Alarm Lock PDL3000 Programming Instructions Manual

Trilogy
345 Bayview Avenue
Amityville, New York 11701
For Sales and Repairs 1-800-ALA-LOCK
For Technical Service 1-800-645-9440
Publicly traded on NASDAQ Symbol: NSSC
© ALARM LOCK 2006
PDL3000, PDL3500 & ETPDL
Programming Instructions
WI1021C 9/06
PDL3000
PDL3500
HID
HID CORPORATION
PROXCARD®
AL-DTM
DATA TRANSFER
MODULE
PROXKEY®
KEYFOB
DL-WINDOWS PROGRAMMING
SOFTWARE
AL-PRE PROXCARD®
READER / ENROLLER
ETPDL
AL-IR1 PRINTER
PDL Trilogy Series
Stand-Alone Access Control Systems
with ProxCard
®
Access
1
PDL SERIES LOCKS
THE ALARM LOCK TRILOGY PDL-SERIES STAND-ALONE ACCESS CONTROL SYSTEM IS A SERIES OF STATE-OF-
THE-ART MICROPROCESSOR-BASED PROGRAMMABLE KEYPAD-ENTRY AND PROXIMITY SECURITY LOCKS.
PDL3000, PDL3500 & ETPDL
Features an HID compatible ProxCard® reader, and a real-time clock/calendar that automatically adjusts for Daylight Saving Time and allows for automated programming of events. Features three methods of programming: (1) all fea­tures can be programmed manually through the keypad; (2) you can transfer pro­gramming instructions directly from your laptop or desktop PC using DL Win­dows software and a special AL-PCI cable; and (3) data can be transferred from
PDL3000
PDL3500
ETPDL
your PC to your PDL lock via the AL DTM2 handheld Data Transfer Module. In addition, data can be retrieved from the lock in one of three ways (1) through an infrared printer; (2) directly from the lock to the PC; or (3) through an AL-DTM2 to your PC.
The PDL Series locks include several lock types: a cylindrical-based lock (PDL3000), a mortise-based lock for additional hardware security (PDL3500), and a mortise-based lock for use with push bar applications (ETPDL).
Programming is identical for all locks.
Note: ProxCard® and ProxKey® are trademarks of the HID© Corporation.
Table of Contents
PDL Series Lock Features ................................. 3
Supported Products ........................................... 4
Lock Design Overview ....................................... 5
Terminology Used in this Manual ..................... 6
Programming Levels .......................................... 8
Conventions Used in this Manual ..................... 9
LED and Sounder Indicators ............................. 9
Product Communication Examples ................. 10
Wiring and Power Up .......................................... 11
Quick Start ............................................................ 12
Testing the Codes Entered ................................ 14
Programming Functions Overview ...................15
Programming Functions .....................................16-29
Groups and Scheduled Group 1 Examples .....30
Programming Record Sheet ...............................32
User Code Record Sheet ....................................33
Schedule Record Sheet ......................................34
Glossary ................................................................35-36
Warranty ................................................................ 36
2
PDL Series Lock Features
Audit Trail
40,000 Event Capacity
Entries Logged with Time and Date
Critical Programming Events Logged
Printable using the AL-IR1 Hand-Held Printer (see page 23, Function 55)
Uploadable using Alarm Lock's DL-Windows software (see page 23, Function 58)
Transferable to AL-DTMs (see page 24, Function 59)
Lock Features
Metal Key Override for all cylindrical locks
Keypad Lockout (see page 24, Functions 60-61)
Non-Volatile (Fixed) Memory
Real-Time Clock (within one second accuracy)
(see page 21, Functions 43-44)
Programmable Relay (see page 25)
Visual and Audible Keypad Feedback (see page 9)
Battery Status Monitor (see page 9)
Scheduling
500 Scheduled Events (see pages 26-29)
Automated Unlock/Lock
Enable/Disable Users (see page 17, Function 3)
Enable/Disable Groups (see page 18)
Four "Quick Schedules" (contains 4 most common schedules) (see page 27)
Real-time clock and calendar (see page 20)
Programmable Timeout Functions (see page 17-21)
User Access Methods
Keypad Entered User Codes (see pages 12-13, 16)
ProxCard
User Code and ProxCard
Batch Enroll - Quickly and easily enroll multiple ProxCards
without the use of a PC. (see page 13) Note: ProxCards references to the ProxCard
®
and ProxKey® Keyfob (see page 13)
®
®
(For highest security) (see page 13)
and ProxKey® Keyfobs both function identically. Keyfobs can be substituted for all
®
in this manual.
