SE422 A&E Specs

SE 422NK / SE 422UL
Security Management System
2-door controller
A/E Guideform Specification
Version 1.1
NOTES:
•
The following A/E Guideform Specification conforms to CSI guidelines to provide Specifiers an easy way to
include Westinghouse Security Electronics products in their specifications.
•
The specifier should carefully select the portions of this document that fit the intended application.
•
Feel free to consult with your Westinghouse Security Electronics systems integrator regarding your
particular application.
•
Optional feature choices are represented by items enclosed in brackets [ ].
•
This document is considered accurate through the date on the cover. For updated specifications, call
Westinghouse Security Electronics at 408 727-6521, or visit the WSE Web page at
HTTP://WWW.WSEinfo.com .
•
The following individuals and organizations contributed to this document:
Editor/project team leader:
- Brent A. Duncan, Marketing Publications Specialist
Core team members:
- Joe Bridgman, Area Sales Manager
- Brian Giampaoli, Area Sales Manager
- Joe Oesterle, US Sales Manager
With contributions by:
- Frank Binzoni, VP Sales & Marketing
- Ken Butte, Project Manager/Readers and Cards
- Bill Blasdell, VP Engineering
- James Collins, Senior Design Engineer
- Dana Frischer, Area Sales Manager
- Susan Goldin, Technical Writer
- Tim Hillbun, System Test & Evaluation Manager
- Peter Keep, Marketing Services Manager
- Steve Lever, Field Service Engineer
- Troy Mickle, Marketing Communications Specialist
- Jim Reeve, Software Engineer
- Alec Ratliff, Field Service Engineer
- Bill Richardson, Technical Instructor
- Ping Saye, Design Enginerring Manager
- Tony Smith, Software Engineer
- George Souza, Project Team Director
- Rick Sparks, Project Manager/Controllers
- Matt Wenzel, Field Service M anager
With special thanks to:
- John Suhr, Engineering Director, Tomasi-Dubois & Assoc. Sec. Consultants
- Construction Services Institute
WSE • 3/21/97
16720 — ii
SE 422 Access Control System
Table of Contents
PART I GENERAL ................................................................................................................................................................1
.1 SECTION INCLUDES ........................................................................................................................................1
A. Section includes specifications for an integrated security management system
which shall perform the following general services: ......................................................... 1
1. Access control. ......................................................................................................................1
2. Alarm monitoring. ............................................................................................................... 1
3. Reporting functions.............................................................................................................. 1
4. Security office management functions. ............................................................................. 1
.2 SYSTEM DESCRIPTION ................................................................................................................................... 1
A. Access Control System: ................................................................................................................... 1
1. The system shall consist of a modular access control unit that is capable of
supporting multiple access technologies, alarm input devices and
control ouputs. ........................................................................................................... 1
2. The system shall monitor the flow of individuals, allowing access to
authorized individuals and creating an alarm condition when
unauthorized individuals attempt to access a controlled area. ........................... 1
3. The system shall also have the capability to accept inputs connected to
critical locations to determine if any entry has been attempted, or if
any proscribed activity has occurred. The system shall have the
capability to react to such inputs and to annunciate the event via
outputs connected to an audible alarm or other monitoring system,
or dial out to an alarm central station or other location, as defined
further herein. ............................................................................................................1
4. The system shall allow an operator with minimal training, upon entering
the correct password, to create a database of people and objects for
the system to properly function within the unique requirements as
further specified. ........................................................................................................1
5. The Access Control Unit (Controller) shall be networkable with multiple
SE422s and other WSE Controllers through a central host access
control and alarm monitoring system. The host shall provide the
ability to download the security definition and the setup information
for devices connected to the SE422. Additionally, the host shall
receive logs of all requested activity, define certain events as alarms
and react to the defined alarm events. The host shall have the ability
to manually override Controller status conditions, such as activating
relays for door open, shunting faulty input monitor points, etc. The
Controller shall provide direct or dial-up connectivity to the SMS. For
additional SMS capability, refer to the appropriate Security
Management System specification. ......................................................................... 1
B. Description of work:......................................................................................................................... 1
1. The system integrator shall include all necessary labor, tools, equipment,
and ancillary materials required to furnish and install a complete and
operational access control and alarm monitoring system...................................1
2. Access Control System shall manage access to [building] [and] [selected
areas] [coded keypads.] [magnetic stripe cards.] ................................................... 1
3. The extent of Access Control System work is defined to include, but not by
way of limitation: ....................................................................................................... 1
4. Requirements are indicated elsewhere in these specifications for work
including, but not limited to, raceways and electrical boxes and
fittings required for installation of control equipment and wiring: not
the work of this section. ............................................................................................2
.3 SUBMITTALS..................................................................................................................................................... 2
A. Product Data: Submit for prior approval, [__________] copies of manufacturer’s
data on Proximity or Magnetic Stripe Access Control System and components. ............2
B. Shop Drawings: Submit dimensioned drawings of [proximity] [and/or] [Magnetic
Stripe] ] [and/or] [keypad] Access Control System and accessories including,
central controller, external keyboard and printer, [proximity card reading
sensors] [or magnetic stripe card readers,] [keypads,] power supplies
switches and ancillary equipment. ........................................................................................2
C. One Line Diagram : Submit a one line diagram of the system configuration
proposed if it differs from that illustrated in the riser diagram included in
these specifications. Submittals indicating typical riser diagrams are not
acceptable. ................................................................................................................................. 2
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SE 422 Access Control System
D. Operator’s Manual: Submit for prior approval, [__________] copies of
manufacturer’s manual for programming and operating the SE422 system
and its related components. ....................................................................................................2
.4 QUALITY ASSURANCE: ....................................................................................................................................2
A. Manufacturer : Manufacturer of products defined in this section must have: .........................2
1. Industry experience: Company must have at least 20 years experience in
manufacturing and serving access management systems...................................2
2. ISO 9001 Certification: Manufacturing process of company must meet
stringent standards of ISO 9001 Certification.........................................................2
B. System Integrator: ............................................................................................................................2
1. Company with a minimum of [5 (five)] years system design, engineering
supervision, and installation experience in the alarm, building
automation, or Access Control industry. ................................................................2
2. Company that is trained and authorized to install manufacturer products. ................2
C. System Checkout: .............................................................................................................................2
1. Pre-testing: All components and assemblies of the control unit are to be
pre-tested at the factory prior to shipment. ............................................................2
2. Burn-in: 1,000 hours at normal operating conditions or equivalency. ........................2
3. On-site testing: Manufacturer trained and authorized Systems Integrator
shall functionally test each component in the system after
installation to verify proper operation and confirm that the panel
wiring and addressing conform to the wiring documentation. ..........................2
4. Service facility: Systems Integrator shall have service facilities within
[_____] miles of the installation. ...............................................................................2
D. Regulatory Requirements:..............................................................................................................2
1. NEC Compliance: All electrical wiring work shall comply to NEC. ............................2
2. NEMA Compliance: Electrical equipment shall comply with applicable
portions of NEMA.......................................................................................................2
3. FCC Emissions: All assemblies shall be in compliance with FCC emission
standards. ....................................................................................................................2
4. UL-1012 and CSA: All power supplies shall be in compliance with
Underwriters Laboratories standard 1012 and CSA standards for
power supplies. ..........................................................................................................2
5. UL-294: The system shall comply with Underwriters Laboratories standard
294 for Access Control Systems ( Model SE 422UL only ). .....................................2
E. Warranty: ...........................................................................................................................................3
1. Proximity Command Keys: No less than 5 (five) years. ...............................................3
2. Digital Command Keys: No less than 1 (one) year. ......................................................3
3. Magnetic Stripe Cards: No less than 1 (one) year. .........................................................3
4. System Components: 15 (fifteen) months from shipment date or 12
(twelve) months from date of purchase by systems integrator,
whichever comes first. ..............................................................................................3
PART II PRODUCTS ............................................................................................................................................................3
.1 MATERIALS AND COMPONENTS ..................................................................................................................3
A. System Description: .........................................................................................................................3
1. The access control unit (Controller) within the building shall consist of a
microprocessor based controller that can be either a standalone or a
networked unit with means to program, monitor intrusion and limit
access to a single, or a series of, one and two door controlled areas. ................3
2. Capacities: ............................................................................................................................3
3. The proximity, magnetic stripe and keypad units can be utilized for two
card entry areas definable within the Controller. .................................................3
4. The Controller shall provide intelligence and operate with the following
features: .......................................................................................................................3
B. Hardware features: ...........................................................................................................................4
1. Card Access Controller ......................................................................................................4
2. Power Supply .......................................................................................................................5
3. Monitor Input Unit (MI-7): ................................................................................................6
4. Monitor Input Unit (MI-14) ...............................................................................................6
5. Relay Output Unit (RO) ....................................................................................................7
6. Digital Proximity Key Reading Sensor (DigiReader):.................................................7
7. Analog proximity sensor: ..................................................................................................8
8. Sensor Interface ([SI-1][SI-2]):..........................................................................................9
