OPTIONS Part Description PVC - (Box of 500) Polyester - (Box of 500) Photo Identification/Custom Graphics* HID ProxCard® II Proximity Card 1326* HID DuoProx® II Proximity Card 1336* Motorola Image 30™Proximity Card ISO-30+* Motorola LifeTime™Proximity Card ASC-121T+* Smart Card® * Catalog Number VPA – PVC VPA – POLY VPA – CUST VPA – HID – 1326 VPA – HID – 1336 VPA – MOT – ISO30 VPA – MOT – ASC121T VPA – SC *Special quote; contact local Best Access Systems office 10 STAND-ALONE EL KBV 93KBV DV 14 MS STK Series Core Housing Function Code Lever Style Trim Style Strike Package 93KBV– 2 3/4" 7– 7 pin DV– 94KBV– 3 3/4" * housing cylindrical 95KBV– 5" * latch w/key override ** *** † 14– curved return 15– contour angle return 16– curved no return 626 Finishes*** MS– magnetic STK–standard stripe S3–ANSI PM– proximity Motorola PH– proximity HID DV– dual validation ** Options *605 *606 AL– abrasive lever (N/A 613) *611 *612 EXBB– extended battery pack *613 * 625 FM– free motion † 626 690 SH– security head screws* TL– tactile lever*(#14,#16) Thick door-specify if other than 1 3/4" * 3/4– 3/4" throw * Proximity Reader Only ABA, 26 bit Weigand, 37 bit Weigand ORDER PROCEDURE ORDER PROCEDURE (Page 7) (Page 7) (Page 6) (Page 6) (Page 6 ) (Page 7) Extra cost option. Must specify key mark and number of patented/standard keys. Escutcheons and levers are made from a zinc alloy and have been plated to be equivalent in appearance to the finishes listed. Lower cost option. HBV 35HBV FV 14 Series Core Function Lever Housing Code Style 35HBV– lever 0– keyless EV– latch 3– solid tube 7– 7 pin w/key w/ return housing FV– deadbolt 12– solid tube w/key NV– latch 14– curved w/o key w/return LV– deadbolt 15– contour w/ w/o key angle return 16– curved no return 17– gullwing no return MS Trim Style MS– magnetic stripe PM– proximity, Motorola PH– proximity, HID DV– dual validation 626 RH Finishes*** Hand ** Options * 605 * 606 RH AL– abrasive lever (N/A 613) * 611 * 612 RHRB EXBB– extended battery pack * 613 * 625 LH SH– security head screws* 626 629 LHRB Thick door– specify if other 630 690 than 1 3/4" * TL– tactile lever*(#14,#16) Proximity Reader Only ABA, 26 bit Weigand, 37 bit Weigand BATTERY LIFE CHART Standard Battery Pack Reader Cylinder Cycles, Years Mortise Cycles, Years Magstripe 65,000 / 2–5 yrs. Smart Card Extended Battery Pack Cylinder Cycles, Years Mortise Cycles, Years 130,000 / 3–5 yrs. 130,000 / 3–5 yrs. 250,000 / 4–5 yrs. 62,000 / 2–5 yrs. 110,000 / 3–5 yrs. 120,000 / 3–5 yrs. 225,000 / 4–5 yrs. Proximity 50,000 / 2–3.5 yrs. 75,000 / 2–3.5 yrs. 95,000 / 2–5 yrs. 145,000 / 3–5 yrs. Dual Val 65,000 / 2–5 yrs. 130,000 / 3–5 yrs. 130,000 / 3–5 yrs. 250,000 / 4–5 yrs. ECTRONIC LOCKS BATTERY LIFE CHART (Page 5) (Page 5) (Page 4) (Page 4) (Page 7) * Extra cost option. ** Must specify key mark and number of patented/standard keys. *** Escutcheons are made from a zinc alloy and have been plated to be equivalent in appearance to the finishes listed. 11 Installation Instructions for B.A.S.I.S. Cylindrical Locks Planning the installation Contents Components checklist These installation instructions describe how to install your B.A.S.I.S. G (93KG–95KG) or B.A.S.I.S. V (93KBV–95KBV) Cylindrical Lock. The following topics are covered. Use the following checklist to make sure that you have the items necessary to install your B.A.S.I.S. Cylindrical Lock. Components provided in the box: ❑ Chassis with outside lever and outside rose liner assembly ❑ Inside escutcheon assembly ❑ Battery compartment door ❑ Battery pack ❑ Inside rose liner ❑ Outside escutcheon assembly ❑ Inside lever ❑ Throw member package ❑ Latch ❑ Plastic bushing package ❑ Escutcheon screw package ❑ Strike package ❑ Bar code ID sticker (for your records) ❑ Temporary operator card ❑ Installation template and instructions Other components: ❑ Core ❑ Control key Planning the installation ................................................ 1 Preparing the door and door jamb ................................ 2 Installing the lock ............................................................ 6 Completing the installation............................................ 