User Features
2000 Users (see pages 12-13, 16)
6 Pre-defined Administration User Levels including Master, Installer, Manager, Supervisor, Print-Only and
Basic User Codes (see page 9)
User Code Lengths from 3-6 digits
Service Code (“One-Time-Only” Code) (see page 7)
User Lockout Mode (see page 17, Function 6)
Users Assignable to 4 Groups (see page 30)
Ambush Function (see page 24, Function 66)
Keypad and Computer Programming
All programming may be performed manually from the keypad, or from a PC using Alarm Lock's DL­Windows Software (see page 5)
Two-Color Status LED
Infrared LED (for Printer)
ProxCard / Keyfob Reader
PC / AL-DTM2 Interface
®
and ProxKey® keyfobs
HID
HID
3
Supported Products
Data Transfer Module (AL-DTM) An AL-DTM can be used to transfer Lock Programs (and other data) between DL-Windows and locks. When computers cannot be transported or when electrical power is not available, the hand-held AL-DTM device acts as a go-between--it allows the transfer of lock data from the computer (through the AL-DTM) and to the lock, or in reverse (from the lock through the AL-DTM back to the computer).
Prox Card Reader/Enroller (AL-PRE) An AL-PRE is used to quickly enroll multiple ProxCards need to manually type User Codes. Use the supplied 9-pin DB9 to DB9 serial cable to connect the AL-PRE to your computer’s serial COM port. Compatible with most HID ProxCards
®
and ProxKey® keyfobs into DL-Windows without the
®
and ProxKey® keyfobs (37 bits or
less). For PDL series locks only.
Infrared Printer (AL-IR1)
An AL-IR1 printer is used to print Audit Trails and User Code lists without the need for a PC. Its infrared reader means no cable connection to the lock is needed.
HID
HID CORPORATION
ProxCard® / ProxKey® Keyfob
Compatible with most HID ProxCards and ProxKey
Note: ProxCard® and ProxKey® are trademarks of the
®
keyfobs (37 bits or less).
HID© Corporation.
®
AL-PCI Cable
An ALARM LOCK AL-PCI cable is required to communicate between your computer’s RS-232 serial com­munications port (COM 1-4) and the AL-DTM or lock. One end of the AL-PCI cable is designed to be used on a 9-pin serial Com Port. If your computer has a 25-pin Com Port only, a 25-pin to 9-pin adapter must be used. The other end of the AL-PCI cable features a 2-pin banana plug connector which is polarity sensitive-
-the TAB (marked “GND”) side must be plugged into the lock’s black (left) terminal.
Double-ended Mini Banana Plug Connector After you create the program in DL-Windows and transfer the program from your computer to an AL-DTM, transfer the program from the AL-DTM to the lock(s) via a double-ended mini banana plug.
DB9 to DB9 Serial Cable Enroll ProxCards quickly into DL-Windows, then transfer this new ProxCard
®
data from the computer to
the AL-PRE via this 9-pin DB9 to DB9 serial cable. Once the data is in the AL-PRE, you can transfer the data to the lock via the double-ended mini banana plug (see above), thus avoiding the need to use an AL-
PCI cable for this process.