9. Magnetic Stripe Pass Through Reader (MSR): ...........................................................10
10. Magnetic Stripe Insertion Reader: ...............................................................................11
11. Keypad (VIP-2): ...............................................................................................................12
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SE 422 Access Control System
12. QuadraKey Digital Proximity Command Key: ........................................................12
13. NexKey Digital Proximity Command Key: ............................................................... 13
14. DuraKey Digital Proximity Command Key: ............................................................. 14
15. Analog Proximity Command Key ([SE 1050] [SE1060]):......................................... 14
16. Magnetic Stripe card - ISO/ABA format: ....................................................................15
17. Magnetic Stripe Card - EMPI format: ......................................................................... 15
18. Internal Dial-up Modem: ..............................................................................................16
19. Accessories: ......................................................................................................................16
C. Controller Software features: ....................................................................................................... 17
1. Pre-programming: ............................................................................................................17
2. Control operation: Control operation is based on the ability to force relay
lock outputs to an operating mode. Forcing action may be initiated by
the following: ............................................................................................................17
3. Access Groups: There shall be three access groups with the capacity for
defining access times periods, time of day, days of week and holidays
for each door in the system. All groups are changeable via operator
interface. ....................................................................................................................17
4. Holidays: There shall be up to 30 holidays that can be defined by the
systems integrator via the terminal ASCII program. By way of an
Access Command the dealer may define the access privileges (times
and doors) of a card holder for any of those days. ..............................................17
5. Key/Card Commands: ..................................................................................................... 17
PART III EXECUTION ....................................................................................................................................................... 19
.1 EQUIPMENT INSTALLATION AND DOCUMENTATION ......................................................................... 19
A. Installation: ......................................................................................................................................19
1. The Access Control system shall be installed and wired completely as
shown on the plans by a Factory trained authorized systems
integrator. ..................................................................................................................19
2. System integrator shall make all necessary wiring connections to external
services and equipment. ......................................................................................... 19
B. Documentation: ..............................................................................................................................19
1. Accurate “as built” drawings shall be furnished by the systems integrator
to aid in programming. ........................................................................................... 19
2. Drawings shall indicate the door(s) controlled by each output and any
relay outputs or special inputs into the system...................................................19
3. The systems integrator shall supply operating manuals to aid in the
programming and operations of the system. ....................................................... 19
.2 SERVICE AND SUPPORT ............................................................................................................................... 19
A. Start-up: ............................................................................................................................................19
1. After the system has been installed and the documentation delivered to the
owner in compliance with 3.1 above, the systems integrator shall
verify correct operation of all system components. ............................................19
2. The systems integrator shall guarantee all material and workmanship
involving the system for up to [______] year(s) after start-up............................ 19
B. Training: After system start-up, the systems integrator shall instruct owner’s
personnel in how to operate the system and demonstrate a typical
configuration setup for a single door controlled area.......................................................20
C. Warranty Support: The Authorized Systems integrator shall be available during
the warranty period to answer programming and application questions to
support owner personnel during this period. ....................................................................20
1. [Option:] The Authorized Systems integrator shall have capability to have
a remote terminal for programming the Access Controller to support
the owner’s personnel during this period. ........................................................... 20
2. [Option:] The Authorized Systems integrator shall have the training and
capability to provide additional support services including:............................. 20
PART IV APPENDIX............................................................................................................................................................ A
.1 READ RANGE MATRIX ................................................................................................................................... A
.2 MOUNTING DIAGRAM ................................................................................................................................... A
.3 CONNECTION DIAGRAMS ............................................................................................................................. B
A. SE 422/SE 422UL Connection Diagram ...................................................................................... B
B. SE 422 MI-7 Connection Diagram (MI-14 has similar connections) .................................... B
C. SE 422RO Connection Diagram ................................................................................................... C
D. Sensor Interface-1 (SI-1) Connection Diagram ........................................................................ C
E. Sensor Interface-2 (SI-2) Connection Diagram ........................................................................ C
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SE 422 Access Control System
.4 SAMPLE SYSTEM DIAGRAMS ...................................................................................................................... D
A. Digital Proximity ............................................................................................................................ D
B. Magnetic Stripe with Keypad ....................................................................................................... D
C. Analog Proximity ............................................................................................................................. E
WSE • 3/21/97
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SE 422 Access Control System
SE 422 Security Management System
A/E Specification Summary
•
Access Control Ports:
2
•
Unsupervised Monitor Points:1
7
•
Supervised Monitor Points2:
60
•
Outputs, Lock and Auxiliary:
41 Maximum
•
Keys without names:
2,600
•
Keys with names:
1,000
•
Access Codes:
64
•
Event Report Schedules:
32
•
Transaction Buffer:
•
Key Technology:
3,000
- Digital Proximity
- Analog Proximity
- Keypad
- Magnetic Stripe
•
Operator Interface Methods:
- 2 RS-232 ports, or 1 RS-232 and 1 RS 485
- Terminal: ASCII Protocol
- Host: ASCII, Modem or SEEP Protocol
•
SE 422 Communications to:
2 RS 485 Ports
422MI/422RO/SI/Mag Stripe
Reader/DigiReader digital proximity
sensor
Twisted pair
• Regulatory Approval:
FCC, UL-1012, CSA, UL 294 (SE 422 UL
only)
• Environmental:
The controller shall be designed to
operate properly within relative humidity
range of 0% to 90% non-condensing and
within a temperature range of 20° to
+120° F (-7° to +50° C).
1
2
For ACU only; includes tamper, power fail, remote arm, 2 REX, 2 door switch.
For other network devices; includes tamper.
WSE • 3/21/97
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SE 422 Access Control System
PART I
.1
SECTION INCLUDES
A.
.2
GENERAL
Section includes specifications for an integrated security management system which shall perform
the following general services:
1.
Access control.
2.
Alarm monitoring.
3.
Reporting functions.
4.
Security office management functions.
SYSTEM DESCRIPTION
A.
B.
Access Control System:
1.
The system shall consist of a modular access control unit that is capable of supporting multiple
access technologies, alarm input devices and control ouputs.
2.
The system shall monitor the flow of individuals, allowing access to authorized individuals and
creating an alarm condition when unauthorized individuals attempt to access a controlled area.
3.
The system shall also have the capability to accept inputs connected to critical locations to
determine if any entry has been attempted, or if any proscribed activity has occurred. The system
shall have the capability to react to such inputs and to annunciate the event via outputs connected
to an audible alarm or other monitoring system, or dial out to an alarm central station or other
location, as defined further herein.
4.
The system shall allow an operator with minimal training, upon entering the correct password, to
create a database of people and objects for the system to properly function within the unique
requirements as further specified.
5.
The Access Control Unit (Controller) shall be networkable with multiple SE422s and other WSE
Controllers through a central host access control and alarm monitoring system. The host shall
provide the ability to download the security definition and the setup information for devices
connected to the SE422. Additionally, the host shall receive logs of all requested activity, define
certain events as alarms and react to the defined alarm events. The host shall have the ability to
manually override Controller status conditions, such as activating relays for door open, shunting
faulty input monitor points, etc. The Controller shall provide direct or dial-up connectivity to the
SMS. For additional SMS capability, refer to the appropriate Security Management System
specification.
Description of work:
1.
The system integrator shall include all necessary labor, tools, equipment, and ancillary materials
required to furnish and install a complete and operational access control and alarm monitoring
system.
2.
Access Control System shall manage access to [building] [and] [selected areas] [coded keypads.]
[magnetic stripe cards.]
3.
The extent of Access Control System work is defined to include, but not by way of limitation:
a.
[_____] central controllers.
b.
[_____] external keyboard and printer (directly or via central host).
c.
[_____] proximity card reading sensors.
d.
[_____] magnetic stripe card readers
e.
[_____] keypads.
f.
[_____] input monitoring modules.
g.
[_____] output relay modules.
h.
Wiring, power supplies, switches and ancillary equipment.
WSE • 3/21/97
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SE 422 Access C ontrol System
4.
.3
Requirements are indicated elsewhere in these specifications for work including, but not limited
to, raceways and electrical boxes and fittings required for installation of control equipment and
wiring: not the work of this section.
SUBMITTALS
A.
Product Data: Submit for prior approval, [__________] copies of manufacturer’s data on Proximity or
Magnetic Stripe Access Control System and components.
B.
Shop Drawings: Submit dimensioned drawings of [proximity] [and/or] [Magnetic Stripe] ] [and/or]
[keypad] Access Control System and accessories including, central controller, external keyboard and
printer, [proximity card reading sensors] [or magnetic stripe card readers,] [keypads,] power supplies
switches and ancillary equipment.
C.
One Line Diagram : Submit a one line diagram of the system configuration proposed if it differs from
that illustrated in the riser diagram included in these specifications. Submittals indicating typical riser
diagrams are not acceptable.
D. Operator’s Manual: Submit for prior approval, [__________] copies of manufacturer’s manual for
programming and operating the SE422 system and its related components.
.4
QUALITY ASSURANCE:
A.
B.
C.
Manufacturer : Manufacturer of products defined in this section must have:
1.
Industry experience: Company must have at least 20 years experience in manufacturing and
serving access management systems.
2.
ISO 9001 Certification: Manufacturing process of company must meet stringent standards of ISO
9001 Certification.
System Integrator:
1.
Company with a minimum of [5 (five)] years system design, engineering supervision, and
installation experience in the alarm, building automation, or Access Control industry.
2.
Company that is trained and authorized to install manufacturer products.
System Checkout:
1.
Pre-testing: All components and assemblies of the control unit are to be pre-tested at the factory
prior to shipment.
2.
Burn-in: 1,000 hours at normal operating conditions or equivalency.
3.
On-site testing: Manufacturer trained and authorized Systems Integrator shall functionally test
each component in the system after installation to verify proper operation and confirm that the
panel wiring and addressing conform to the wiring documentation.
4.
Service facility: Systems Integrator shall have service facilities within [_____] miles of the
installation.
