User`s Manual - Quest Controls Inc.
Contents
1. gt Figure 6 Wire Wrap Block 4 6 2 Krone Punch Block A punch block p n 300158 can be used for either wall or rack mounting of field terminations Use the included mounting bar for mounting to a rack or mount with appropriate anchors not provided to a wall Each block can support two ports for a total of 32 inputs and 16 outputs Connect the punch block to the TELSEC with 25 pair cable p n 300705 Make sure the connector is seated properly into the connector at each end and secured with the locking screw and tie wrap See figure 7 Figure 7 Krone Punch Block 4 6 3 Control Interface Module CIM The CIM p n 150642 is used for when wall mount mounting of field wiring is desired or if the field wiring being used is stranded or larger gauge 12AWG to 22AWG wire Each CIM supports 16 inputs and 8 outputs and has a 50 pin amphenol connector on the bottom to allow for connection to the TELSEC via a 25 pair cable p n 300705 Make sure the connecter is seated properly into the connector at each end and secured with the locking screw and tie wrap See figure 8 2 9 RM WMW 800 Manual Rev 3 0 9 9 09 Chapter 4 Installation Instructions Quest Controls Inc TELSEC 2000 1500 RM WM 3 Monitoring Control amp Tes2. ws TO K1 E m D I AAA T EENI ELECTRIC DOOR LATCH d E TITLE THE INFORMATION CONTAINED IN THIS EE Z CEV RETROFIT 2 AC UNITS DOCUMENT IS CONSIDERED PROPRIETARY AND 2 Fa Senay SATE CONFIDENTIAL AND IS PROVIDED FOR THE SOLE USE OF INSTALLING AND OR MAINTAINING NICKEL 5 14 2001 FILENAME PAGE tt EXT 48 VDC SOURCE CEV RETROFIT 2 AC CURRENT DRAW 25 N 3 OF 3 30 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 4 Installation Instructions QUEST S PRODUCTS UNAUTHORIZED REPRODUCTION IS PROHIBITED Ce Quest Controls Inc TELSEC 2000 1500RM WM J Monitoring Control amp Test Solutions for Telecom User s Manual 4 10 2 Hut Control and Monitoring TELSEC 2000RM INTERCONNECT DRAWING Use the wire wrap block for alarming and control when rack mounting is desired TELSEC WIRE WRAP A POWERING THE TELSEC 2000RM 1 SYSTEM CAN BE POWERED FROM 18 TO 72 VDC 2 CONNECT GROUND STRAP TO TERMINAL FOR 48VDC OPERATION AND TO FOR 24VDC e OPERATION e e e e e e e e e TELSEC 2000RM REAR
3. 7 8 9 10 11 12 13 14 15 6 17 18 Pur P 4 6 gt THE INFORMATION CONTAINED THIS DOCUMENT IS CONSIDERED PROPRIETARY AND CONFIDENTIAL AND IS PROVIDED FOR THE SOLE USE OF INSTALLING AND OR MAINTAINING QUEST S PRODUCTS UNAUTHORIZED REPRODUCTION IS PROHIBITED RM WM 800 Manual Rev 3 0 9 9 09 NOTE THIS DRAWING IS FOR CONTROLLING A HUT WITH TWO AIR CONDITIONING SYSTEMS AND NO SEPERATE VENT FAN CONSULT YOUR QUEST REPRESENTATIVE IF YOU HAVE QUESTIONS REGARDING THIS DRAWING OR OTHER APPLICATIONS 33 ELECTRIC DOOR LATCH Inline 48V to 24V converter 48 VDC SOURCE CURRENT DRAW 25 AMP TITLE HUT CONTROLLER 2 AC UNITS DRAWN BY DATE NICKEL 6 29 2001 FILENAME PAGE HUT CONTROL 2 AG N Chapter 4 Installation Instructions Quest Controls Inc TELSEC 2000 1500RM WM J Monitoring Control amp Test Solutions for Telecom User s Manual 4 10 3 Walk In Cabinet WIC TELSEC 2000RM INTERCONNECT DRAWING Use the Krone punch block for alarmin 2
4. string of alphanumeric characters used to identify this particular TELSEC site The ID strings are displayed during all call ins and call outs The maximum length is 78 characters and the string must be enclosed within single quotes ID string 1 is used as the TID TL1 Target Identifier for the system and is sent with all TL1 alarm messages NOTE If you are using TL1 alarm messaging ID 1 is sent with the alarm ID 1 should be no more than 20 characters in length and should not contain space characters in order to conform to the TL1 specification Example SET ID 1 CEVIIO0I SET ID 2 PALMETTO FLORIDA SET ID 3 INSTALLED DECEMBER 15 1999 Default SET ID 1 TELSECRM SET ID 2 QUEST CONTROLS INC SET ID 3 PALMETTO FL SET ID 4 REV X X RELEASE DATE 6 5 2 SET CLOCK Use the SET CLOCK command to set the system clock Syntax SET CLOCK DATE FORMAT lt FORMAT gt lt DATE FORMAT gt Enter the current MM DD YYYY The system will accept the year with only the last two digits le 07 instead of 2007 TIME FORMAT Use HH MM SS with optional AM PM or military time accepted You do not need to specify the seconds The system assumes 00 seconds if none are specified Example SEI CLOCK 4721 2007 3 15 20 PM SET CLOCK 4 21 2007 3 15 PM SET CLOCK 4 21 07 15715 Leap Year Note The TELSEC automatically adjusts for leap year Daylight Savings Note The system will adjust fo
5. User s Manual Quest Controls Inc TELSEC 2000 1500 RM WM J Monitoring Control amp Test Solutions for Telecom User s Manual 2 Table Of Contents 6 4 5 DEFINE KEY 60 6 4 4 DEFINE DAT 60 6 4 5 DEFINE TOD 61 6 4 6 DEFINE EQU 61 6 4 7 DEFINE VAR 61 6 4 8 DEFINE SPT 62 6 4 9 DEFINE DOR 62 6 4 10 DEFINE ANM 62 6 4 11 DEFINE MSG 63 6 4 12 DEFINE BAT 64 6 4 13 DEFINE CARD 64 6 5 SET COMMAND 64 6 5 1 SETID 65 6 5 2 SETCLOCK 65 6 5 3 SETPSWD 66 6 5 4 SETDLS DAYLIGHT SAVINGS 66 6 5 5 SET BUS 67 6 5 6 SET MAIL 67 6 5 7 SET SCALE 68 6 5 8 SETLIST 68 6 5 9 SET PROGRAM 69 6 5 10 SETCOM 69 6 5 11 SET FALSE 70 6 5 12 SET APPEND 71 6 5 13 SET CID 71 6 6 LIST COMMAND 72 6 7 REMOVE COMMAND 73 6 8 REVIEW COMMAND 73 6 8 1 COLUMN HEADER DEFINITIONS 73 6 8 2 REVIEW UIN 74 6 8 3 REVIEW RLY 74 6 8 4 REVIEW DAT 74 6 8 5 REVIEW TOD 74 6 8 6 REVIEW EQU 74 6 8 7 REVIEW VAR 75 6 8 8 REVIEW SPT 75 6 8 9 REVIEW DOR 75 6 8 10 REVIEW BAT 75 6 8 11 REVIEW ALARM 75 6 8 12 REVIEW LOG 75 6 8 13 REVIEW BUS 76 69 TL1 COMMANDS 76 6 9 1 RTRV HDR 76 6 9 2 RTRV ALM 77 RM WM 800 Manual Rev 3 0 9 9 09 Quest Controls Inc Monitoring Control amp Test Solutions for Telecom 2 6 10 NAME COMMAND 6 11 BYPASS COMMAND 6 12 COPY COMMAND 6 13 CLEAR COMMAND 6 14 HANGUP COMMAND 6 15 SEARCH COMMAND 6 16 SPECIAL COMMAND CHARACTERS 6 16 1 ABORT KEYS 6 16 2 FLOW CONTROL Table Of Contents