USB to RS-232 Cable
If your computer does not have a serial COM port (DB-9 male) available, you can plug your AL­PCI2 cable into a special USB to RS-232 cable. Order part PCI-USB for the USB to RS-232 cable only, or ALPCI2-U for both the USB to RS-232 cable and an AL-PCI2 cable).
4
Lock Design Overview
Why Use Software inside a Lock?
With ordinary door locks, the need to make physical copies of metal keys and distributing them can be a huge organizational and finan­cial task -- and what will you do if someone causes a security breach by losing their key?
The answer lies in the advantage of SOFTWARE. Software (also called "firmware") is not "hard" or "fixed" like hardware is. Software is "soft" -- flexible and changeable to your needs. Software exists inside your Alarm Lock™ series lock, and can be programmed (and re­programmed again and again) to suit your changing requirements. No more metal keys to distribute...instead, distribute User Codes -- and delete them from the software when needed. (A User Code is the software equivalent of a metal key--it is a series of numbers the User enters into the door lock keypad to unlock the lock).
Preparing to Program your Lock
At first glance, your new PDL series lock may look complicated, but it is in fact designed in a very straightforward way. The keypad contains 12 buttons, numbers 1 through 9 plus zero, a star button (:) and a special "AL" button (;). These 12 buttons are all
you need to program your lock. In addition to manually programming your lock (using only the keypad), you can also program your lock using a computer program called DL-Windows. DL-Windows is not needed--but it makes programming faster and easier. This guide will show you how to program your lock manually, without DL-Windows. (For more information about DL-Windows, see User Guide OI237).
Programming your lock begins after you unpack it from the box -- there is a specific procedure outlined in "Quick Start" (page 12) in which you "wake up" the lock to prepare it for programming. This "Quick Start" procedure shows you all the steps required to get your lock to start working. To begin programming, you must first enter something called "Program Mode".
What is Program Mode?
Most technical people find working with "hardware" easy--they use tools to make fixes or changes to hardware. But with the soft­ware inside the lock, you enact changes (you "interface") through the keypad. The software has only two "modes"--"Normal
Mode" and "Program Mode". When you want to make changes to the lock program, you enter "Program Mode". When you finish programming and wish to put the lock into use, you exit Program Mode to enter "Normal Mode".
You enter Program Mode using the keypad--by pressing the Master Code of the lock that was set at the factory. The Master Code is basically a secret passcode that allows you to enter Program Mode. But since all locks are identical and leave the factory with the same Master Code, the factory Master Code is therefore not very secret--and should be changed to your own personal Master Code. This way, only YOU can enter Program Mode and make changes to the lock programming.
Once the new Master Code is set , then you can continue with the Quick Start procedure and set the weekday, date and time. Af­ter this, you can start entering User Codes for people to use. All changes to the lock are organized by their Function Number. Want to change the date? Use Function Number 38. Want to add a User Code? Use Function Number 2. There are 99 Func­tions in total, some that you will use often, and others that you may never need.
Notice that when you program your lock, programming tends to follow a
(2) Press ; followed by the Function # (3) Press ; and enter data (4) Press : to end (5) Exit Program Mode.
Turn the page and learn about the special terminology used with your lock. Once that is clear, use the Quick Start proce­dure on page 12 to help you get up and running.
consistent 5-step pattern: (1) Enter Program Mode
Two-Color Status LED
Infrared LED (for Printer)
ProxCard / Keyfob Reader
PC / AL-DTM2 Interface
Special "AL" (;) Key
"STAR" (:) Key
5
Terminology Used in this Manual
What is a Lock Program?
A Lock Program contains the instructions that a lock uses to per­form its various functions. You can use the keypad to create a Lock Program stored within the lock. You can also use DL­Windows (defined below) to create a Lock Program on your com­puter, and then transfer and store the Program in the circuitry con­tained inside the lock itself. The Lock Program is essentially a computer database file that maintains feature settings, schedules, audit trails, etc. Using DL Windows, Lock Programs can be cre­ated with default information, edited on your PC, and then sent to (and even received from) locks.