9 Site survey Use the following survey to record information about the installation site. You need this information to determine how to prepare the door for the lock. Door information Door handing and bevel: ❑ Left hand (LH) ❑ Left hand, reverse bevel (LHRB) ❑ Right hand (RH) ❑ Right hand, reverse bevel (RHRB) Door thickness: inches (1 3/4″ to 2 1/4″) Environment information Ambient temperature: ❑ Is within specifications. See the tables below. This product meets the following Locked Door Outdoor test requirements for ANSI/BHMA 156.25: Side of door Inside Outside Range +66°F to +74°F (+19°C to +23°C) –31°F to +151°F (–35°C to +66°C) This product meets the following Full Indoor test requirements for ANSI/BHMA 156.25: Side of door Inside and outside Range +32°F to +120°F (0°C to +42°C) Special tools checklist Use the following checklist to make sure that you have the special tools necessary to install your B.A.S.I.S. Cylindrical Lock. ❑ KD303 Drill jig ❑ T15 TORX® bit driver† ❑ KD325 Strike plate locating pin ❑ KD315 Faceplate marking chisel † TORX is a registered trademark of the Camcar Division of Textron. BEST ACCESS SYSTEMS Indianapolis, Indiana Installation Instructions for B.A.S.I.S. Cylindrical Locks Preparing the door and door jamb Installation template Horizontal centerline of lever Figure 1 Positioning the template Position template and mark drill points Note: If the door is a fabricated hollow metal door, determine whether it is properly reinforced to support the lock. If door reinforcement is not adequate, consult the door manufacturer for information on proper reinforcement. For dimensions for preparing metal doors, see the G01 and G02 Templates—Installation Specifications for 93KG and 93KBV Cylindrical Locks. Note: If the door is a LH or RH door, mark the inside of the door. If the door is a LHRB or RHRB door, mark the outside of the door. For uncut doors and frames Measure and mark the horizontal centerline of the lever (the centerline for the chassis hole) on the door and door jamb. Mark the vertical centerline of the door edge. Note: The recommended height from the floor to the centerline of the lock is 38″. Fold the G05 Template—Installation Template for 93KG and 93KBV Cylindrical Locks on the dashed line and carefully place it in position on the high side of the door bevel. Note: For steel frame applications, align the template’s horizontal centerline for the latch with the horizontal centerline of the frame’s strike preparation. Tape the template to the door. Center punch the necessary drill points. Refer to the instructions on the template. For doors with standard cylindrical preparation 1 Fold the G05 Template—Installation Template for 93KG and 93KBV Cylindrical Locks on the dashed line. Looking through the hole from the opposite side of the door, align the template so that you see the template outline of the 2 1/8″ diameter chassis hole. 2 Tape the template to the door. 3 Center punch the necessary drill points. Refer to the instructions on the template. BEST ACCESS SYSTEMS Indianapolis, Indiana Installation Instructions for B.A.S.I.S. Cylindrical Locks Preparing the door and door jamb Components checklist Drill holes and mortise for latch face. 1 Drill the holes listed below: ■ upper and lower trim holes — 5/8″ diameter — through door ■ harness hole — 3/4″ diameter — through door — location based on handing ■ motor wire hole — 7/16″ diameter — through door — before drilling chassis hole ■ chassis hole — 2 1/8″ diameter — through door — after drilling motor wire hole ■ latch hole — 1″ diameter — meets chassis hole Upper trim hole Harness hole Motor wire hole Latch hole Chassis hole Latch face mortise Lower trim hole Inside of door Figure 2 Drilling holes and mortising for the latch face Note 1: To locate the center of a hole on the opposite side of the door, drill a pilot hole completely through the door. Note 2: For holes through the door, it is best to drill halfway from each side of the door to prevent the door from splintering. 2 Mortise the edge of the door to fit the latch face. 3 Drill the holes for the screws used to install the latch. BEST ACCESS SYSTEMS Indianapolis, Indiana Installation Instructions for B.A.S.I.S. Cylindrical Locks Preparing the door and door jamb Install latch 1 Install the latch in the door. Note: The latch tube prongs should be centered and should project into the chassis hole. 2 Check that the door swings freely. Chassis hole Location of latch tube prongs Latch Inside of door Figure 3 Installing the latch in the door Drill upper through-bolt hole. Latch tube prongs Use drill jig to drill through-bolt holes 1 Press the drill jig (KD303) onto the door, engaging it with the latch tube prongs (see the close-up in Figure 4). Make sure the front edge of the jig is parallel with the door edge. 2 Drill the through-bolt holes (5/16″ diameter) halfway into the door. 3 Turn over the drill jig and repeat steps 1 and 2 from the opposite side of the door. Note: Replace the drill jig after 10 door preparations. Drill lower through-bolt hole. Inside of door Figure 4 Installing the drill jig and drilling the through-bolt holes BEST ACCESS SYSTEMS Indianapolis, Indiana Installation Instructions for B.A.S.I.S. Cylindrical Locks Preparing the door and door jamb Install strike box and strike plate 1 In alignment with the center of the latchbolt, mortise the door jamb to fit the strike box and strike plate. 