D. Regulatory Requirements:
1.
NEC Compliance: All electrical wiring work shall comply to NEC.
2.
NEMA Compliance: Electrical equipment shall comply with applicable portions of NEMA.
3.
FCC Emissions: All assemblies shall be in compliance with FCC emission standards.
a.
Microprocessor based controller: Part 15, Subpart F, Class A.
b.
Proximity Card Reading Sensors: Part 15, Subpart F (field disturbance sensors).
c.
Dial-up modems: Part 68.
4.
UL-1012 and CSA: All power supplies shall be in compliance with Underwriters Laboratories
standard 1012 and CSA standards for power supplies.
5.
UL-294: The system shall comply with Underwriters Laboratories standard 294 for Access Control
Systems (Model SE 422UL only ).
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SE 422 Access Control System
E.
Warranty:
1.
Proximity Command Keys: No less than 5 (five) years.
2.
Digital Command Keys: No less than 1 (one) year.
3.
Magnetic Stripe Cards: No less than 1 (one) year.
4.
System Components: 15 (fifteen) months from shipment date or 12 (twelve) months from date of
purchase by systems integrator, whichever comes first.
PART II
.1
PRODUCTS
MATERIALS AND COMPONENTS
A.
System Description:
1.
The access control unit (Controller) within the building shall consist of a microprocessor based
controller that can be either a standalone or a networked unit with means to program, monitor
intrusion and limit access to a single, or a series of, one and two door controlled areas.
2.
Capacities:
a.
Proximity Card Reading Sensors: 2 (two).
b.
Digital Proximity Card Sensors: 2 (two.
c.
Magnetic Stripe Card Readers: 2 (two).
d.
Keypads: 2 (two).
e.
422MI-7: 8 (four).
f.
422 MI-14: 4 (eight).
g.
422 RO: 4 (four).
3.
The proximity, magnetic stripe and keypad units can be utilized for two card entry areas definable
within the Controller.
4.
The Controller shall provide intelligence and operate with the following features:
a.
b.
c.
d.
WSE • 3/21/97
Data base: System shall store all user operating data and handle event reporting for all
possible attached devices, and shall contain data base memory capacity for the following:
1)
Users with unique numeric ID: 2,600.
2)
Users with 12 character name and unique numeric ID: up to 1,000.
Event activity: System shall designate activity as an alarm or non-alarm condition,
dependent upon modules installed, and shall report activity for:
1)
Monitor Inputs: up to 60 4-state supervised.
2)
Monitor Inputs: up to 7 non-supervised.
3)
Outputs: up to 41.
Relay outputs: System shall indicate relay output commands based on:
1)
Proximity Card Sensor and/or or Magnetic Card Reader and/or keypad.
2)
Operator keyboard inputs (Model SE 422UL only).
3)
Local keypad data entry devices.
4)
Automatic operating schedule.
5)
Switch input.
6)
Security Management System (SMS) keyboard commands.
System diagnostics:
1)
Automatic system diagnostics.
2)
Alarming based on detected faults in the controller.
3)
Communication failures on the data-line.
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SE 422 Access C ontrol System
e.
B.
Communication modes: System shall communicate activity in either of two modes, as
follows:
1)
Standalone mode: In standalone mode, all system activity messages to the operator shall
be printed in plain English Language Text. Mnemonic type or transaction code type
operator messages are not acceptable, or
2)
Networked mode: In networked (Host) mode, the SE422 shall be polled by a Host system
for activity messages. All system activity messages to the Host system shall be binary for
efficient data communications supporting SEEP protocol. The Host shall have the
responsibility for acknowledging and translating the received messages. While operating
in Host mode, a second port on the Controller shall be available for standalone mode
connection and output.
f.
Battery Backup: System shall provide on-board battery to provide electrical backup for the
configuration database in the event of power failure.
g.
Passwords:
1)
The Controller shall utilize passwords in standalone mode.
2)
A password, up to 12 characters in lenght, must be used by an operator to gain access to
the system commands.
3)
Each password shall be assigned to one of 6 command levels.
4)
Operator passwords defined: up to 8 (eight).
h.
Pre-programmed: The access control unit shall have pre-programmed default data for ease
in start-up and testing of equipment.
i.
Transactions buffer for off-line event: up to 3,000.
j.
Data transfer: The Controller shall allow for data transfer backup of user data for storage offline on computer media in the event of loss of Controller database.
k.
Modular: The system shall be such that its controller and components are modular and
expandable in design so the system can accommodate facility growth.
Hardware features:
1.
Card Access Controller
a.
b.
General:
1)
Provides central control for all devices attached.
2)
Makes decisions for access.
3)
Responds to monitor activity.
4)
Receives input to control its decision making.
5)
Reports activity to other devices.
Capacities:
1)
Addressable devices: Up to 18 (eighteen) addressable devices on two networked, 2 (two)
twisted shielded pair data-lines.
2)
Output relays: 4 (four).
3)
Monitor input points: 7 (seven).
c.
Specifications: 1 or 2 door, magnetic stripe, keypad or proximity card access controller and
intrusion monitor.
d.
Mounting: (see PART IV.2 “Mounting Diagram”)
e.
WSE • 3/21/97
1)
NEMA type enclosure no smaller than 12 X 12 X 3.5 in. (30.48 X 30.48 X 8.89 cm)
2)
Knockouts for conduit and/or wiring access.
Power:
1)
Source: Via twisted pair wiring from a networked Power Inserter unit (see section 2).
2)
Consumption: Approximately 900 ma at 18 volts AC input (typical).
16720 — 4
SE 422 Access Control System
3)
f.
g.
h.
i.
2.
Battery: A low voltage battery (such as lithium) shall maintain the internally stored
database setup when no power is available to the controller.
Wiring:
1)
Modem: RJ-11 jack for modem communication to remote terminal or Host.
2)
Terminal or printer: 2 (two) 9-pin female RS-232 connector to terminal or printer or host
system.
3)
Host: 1 (one) 6-pin Phoenix connector for RS485.
4)
Field devices: 2 (two) 6-pin Phoenix connector for RS-485.
5)
Other: Phoenix connector for connecting the Power Inserter, Monitor Inputs and Relay
Outputs
Communication:
1)
2 (two) RS-232 data I/0 ports for ASCII encoded data.
2)
1 (one) RS-232 port or 1 (one) connected RS-485 port shall provide for Host
communication utilizing SEEP Protocol.
3)
Both of the above ports shall be usable for a terminal/printer.
Feedback: LED status lights indicate:
1)
Controller CPU operational status.
2)
Door status.
3)
Lock status.
4)
Communication status.
5)
Alarm status.
6)
Readiness of entry keypad and program mode.
Diagnostics: LED status lights shall indicate:
1)
Operational status of the controller.
2)
Door status.
3)
Lock status of controlled entries.
j.
Self-protection: inputs detect Power input failures and controller tampering.
k.
Manufacturer: Westinghouse Security Electronics, Model: [SE 422 UL (UL 294 Listed)] or [SE
422 NK]
Power Supply
a.
b.
c.
General:
1)
Un-interruptable Power Source Module shall be UL 1012 listed and operate from
115VAC/60Hz source. *(Option: 230VAC/50Hz).
2)
Power supply shall support external lead acid battery(s) to maintain all controller
operations for at least 4 (four) hours in event of power failure.
Capacities:
1)
28 volt DC output to the Controller.
2)
Limited lock power output at 24 Volts DC.
3)
5 (five) ampere output current, power failure output and battery charger output.
4)
Power for the Controller and additional networked devices.
5)
Note: Additional Power Supplies may be required based upon system configuration of
other devices and wiring distances.
Specifications:
1)
WSE • 3/21/97
Dimensions: 12 in. X 5.25 in. X 3.375 in. (31 X 13.4 X 9.5 cm).
16720 — 5
SE 422 Access C ontrol System
d.
3.
1)
UL 1012 Listed
(i) * Option 230VAC/50Hz is not UL listed
2)
CSA listed.
3)
The SE Power Inserter is required when configuring an SE 422 as a Proximity system in
order to meet FCC requirements.
e.
Mounting: The Power Supply should be installed in a secure area at least two feet from the
Controller.
f.
Wiring: The power supply shall be connected to the Controller and/or network wiring via
twisted pair wiring of at least 18 AWG.
g.
Feedback: A single LED indicates power ON condition.
h.
Self-protection: The power supply shall provide a power fail and battery recharge signal to
the Controller.
i.
Manufacturer: Westinghouse Security Electronics, Model: PI-1, or other Westinghouse
approved device.
Monitor Input Unit (MI-7):
a.
b.
c.
4.
Regulatory:
General:
1)
The Monitor Input Unit (MI-7) is a single board monitor point input device, with address
switch.
2)
The MI-7 has 7 (seven) 4-state monitor point inputs, one available for tamper, and 2 (two)
Form C relay outputs fused at 5 amps.
3)
Capacities: The Access Control Unit supports up to 8 (eight) MI-7 units for a total of 56
(fifty-six) monitor inputs and 16 relay outputs.
Specifications: The mechanical assembly shall consist of the PCB board and mounting plate
with the following dimensions:
1)
MI board dimensions: 6.0 in. square (15.24 cm square).
2)
Mounting plate dimensions: 6.25 in. square (15.88 cm square).
Mounting:
1)
The MI-7 shall be mounted in a NEMA type enclosure no smaller than 10.0 X 20 X 3.5 in.
(25.4 X 50.8 X 8.89 cm).
2)
The MI-7 mounts either via four pop-over mounting studs or via screw mounting onto
the enclosure.
d.