6. 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 6 5 12 SET APPEND The set append command is used to append the first 20 characters of ID string 2 to the message portion of the TL1 alarm The total length of the message portion can be 40 characters per the TL1 spec The first 20 characters of the MSG text will be displayed followed by the first 20 characters of ID 2 Syntax SET APPEND lt ON OFF gt lt ON OFF gt ON Append ID 1 to the MSG section of the TL1 alarm OFF Normal TL1 alarm message Example SET APPEND ON Default OFF 6 5 13 SET CID The TELSEC system supports caller ID modems to prevent people from connecting with the system unless they are calling from a specific location In order to use this function you must have a Caller ID modem in M1 or M2 socket of the TELSEC and also must have the Caller ID feature turned on for the phone line the TELSEC is using Once CID in the TELSEC is set to ON it will not answer the phone unless the caller ID string matches one of the phone numbers in the database Syntax SET CID lt ON OFF gt 4 1 24 gt 10 DIGITS gt lt ON OFF gt ON Turns on the Caller ID feature OFF Turns off the Caller ID feature lt 1 24 Up to 24 different numbers be programmed Choose 1 24 for the number you want to enter or change lt 10 DIGITS gt The 10 digit phone number of the acceptable phone line you want to allow
7. 448 TOC D1 E 7 8 9 mr ee GNDOL ue TO TELSEC OUTPUTS e e 2 R1 DOOR 1 R2 DOOR 2 OR SOL O R3 DOOR 3 AND R4 DOOR 4 C R3 Dio i Card Access Reader amp Keypad Q RA YU UU rs D0 O O R4 GND O J NOTE O NC 2 12V m J 1 DISCONNECT POWER TO TELSEC PRIOR TO 5 O6 66 2 E CONNECTION 2 TERMINATE WIRES ON KEYPAD AND 4PORT 0 A MODULE PRIOR TO TERMINATING AT THE TELSEC 4 5 6 o 3 CONNECT DO D1 GND amp 12V FROM 4PORT MODULE gt 7 8 ESI TO SAME POINTS ON EACH CARD READER mm 0 M 4 USE 4 CONDUCTOR 20 AWG SHIELDED CABLE CUT L 2 AND INSULATE DRAIN WIRE READER GROUND N E DRAIN WIRE AT 4 PORT MODULE ONLY Sard Access Heider amp Keypad e NMACRAFT EEG ss Eras G 95232 RJIl RJ11 EXP BUS oo 0 1 G DOCUMENT IS CONSIDERED PROPRIETARY AND 4 PORT CARD ACCESS CONFIDENTIAL AND IS PROVIDED FOR THE SOLE DRAWN BY DATE USE OF INSTALLING AND OR MAINTAINING NICKEL 3 25 2004 QUEST S PRODUCTS UNAUTHORIZED ice REPRODUCTION IS PROHIBITED VISIODOCUMENT 1 OF 1 zd RM WM 800 Manual Rev 3 0 9 9 09 Chapter 4 Installation Instructions Quest Controls Inc TELSEC 2000 1500RM WM J Monitoring Control amp Test Solutions for Telecom User s Manual 2 CHAPTER 5 APPLICATION 5 1 Overview This section provides sample points lists for different applications that the TELSEC p
8. 6 17 SETTING UP A MODEM ALARM RECEIVER 6 18 TELSEC POINT ACRONYMS AND QUANTITIES CHAPTER 7 EQUATION LANGUAGE 7 1 GENERAL REMARKS 7 2 THE COMPONENTS OF EQUATIONS 7 2 1 FORMULAS 7 2 2 ASSIGNMENTS 7 2 3 STATEMENTS 7 3 THE FORM OF EQUATIONS 7 3 1 GENERAL FORMAT 7 3 2 CONDITIONAL EQUATIONS 7 3 3 ONE TIME EQUATIONS 7 3 4 TYPING NUMBERS 7 3 5 TYPING INTERVALS 7 3 6 ARITHMETIC 7 3 7 OPERATORS 7 3 8 FUNCTIONS 7 3 9 INPUTS IN EQUATIONS 7 3 10 7 3 11 7 3 12 7 3 13 7 3 14 7 3 16 7 3 17 7 3 18 7 3 19 7 3 20 CONDITIONALS COMPARISONS THE FOR KEYWORD SWITCHING RELAYS WAITING WAIT UNTIL ASSIGNMENT SET ELEMENT TO FORMULA VARIABLES SETPOINTS ADDITIONAL WAYS TO CHANGE VALUES 7 4 TIMERS AND COUNTERS 7 4 1 DIGITAL OUTPUT POINTS RLY 7 4 2 DIGITALLY DEFINED INPUT POINTS UIN RM WM 800 Manual Rev 3 0 9 9 09 TELSEC 2000 1500 RM WM User s Manual Monitoring Control amp Test Solutions for Telecom Table Of Contents 2 7 5 SEND COMMAND 7 6 ALARM EQUATIONS 7 7 FREEFORM LOGGING 7 8 ADVANCED EQUATION FUNCTIONS 7 8 1 ENABLE DISABLE 7 8 2 RETURNING VALUES 7 8 3 MULTIPLE CONDITIONALS 7 8 4 STATEMENT BLOCKS 7 8 5 NESTED IFS 7 8 6 RATE AND AVERAGE RATE FUNCTION 7 8 7 COMMAND 7 8 8 PORT STATUS 7 8 9 BATTERY MONITOR STATUS 7 9 SHORTCUTS 7 9 1 AVOIDING REPEAT EFFECTS 7 9 2 REPEAT EFFECTS MAY NOT MATTER 7 9 3 DETAIL
9. Statement blocks are also useful in the same way parentheses are when one IF THEN ELSE group is typed within another For example DEF ECONMZER EQU 30 IF UIN OUTAIR lt 70 THEN DO IF UIN ROOMTEMP gt SPT COOL FOR 1 00 THEN TURN ON RLY FREECOOL ELSE IF UIN ROOMTEMP SPT COOL FOR 1 00 THEN TURN OFF RLY FREECOOL END In this example the equation will first check to see if the outside air is less than 70 If itis TRUE then it will process the IF statements after the DO command and pick the first one that is TRUE The spacing makes it clear to a reader what this equation is meant to do However without the DO END it would not be clear if the word ELSE applies to the first IF or to the second IF Nested DO s statements within DO statements are illegal The word END must follow the word DO before the word DO can appear again to start another statement block 7 8 0 RATE and AVERAGE RATE function The RATE function provides a very rough idea of how quickly the value of a formula is changing over time There are three parameters inside parentheses the formula to test a time interval and a number value RATE formula interval number AVERAGE RATE formula interval number Basically the value the RATE function produces is a number that tells you how quickly the formula is changing over the specified interval The third parameter is a standard value The RATE function simply provides this number