2 Drill the holes for the screws used to install the strike box and strike plate. 3 Insert the strike box and secure the strike with the two screws provided. 4 Check the position of the deadlocking plunger against the strike plate. Caution: The deadlocking plunger of the latchbolt must make contact with the strike plate, as shown in Figure 5b. The plunger deadlocks the latchbolt and prevents someone from forcing the latch open when the door is closed. Strike box Strike plate Door jamb Figure 5a Installing the strike box and strike plate Deadlocking plunger Strike plate Door jamb Figure 5b Aligning the deadlocking plunger with the strike plate BEST ACCESS SYSTEMS Indianapolis, Indiana Installation Instructions for B.A.S.I.S. Cylindrical Locks Installing the lock 1 Insert the control key into the core and rotate the key 15 degrees to the right. 2 Insert a flat blade screwdriver into the figure-8 core hole and into the lever. 3 Press the screwdriver blade in the direction of the arrow in Figure 6. Note: You cannot remove the lever if the screwdriver blade is inserted too far past the keeper. 4 Slide the lever off of the sleeve. Lever keeper Insert screwdriver blade here. Figure-8 core hole Figure 6 Removing the outside lever 2 1/4″ groove 2″ 1 3/4″ Remove outside lever Adjust for door thickness 1 Determine the door’s thickness. 2 Pull the rose locking pin and rotate the outside rose liner until the proper groove on the through-bolt stud lines up with the hub face. Throughbolt stud Hub face Note 1: Make sure that the locking pin fully locks into the rose liner. Note 2: The lockset fits doors 1 3/4″ to 2 1/4″ thick. Outside rose liner Figure 7 Rose locking pin Adjusting the rose liner for the door thickness BEST ACCESS SYSTEMS Indianapolis, Indiana Installation Instructions for B.A.S.I.S. Cylindrical Locks Installing the lock Install lock chassis and engage retractor in latch Retractor Latch tube prong Latch tailpiece From the outside of the door, insert the lock chassis into the 2 1/8″ chassis hole, routing the motor wire through the notch. Caution: Make sure that the latch tube prongs engage the chassis frame and that the latch tailpiece engages the retractor. Latch tube prong Chassis frame Notch Chassis Inside of door Figure 8 Installing the lock chassis and engaging the retractor in the latch Install through-bolts and inside rose liner 1 Place the inside rose liner on the chassis, aligning the holes in the rose liner with the holes prepared in the door. Caution: Make sure that there is clearance for the motor wire between the rose liner and the door. 2 Install the through-bolts through the rose liner and door in the top and bottom holes. 3 Tighten the rose liner on the door with the through-bolts. Motor wire Through-bolt Rose liner Figure 9 BEST ACCESS SYSTEMS Indianapolis, Indiana Inside of door Installing the through-bolts and rose liner Installation Instructions for B.A.S.I.S. Cylindrical Locks Installing the lock 10 Battery connector Motor connector Upgrade connector Caution: For the lock to operate properly, you must remove the backup battery tab. 1 Locate the backup battery tab on the inside of the outside escutcheon. 2 Pull down on the tab and remove it from the outside escutcheon to turn on the backup battery. 11 Harness hole Bushing Outside escutcheon Outside of door Figure 11 Feeding the wire harness connectors through the harness hole Upgrade cable Motor connection Route wire harness and position outside escutcheon 1 Insert the two bushings into the harness hole on each side of the door, as shown in Figure 11 and Figure 12. 2 From the outside of the door, feed the upgrade connector, and then the motor connector and battery connector, through the harness hole. Caution: When routing the connectors, make sure the wire harness is not routed across any sharp edges or over any surface that could damage its sleeving or wire insulation. 3 Temporarily rest the outside escutcheon on the door by inserting the trim studs into the trim holes. Note: You can temporarily install the outside lever to hold the outside escutcheon in place. See task 15 on page 10. 