The Lock Program consists of 4 areas: User Codes, Features,
Time Zones, and Schedules, all defined below:
What are User Codes?
Also called User Access Codes or PIN No. Codes, User Codes are numbers the User enters into the lock keypad to unlock the lock. The User Codes are part of the Lock Program, and the Lock Program is stored in the lock circuitry awaiting the Users to key in their User Codes.
What are Features?
Your lock is designed to support several options and functions. Using the keypad or DL-Windows software (the Programmable Features window), you can select the features you wish to acti­vate, such as if the lock will automatically adjust for Daylight Sav­ing Time in the spring and autumn, or if the lock sounder should be disabled or enabled.
What is a TimeZone?
Events (recorded lock activities) can be programmed to occur at certain times. It is these times (for example, “every Tuesday at 5PM”) that are referred to as TimeZones. TimeZones can be cre­ated manually through the keypad. In DL-Windows, you can use the Schedule-TimeZone screen to create these TimeZones, and once created, you can link events to these TimeZones.
What is a Schedule?
Your lock can be programmed to maintain a schedule in which certain events can occur automatically. For example, you can pro­gram the lock to allow Groups of Users (with their User Codes) access ONLY during specific business hours. With another exam­ple, you can program another lock to UNLOCK at 9am, LOCK at noon for lunch, UNLOCK at 1pm, and LOCK again at 5pm--every weekday. As you can see, many different combinations of Sched­ules can be created to suit the needs of the Users. First you cre­ate TimeZones (see above). Next you create events and link them to your TimeZones (also using the Schedule-TimeZone screen in DL-Windows). When finished, you can view (in DL-Windows) your schedule in the Schedule View screen.
What is a User?
A User is a person who is authorized to simply use or make certain programming changes to the lock. This User can be anyone--from a one-time visitor (who will almost certainly have no authority to make changes) to the owner of the building in which the lock is installed (who will probably wish to have total authority to make changes). The PDL Series locks can hold up to 2000 Users in its programming memory, and each User possesses a pre-defined level of authority--a Programming Level--as to their ability to use or make changes to the lock.
What is a Programming Level?
The Programming Level defines the range of programming tasks a User is allowed to perform. The higher the Level, the more pro­gramming tasks the User is allowed (with Master allowing ALL tasks).
Note: Since the Programming Level is closely associated with the type of User and their abilities, a User who holds a certain Pro­gramming Level is sometimes referred to by their “User Type”.
For example, PDL Series locks can hold up to 2000 Users in its programming memory, and each User is associated with a User Number (see definition of "User Number" below) and therefore a specific Programming Level, as follows:
Master: Always associated with User Number 1. Is always en-
abled and can program all functions. (Abbreviated as Programming Level = M).
Installer: Always associated with User Numbers 2 and 3. Can
program all functions except changing the Master Code. (Abbreviated as Programming Level = 4).
Manager: Always associated with User Numbers 4, 5, and 6.
Can program all functions except functions relating to lock configuration. (Abbreviated as Programming Level = 3).
Supervisor: Always associated with User Numbers 7, 8 and 9.
Can only program functions relating to day to day operation. (Abbreviated as Programming Level = 2).
Print Only Users: Always associated with User Numbers 10 &
11. Restricted to print event logs only. No other programming ability allowed. (Abbreviated as Programming Level = 1).
Basic Users: Always associated with User Number 12 and higher
(except 297-300). No programming ability allowed. Most Users are Basic Users, who are given their own personal User Codes and are only allowed to simply unlock the lock when desired.
Programming Levels are hierarchical--higher levels are allowed to do anything the levels below them can do. For example, if you are a Manager, you are allowed to do anything that Supervisors, Print- Only Users and Basic Users can do in addition to those tasks al­lowed for Managers (Level 3). Note: The above Programming
Levels apply to the PDL series locks only. For the DL2800/ DL3000 series locks, the Programming Levels are slightly dif­ferent. See page 8 for more information.