Power: The MI-7 receives power from twisted pair network wiring connected to the
Controller.
e.
Wiring: Twisted pair. Maximum recommended length is 4,000 feet.
f.
Self-protection: An MI-7 provides a tamper switch for monitoring by the Controller.
g.
Manufacturer: Westinghouse Security Electronics, Model: SE 422MI-7.
Monitor Input Unit (MI-14)
a.
General:
1)
The Monitor Input Unit (MI-14) is a single board monitor point input device, with
address switch.
2)
The MI-14 has 14 (fourteen) inputs, one for tamper, and 4 (four) form C Relays. Relays
are fused at 5 amps.
b.
Capacities: The Access Control Unit supports up to 4 (four) MI-14 units for a total of 56 (fiftysix) monitor inputs and 16 relay outputs.
c.
Specifications: The mechanical assembly shall consist of the PCB board and mounting plate
with the following dimensions:
WSE • 3/21/97
1)
MI board dimensions: 6.0 in. square (15.24 cm square)
2)
Mounting plate dimensions: 6.25 in. square (15.88 cm square)
16720 — 6
SE 422 Access Control System
d.
5.
1)
The MI-14 shall be mounted in a NEMA type enclosure no smaller than 10.0 X 20 X 3.5 in.
(25.4 cm X 50.8 cm X 8.89 cm)
2)
The MI mounts either via four pop-over mounting studs or via screw mounting onto the
enclosure.
e.
Power: From the the twisted pair network wiring connected to the Controller.
f.
Wiring: Twisted pair. Maximum recommended length is 4,000 feet.
g.
Self-protection: An MI-14 provides a tamper switch for monitoring by the Controller.
h.
Manufacturer: Westinghouse Security Electronics, Model: SE 422MI-14
Relay Output Unit (RO)
a.
General: The Relay Output Unit (RO) is single board relay output and monitor input unit with
network address switch with 1 (one) 4-state monitor input, usually used for tamper, and 5
(five) Form C relay outputs fused at 5 amps.
b.
Capacities: The Access Control Unit supports up to 4 (four) RO units for a total of 20 relay
outputs and 4 (four) monitor inputs.
c.
Specifications: The mechanical assembly shall consist of the RO board and mounting plate
with the following dimensions:
d.
6.
Mounting:
1)
RO board: 6.0 in. square (15.24 cm square).
2)
Mounting plate: 6.25 in. in. square (15.88 cm square)
Mounting:
1)
The RO shall be mounted in a NEMA type enclosure no smaller than 10.0 X 20 X 3.5 in.
(25.4 cm X 50.8 cm X 8.89 cm)
2)
The RO shall mount either via four pop-over mounting studs or via screw mounting onto
the enclosure.
e.
Power: The RO receives power from the twisted pair wiring connected to the Controller.
f.
Wiring: Twisted pair. Maximum recommended cable length of 4,000 feet.
g.
Self-protection: A tamper switch is available on the RO for monitoring by the Controller.
h.
Manufacturer: Westinghouse Security Electronics, Model: SE 422RO.
Digital Proximity Key Reading Sensor (DigiReader):
***********
Note: There are currently five models of DigiReader digital proximity readers. Each reader provides
different read ranges. When compiling Specifications, use the “Read Range Matrix” (Part IV.1,
Appendix) to determine the reader and card that best suit the specific application.
***********
a.
b.
General:
1)
DigiReader (DR) shall read digital proximity keys and send signal to Controller for
processing.
2)
DR 4226 shall comply with the Americans with Disability Act (ADA).
3)
DR 4238 shall comply with the Americans with Disability Act (ADA).
Capacities:
1)
DR shall read digital proximity keys supporting phase shift signals to a distance of [_____]
(optimum read range as defined in DigiReader/Prox Card Read Range Matrix) inches and
does not require contact with the sensor
2)
DR shall be capable of reading up to 3 (three) cards in field at the same time.
c.
Specifications: Material shall be high-impact Lexan with 94V-2 UL flame class rating, and
shall be UV resistant, sealed, water and weather resistant, and tamperproof.
d.
Environmental:
WSE • 3/21/97
1)
Humidity: 10% to 90% non-condensing
2)
Temperature: -4° to +140° F (-20° to +60° C).
16720 — 7
SE 422 Access C ontrol System
e.
f.
g.
Regulatory: Controller shall be designed to meet the following regulatory requirements:
1)
UL294 Listing Standard for Safety.
2)
FCC EMI and EMC Class A.
3)
EN55022 EMI and EMC Class A.
Mounting:
1)
DR shall have the capacity to be mounted and operated behind any non-metallic, nonconductive surface, including glass.
2)
(DR 4204 only) DR shall have the capability to be mounted on any metal door frame.
Power:
1)
Source: Via the network twisted pair (shielding optional) wiring.
2)
Consumption:
(i) [DR 4204: Less than 5 watts.]
(ii)
[DR 4205: Less than 2 watts.]
(iii) [DR 4208: Less than 6.5 watts.]
(iv) DR 4226: Less than 17 watts.]
(v)
DR 4238: Less than 17 watts.]
h.
Wiring: Twisted pair (shielding optional) with 4,000 foot maximum recommended length.
i.
Feedback:
1)
Single tri-color LED (green/amber/red) shall provide capability for diagnostic feedback.
2)
Tri-color LED shall be programmable.
3)
An audio tone shall indicate successful digital proximity card read and access granted.
j.
Diagnostics: DR and data-line integrity shall be monitored continuously and shall alarm if
failure is detected and indicate device and location of fault.
k.
Self-protection:
l.
1)
Physical damage, including breaking open sensor housing, shall not allow access to any
circuitry which would allow the system to be compromised.
2)
Transmission of any frequency (or set of frequencies) into the sensor at any power level
shall not compromise the system.
Manufacturer: Westinghouse Security Electronics
m. Model:
7.
1)
[Model DR 4204]
2)
[Model DR 4205]
3)
[Model DR 4208]
4)
[Model DR 4226]
5)
[Model DR 4238]
Analog proximity sensor:
a.
b.
General:
1)
Analog Proximity Key Reading Sensor (Sensor) shall connect to the Controller via dataline as specified by the manufacturer.
2)
Sensor shall have the means to be electrically isolated to prevent short circuits from
disrupting other communications in the data-line network.
3)
As a minimum, the sensor shall detect command key codes when a key is within two
inches (5 cm) of it’s surface.
Capacities:
1)
WSE • 3/21/97
The Sensor shall “read in” data encoded on analog proximity cards containing tuned
circuits (Model SE 1050 or SE 1060) placed within a minimum of 2 inches of the sensor
16720 — 8
SE 422 Access Control System
c.
The Sensor shall not require contact with the card.
3)
Specifications: The Sensor shall be sealed, waterproof, weather resistant, and
tamperproof. Material shall be Lexan or equal.
Environmental:
1)
Humidity: 0% to 100% condensing
2)
Temperature: -50° to +180° F (-46° to +82° C).
d.
Mounting: Proximity Key Reading sensor shall have the capacity to be mounted and operated
behind any non-metallic, non-conductive surface, including glass.
e.
Power:
f.
1)
Via the coax cable connection with the SI unit (refer to section 7).
2)
The Sensor shall emit a low power (less than one microwatt) RF field in the 2 to 27 MHz
range which is concentrated in a region up to four inches from the surface.
Wiring: A single coax cable shall connect the Sensor to the Sensor Interface (SI). Coax will
conform to the following:
1)
A standard coax cable has a pure copper, single strand, 18 AWG center conductor, a foam
dielectric and a dual shield, 61% AL braid, 100% AL bond wrap. This cable has an
impedance of 75 ohms and the physical dimensions of RG6/U. All spools must have a
100% sweep test before use.
2)
Additional cables, for direct burial, plenum and elevator rated conforming to WSE models
SE9284DB, SE9284PL and SE9284EL can be utilized for the respective applications.
g.
Communication: An analog signal between sensor and SI shall provide necessary
communication.
h.
Feedback: Single red LED shall indicate power on and provide capability for diagnostic
feedback.
i.
Diagnostics:
j.
k.
8.
2)
1)
Proximity Key Reading sensor and data-line integrity shall be monitored continuously
2)
An alarm shall sound if failure is detected and indicate device and location of fault.
Self-protection:
1)
Physical damage including breaking open sensor housing shall not allow access to any
circuitry which would allow the system to be compromised.
2)
Transmission of any frequency (or set of frequencies) into the sensor at any power level
shall not compromise the system.
Manufacturer: Westinghouse Security Electronics, Model [2814A (rear coax)]; [Model 2815A
(side coax)]; [Model 2804]; )]; [Model 2824/5A]; [Model 2834/5]; [Model 2844/5A].
Sensor Interface ([SI-1][SI-2]):
a.
b.
c.
WSE • 3/21/97
General:
1)
A Sensor Interface (SI) unit shall be required to work in conjunction with the Analog
Proximity Key Reading Sensor.
2)
Each Sensor requires an SI unit to convert its analog output to a digital code compatible
with the Controller.
Capacities (SI-1 only):
1)
Sensor: 1 (one).
2)
Command Key: SE 1050 analog proximity command keys.
Capacities (SI-2 only):
1)
Sensor: 2 (two).
2)
Command Key: SE 1050 and/or SE 1060 analog proximity command keys.
16720 — 9
SE 422 Access C ontrol System
d.
Specifications: The SI shall be mounted in an NEMA type enclosure no smaller than 8 in.