12 Bushing Remove backup battery tab Make motor connection From the inside of the door, connect the motor connector from the chassis to its mating connector on the wire harness. Note: The upgrade cable is used for reprogramming the lock’s firmware without removing the lock from the door. This cable does not connect to a mating lock connector. Caution: When making the motor connection, make sure: ■ there are no loose wire connections where the wires are inserted into the connectors ■ the connectors are firmly mated. Inside of door Wire connection Colors Motor Yellow Gray Figure 12 Making the motor connection BEST ACCESS SYSTEMS Indianapolis, Indiana No. of No. of wires pins Installation Instructions for B.A.S.I.S. Cylindrical Locks Installing the lock 13 Secure escutcheons 1 Position the inside and outside escutcheons on the door. 2 Making sure that the escutcheons do not pinch the wires, secure the escutcheons to the door—but do not tighten. Use the combination mounting screw at the upper trim hole and the standard mounting screw at the lower trim hole. Inside escutcheon Combination mounting screw Standard mounting screw Inside of door 14 Install battery pack Figure 13 Securing the escutcheons 1 Connect the battery pack to the battery connector on the wire harness inside the battery compartment. Wire Color connection Battery Red w/white stripe White Black w/white stripe No. of No. of wires pins Inside escutcheon Caution 1: When routing the battery wires, make sure the wires are not routed across any sharp edges or over any surface that could damage their sleeving or wire insulation. Caution 2: When connecting the battery pack, make sure: ■ there are no loose wire connections where the wires are inserted into the connectors ■ the connectors are firmly mated. 2 Place the battery pack inside the battery compartment so that the foam will face the battery compartment door. Battery pack Figure 14 Connecting the battery pack BEST ACCESS SYSTEMS Indianapolis, Indiana Installation Instructions for B.A.S.I.S. Cylindrical Locks Completing the installation 15 Install inside and outside levers Note: To use a core and throw member from a manufacturer other than BEST with a B.A.S.I.S. Lock, see the Installation Instructions for 9K Noninterchangeable Cores & Throw Members (T56093). Skip task 15 and task 16. For the inside and outside levers 1 With the handle pointing toward the door hinges, position a lever on the outside sleeve and push firmly on the lever until it is seated. Repeat, placing the other lever on the inside sleeve. 2 Tighten the escutcheon mounting screws. 3 Turn the levers to check that they operate smoothly. Outside of door Figure 15 Installing the levers 16 Core Blocking plate Throw member Figure 16a Installing the blocking plate and throw member Throw member Core Install core and throw member 1 Install the blocking plate onto the throw member. Caution: You must use the blocking plate to prevent unauthorized access. 2 Insert the control key into the core and rotate the key 15 degrees to the right. 3 Insert the throw member into the core. 4 Insert the core and throw member into the lever with the control key. 5 Rotate the control key 15 degrees to the left and withdraw the key. Caution: The control key can be used to remove cores and to access doors. Provide adequate security for the control key. Control key Figure 16b Installing the core 10 BEST ACCESS SYSTEMS Indianapolis, Indiana Installation Instructions for B.A.S.I.S. Cylindrical Locks Completing the installation 17 Install battery compartment door 1 Making sure that the battery compartment door does not pinch any wires, insert the tabs of the battery compartment door into its mating slots and swing the door closed. 2 Use a T15 TORX bit driver to secure the battery compartment door with the security screw. Tighten firmly. Security screw Tabs Figure 17 Installing the access door 18 Test lock To test the lock for proper operation, use the temporary operator card that came with the lock. This card is for temporary use only. After permanent cards have been programmed for the lock, the temporary card should be deleted. For locks with magnetic stripe card readers 1 With the magnetic stripe facing towards the right, swipe the temporary operator card, as shown in Figure 18a. The green light flashes and the locking mechanism unlocks. 2 Turn the lever and open the door. Figure 18a Using the temporary operator card with a magnetic stripe card reader BEST ACCESS SYSTEMS Indianapolis, Indiana 11 Installation Instructions for B.A.S.I.S. Cylindrical Locks Completing the installation For locks with smart card readers 1 With the writing facing towards you, insert and remove the temporary operator card, as shown in Figure 18b. The green light flashes and the locking mechanism unlocks. 2 Turn the lever and open the door. Temp ora Opera ry tor Figure 18b Using the temporary operator card with a smart card reader For locks with proximity card readers 1 Hold the temporary operator card within an inch of the lock’s card reader, as shown in Figure 18c. The green light flashes and the locking mechanism unlocks. 