What is the Minimum Required Program Level?
This Programming Level abbreviation is the minimum program- ming level required to access the particular Function. (The higher the level number, the more programming tasks the User is al­lowed, with Master allowing all tasks).
In this manual, Programming Levels for the DL3500, PDL3000 and PDL3500 are abbreviated as follows: M = Master, 4 = Installer, 3 = Manager, 2 = Supervisor, 1 = Print Only Users
For the DL3000, the Master is abbreviated with an "M", and all other Levels are hierarchical, with higher levels being allowed to do anything the levels below them can do. Therefore Level 4 is "higher" than level 3. See page 8 for more information.
What is a User Number?
(User Number = Location Number = User Location = Slot in Lock) User Numbers are used and are significant within each individual lock only. The User Number determines the Programming Level for each User. For example, PDL Series locks can hold up to
6
Terminology Used in this Manual (cont'd)
2000 Users in its programming memory. This memory can be thought of as simply a numbered list from 1 through 2000. Each entry in the list is represented by a User Number. Therefore, where a User is located in this list--their User Location--is a com­monly used description of their User Number. Because of their similarities, a User Number, User Location and Location Number can be used interchangeably. In some DL-Windows screens, the word "Slot" is also used. They all mean the same thing.
Since User Numbers are fixed, knowing a User Number will spec­ify the associated Programming Level, and will in turn indicate a User’s programming abilities. For example, User Number 1 is always the Master, who can perform all programming tasks.
Programming Levels are hierarchical--higher levels are allowed to do anything the levels below them can do. For example, if you are User 2, you are allowed to do anything that Users 3 through 2000 can do. The DL3000/DL3500 series locks can hold up to 300 Users in its memory, however, the definition of a User Num­ber is the same for these locks as well.
What is a Group?
With many lock applications, it is convenient for large numbers of similar Users to be grouped together. Placing Users into Groups (by assigning them specific User Numbers) allows large numbers of Users to be controlled all at once rather than individually-­saving time and effort. Groups are controlled via schedules, and a typical example involves enabling or disabling a Group at a cer­tain time. Default Group associations are specified in the tables on page 8. For example, if you wish to add a User to Group 1, assign this User a User Number between 51 and 100. These default Group associations can be changed if needed to allow Groups larger than the default number of 50 (by using keypad Function 35). (See page 18 for some Group function examples).
Who are Users 297-300?
Users assigned to User Numbers 297, 298, 299 and 300 have special abilities, as follows:
User 297: Quick Enable User 300
User 297 possesses the unique ability to enable the User Code associated with User 300. User 297 does this by first entering their own User 297 User Code into the lock keypad. When User 300 subsequently enters their User 300 User Code, the lock al­lows access (for one time) and then the User 300 User Code becomes disabled.
For example, you wish to allow one-time access to a temporary worker. Simply enter the User 297 User Code into the lock key­pad. Later, when the temporary worker enters the User 300 User Code into the lock keypad, the User 300 User Code allows access (for one time only) and then becomes disabled. Later, if you wish to grant the temporary worker re-access, simply re­enter the User 297 User Code and the User 300 User Code will be re-enabled (again for one time only).
User 298: Quick PC Access Code
Entering the User Code for User 298 enables that User to send data to or from the lock. Therefore, User 298 can activate what is the equivalent of Function 58 in Program Mode (see page 23), without the need to enter Program Mode nor the need to know the Master Code of the lock. An AL-PCI cable with a PC is re­quired.
User 299: AL-DTM Code
This is the only User Code that will initiate data transfer with the AL-DTM--and without allowing the User to pass through the door (the User Code for User 299 is not an Access Code). An AL­PCI cable and an AL-DTM (first programmed by the computer via the DTM or DTM2 screen in DL-Windows) is required.