Square X 3.5 in. deep (20.32 X 20.32 X 8.89 cm) with knockouts for conduit and/or wiring
access.
e.
Environmental:
Humidity: 0% to 90% non-condensing.
2)
Temperature: 20° to +120° F (-7° to +50° C).
f.
Power: The SI unit receives power from the network’s network twisted pair.
g.
Wiring:
h.
9.
1)
1)
From the SI to the Controller: the SI shall be connected by network twisted pair wires
with the maximum recommended length of cable being 4,000 feet.
2)
From the SI and the Sensor: the coaxial cable should be as short as possible, 6 to 10 feet is
recommended, with a maximum distance of 250 ft.
Manufacturer: Westinghouse Security Electronics, Model [SI-1] [SI-2].
Magnetic Stripe Pass Through Reader (MSR):
a.
b.
c.
d.
e.
f.
g.
General:
1)
The reader shall read magnetic stripe cards that have been encoded with standard
ISO/ABA Track II card numbering format.
2)
Magnetic Stripe cards shall be read in either direction while being swiped through the
reader.
Capacities:
1)
The readers shall read all forty (40) digits of the swiped magnetic stripe card.
2)
(MSRK only ) Readers with integral keypad shall provide a standard 10-digit numeric
entry for additional security.
Specifications:
1)
Dimensions: 1.95 x 1.30 X 5.50 (50 X 33 x 14 mm)
2)
Card accommodation: Credit-card sized magnetic stripe card (2.125 x 3.375 x .030 in., +/.003 in.; 75 bip; ANSI x 4.16)
3)
Read speed: 3 to 50 ips.
Environmental:
1)
Humidity: 0% to 95% RHNC (Weatherized option to 100%).
2)
Temperature: -31° F to 150° F (-35°C to +66°C).
Mounting: Wall mounted either horizontally or vertically on a standard single-gang handy
box (preferred method), on any flat surface, on a structured door frame (mullion), or as a
Wiegand (Sensor Model 30387) reader replacement using matching hot holes on the adapter
plate.
1)
[MSR only] is designed for indoor use, but can be used for most sheltered outdoor
applications.
2)
[MSRK only] MSRK is weatherized for outdoor use and can withstand direct exposure to
the elements.
Power:
1)
Source: Powered from the system twisted pair (shielding optional) wiring connected to
the Controller.
2)
Current: 50mA.
3)
Wiring: Twisted pair cable with maximum recommended length of cable being 4,000 feet.
Feedback:
1)
The MSR shall provide a two state LED that indicates door status as follows:
(i) A red light indicates active but locked;
(ii)
WSE • 3/21/97
A green light indicates unlocked.
16720 — 10
SE 422 Access Control System
2)
The MSR shall sound an alarm upon improper card entry.
h.
Diagnostics: MSR performs a power-up self test, which indicates the success or failure of the
test.
i.
Self-protection:
1)
Physical damage, including breaking open reader housing, shall not allow access to any
circuitry which would allow the system to be compromised.
2)
A special latch release tool to access concealed latches provides additional tamper
resistance.
j.
Manufacturer: Westinghouse Security Electronics
k.
Model:
1)
[MSR42-G, Magnetic Stripe Card Reader.]
2)
[MSR42-GW, Weatherized Magnetic Stripe Card Reader.]
3)
[MSRK42-G, Magnetic Stripe Card Reader with Keypad.]
4)
[MSRK42-GW, Weatherized Magnetic Stripe Card Reader with Keypad.]
10. Magnetic Stripe Insertion Reader:
a.
General:
1)
Magnetic Stripe cards shall be read upon withdrawal from an insertion reader.
2)
The information is transmitted to the host access controller.
3)
The reader shall read magnetic stripe cards that have been encoded with standard
ISO/ABA encoding or secure EMPI II encrypted card numbering format.
b.
Capacities: The reader shall read at least the first seventeen (17) digits of the inserted
magnetic stripe card.
c.
Specifications:
d.
e.
f.
g.
WSE • 3/21/97
1)
Dimensions: 4.70 X 3.00 X 1.54 in. external dimension
2)
Card accommodation: Magnetic stripe card (2.125 in. X 3.375 in. X .030 in., +/- .003 in.).
Environmental:
1)
Humidity: 0% to 90% non-condensing
2)
Temperature: -31° to +150° F (-35° to +66° C).
Mounting:
1)
Magnetic Stripe Insertion reader shall be designed to be wall mounted with the card
insertion slot facing the floor.
2)
The card is inserted upward into the card insertion slot.
3)
The reader can be mounted on a standard single-gang handy box (preferred method) or
on any flat surface.
4)
For outdoor applications, a suitable weatherproof back box with weather seal is used.
Power: The Magnetic Stripe Reader receives power from the network via network twisted
pair wiring connected to the Controller.
1)
Wiring: network twisted pair cable with maximum recommended length of cable being
4,000 feet.
2)
Current draw:
Feedback:
1)
The magnetic stripe reader shall provide a two state LED that indicates door status.
2)
A red light is available for active but locked while a green light is available for unlocked.
16720 — 11
SE 422 Access C ontrol System
h.
Diagnostics: The unit performs a power-up self test, and indicates the success or failure of
the test.
i.
Self-protection:
j.
1)
Physical damage, including breaking open reader housing, shall not allow access to any
circuitry which would allow the system to be compromised.
2)
A special reader cover release tool to access concealed latches provides additional tamper
resistance.
Manufacturer: Westinghouse Security Electronics, Model: [MSR22-SB, Black] [MSR22-SW,
White]
11. Keypad (VIP-2):
a.
b.
General:
1)
The system shall have the means to utilize a numeric keypad for entry of a Personal
Identification Number (PIN).
2)
The Keypad shall provide information to the Controller, either alone or in conjunction
with a card reading device, thereby providing an additional level of security.
3)
The system shall have the means to recognize special duress codes which can be entered
into the Keypad to be available to any user during an emergency.
4)
System administrator shall have capability to program a reaction based on Keypad duress
code input.
Capacities:
1)
Keypad shall provide a standard 10 digit numeric entries organized in the standard
telephone pad layout.
2)
The user shall be able to enter a 4- to 8-digit Personal Identification Number (PIN).
c.
Specifications: The Keypad unit shall be housed in a double gang metal utility box, 4.50 in. H
x 4.56 in. W x 2.19 in. D (cm).
d.
Environmental:
e.
f.
1)
Temperature: 20° F to 120° F (-7° C to +49° C).
2)
Humidity: 10% to 95% non-condensing.
Regulatory: The unit shall meet the following regulatory requirements:
1)
FCC class A computing device when installed in the system.
2)
ANSI/NEMA Standard 250 for Type 4x enclosures.
Mounting:
1)
Keypad shall be mounted on the outside of a building, in a wall, or against it.
2)
After the Keypad is installed and operations have been verified, decal shall be placed over
the cover plate to conceal mounting plate and to provide a weather seal.
g.
Power: The Keypad receives power from the network twisted pair wiring.
h.
Wiring: Twisted pair cable with a maximum recommended cable length of 4,000 feet.
i.
Feedback: The Keypad shall provide three LED status for awaiting card presentation,
awaiting keypad entry and acknowledgment of successful access granted and door unlock.
j.
Self-protection: The Keypad is protected against the circuitry being removed from the outlet
box or the box being forcibly removed from the wall by means of a strategically placed
internal tamper switch.
k.
Manufacturer: Westinghouse Security Electronics Model: [VIP-2] [VIP-2W (weatherized)]
12. QuadraKey Digital Proximity Command Key:
a.
General:
1)
WSE • 3/21/97
QuadraKey Digital Proximity Command Key (Card) is an ISO compliant, single-coil
passive digital proximity card that supports multiple technologies on one card, including:
digital proximity, magnetic stripe, bar code and photo ID.
16720 — 12
SE 422 Access Control System
b.
c.
d.
2)
Design shall be capable of smart card chip insertion, color imaging on both sides and
hole punch horizontal or vertical for using the card as a badge.
3)
Note: Active circuit type cards (those requiring batteries) shall not be acceptable.
Capacities:
1)
Digital Proximity Command Key can generate a minimum eight digit access number.
2)
Keys shall have numeric encoded data embedded in an integrated circuit within the card.
3)
Each key shall be encoded so that it is totally unique.
Specifications:
1)
Dimensions: ISO standard size and thickness of 3.37 in. X 2.125 in. X 0.032 in (8.55 cm X
5.39 cm X 0.081 cm).
2)
Material: Polyester and appropriate adhesive based materials.
3)
Magnetic Stripe material: single layer 3M type 5203 High Coercivity, 4000 Oerstad using
Track 2, without exception.
4)
Magnetic stripe dimensions: The stripe shall minimally extend from 0.333 in. to 0.493 in.
from the upper card edge and for the entire length of the card.
Environmental:
1)
Temperature: 14° to 140° F(-10° to 60° C).
2)
Humidity: 0% to 100%.
e.
Regulatory: N/A (Card is totally passive requiring no approval.)
f.
Power: Source: Passive-powered by DigiReader digital proximity reader.
g.
Communication: Via low power radio frequency, providing read ranges up to [22] inches
depending on the selected DigiReader. (See See PART IV.1, DigiReader/Prox Card Read Range
Matrix in Part IV.1 for actual figures).
h.
Manufacturer: Westinghouse Security Electronics, Model QuadraKey.
13. NexKey Digital Proximity Command Key:
a.
b.
c.
d.