10. 4 8 1 WIRING THE CARD READER 4 9 CONNECTING TO DC POWER SUPPLY 4 9 1 POWER WIRING RM WM 800 Manual Rev 3 0 9 9 09 TELSEC 2000 1500 RM WM User s Manual 2 4 9 2 INSTALL FERRITE COIL 4 9 3 POWERING UP THE TELSEC 4 10 TYPICAL CONTROL DIAGRAMS 4 10 1 TYPICAL CEV CONTROL AND MONITORING 4 10 2 HUT CONTROL AND MONITORING 4 10 3 WALK IN CABINET WIC 4 10 4 REMOTE CABINET MONITORING 4 10 5 TELSEC 800 WITH 4 PORT SERIAL BRIDGE 4 10 6 CARD ACCESS CONTROL 4 10 7 FOUR PORT CARD ACCESS CONTROL Monitoring Control amp Test Solutions for Telecom Table Of Contents CHAPTER 5 APPLICATION 5 1 OVERVIEW 5 2 CEV WITH TWO AIR CONDITIONERS 5 3 CEV WITH AND INTEGRATED VENT FAN 5 4 CEMH WITH AND SEPARATE VENT FAN 5 5 HUT WITH UNITS 5 5 CEC CUE WITH 1AC 5 6 CEC CUE WITH 2AC 5 7 REMOTE CABINET MONITORING 5 8 CEV WITH TELEPHONY AND BATTERY TEMPERATURE MONITORING 5 9 BLANK POINTS LIST FORMS CHAPTER 6 PROGRAMMING AND OPERATION 6 1 GETTING ON LINE 6 1 1 MODEM 6 1 2 COMMUNICATIONS TERMINAL 6 1 3 TELNET OVER ETHERNET 6 1 4 FRONT PANEL 6 2 DEFINITIONS AND BASIC INFORMATION 6 2 1 THE TELSEC PROGRAM LANGUAGE 6 2 2 A WORD ABOUT PASSWORDS 6 3 COMMAND SYNTAX 6 3 CONVENTIONS 6 3 2 A WORD ABOUT NAMES 6 3 3 HELP COMMAND 6 3 4 SHORT CUTS 6 4 DEFINE COMMAND 6 4 1 DEFINE UIN 6 4 0 DEFINERLY RM WM 800 Manual Rev 3 0 9 9 09 1 Quest Controls Inc TELSEC 2000 1500 RM WM
11. 86 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 8 Front Panel and Display Quest Controls Inc TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 If a numeric element is used for example variable to specify a number of seconds and another equation changes the elements value during the wait it can change the length of the wait Examples WAIT 1 00 00 WAIT VAR DELAY 7 3 15 WAIT UNTIL The WAIT UNTIL statement is a more complex WAIT statement After the words WAIT UNTIL you can type any element a comparison a digital input or a conjunction of several of these When the TELSEC reaches WAIT UNTIL it suspends work on the equation if the element has the value FALSE The TELSEC Will continue to evaluate the element in case its value should change to TRUE When this happens the equation proceeds statements following WATT UNTIL Will then take effect WAIT UNTIL fact In an equation that tests for a problem condition the last statement in the list is often WATT UNTIL to ensure that the problem has gone away This makes sure the TELSEC doesn t start the equation over again until the next time the problem occurs Examples WAIT UNTIL NOT UIN ALARM WAIT UNTIL UIN 12 VAR SETPOINT WAIT UNTIL UIN TEMP4 gt 80 FOR 0 03 00 7 3 16 Assignment Assignment means changing the value of something To form an assignment statement specify what you want to change type th
12. Certification NEBS Level Approved UL Listed CE NI RM WM 800 Manual Rev 3 0 9 9 09 Chapter 3 Product Specifications Ce Quest Controls Inc TELSEC 2000 1500 RM WM Monitoring Control amp Test Solutions for Telecom User s Manual 3 5 2 TELSEC 800 Specifications TELSEC 800 Part Number 150679 for SNMP WEB browser option order part number 150769 Mounting Rack mount 19 or 23 or on cabinet door inputs 8 universal inputs analog 0 5 VDC or 0 20 mA dry contact closure or wet contact 3 75 VDC Outputs 8 Normally Open NO 1 amp at 30 VDC 0 3 amps at 60 VDC 0 5 amps at 125 VAC Card Access Supports industry standard Wiegand format proximity or swipe card readers Up to 3500 cards can be programmed per site Logs 500 most recent events Power 18 to 65 VDC 0 5 amps Optional 110 VAC 220 VAC 60 Hz 0 5 amp Modem with Caller ID 56K modem with Caller ID Up to 24 phone numbers can be programmed to limit access to the system Note Caller ID service must be present on the phone line Serial Port asynchronous db9 RS232 serial port Programmable for speed parity and bit format Network Interface option LAN Ethernet 10BaseT with RJ45 connector Protocols Supported TCP IP Telnet HTTP SMTP SNMP vi v2c Traps Informs Dial up PPP Provides TCP IP connectivity over PPP via analog modem for the TELSEC and three additional RS232 asynchronous ports for connecting external d