User 300: One-Time Only Service Code
This is a One-Time Only Service User Code enabled by User
297. For example, User Code 300 is sometimes used for guard tour duties. See User 297: Quick Enable User 300 above.
What is DL-Windows?
DL-Windows is a computer program that allows you to program your ALARM LOCK T3 Security Lock. You do not need DL­Windows to program your lock, but it makes programming much faster and easier. With DL-Windows, you can quickly create Lock Programs (programs that make the lock perform its many func­tions) add multiple Users (who have access), add ProxCards ProxKey
®
keyfobs, retrieve event logs, and create Schedules. The benefit of DL-Windows is that it allows you to set up all lock pro­gramming in advance (on your computer), and then later send the information to the locks at your convenience.
®
and
7
Programming Levels
The Programming Level defines the range of programming tasks a User is allowed to perform. The higher the Level, the more pro­gramming tasks the User is allowed (with Master allowing ALL tasks).
Note: Since the Programming Level is closely associated with the type of User and their abilities, a User who holds a certain Programming Level is sometimes referred to by their “User Type”.
For example, PDL Series locks can hold up to 2000 Users in its programming memory, and each User is associated with a User Number (see definition of "User Number" in the previous "Terminology" section) and therefore a specific Programming Level, as follows:
Master: Always associated with User number 1. Is always en-
abled and can program all functions. (Abbreviated as Programming Level = M).
Installer: Always associated with Users 2 and 3. Can program
all functions except changing the Master Code. (Abbreviated
Lock Defaults for PDL3000/3500 & ETPDL
Users added will default to a Group Association and a Program Level Ability as follows:
USER TYPE USER NUMBER GROUP DEFAULT
as Programming Level = 4).
Manager: Always associated with Users 4, 5, and 6. Can pro-
gram all functions except functions relating to lock configuration. (Abbreviated as Programming Level = 3).
Supervisor: Always associated with Users 7, 8 and 9. Can only
program functions relating to day to day operation. (Abbreviated as Programming Level = 2).
Print Only Users: Always associated with Users 10 & 11.
Restricted to print audit trails only. No other programming ability allowed. (Abbreviated as Programming Level = 1).
Basic Users: Always associated with User number 12 and
higher (except 297-300). No programming ability allowed.
Programming Levels are hierarchical--higher levels are allowed to do anything the levels below them can do. For example, if you are a Manager, you are allowed to do anything that Supervisors, Print-Only Users and Basic Users can do in addition to those tasks allowed for Managers (Level 3).
MINIMUM PROGRAM
ASSOCIATION
LEVEL (See page 6)
Master Code 1 - M
Installer Codes 2 & 3 none 4
Manager Codes 4 - 6 none 3
Supervisor Codes 7 - 9 none 2
Print Only Codes 10 - 11 none 1
Basic User Codes 12 - 50 none none
Basic User Codes Group 1 51 - 100 1 none
Basic User Codes Group 2 101 - 150 2 none
Basic User Codes Group 3 151 - 200 3 none
Basic User Codes Group 4 201 - 250 4 none
Basic User Codes 251 - 296 none none
Quick Enable User 300 Code 297 none none
Quick PC Access Code 298 none none
AL-DTM Code 299 none none
Service Code 300 none none
Basic User Codes 301-2000 none none
NOTES:
User 299 is a Non-Pass Code. This is the only code that will initiate data transfer with the AL-DTM.
8
Conventions Used in this Manual
2
Minimum Required Program Level
Program Levels are abbreviated as follows:
M = Master 4 = Installer 3 = Manager 2 = Supervisor 1 = Print Only Users
This Program Level abbreviation is the minimum program level required to access the particular Function. (The higher the level, the more programming tasks the User is allowed, with Master allowing all tasks).
Programming Key Sequence.