WSE • 3/21/97
General:
1)
NexKey Digital Proximity Command Key (Card) is a single-coil passive digital proximity
card that can, through add-on options, support additional technologies, including: bar
code and photo ID with lamination.
2)
Card shall be highly resistant to face abrasion or bending.
3)
Card shall have a slot in the vertical position for use as a badge.
4)
Note : Active circuit type cards (those requiring batteries) shall not be acceptable.
Capacities:
1)
Card can generate a minimum eight digit access number.
2)
Cards shall have numeric encoded data embedded in an integrated circuit within the
card.
3)
Each key shall be encoded so that it is totally unique.
Specifications:
1)
Dimensions: 3.37 x 2.125 x 0.075 in. (8.55 x 5.93 x 0.19 cm).
2)
Construction: Durable ABS with vinyl or polycarbonate covering.
Environmental:
1)
Temperature: 14° to 140° F (-10° to 60° C).
2)
Humidity 0% to 100% humidity.
16720 — 13
SE 422 Access C ontrol System
e.
Regulatory: N/A (Card is totally passive requiring no approval).
f.
Power: Passive-powered by DigiReader digital proximity reader.
g.
Communication: Card shall communicate via low power radio frequency, providing read
ranges up to [22] inches depending on the selected DigiReader. (See PART IV.1,
“DigiReader/Prox read range matrix” for actual figures).
h.
Manufacturer: Westinghouse Security Electronics, Model: NexKey.
14. DuraKey Digital Proximity Command Key:
a.
b.
c.
d.
General:
1)
DuraKey Digital Proximity Command Key (Card) is a highly durable, dual-coil passive
digital proximity card that supports multiple card technologies on one card, including:
digital proximity, bar code, and photo ID with lamination.
2)
Note : Active circuit type cards (those requiring batteries) shall not be acceptable.
Capacities:
1)
Digital Proximity Command Key can generate a minimum eight digit access number.
2)
Keys shall have numeric encoded data embedded in an integrated circuit within the card.
Each key shall be encoded so that it is totally unique and exists in no other system
anywhere in the world.
Specifications:
1)
Dimensions: 3.37 x 2.125 x 0.099 in. (8.55 cm X 5.93 x 0.25 cm).
2)
Construction: Durable polycarbonate with vinyl covering.
Environmental:
1)
Temperature: 14° to 140° F (-10° to 60° C).
2)
Humidity: 0% to 100% relative humidity.
e.
Regulatory: N/A (Card is totally passive requiring no approval).
f.
Power: Passive-powered by DigiReader digital proximity reader.
g.
Communication: Card shall communicate via low power radio frequency, providing read
ranges up to [36] inches depending on the selected DigiReader. (See See PART IV.1,
“DigiReader/Prox Card read range matrix” for actual figures)
h.
Manufacturer: Westinghouse Security Electronics, Model: DuraKey.
15. Analog Proximity Command Key ([SE 1050] [SE1060]):
a.
General: [SE 1050] [SE1060] is a highly durable analog proximity command key (card) that
transfers data in the form of passive tuned circuits within the card. Additional key features
include:
1)
Unique encoding: Each card shall be encoded so that it is totally unique.
2)
Universal operation: Each card shall have the capability to be programmed to operate
universally at different locations.
3)
Durable: Card shall be highly resistant to face abrasion or bending.
4)
Warranty: 5 (five) years.
5)
Note :Active circuit type cards (those requiring batteries) shall not be acceptable.
b.
Capacities: The Analog Proximity Key can generate an eight digit access number.
c.
Specifications:
d.
WSE • 3/21/97
1)
Dimensions: 3.36 X 2.12 X 0.1 in. (8.53 X 5.38 X 0.25 cm).
2)
Construction: Heavy duty fiberglass epoxy with vinyl covering.
Environmental:
1)
Temperature: -50° to +120° F (-46° to 49° C) .
2)
Humidity: 0% to 100% relative humidity.
16720 — 14
SE 422 Access Control System
e.
Regulatory: N/A (Card is totally passive requiring no approval).
f.
Power: Passive-powered by Analog Proximity Key Sensor.
g.
Communication: Via field disturbance from Analog Proximity Key Sensor.
h.
Manufacturer: Westinghouse Security Electronics, Model: [SE 1050 Command Key] [SE 1060
Command Key]
16. Magnetic Stripe card - ISO/ABA format:
a.
General: The ISO/ABA format Magnetic Stripe card shall be conform to the ISO/ABA
standards for size and encoding characteristics.
b.
Capacities:
c.
d.
1)
Each card shall support up to 40 digits in an ISO/ABA format on track two of the magnetic
stripe.
2)
The information contained in the 40 digits shall include at least a four to eight digit
number for identification or access purposes.
3)
Additional information can include a site code (4 digits) and an expiration date of month
and year (4 digits).
Specifications:
1)
Dimensions: 2.125 in. x 3.375 in. x .030 in.
2)
Construction: Polyester and appropriate adhesive based materials.
3)
Magnetic Stripe material: Single layer 3M type 5203 High Coercivity, 4000 Oerstad using
Track 2, without exception.
4)
Magnetic Stripe dimensions: From 0.333 in. to 0.493 in. minimum from the upper card
edge and for the entire length of the card.
5)
Photo ID ready: Photo ID Badge shall be available as an add-on to all magnetic stripe
systems. It uses the Polaroid ID-4 Camera System with ANSI X4.16-1983 encoding.
Environmental:
1)
Temperature: -30° to +122° F (-35° to 50° C).
2)
Humidity: 5% to 95% relative humidity.
e.
Communication: Via physical read by a Magnetic Stripe Reader.
f.
Manufacturer: Westinghouse Security Electronics, Model: ISO/ABA Magnetic Stripe Card.
17. Magnetic Stripe Card - EMPI format:
a.
General: The EMPI format Magnetic Stripe card (card) contains a proprietary, high security
encoding algorithm. This card format can be utilized in those installations requiring greater
security than traditional ISO/ABA magnetic stripe cards provide security sites.
b.
Capacities:
c.
WSE • 3/21/97
1)
Each card shall carry a number in an encrypted EMPl format on track two of the magnetic
stripe.
2)
Each card’s data shall contain a job code unique to the customer (never used elsewhere),
and a sequential card number.
3)
The encryption method shall be a multiple round transposition substitution cipher.
Specifications:
1)
Dimensions: 2.125 in. X 3.375 in. X .030 in.
2)
Construction: Card shall be made entirely of polyester and appropriate adhesive based
materials.
3)
Magnetic Stripe material: Single layer 3M type 5203 High Coercivity, 4000 Oerstad using
Track 2, without exception.
4)
Magnetic Stripe dimensions: From 0.333 in. to 0.493 in. minimum from the upper card
edge and for the entire length of the card.
5)
Photo ID ready: Photo ID Badge shall be available as an add-on to all magnetic stripe
systems. It uses the Polaroid ID-4 Camera System with ANSI X4.16-1983 encoding.
16720 — 15
SE 422 Access C ontrol System
d.
Environmental:
1)
Temperature: -30° to +122° F (-35° to 50° C).
2)
Humidity: 5% to 95%.
e.
Communication: Via physical read by a Magnetic Stripe Reader.
f.
Self-protection:
g.
1)
Critical information shall be preserved in a central data base rather than on the surface of
the card.
2)
The card number shall provide the look-up index into the host data base.
Manufacturer: Westinghouse Security Electronics, Model: EMPI/ABA Magnetic Strip Card.
18. Internal Dial-up Modem:
a.
General: The modem card is a plug in Bell 212A compatible modem designed for full-duplex
operation over the 2-wire public switched telephone network.
b.
Capacities:
1)
c.
d.
Data rate: of 0 to 300 BPS asynchronous, or 1200 BPS asynchronous and 1200 BPS
synchronous.
Specifications:
1)
Dimensions: 2.75 X 3.50 X .415 in. (XX cm) external dimensions.
2)
Consumption: +5 VDC. Equivalency of UDS model 2123006.
Environmental:
1)
Humidity: 0% to 90% non-condensing.
2)
Temperature: 20° to +120° F (-7° to +50° C).
e.
Regulatory: FCC Part 15, Class B, FCC Part 68 and DOC requirements for connections to the
Public Telephone Network.
f.
Mounting: The card is inserted utilizing the rear 20 male pin, dual-row connection into the
corresponding female connector on the Controller board.
g.
Power: From the Controller.
h.
Wiring: Standard RJ-11 input.
i.
Communication: Standard telephone wiring (21 awg).
j.
Self-protection: Lightning and Transient protection.
k.
Manufacturer: Westinghouse Security Electronics Model UDS 3006 Modem
19. Accessories:
a.
Terminal: The systems integrator shall furnish a terminal as shown on plans, if required. A
standard video display terminal (CRT) with full keyboard and display, shall be capable of data
throughput at 9600 baud.
b.
Printer: The systems integrator shall furnish a printer with the following specifications:
1)
Standard RS-232 serial communications printer.
2)
Capable of data throughput at up to 9600 baud.
c.
Locking Hardware: The systems integrator shall furnish all system electrified locking
hardware, as shown on the plans, which is used in conjunction with the Card Access system.
d.
Switches: The systems integrator shall provide all necessary monitoring and manual
switches, normally of closed type, which are used in conjunction with the Card Access
system.
e.
Power supply external batteries: The systems integrator shall provide necessary batteries to
be used with UPS power supply (if required on plans) to maintain all controller operations
and provide limited DC lock power at 24 volts. Additional power supply may be required for
lock power.