13. Control amp Test Solutions for Telecom User s Manual 2 6 8 2 REVIEW UIN NAME VALUE DESCRIPTION ACCUM INT ON INT OFF TIMER EVENT Value The analog input sensor value or the digital input status ON or OFF DESCRIPTION The 32 character message defined with the digital input for TL1 alarming ACCUM Accumulated oN time The timer runs when the input is ON INT ON Interval ON time rests to O every time the input goes on and then counts ON time for this cycle INT OFF Interval OFF time resets to 0 every time the input goes OFF and then counts off time for this cycle TIMER Digital event timer This is the total time since the timers were cleared EVENT Digital event counter The number of on and off events There are two events per one complete cycle For more on timers see Chapter 7 Section 7 4 6 8 3 REVIEW RLY t PRG SIAT BYPASS ACCUM INT INT OFF TIMER EVENT PRG Shows the current program state STAT Shows AUTO meaning it is following the program state or the bypass state of ON Or OFF BYPASS If this RLY has been bypassed the time remaining on the bypass will be seen here or the word FOREVER meaning it has to manually set to AUTO ACCUM Accumulated oN time keeps track of the total amount of on time INT ON Interval ON time resets to O every time the output goes on and then counts ON time for this cycle INT OFF Interval oFF time resets to O every time the output goes off and then counts OFF
14. Task 1 Turn off the air conditioning if the smoke detector is on Task2 Turn on the AC if the temperature is greater than the current setpoint plus the stage 2 delta for two minutes Task 3 Turn off the AC if the temperature is less than the current setpoint for two minutes Equation Four The heating can be programmed as follows DEFINE HEATER EQU 4 IF UIN 3 ON THEN TURN OFF RLY 3 ELSE IF VAR 1 lt SPT 1 FOR 2 00 THEN TURN ON RLY 3 ELSE TF gt SET 1 FOR 2200 THEN TURN OFF RLY 3 101 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 8 Front Panel and Display Quest Controls Inc TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 Notice there are three 3 TF THEN ELSE statements in the equation This corresponds to the number of tasks this equation must process The three tasks in priority are as follow Task 1 Turn off the heater if the smoke detector is on Task2 Turn on the heater if the temperature is less than the current setpoint for two minutes Task 3 Turn off the heater if the temperature is greater than the current setpoint for two minutes Equation Five We have completed controlling the AC and heating units for the facility and can now work on alarm equations DEFINE HI TEMP EQU 5 IF VAR 1 gt SPT 4 FOR 5 00 THEN ALARM UIN 1 ENV MJ SEND MSG 1 WAIT UNTIL VAR 1 SPT 4 ALARM UIN 1 ENV CLEAR SEND MSG 1 CLEAR Here the System generates
15. battery in discharge 2 0010 Could exist as capacity alarm is a static value Once we ve calculated a capacity it s still true once the power comes back on 0011 Major Capacity alarm battery in discharge 0100 Can t happen Once we are in charge mode the time remaining gets cleared 0101 Major Time remaining alarm and in discharge 0110 Can t happen Same problem as 4 0111 Major time remaining and low capacity alarm and in discharge 1000 Can t happen Once we are in charge mode the time remaining alarms get cleared 9 1001 Can t happen unless the defining is switched for the critical and major alarm times We would have both Critical and Major so bit 3 can t get set without bit 2 0 1010 Can t happen Same problem as 9 1011 Can t happen Same problem as 9 2 1100 Can t happen Once we are in charge mode the time remaining gets cleared 3 1101 Critical and Major Time remaining alarm and in discharge 1110 1111 3 4 5 6 7 8 4 1110 Can t happen Same problem as 4 5 1111 All three alarms and in discharge The chart shows that there are some values that are not possible Write your equations to test only for the alarm status you are interest in Example DEF BATALRM EQU 60 IF BAT 1 5 OR BAT 1 13 THEN TURN ON RLY 16 96 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 8 Front Panel and Display Quest Controls Inc TELSEC 2000 1500RM WM 3 Monitoring C
16. the system will call out the alarm alerting the user to a 99 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 8 Front Panel and Display Quest Controls Inc TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 failure The equation will also return a value of 1 which can be seen with the REVIEW EQU command You can also write strategies to monitor critical equations for failure and take a corresponding action An example would be as follows TE MIN EOU l EQU Z 4 5 6 EQU 7 EQU O EQU 9 EQU 10 1 THEN TURN ON RLY ALARM ELSE IURN OFF RLY ALARM If an equation has a check sum failure you can correct the strategy by transmitting the equation The entire controller does not have to be reprogrammed 7 10 Establishing Criteria to Write Equations The parameters of how the facility is to be controlled and monitored must be established The decisions make up the Criteria or Sequence of Events for your facility Writing equations is taking your criteria and putting into a syntax that the TELSEC can interpret Use the following steps to program your system Although the program can be loaded in any order it is best to start with defining the physical inputs and outputs and then complete the rest of the programming This will establish a logical progression when writing the program Inputs We have generated the following definitions Note the