Function
Description
Programming
Information
Function
Number
Enabling/Disabling Users (By User Number)
User Number must be between 2 and 2000. NOTE: Will Enable/Disable users even if the user is assoc iated with an enabled group.
3. Disable User
4. Enable User ; 4 ; [ _ _ _ ] :
Function Name
; 3 ; [ _ _ _ ] :
General Program Mode Information
If a wrong key is pressed during code entry, hold any key continuously until the error sound is heard (7 short beeps), this will clear the entry. Re-enter the key sequence again.
All program sequences are followed by the : key; 2 short beeps indicate a successful program sequence.
LED and Sounder Indicators
The PDL Series locks provide visual and audible keypad feedback. With a fully charged battery, the LED and sounder feed­back is as follows:
ACTIVITY LED SOUNDER COMMENTS
Keypress 1 RED Flash 1 Beep Normal Operation
Access Granted or Remote Release 3 GREEN Flashes 3 Beeps Remote release enabled through activa-
Invalid Code 6 RED Flashes 6 Beeps Re-enter User Code
Successful Program Entry 2 GREEN Flashes 2 Beeps When in Program Mode
Unsuccessful Program Entry 7 RED Flashes 7 Beeps When in Program Mode
Exit Program Mode 1 RED, 2 GREEN Flashes 10 Beeps
Valid but Disabled Code 1 GREEN, 4 RED Flashes 1 long, 5 short beeps Code exists in memory, but disabled
Low Battery YELLOW Flash during key
presses
User Code Entered YELLOW Flash Sequence of 7 Beeps
Long Beep See page 11 before changing batteries
Repeated 4 Times
Non-fatal memory or clock error has been
detected. Under this condition,
unexpected operation is possible. Re-
tion of relay
move power and restart.
9
Product Communication Examples
Send to lock
AL-PCI CABLE
CONNECT TO S ERIAL PORT
(COM 1-4)
NOTE: OBSERVE TAB DIRECTION WHEN
INSERTING CABLE INTO LOCK
IBM COMPATA BLE
LAPTOP OR DESKTOP PC
PDL3000 LOCK
Scenario 1 Create the program in DL-Windows on your computer, then transfer the program from the computer directly to the lock via an
AL-PCI cable. You must always enter the User 298 User Code to send or receive data Using DL-Windows.
AL-PCI CABLE
CONNECT TO S ERIAL PORT
IBM COMPATA BLE
LAPTOP OR DESKTOP PC
(COM 1-4)
NOTE: OBSERVE TAB DIRECTION WHEN
INSERTING CABLE INTO LOCK
AL-DTM DATA
TRANSFER
MODULE
DOUBLE-ENDED MINI BANANA
PLUG CONNECTOR
NOTE: OBSERVE TAB DIREC-
TION WHEN INSERTING CABLE
INTO AL-DTM AND LOCK
If your computer does not have a serial COM port (DB-9 male) available, you can plug your AL-PCI2 cable into a special USB to RS-232 cable. Order part PCI-USB for the USB to RS-232 cable only, or ALPCI2-U for both the USB to RS-232 cable and an AL-PCI2 cable).
Receive from lock
PDL3000 LOCK
Scenario 2 Create the program in DL-Windows and transfer the program from your computer to an AL-DTM (via an AL-PCI cable)…
then transfer the program from the AL-DTM to the lock(s) (via a double-ended mini banana plug). The hand-held AL-DTM is useful because you do not have to transport (or find electricity for) your computer. Data can also flow in reverse, from the lock, through the AL-DTM, back to the computer for examination.
IBM COMPATABLE
LAPTOP OR DESKTOP PC
CONNECT DB9 CABLE TO COMPUTER S ERIAL
PORT (COM 1-4)
DB9 to DB9 Serial
Cable (supplied)
AL-PRE PROXCA RD READER/
ENROLLER
DOUBLE-ENDED MINI BANANA
PLUG CONNECTOR
NOTE: OBSERVE TAB DIREC-
TION WHEN INSERTING CABLE
INTO AL-PRE AND LOCK
PDL3000 LOCK
Scenario 3 Enroll ProxCards® quickly into DL-Windows, then transfer this new ProxCard® data from the computer through the AL-PRE
to the lock (thus avoiding the need to use an AL-PCI cable). For PDL series locks only.