2 Turn the lever and open the door. If the mechanism doesn’t unlock, refer to the following table. Temp ora Opera ry tor Figure 18c Using the temporary operator card with a proximity card reader 12 LEDs Sounder Access You should — 3 short tones Denied Use the card at a moderate speed. Red flashes 3 short tones Denied Use the temporary operator card provided with the lock. Green flashes — Denied Check the motor connection. — — Denied Check the battery connection. For all locks Insert and turn the key to unlatch the door. BEST ACCESS SYSTEMS Indianapolis, Indiana © 2000 Best Lock Corporation dba Best Access Systems. T63301/Rev B 1819347 ER-7991-12 June 2001 Installation Instructions for B.A.S.I.S. Mortise Locks Planning the installation Contents These installation instructions describe how to install your B.A.S.I.S. G (35HG) or B.A.S.I.S. V (35HBV) Mortise Lock. The following topics are covered. Planning the installation ................................................ 1 Preparing the door and door jamb ................................ 2 Installing the lock ............................................................ 5 Completing the installation..........................................10 Site survey Use the following survey to record information about the installation site. Lock information Lock function: ❑ EV–Latch with key override ❑ With key override sensing† ❑ FV–Deadbolt with key override ❑ With key override sensing† ❑ LV–Deadbolt without key override ❑ NV–Latch without key override Door information Door handing and bevel: ❑ Left hand (LH) ❑ Left hand, reverse bevel (LHRB) ❑ Right hand (RH) ❑ Right hand, reverse bevel (RHRB) Door thickness: inches (1 3/4″ to 3″) Environment information Ambient temperature: ❑ Is within specifications. See the tables below. This product meets the following Locked Door Outdoor test requirements for ANSI/BHMA 156.25: Side of door Inside Outside Range +66°F to +74°F (+19°C to +23°C) –31°F to +151°F (–35°C to +66°C) This product meets the following Full Indoor test requirements for ANSI/BHMA 156.25: Side of door Inside and outside Range +32°F to +120°F (0°C to +42°C) Components checklist Use the following checklist to make sure that you have the items necessary to install your B.A.S.I.S. Mortise Lock. Components provided in the box: ❑ Mortise case assembly ❑ Mortise case faceplate ❑ Inside escutcheon assembly ❑ Battery compartment door ❑ Battery pack ❑ Outside escutcheon assembly ❑ Inside and outside mounting plates ❑ Inside lever ❑ Outside lever & spindle assembly ❑ Cylinder assembly (for EV and FV functions only) ❑ Screw package ❑ Plastic bushing package ❑ Escutcheon screw package ❑ Strike ❑ Strike box ❑ Bar code ID sticker (for your records) ❑ Temporary operator card ❑ Installation template and instructions Other components: ❑ Core (for EV and FV functions only) ❑ Control key (for EV and FV functions only) Special tools checklist Use the following checklist to make sure that you have the special tools necessary to install your B.A.S.I.S. Mortise Lock. ❑ T15 TORX® bit driver‡ ❑ ED211 cylinder wrench (for EV and FV functions only) † Key override sensing is optional for 35HG and standard for 35HBV. ‡ TORX is a registered trademark of the Camcar Division of Textron. BEST ACCESS SYSTEMS Indianapolis, Indiana Installation Instructions for B.A.S.I.S. Mortise Locks Preparing the door and door jamb Vert. centerline of lock Vert. centerline of strike Horz. centerline of strike Vert. centerline of door’s edge Horz. centerline of lock Door jamb Figure 1 Horz. centerline of lever (38″ from floor recommended) Door Marking the centerlines Installation template Vertical centerline of lock Horizontal centerline of lock Horizontal centerline of lever Figure 2 Mark centerlines Note: If the door is a fabricated hollow metal door, determine whether it is properly reinforced to support the lock. If door reinforcement is not adequate, consult the door manufacturer for information on proper reinforcement. For dimensions for preparing metal doors, see the G03 Template—Installation Specifications for 35HG and 35HBV Mortise Locks. On the door, measure and mark the height of the centerline of the lever from the floor (38″ recommended). On both sides of the door, on the door’s edge, and on the door jamb, mark the horizontal centerline of the lock 1 1/2″ above the centerline of the lever. Note: If the door is a LH or RH door, mark the inside of the door. If the door is a LHRB or RHRB door, mark the outside of the door. On the door’s edge and door jamb, mark the vertical centerline of the lock. Measure and mark the backset (2 3/4″ standard) from the vertical centerline on the door’s edge. On both sides of the door, mark the vertical centerline of the lock. On the door jamb, mark the horizontal centerline of the strike 3/8″ above the horizontal centerline of the lock. Position template and mark drill points 1 Cut the G06 Template—Installation Template for 35HG and 35HBV Mortise Locks along the dashed lines and align the horizontal and vertical arrows with the marked centerlines on the door. 2 Tape the template to the door. 3 Center punch the necessary drill points. Refer to the instructions on the template. Positioning the template BEST ACCESS SYSTEMS Indianapolis, Indiana Installation Instructions for B.A.S.I.S. Mortise Locks Preparing the door and door jamb Mortise for lock case and faceplate Lock faceplate mortise 1 Mortise the edge of the door for the lock case. Note: The mortise cavity depth of 4 5/8″ includes clearance for wiring behind the mortise case. 2 Insert the lock in the mortise cavity. 