WSE • 3/21/97
16720 — 16
SE 422 Access Control System
C.
Controller Software features:
1.
2.
Pre-programming:
a.
The system shall be pre-programmed, at the factory, with default values which enable
immediate functionality upon installation.
b.
The system default values can be overridden via an ASCII terminal program which allows
full customization of all system parameters.
Control operation: Control operation is based on the ability to force relay lock outputs to an
operating mode. Forcing action may be initiated by the following:
a.
Time of day schedule (when programmed by ASCII terminal).
b.
Switch activation.
c.
Command key with valid access code.
d.
Keyboard command.
e.
Host override command.
f.
On board keypad (SE 422UL only).
3.
Access Groups: There shall be three access groups with the capacity for defining access times
periods, time of day, days of week and holidays for each door in the system. All groups are
changeable via operator interface.
4.
Holidays: There shall be up to 30 holidays that can be defined by the systems integrator via the
terminal ASCII program. By way of an Access Command the dealer may define the access
privileges (times and doors) of a card holder for any of those days.
5.
Key/Card Commands:
a.
Up to 2,600 Proximity Keys or Magnetic Stripe Cards or PIN codes may be defined with unique
numeric identification by the user or systems integrator, or up to 1,000 keys/cards with a 12
character description and unique numeric identification by the dealer via the ASCII terminal
program.
b.
Keys/cards may be defined both with and without names in the same data base.
c.
Keys/cards may be bulk programmed in groups, and the user may remove any key from the
data base.
d.
Key/card usage shall be traced by the system and a trace report generated.
e.
Key/card functions shall include:
1)
Card Identification:
(i) Digital Proximity: unique eight digit number.
(ii)
Analog Proximity: unique eight digit number.
(iii) EMPI Magnetic Stripe: unique site code and unique eight digit number.
(iv) ABA Magnetic Stripe card number: from four to eight digits of 40 digits available on
card.
(v)
Site code (optional): four digits of 40 digits available on card.
(vi) Expiration date (optional) (month / year): four digits of 40 digits available on card.
(vii) Keypad: 4- to 8- digit Personal ID Number (PIN).
2)
Access:
(i) The access parameters may be defined such that any single card can be programmed
to open each door during four different time periods, via the ASCII terminal
program.
(ii)
Key/card access parameters shall be modifiable.
(iii) Access Number Lookup: Digital Proximity, Analog Proximity, EMPI Magnetic Stripe,
ISO/ABA Magnetic Stripe, Keypad entry only.
(iv) ABA Magnetic Stripe: In addition to the Key Number, a defined Expiration date can
be used to deny access. A defined Site Code can be used as another access
verification test or the Site Code can be defined as a Key Number, with a normal
lookup resulting.
WSE • 3/21/97
16720 — 17
SE 422 Access C ontrol System
(v)
3)
Keypad Entry: can be used in conjunction with a card presentation for dual
verification or as single entry credential.
Building mode:
(i) Any key/card shall have the means to be programmed as privileged and be
authorized to arm or disarm the building mode feature.
(ii)
If the key/card is not authorized to disarm mode alarm system, the user shall be
unable to gain entry. regardless if user’s access code has been programmed for that
period.
(iii) Building modes can be defined as follows:
(a) The OPEN mode designates any card holder, privileged or not, may enter the
building provided be also has a valid access code.
(b) The CLOSED mode is used when a building is unoccupied. Although a privileged
card holder may enter a closed building, he must put the structure in the open
mode within a designated time period, or an alarm may be activated.
4)
Anti-passback:
(i) The system shall have the capability to designate any key/card so that when it is
used to enter an area it must be used to exit that area before it can be re-used for
entry.
(ii)
The system shall have two modes for this operation:
(a) Hard: Denies re-entry and reports passback violation, and;
(b) Soft: Allows re-entry, but reports passback violation.
(iii) The system shall have the capability to reset the location of all command
key’s/card’s passback status at any time. In an anti-passback configuration, two
sensors shall be utilized for a single door.
f.
g.
h.
i.
WSE • 3/21/97
Forced Entry alarms:
1)
The system shall have the means to select which doors shall report forced entry alarms
or door held open alarms.
2)
On a door by door basis, via the SE SMS host or an ASCII terminal emulation program,
those doors to report forced entry, and which time periods, shall be selected.
Proximity Sensors/Magnetic Stripe Readers:
1)
The controller shall be able to assign a 24 character name for each sensor/reader via a
Security Management System or an ASCII terminal emulation program.
2)
The system shall be capable of defining which sensors/readers, and at what times they
are able to report valid access reports.
3)
Access times and locations shall be definable via the ASCII terminal program.
Passwords:
1)
The system shall be capable of identifying 8 different operators for terminal use.
2)
Up to 12 character user definable passwords shall be used to log on to the system with up
to 6 levels of access, via a Security Management System or an ASCII terminal emulation
program.
Printed Data Output: The system shall be capable of selecting which access and monitor
point activity messages are to be output to the printer and shall be capable of printing the
following:
1)
Key Definitions: Key codes, names, access codes, location (in/out/unknown), key trace
function, privileged or not.
2)
Door parameters.
3)
Holidays.
4)
Access code parameters.
5)
User names, passwords, and access levels.
6)
System status (real time report).
7)
All event types.
16720 — 18
SE 422 Access Control System
j.
k.
l.
PART III
.1
1)
The system shall have the means to utilize numeric keypads as additional identification.
2)
Individuals shall be required to give either a 4- thru 8-digit Personal Identification
Number (PIN).
3)
The system shall have the means to have a special single Duress code which can be
entered for utilization during emergencies.
4)
Events may be programmed to occur based on duress code input.
5)
PIN are dependent upon key number (only when used in conjunction with valid key
presentation).
SE 6000 Security Management System Interface:
1)
The Controller shall interface with the SE 6000 Security Management System and shall
provide all of the functionality as defined in the SE 6000 A/E Guideform Specification.
2)
The Controller shall connect via a custom communications interface, or software
interface driver, installed on an SE 6000 Host and provide full system functionality and
capacities as defined in the SE 6000 Security Management System Overview.
3)
The physical connection shall either be direct connect via RS-232C, dial-up via modem or
other manufacturer approved wiring and communication methods.
SE 5850 Security Management System Interface:
1)
The Controller shall interface with the SE 5850 Security Management System and shall
provide all of the functionality as defined in the SE 5850 A/E Guideform Specification.
2)
The Controller shall connect via direct connection utilizing RS-232C wiring or other
manufacturer approved wiring and communication methods.
EXECUTION
EQUIPMENT INSTALLATION AND DOCUMENTATION
A.
B.
.2
Numeric Keypad:
Installation:
1.
The Access Control system shall be installed and wired completely as shown on the plans by a
Factory trained authorized systems integrator.
2.
System integrator shall make all necessary wiring connections to external services and
equipment.
Documentation:
1.
Accurate “as built” drawings shall be furnished by the systems integrator to aid in programming.
2.
Drawings shall indicate the door(s) controlled by each output and any relay outputs or special
inputs into the system.
3.
The systems integrator shall supply operating manuals to aid in the programming and operations
of the system.
SERVICE AND SUPPORT
A.
Start-up:
1.
After the system has been installed and the documentation delivered to the owner in compliance
with 3.1 above, the systems integrator shall verify correct operation of all system components.
2.
The systems integrator shall guarantee all material and workmanship involving the system for
up to [______] year(s) after start-up.
WSE • 3/21/97
16720 — 19
SE 422 Access C ontrol System
B.
Training: After system start-up, the systems integrator shall instruct owner’s personnel in how to
operate the system and demonstrate a typical configuration setup for a single door controlled area.
C.
Warranty Support: The Authorized Systems integrator shall be available during the warranty period
to answer programming and application questions to support owner personnel during this period.
1.
[Option:] The Authorized Systems integrator shall have capability to have a remote terminal for
programming the Access Controller to support the owner’s personnel during this period.
2.
[Option:] The Authorized Systems integrator shall have the training and capability to provide
additional support services including:
a.
Regular testing and inspection of all system components and to submit reports on the results.
b.
Emergency Service for repairs and adjustments to the system and part replacement if
necessary.
WSE • 3/21/97
16720 — 20
SE 422 Access Control System
PART IV
.1
APPENDIX
READ RANGE MATRIX
DigiReader® Digital Proximity Reader
Prox Card
DR4204
DR4205
DR4208
DR4226
DR4238
QuadraKey
up to 2"
(5 cm)
up to 4"
(10 cm)
up to 7"
(18 cm)
up to 13"
(33 cm)
up to 22"
(56 cm)
NexKey
up to 2"
(5 cm)
up to 4"
(10 cm)
up to 7"
(18 cm)
up to 13"
(33 cm)
up to 22"
(56 cm)
DuraKey
up to 3"
(8 cm)
up to 6"
(15 cm)
up to 8"
(20 cm)
up to 22"
(56 cm)
up to 36"
(91 cm)
Maximum read ranges may vary depending on physical environment of
installation
.2
MOUNTING DIAGRAM
1
SYSTEM STATUS
DOOR STATUS
OPENED
ALARM
ARMED
1
DISARMED
UNLOCKED
9.50"
U18
12.0"
PROGRAM
READY
POWER ON
COMMAND
ERROR
bd95
L7
1
12.0"
3.60"
10.00"
WSE • 3/21/97
16720 — A
SE 422 Access C ontrol System
.3
CONNECTION DIAGRAMS
A.