AL-IR1
PDL3000 LOCK
INFRARED PRINTER
Scenario 4 Use the AL-IR1 Infrared printer to print your lock’s audit trail (event log), User Code list, clock settings and software
version. No cable required.
NOTE:
The AL-PCI cable is designed to be used on a 9 pin serial COM port. If your computer has a 25 pin COM port, a 25 pin to 9 pin adapter must be used. Warning: Polarity MUST be observed when connecting cables to the lock. The tab (-) must plug into the negative (black) hole.
10
Wiring and Power Up
WIRING
See the Installation Manual for more information.
Batteries:
Use only 1.5 volt Duracell Alkaline size-AA batteries.
External Power:
Red / Black wires - External 7.5 VDC Power Source must be used for operation without batteries.
Remote Input:
White / White wires - Wire a Normally Open Contact to wires (white and white). Momentarily close to allow person to pass through door. NOTE: Remote Input
is enabled from the factory. (See page 24)
Relay:
COM-Blue / NO-Yellow / NC-Green - See page 25 (Function 67) for programming options for the Relay.
Wiring to Disarm a Burglary Control Panel
Burglary Control Panel wiring. See page 28.
POWER UP
When applying power to the lock for the first time, stop
and follow the procedure outlined in "Quick Start, First time Power Up" further in this manual.
When power is re-applied to a lock that was already op-
erational, proceed as follows:
1. Disconnect battery pack connector.
2. With battery power disconnected, press and hold
down
; for 10 seconds to insure discharge of all ca-
pacitors.
3. Re-connect battery pack (lock will sound 3 short beeps). If beeps are not heard, then restart at step 1.
4. Do not press any keys for 15 seconds.
5. After 15 seconds, the LED will flash red 6 times and 6 beeps will sound.
The lock is now ready for use. The pre-existing program is loaded from fixed memory. Set the clock using functions 38, 39 and 40.
4. Within 5 seconds after hearing the 3 short beeps, press and hold
5. A series of 5 RED LED and 5 beeps will be heard followed by 10 seconds of silence, then 3 GREEN LEDs and 3 fast beeps.
All settings and programming have been erased and the lock is now ready for use. Note: All lock programming can also be erased (without need to disconnect the batteries) by entering Function 99.
; until the lock begins to beep, then release.
BATTERY REPLACEMENT
When a valid code is entered and the batteries are weak, the yellow LED will light and the sounder will sound for 4 seconds. DL Series locks use five (5) AA-size 1.5 volt alkaline batteries. Always replace weak batteries as soon as possible.
CAUTION: Do not press any keys while batteries are dis­connected or you may erase the real-time clock settings.
1. At the back of the lock, remove the screw at the bottom of the lock housing and remove the cover.
2. Pull out the battery pack and quickly replace all 5 batteries ­within 1 minute.
3. If you do not hear the 3 beeps when power is re-applied, all programming and settings have been retained, and the lock is ready for use. Go to step 5.
4. If you do hear 3 beeps when power is re-applied, do not press any keys for 15 seconds. After the 15 second period, the LED will flash red 6 times and 6 beeps will sound. Reset the clock using functions 38, 39 and 40.
5. Replace the cover and tighten the screw.
ERASE ALL PROGRAMMING
(The "out of box" factory default will be loaded)
1. Remove the battery pack.
2. With battery power disconnected, press and hold
; for 10 seconds to ensure discharge of all ca-
down
pacitors.
3. Re-install the battery pack (lock will sound 3 short beeps). If beeps are not heard, then restart at step 1.
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