3 Mark the outline of the lock faceplate. 4 Remove the lock. Mortise to fit the faceplate. Lock case mortise Lock faceplate Lock case Door Figure 3 BEST ACCESS SYSTEMS Indianapolis, Indiana Mortising for the lock case and faceplate Installation Instructions for B.A.S.I.S. Mortise Locks Preparing the door and door jamb Harness hole .125 Upper trim hole Cylinder hole Turn knob hole Through-bolt holes Sensor & motor wire hole Lever hole Lower trim hole Inside of RH door Outside of RHRB door Figure 4a Drilling the RH and RHRB holes .125 Harness hole Upper trim hole Turn knob hole Through-bolt holes Cylinder hole Lever hole Drill holes Caution: Check for the correct lock function, hand, and bevel before drilling. Drill the holes listed below: ■ upper and lower trim holes — 5/8″ diameter — through door ■ harness hole — 3/4″diameter — through door — location based on handing ■ cylinder hole — 1 3/8″diameter — from outside into mortise cavity — EV and FV functions only ■ turn knob hole — 5/8″ diameter — from inside into mortise cavity — FV and NV functions only ■ upper and lower through-bolt holes — 3/8″ diameter — through door ■ lever hole — 7/8″ diameter — through door ■ sensor & motor wire hole — 3/4″ diameter — from inside into mortise cavity, approximately 1″ deep Note 1: To locate the center of a hole on the opposite side of the door, drill a pilot hole completely through the door. Note 2: For holes through the door, it is best to drill halfway from each side of the door to prevent the door from splintering. Lower trim hole Outside of LHRB door Inside of LH door Sensor & motor wire hole Figure 4b Drilling the LH and LHRB holes BEST ACCESS SYSTEMS Indianapolis, Indiana Installation Instructions for B.A.S.I.S. Mortise Locks Preparing the door and door jamb Mortise for strike box and strike plate 1 On the door jamb, locate the horizontal centerline of the strike (3/8″ above the centerline of the lock), as well as the vertical centerline of the strike. 2 Mortise the door jamb to fit the strike box and strike plate. 3 Drill the holes for the screws used to install the strike box and strike plate. Door jamb Figure 5 Mortising the door jamb for the strike box and strike plate Mortise cavity Install mortise case 1 Remove the faceplate from the mortise case. 2 Drill the holes for the case mounting screws. 3 Insert the mortise case into the mortise cavity, while feeding the sensor and motor wires into the mortise cavity and out the sensor & motor wire hole to the inside of the door. Note: If the armored front of the mortise case is not flush with the door edge, remove the case and loosen the screws at the top and bottom of the case. Adjust the bevel of the armored front of the mortise case to match the bevel of the door. Tighten the screws and insert the mortise case back into the mortise cavity. 4 Secure the mortise case with the case mounting screws. Mortise case Bevel adjusting screw Case mounting screws Location of bevel adjusting screw Figure 6 BEST ACCESS SYSTEMS Indianapolis, Indiana Sensor & motor wire hole and wires Inside of door Installing the mortise case Installation Instructions for B.A.S.I.S. Mortise Locks Installing the lock Install mounting plates 1 Insert the outside mounting plate through the door and mortise case. 2 Position the inside mounting plate opposite the outside mounting plate and screw them securely in place. Caution: Do not overtighten the mounting plate screws. Overtightening may compress the mortise cavity and bind the locking mechanism. Outside mounting plate Inside mounting plate Outside of door Figure 7 Installing the mounting plates Install cylinder (EV and FV only) Use a cylinder wrench (ED211) to thread the concealed cylinder into the mortise case so that the groove around the cylinder head is even with the door surface. Note: Do not tighten the cylinder set screw until you perform task 11 on page 8. Caution: A malfunction can occur if the cylinder is threaded in too far. Concealed cylinder Outside of door Figure 8 Installing the cylinder BEST ACCESS SYSTEMS Indianapolis, Indiana Installation Instructions for B.A.S.I.S. Mortise Locks Installing the lock Install core (EV and FV only) 1 Insert the control key into the core and rotate the key 15 degrees to the right. 2 With the control key in the core, insert the core into the cylinder. 