17. time for this cycle TIMER Relay event timer total time since timers where cleared EVENT Relay event counter Increments when RLY changes state ON or OFF 6 8 4 REVIEW DAT T NAME STATUS STATUS Shows the DAT schedule status of ON or OFF 6 8 5 REVIEW TOD NAME STATUS STATUS Shows the TOD state ON or OFF 6 8 6 REVIEW EQU tt NAME VALUE DISABLE VALUE Shows the EQU value which is the result of using the RETURN command in your equations DISABLE Shows if the equation has been DISABLED ON DISABLED Of OFF ENABLED A disabled equation is suspended from operation and won t run until itis enabled RM WM 800 Manual Rev 3 0 9 9 09 Chapter 6 Programming and Operation Quest Controls Inc TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 6 8 7 REVIEW VAR NAME VALUE VALUE Shows the current value of the memory variables This could differ from the initial LIST VAR value if an equation has been programmed to change it 6 8 8 REVIEW SPT T NAME VALUE VALUE Shows the current value of the set points This could differ from the initial LIST SPT value if an equation has been programmed to change it 6 8 9 REVIEW DOR NAME VALUE VALUE Shows the ON and OFF status of the door points that work in conjunction with the card access portion of the system An value means that a valid card has been presented and the system has e
18. 1 minute to start sending the program or the system will time out and abort the transfer process Send the program to the TELSEC using the Xmodem protocol If the program is accept completely then the system will respond with a message showing the number of bytes received Otherwise the system will respond with an error message telling you what the problem is Example RCV ERR 2 0 LINE 0 A 2error code means the system timed out waiting for reception of the file RCV ERR 5 LINE 8 A 5error code means there is a problem with the line in the program This message will show the line number in the program where the error was found 2 1 10 2 ASCII Text Transfer The TELSEC system accepts ASCII downloads using software flow control All of your provisioning commands can be saved to an ASCII Text file and then loaded via ProComm to the controller Make sure your ASCII download settings are set up as follows 1 STRIP LF on upload 2 5 millisecond character delay 3 Don t expand blank lines ProComm default is to expand blank lines 4 Use software flow control XON XOFF Note you must be logged on with a password in order for the system to take your program files The system will respond with OK after each program line An error message will be displayed if a line is not accepted When this occurs correct the line and then either retransmit the file or copy and paste the correction to the system by using the Windows copy and paste com
19. 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 equation tests the variable using the TF THEN technique discussed in Section 7 3 10 It typically resets the variable once it has sensed the value it was looking for IF VAR GOWILD 100 THEN VAR GOWILD 0 and then continues with other statements 7 3 19 Setpoints Setpoints act exactly the same way variables do with one exception a user can modify a setpoints value using the TELSEC front panel Setpoints can be used to allow the user to modify his environment easily Suppose you wanted to control an air conditioning unit connected to RLY 1 The standard setpoint for the room is 70 degrees Fahrenheit You also have temperature sensor connected to UIN 1 that monitors the room temperature Your setpoint definition and equation might look like this DEFINE ACISPT SPT 1 70 DEFINE DELTA SPT 1 2 DEFINE AC1CTL EQU 10 UIN SPACHIMP gt SPTwACISPT THEN TURN ON RLY ELSE lt SETACISPT SPI DELIA THEN TURN OFF RLY 1 In this simple form you can see that the AC will turn on if the temperature is greater than the set point Now suppose it is an extremely hot day and the people in the room wish the air to go on at a lower temperature Instead of calling up the TELSEC and making a change to EQU 10 they can go up to the front panel and modify SPT AC1SPT slightly One other point to remember is that
20. 18 TELSEC Point Acronyms and Quantities The numbers in parenthesis show the maxim number available for the TELSEC KEY Yellow Keys on Front Panel 2 EQU Equations or control strategies 64 VAR Memory Variables used for status and storing the outcome of equations 64 SPT Used to store and reference setting for control strategies 32 DOR Door access control point 4 MSG User definable 32 character messages 64 ANM Alarm Phone Number 4 UIN Universal Input Point TELSEC 1500 16 2000 32 with expansion module 64 RLY Digital Output Point TELSEC 1500 8 2000 16 with expansion module 32 TOD Time Of Day Schedule Point 4 schedules with 16 priorities each DAT Alternate Date Schedules 8 Relay Accumulating ON Timer RLO Relay Interval ON Timer 1 per RLY RLF Relay Interval OFF Timer 1 per RLY RTM Relay Event Timer 1 per RLY HEC Relay Event Counter 1 per RLY DAC Digital Input Accumulating ON Timer 1 per Digital UIN DNO Digital Input Interval ON Timer 1 per Digital UIN DNF Digital Input Interval OFF Timer 1 per Digital UIN DIM Digital Input Event Timer 1 per Digital UIN DEC Digital Input Event Counter 1 per Digital UIN CARD Access Control Cards 600 80 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 6 Programming and Operation Quest Controls Inc TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 CHAPTER 7 EQ