SE 422/SE 422UL Connection Diagram
To Telephone
Line
EPROM
P1
P2, P4
SW1
Communicator
P3
(optional)
FCC Part 68 Registration:
AK396F-16622-MD-E
Ringer Equivalent .4B
Goof
Switch
1
P2
Terminal Port 1. DCD Input
RS-232
2. RXD Input
P4
Host Port
RS-232
P5
8
3.
4.
5.
7.
8.
TXD Output
Earth Ground
DSR Input
RTS Output
CTS Input
6.
5.
4.
3.
2.
1.
P6, P7, P8
Earth Ground
Shield Return
Reader +24VDC @ 300mA
Data & DC Common
Data –
Data +
SW2
P12 To Front
Panel
P6
1.5 Amp Fuses
LF 27301.5 or
Equiv.
F1
F2
Battery
BR2325
Host Port
RS-485
1
F3
P7
Reader
Connection
RS-485
P8
Reader
Connection
RS-485
1
5 Amp Fuses
LF 273005 or Equiv.
F4
1
1
P11
Power Inputs
P10
Door Inputs
P11
1. Power In, +24VDC @ 750mA
3. DC Power Return
4. Power Monitor Input
5. Tamper Input
6. Remote Arm/Disarm Input
7. Tamper & Power Monitor Common
10. Earth Ground
B.
F5
F6
1
1
P9
Relay Outputs
P10
Door 1 Open Input
Input Common
Door 1 REX Input
Input Common
Door 2 Open Input
Input Common
Door 2 REX Input
Input Common
1.
2.
3.
4.
5.
6.
7.
8.
F7
CAUTION:
All inputs are dry
contacts, 0-5VDC only
Relays are 1 Form C,
5Amps @ 24VDC
P9
1. Lock Contact 1 NC
2. Lock Contact 1 Common
3. Lock Contact 1 NO
4. Lock Contact 2 NC
5. Lock Contact 2 Common
6. Lock Contact 2 NO
7. Alarm Contact NC
8. Alarm Contact Common
9. Alarm Contact NO
10. Arm Contact NC
11. Arm Contact Common
12. Arm Contact NO
SE 422 MI-7 Connection Diagram (MI-14 has similar connections)
J4
2. CHASSIS GROUND
1. SHIELD
ALL MONITOR POINT
INPUTS REQUIRE
TERMINATING RESISTORS 2000 OHMS.
1
J4
STATUS
INDICATOR
J1
J1
1
*
+
–
+
–
+
–
+
–
+
–
+
–
+
–
TAMPER SWITCH NORMALLY
INSTALLED HERE.
POWER FUSE IS 3A,
LF 273300 OR
EQUIVALENT.
WSE • 3/21/97
6.
5.
4.
3.
2.
1.
F2
1
EPROM
* 1. MONITOR POINT 0
* 2. MONITOR POINT 0
3. MONITOR POINT 1
4. MONITOR POINT 1
5. MONITOR POINT 2
6. MONITOR POINT 2
7. MONITOR POINT 3
8. MONITOR POINT 3
9. MONITOR POINT 4
10. MONITOR POINT 4
11. MONITOR POINT 5
12. MONITOR POINT 5
13. MONITOR POINT 6
14. MONITOR POINT 6
15. NO CONNECTION
POWER FUSE
F1
SW1
▲
RELAY
OUTPUT
FUSES
SW2
▲
1
J5
POWER
INDICATOR
J2 1
RELAY
RELAY
RELAY
RELAY
RELAY
RELAY
1
1
1
2
2
2
N.C.
COMMON
N.O.
N.C.
COMMON
N.O.
RELAY OUTPUT
FUSES ARE 5A,
LF 273500 OR
EQUIVALENT.
F3
J3 1
J2/J3
1.
2.
3.
4.
5.
J5
RELAY OUTPUTS
PWR + (17VDC MIN)
DATA+
DATA –
PWR – (DC–)
SIGNAL GROUND
EARTH
GROUND
16720 — B
CAUTION:
APPLICATION OF
MORE THAN
26VDC TO ANY
PIN MAY DAMAGE
DEVICE.
SE 422 Access Control System
C.
SE 422RO Connection Diagram
J4
1
J4
STATUS
INDICATOR
ALL MONITOR POINT
INPUTS REQUIRE
TERMI-NATING RESISTORS 2000 OHMS.
F2
J1
J1
1
EPROM
*1. MONITOR POINT 0 +
*2. MONITOR POINT 0 –
3. NO CONNECTION
* TAMPER SWITCH
RELAY F3
OUTPUT F4
FUSES
F5
1
SW1
SW2
▲
▲
F6
NORMALLY INSTALLED
HERE.
POWER FUSE
F1
J2 1
POWER FUSE IS 3A,
LF 273300 OR
EQUIVALENT.
1
J5
POWER
INDICATOR
J3 1
J2/J3
CAUTION: APPLICATION
OF MORE THAN 36VDC TO
ANY PIN MAY DAMAGE
DEVICE.
1.
2.
3.
4.
5.
2. CHASSIS GROUND
1. SHIELD
J5
RELAY OUTPUTS
15.
14.
13.
12.
11.
10.
9.
8.
7.
6.
5.
4.
3.
2.
1.
RELAY
RELAY
RELAY
RELAY
RELAY
RELAY
RELAY
RELAY
RELAY
RELAY
RELAY
RELAY
RELAY
RELAY
RELAY
1
1
1
2
2
2
3
3
3
4
4
4
5
5
5
N.C.
COMMON
N.O.
N.C.
COMMON
N.O.
N.C.
COMMON
N.O.
N.C.
COMMON
N.O.
N.C.
COMMON
N.O.
EARTH
GROUND
PWR + (17VDC MIN)
DATA+
DATA –
PWR – (DC–)
SIGNAL GROUND
RELAY OUTPUT
FUSES ARE 5A,
LF 273500 OR
EQUIVALENT.
D. Sensor Interface-1 (SI-1) Connection Diagram
SI-1
J6
J6
TO 28XX SENSOR
▲
SW2
SW1
EC-NET
P-NET
J3
1
J2
1
J1
1
J2/J3
J1
1. PWR+
2. EC-NET DATA+
3. EC-NET DATA–
4. P W R –
5. SHIELD
E.
1. P-NET RX
2. P-NET TX
3. P W R +
4. DC GND
5. TAMPER INPUT HIGH
6. TAMPER INPUT LOW
Sensor Interface-2 (SI-2) Connection Diagram
CHASSIS GROUND
J1/J2
1. POWER+
2 . DATA A
3 . DATA B
4. GROUND
5. SHIELD
RETURN
1
J1
1
J2
1
J3
CJ1
TO 28XX SENSOR
CJ2
TO 28XX SENSOR
SW1
SW2
J3
1. MONITOR PT 1A
2 . MONITOR PT 1B
3 . MONITOR PT 2A
4 . MONITOR PT 2B
WSE • 3/21/97
SI-2
16720 — C
SE 422 Access C ontrol System
.4
SAMPLE SYSTEM DIAGRAMS
A.
Digital Proximity
Door 1
Door 2
Modem
Public phone
system
DigiReader
DigiReader
Keypad
Keypad
Local
Terminal
(optional)
Host
(optional)
Modem
Video
monitor
to CCTV
camera
LEGEND
Coax
RS-232
RS-485 S-net
Twisted pair wire
Phone line
Power
supply*
Battery
(optional)
* UL 294 requires:
AS/PS5-BFS-24-UL
Power Supply (UL-PS)
SE 422MI-14
SE 422MI-14
Door switch
Door switch
Fire sensor
Fire sensor
Motion sensor (REX)
Motion sensor (REX)
Glass break detector
Glass break detector
SE 422MI
SE 422MI
Video
switcher
Alarm
Lock
Lock
to video monitor
CCTV camera
B.
Magnetic Stripe with Keypad
Door 1
Modem
Public phone
system
MSRK42
Magnetic
stripe reader
w/keypad
Local
Terminal
(optional)
Host
(optional)
Door 2
Modem
Video
monitor
LEGEND
Coax
RS-232
RS-485 S-net
Twisted pair wire
Phone line
MSRK42
Magnetic
stripe reader
w/keypad
to CCTV
camera
Power
supply*
Battery
(optional)
* UL 294 requires:
AS/PS5-BFS-24-UL
Power Supply (UL-PS)
SE 422MI-14
SE 422MI-14
Door switch
Door switch
Fire sensor
Fire sensor
Motion sensor (REX)
Motion sensor (REX)
Glass break detector
Glass break detector
SE 422MI
SE 422MI
Video
switcher
Alarm
Lock
Lock
to video monitor
CCTV camera
WSE • 3/21/97
16720 — D
SE 422 Access Control System
C.
Analog Proximity
Door 1
Door 2
SI-2
Modem
Public phone
system
Local
Terminal
(optional)
Host
(optional)
Modem
Video
monitor
LEGEND
Coax
RS-232
RS-485 S-net
Twisted pair wire
Phone line
SE 2814
SE 2814
to CCTV
Keypad
Keypad
Power
supply*
Battery
(optional)
* UL 294 requires:
AS/PS5-BFS-24-UL
Power Supply (UL-PS)
SE 422MI-14
SE 422MI-14
Door switch
Door switch
Fire sensor
Fire sensor
Motion sensor (REX)
Motion sensor (REX)
Glass break detector
Glass break detector
SE 422MI
SE 422MI
Video
switcher
Alarm
Lock
Lock
to video monitor
CCTV camera
WSE • 3/21/97
16720 — E
SE 422 Access C ontrol System