3 Rotate the control key 15 degrees to the left and withdraw the key. Caution: The control key can be used to remove cores and to access doors. Provide adequate security for the control key. Cylinder Core Control key Outside of door Figure 9 BEST ACCESS SYSTEMS Indianapolis, Indiana Installing the core Installation Instructions for B.A.S.I.S. Mortise Locks Installing the lock 10 Remove backup battery tab Caution: For the lock to operate properly, you must remove the backup battery tab. 1 Locate the backup battery tab on the inside of the outside escutcheon. 2 Pull down on the tab and remove it from the outside escutcheon to turn on the backup battery. 11 Harness hole Sensor connectors Battery connector Motor connector Upgrade connector Bushing Outside escutcheon Cylinder set screw (inside mortise case) Outside of door Figure 11 Feeding the wire harness connectors through the harness hole Route wire harnesses and position outside escutcheon 1 Insert the two bushings into the harness hole on each side of the door, as shown in Figure 11 and Figure 12. 2 From the outside of the door, feed the upgrade connector through the harness hole. 3 From the outside of the door, feed the motor connector, battery connector, and sensor connectors through the harness hole. Note: NV function locks do not have a sensor harness. Caution: When routing the connectors, make sure the harnesses are not routed across any sharp edges or over any surface that could damage their sleeving or wire insulation. 4 For EV and NV function locks, perform these steps: a Firmly press the outside escutcheon in position on the door. The core should be flush with the outer surface of the escutcheon. b If necessary, adjust the cylinder depth plus or minus one turn so that the core is flush with the outer surface of the escutcheon. c Secure the cylinder in the mortise case with the cylinder set screw. 5 Rest the outside escutcheon on the door by inserting the trim studs into the trim holes. Note: You can temporarily install the outside lever to hold the outside escutcheon in place. See task 15 on page 11. BEST ACCESS SYSTEMS Indianapolis, Indiana Installation Instructions for B.A.S.I.S. Mortise Locks Installing the lock 12 Make motor and sensor connections From the inside of the door, make the motor connection, the key override sensor connection (EV and FV functions)†, and the deadbolt sensor connection (FV and LV functions). Note 1: It is physically possible to connect the key override sensor connector from the mortise case to the battery connector from the wire harness. To avoid this mistake, connect only the connectors with matching wire colors. Note 2: The upgrade cable is used for reprogramming the lock’s firmware without removing the lock from the door. This cable does not connect to a mating lock connector. Caution: When making the motor connection and sensor connections, make sure: ■ there are no loose wire connections where the wires are inserted into the connectors ■ the connectors are firmly mated. No. of No. of wires pins Wire connection Colors Motor Yellow Gray Key override sensor Gray Deadbolt sensor Blue Bushing Upgrade cable Deadbolt sensor connection Key override sensor connection Motor connection Inside of door Figure 12 Making the motor connection and sensor connections † Key override sensing is optional for 35HG and standard for 35HBV. BEST ACCESS SYSTEMS Indianapolis, Indiana Installation Instructions for B.A.S.I.S. Mortise Locks Installing the lock 13 Inside escutcheon Combination mounting screw Secure escutcheons 1 Position the inside and outside escutcheons on the door. 2 Making sure that the escutcheons do not pinch the wires, secure the escutcheons to the door. Do not tighten the screws completely. Use the combination mounting screw in the upper trim hole and the standard mounting screw in the lower trim hole. Standard mounting screw Inside of door 14 Figure 13 Securing the escutcheons Install battery pack 1 Connect the battery pack to the battery connector on the wire harness inside the battery compartment. Wire Color connection Inside escutcheon Battery Battery pack Inside of door Caution 1: When routing the battery wires, make sure the wires are not routed across any sharp edges or over any surface that could damage their sleeving or wire insulation. Caution 2: When connecting the battery pack, make sure: ■ there are no loose wire connections where the wires are inserted into the connectors ■ the connectors are firmly mated. 2 Place the battery pack inside the battery compartment so that the foam will face the battery compartment door. Figure 14 Connecting the battery pack 10 Red w/white stripe White Black w/white stripe No. of No. of wires pins BEST ACCESS SYSTEMS Indianapolis, Indiana Installation Instructions for B.A.S.I.S. Mortise Locks Completing the installation 15 Install inside and outside levers 1 Unscrew the inside spindle one full turn to allow the spindles to turn freely. 