21. 3 0 9 9 09 TELSEC 2000 1500RM WM User s Manual Go to Troubleshooting CHART 2 Connect the power supply to the system Reset the circuit breaker Go to Troubleshooting CHART 2 Replace the unit Chapter 10 Service Ce Quest Controls Inc TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 10 3 Chart 2 System Failure No Is the green power indicator LED on Go to Troubleshooting CHART 3 Yes Is there output from the Yes The problem was transient and is RS 232C Craft Port now cleared Reset the system by turning of power to the unit Is there output Done from the Craft port Yes Is the front display working properly Yes but there is no output from the Craft Go to Troubleshooting CHART 3 port No Replace the unit 11 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 10 Service Ce Quest Controls Inc TELSEC 2000 1500RM WM 5 Monitoring Control amp Test Solutions for Telecom User s Manual 10 4 Chart 3 No Diagnostic Output Is there output from the Yes RS 232C Craft Port Go to Troubleshooting CHART 4 NO Test the interface cable with a know No good system Does that system function The cable is defective Yes Are you communications parameters set properly Default settings are 9600 No change the communications baud 8 data bits 1 stop bit no parity parameters and no echo Yes Cycle power to reset the unit Is th
22. J Monitoring Control amp Test Solutions for Telecom User s Manual 2 2 2 3 REV RLY Shows the current status of the digital outputs RLY is our acronym for relay outputs NAME PRG STAT BYPASS ACCUM INT ON INT OFF TIMER EVENT 1 VENT FAN OFF AUTO 00 00 00 01 00 01 016 14 24 016 14 25 1 2 COOL 1 OFF AUTO 00 00 00 01 00 01 016 14 23 016 14 24 1 3 COOL 2 OFF AUTO 00 00 00 01 00 01 016 14 22 016 14 23 1 4 HEATER OFF AUTO 00 00 00 01 00 01 016 14 21 016 14 22 1 5 DEHUMID OFF AUTO 00 00 00 01 00 01 016 14 20 016 14 21 1 6 AUDIBLE OFF AUTO 00 00 00 01 00 01 016 14 19 016 14 20 1 7 RED_GRN OFF AUTO 00 00 00 01 00 01 016 14 18 016 14 19 1 8 OCCMODE OFF AUTO 00 00 00 01 00 01 016 14 17 016 14 18 1 9 HATCH OFF AUTO 00 00 00 01 00 01 016 14 16 016 14 17 1 ACCUM accumulated on timer INT ON interval on timer INT OFF interval off timer TIMER total elapsed time since timers were cleared EVENT event counter You can specify a range of points to review instead of view all points at a one time For example REV UIN 1 10 will show inputs 1 10 only REV UIN 1 5 10 13 etc will only display inputs 1 5 and 10 through 13 2 2 4 REV SPT Shows the current setting for the setpoints SPT is the acronym for setpoints NAME VALUE 1 COOL_SPT 80 2 COOLDLTA 5 3 HEAT SPT 65 4 HUMIDSPT 55 5 OSA_COOL 65 6 HI_TEMP 90 7 HIGH_RH 85 2 2 5 DEF SPT Value This command is used to change the set point DEF is short for define Enter the
23. MSG NONE NOT LOG NAME The name and equal sign are optional and are only used if you want to change the point name other wise omit them from your define string NAMEs are eight characters in length DIG A standard digital input that is normally open and closes on alarm INVDIG A normally closed input that alarms when the point is open ENV A digital input that is an environmental alarm EQPTSA Equipment alarm that is service affecting EQPTNSA Equipment alarm that is non service affecting CR Critical alarm message is sent on alarm MJ Major alarm message is sent on alarm RM WM 800 Manual Rev 3 0 9 9 09 Chapter 2 Getting Started Quest Controls Inc TELSEC 2000 1500 RM WM J Monitoring Control amp Test Solutions for Telecom User s Manual 2 MN Minor alarm message is sent on alarm DLY A delay from 0 to 600 seconds that the alarm must be present prior to generating the alarm MSG An optional 32 character message can be assigned to the point and is sent out on alarm LOG Will log the ON OFF event when the point changes state in the history log Alarms are automatically logged when the alarm event occurs Sample define statements DEFINE INTRUDE UIN 3 DIG ENV MJ 1 MSG 1 LOG DEFINE UIN 4 INVDIG EQPTSA CR 1 NONE LOG 2 1 8 DEFINE MSG The MSG is a 32 character optional text string that can be assigned to the alarm input There are sixty four unique messages Each input can have their own mess
24. Programming and Operation Quest Controls Inc TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 6 17 Setting Up a Modem Alarm Receiver For the TELSEC to call out alarms an Alarm Receiver must be hooked up on the other end The alarm receiver is usually placed in the service department where the appropriate personnel can respond quickly if an alarm is generated An alarm receiver usually consists of a modem and a serial printer The TELSEC will call out alarms at the speed programmed in the DEF ANM command or use the default speed if none was specified The Alarm Receiver modem should be set to automatically answer the phone Review your modem s instructions for the proper commands Once the phone is answered the TELSEC will begin transmitting the alarm text This is where the printer comes in Most modems use a serial port for communication By hooking this serial port to a serial printer the TELSEC text will be printed You must match the printer baud rate with the baud rate of the modem Once set up any TELSEC alarm will be printed on the printer Another variation of the alarm receiver involves a computer system You can set up communication software to automatically answer modem call ins Once answered the software can capture any transmitted text and either save it print it or both If you have questions about alarm receivers contact your Quest Controls representative 6