2 With the handle pointing toward the door hinges, insert the outside lever and spindles assembly into the lock from the outside of the door. 3 Slide the inside lever onto the inside spindle and secure it with the set screw. 4 Making sure that the core is positioned properly in the outside escutcheon (EV and FV only) and the escutcheons are aligned properly on the door, tighten the escutcheon mounting screws. Note: If a core is not available, you can use the cylinder wrench (ED211) to help you align the core opening in the escutcheon. 5 Turn the levers to check that they operate smoothly. Location of set screw Outside of door Spindles Inside of door Figure 15 Installing the levers BEST ACCESS SYSTEMS Indianapolis, Indiana 11 Installation Instructions for B.A.S.I.S. Mortise Locks Completing the installation 16 Install battery compartment door 1 Making sure that the battery compartment door does not pinch any wires, insert the tabs of the battery compartment door into its mating slots and swing the door closed. 2 Use a T15 TORX bit driver to secure the battery compartment door with the security screw. Tighten firmly. Security screw Tabs Figure 16 Installing the battery compartment door 17 Mortise case faceplate Outside of door Install mortise case faceplate 1 Secure the mortise case faceplate to the mortise case with the faceplate mounting screws. 2 Check the lock for proper operation. Faceplate mounting screws Figure 17 Installing the mortise case faceplate 12 BEST ACCESS SYSTEMS Indianapolis, Indiana Installation Instructions for B.A.S.I.S. Mortise Locks Completing the installation 18 Install strike box and strike plate 1 Insert the strike box into the mortise in the door jamb. Place the strike plate over the strike box and secure the strike with the screws provided. 2 Check the position of the auxiliary bolt against the strike plate. Caution: The auxiliary bolt must make contact with the strike plate. The auxiliary bolt deadlocks the latchbolt and prevents someone from forcing the latch open when the door is closed. If the incorrect strike is installed, a lock-in can occur. Note: The recommended gap between the door and jamb is 1/8″. Strike box Strike plate Door jamb Figure 18a Installing the strike box and strike plate Strike plate Auxiliary bolt Figure 18b Positioning the strike BEST ACCESS SYSTEMS Indianapolis, Indiana 13 Installation Instructions for B.A.S.I.S. Mortise Locks Completing the installation 19 Test lock To test the lock for proper operation, use the temporary operator card that came with the lock. This card is for temporary use only. After permanent cards have been programmed for the lock, the temporary card should be deleted. For locks with magnetic stripe card readers 1 With the magnetic stripe facing towards the right, swipe the temporary operator card, as shown in Figure 19a. The green light flashes and the locking mechanism unlocks. 2 Turn the lever and open the door. Figure 19a Using the temporary operator card with a magnetic stripe card reader For locks with smart card readers 1 With the writing facing towards you, insert and remove the temporary operator card, as shown in Figure 19b. The green light flashes and the locking mechanism unlocks. 2 Turn the lever and open the door. Temp ora Opera ry tor Figure 19b Using the temporary operator card with a smart card reader 14 BEST ACCESS SYSTEMS Indianapolis, Indiana Installation Instructions for B.A.S.I.S. Mortise Locks Completing the installation For locks with proximity card readers 1 Hold the temporary operator card within an inch of the lock’s card reader, as shown in Figure 19c. The green light flashes and the locking mechanism unlocks. 2 Turn the lever and open the door. If the mechanism doesn’t unlock, refer to the following table. LEDs Sounder — 3 short tones Denied Use the card at a moderate speed. Red flashes 3 short tones Denied Use the temporary operator card provided with the lock. Green flashes — Denied Check the motor connection. — — Denied Check the battery connection. Temp ora Opera ry tor Access You should For all EV and FV function locks Insert and turn the key to unlatch the door. For all FV and LV function locks From the inside of the door, turn the turn knob and make sure that the deadbolt operates properly. Figure 19c Using the temporary operator card with a proximity card reader BEST ACCESS SYSTEMS Indianapolis, Indiana 15 Installation Instructions for B.A.S.I.S. Mortise Locks 16 BEST ACCESS SYSTEMS Indianapolis, Indiana © 2000 Best Lock Corporation dba Best Access Systems. T63302/Rev B 1817313 ER-7991-12 June 2001
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