25. Rev 3 0 9 9 09 Chapter 4 Installation Instructions Quest Controls Inc TELSEC 2000 1500 RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 4 8 1 Wiring The Card Reader Make sure power to the TELSEC is turned off prior to connecting the reader Terminate the wires on the keypad prior to terminating at the TELSEC Use a5 conductor 20 AWG shielded cable Cut and insulate the drain wire at the reader Ground the drain wire at the TELSEC only Connect the 12V to the readers DC in Connect DO to DO D1 to D1 GND to Ground and the drain wire to EGND on the TELSEC TELSEC 2000RM REAR VIEW _ S232 RUN RUN B OS RS232 RJ11 RJ11 EXP BUS F aci BB e S1 S2 53 Card Access Reader amp Keypad Figure 11 Wiring Card Reader To The TELSEC 95 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 4 Installation Instructions Quest Controls Inc TELSEC 2000 1500 RM WM Monitoring Control amp Test Solutions for Telecom User s Manual 2 4 9 Connecting DC Power Supply Power is supplied to the system from the 48 VDC power source located in the facility Attach the two screw terminals located on the rear of the TELSEC shelf to the power source with 14 20 gauge wire See Figure 12 LAND ON 48VDC POWER FUSE BLOCK FUSE AT 2 AMP i m di Figure 12 Power Connection 4 9 1 Power Wiring Connect the negative power lead to the nega
26. VIEW NMA NMA CRAFT RJ11 RJ11 EXP BUS 1 E 1 DISCONNECT POWER TELSEC PRIOR OPTIONAL WIRING OF 50 CONNECTION CABLE TO PORT A OF WIRE WRAP 2 TERMINATE WIRES ON KEYPAD PRIOR TO BLOCK INSTEAD OF USING CIM TERMINATING AT THE TELSEC 3 USE 5 CONDUCTOR 20 AWG SHIELDED CABLE CUT AND INSULATE DRAIN WIRE AT READER GROUND TELSEC CIM DRAIN WIRE AT CONTROLER ONLY Use the CIM for environmental alarming and control or when rack space is not available for a wire wrap block Card Access Reader amp Keypad TITLE DOCUMENT IS CONSIDERED PROPRIETARY AND E CONFIDENTIAL AND IS PROVIDED FOR THE SOLE QUEST S PRODUCTS UNAUTHORIZED EINE VISIODOCUMENT 1OF 3 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 4 Installation Instructions Ce Quest Controls Inc Monitoring Control amp Test Solutions for Telecom OPTION A EN R 2 E G ZO DO lt lt gt W E R ES x ELECTRIC DOOR LATCH ZO DO a OO Y B lt a W Inline 48V to 24V converter 48 VDC SOURCE CURRENT DRAW 25 AMP THE INFORMATION CONTAINED IN THIS DOCUMENT IS CONSIDERED PROPRIETARY AND CONFIDENTIAL AND IS PROVIDED FOR THE SOLE USE OF INSTALLING AND OR MAINTAINING QUEST S PRODUCTS UNAUTHORIZED REPRODUCTION IS PROHIBITED RM WM 800 Manual Rev 3 0
27. WM 800 Manual Rev 3 0 9 9 09 Chapter 4 Installation Instructions Ce Quest Controls Inc TELSEC 2000 1500RM WM J Monitoring Control amp Test Solutions for Telecom User s Manual 4 10 4 Remote Cabinet Monitoring TELSEC 1500 INTERCONNECT DRAWING TELSEC 1500RM REAR VIEW POWERING THE TELSEC 2000RM 1 SYSTEM CAN BE POWERED FROM 18 TO 72 VDC 2 CONNECT GROUND STRAP TO TERMINAL FOR 48VDC OPERATION AND TO FOR 24VDC OPERATION TITLE THE INFORMATION CONTAINED IN THIS DOCUMENT IS CONSIDERED PROPRIETARY AND CONFIDENTIAL AND IS PROVIDED FOR THE SOLE VARTAC MESA 4 DRAWN BY DATE FILENAME PAGE VISIODOCUMENT USE OF INSTALLING AND OR MAINTAINING QUEST S PRODUCTS UNAUTHORIZED REPRODUCTION IS PROHIBITED a7 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 4 Installation Instructions Ce Quest Controls Inc TELSEC 2000 1500RM WM 5 Monitoring Control amp Test Solutions for Telecom User s Manual TEMP HUMIDTY SENSOR LL 4 Y 4 BL W BL W zislzi izxi zizixzxisixisix zo gt I ao 2 SYS 200 RECTIFIER FAN FAIL AE 1 feed fed vo 21S 1 ZIEISISIEISIE eI Eo ed ed I5 eed gt 8 Ed Es EJ Eg 0 Fea fed Ea fed Fee Fe 01512122020 Ea Ea Ed Ed la Ga EE Sse seSsocneeses r ba EJ ed EJ ES KR
28. and control when rack mounting is desilled TELSEC 2000RM REAR VIEW aS NMACRAFT 25605 RS232 RJ11 RJ11 EXP BUS OO Co TELSEC CIM Use the CIM for environmental alarming and control or when rack space is not available for a wire wrap block Card Access Reader amp Keypad THE INFORMATION CONTAINED IN THIS DOCUMENT IS CONSIDERED PROPRIETARY AND WIC Cabinet w 1 A C unit CONFIDENTIAL AND IS PROVIDED FOR THE SOLE USE OF INSTALLING AND OR MAINTAINING eee QUEST S PRODUCTS UNAUTHORIZED NICKEL 5 30 2001 REPRODUCTION IS PROHIBITED SY 2 DRAWING SCALE VISIODOCUMENT 1 S TITLE RM WM 800 Manual Rev 3 0 9 9 09 Chapter 4 Installation Instructions Quest Controls Inc TELSEC 2000 1500RM WM 5 Monitoring Control amp Test Solutions for Telecom User s Manual TEMP HUMIDTY SENSOR EXPLOSIVE GAS SMOKE ALARM DETECTOR IN7 IN7 12 VDC gt l mi ITI gl AC UNIT 1 24VAC TELSEC CIM CONTROL INPUTS IN 2 V 1520 4 OTIO K O 2 Ta Lw LDICXD n L d YEL T YEL EXPLOSIVE GAS FAILURE BRN EXPLOSIVE GAS HIGH WATER ea AUDIBLE VISUAL ALARM eL 2024 7 x DE lt O CAD I 2 4 1 4 KDE CXDICXDICXDICX DE DIeX OS OS gt 6 Lw IN4 IN4 INTRUSION 50 PIN CABLE TO TELSEC I O A TITLE THE INFORMATIO
29. and does not define the detailed functional specifications 3 2 Description 3 2 1 Features The TELSEC system is designed to collect wet or dry discrete alarms from telephone equipment controlling monitoring and alarming critical operating equipment such as HVAC power plant intrusion fire alarms and any other alarms that are indicated by wet or dry contact closure The system also provides security access control for the facility The TELSEC is capable of formatting discrete alarm data into transaction language TL1 message format and transmitting the alarm messages via the TELSEC s built in modems through the optional PPP modem module or through the optional Ethernet module 3 3 General Requirements 3 3 1 Hardware Architecture The TELSEC is a microprocessor based controlling monitoring data collecting and alarm reporting system designed for the management and effective operation of remote facility assets A fully configured product can monitor as many as 64 discrete inputs and provide 32 control contact points 3 3 2 Basic Product TELSEC RM WM The basic product is available in two styles a rack mountable shelf TELSEC RM and wall mountable enclosure TELSEC WM The single board layout design of the master unit incorporates the power supply memory and serial and modem communication ports with 32 universal inputs and 16 control contact points 3 3 3 Rack Mount The TELSEC RM shelf is designed for a 19 i
30. be expected from the card Optional this is the facility code for the keypad if is different from the cards being used Note keypad codes will always be 26 bit Substitute the proper numeric values for the parameters Example DEFINE DOR 1 RLY 1 10 ENERGON 8 1 8 9 24 26 1 This is a standard setup for a 26 bit Wiegand card with a facility code of 8 for the cards and a keypad facility code of 1 The TELSEC will reply DONE and display the help message The previous DOR definition will not be affected The format will be stored in non volatile memory when you save your program to flash with the SET PRO DEF command 9 2 6 Using Keypad Codes The TELSEC can support the use of keypad entries and proximity cards It does this by mimicking a card being swiped when you enter keys on the keypad Six numbers are required for each code to be entered in to the keypad The first two numbers are the facility code for the site followed by four unique digits for the user The keys entered are in a hexadecimal format and are transmitted to the controller as a hexadecimal number The controller will automatically convert the hexadecimal number to a decimal number and compare it to the defined cards to see if there is a match All codes are entered into the system in decimal DEC format providing a level of encryption for security Create a list of passwords to be assigned File this list in a secure location Keypad Code Hex Card C
31. fact is FALSE then use the word ELSE Although several statements may have been entered after THEN separated by commas do not type a comma immediately before the word ELSE IF fact THEN statement statement statement ELSE IF fact THEN statement statement statement ELSE statement statement Statement The IF THEN ELSE technique enables the TELSEC do perform different functions in different situations It is the primary way to link physical points and program points to create a control sequence 84 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 8 Front Panel and Display Quest Controls Inc TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 The word THEN must be used after every use of the word IF If the only relevant case is the case where the fact is FALSE then test the opposite fact by using the word NOT as follows IF NOT fact THEN statement statement Its common to use IF THEN ELSE where it is desirable for only one group of statements to take effect IF fact THEN statement statement ELSE IF fact THEN statement statement IF fact THEN statement statement If an entire equation follows the form shown above then the statements on only one line take effect at a given time The first line where the fact is TRUE is the line from which statements take effect After carrying out the statements the
32. if the specified interval has not yet occurred How the RATE function works 94 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 8 Front Panel and Display Quest Controls Inc TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 Step One When RATE is first typed into an equation the TELSEC sets its value equal to the standard value The TELSEC computes the current value of the formula and remembers it Step Two When a specified interval has passed the TELSEC again computes the formula s value The value of the RATE function becomes the difference between this and the remembered value of the formula The TELSEC remembers the formula s new value for future use Step Three Step Two repeats at the specified interval The TELSEC conducts the computations above even in an equation where the RATE function is not currently being reached However if and equation is DISABLEd these computations end Follows is an example measuring the rate at which a temperature is changing RATE UIN TEMP2 0 10 00 0 What the example above actually measures is the net change of the specified temperature during a recent period of ten minutes In this example during the first ten minute period RATE has the standard value of 0 claiming there was no change in temperature The AVERAGE RATE Will compute the average rate of change of the formulas value Each time the RATE
33. installed in the unit 4 3 Additional Material and Equipment The following items may be required for installation which are in addition to the items provided by Quest 4 3 14 Installation Materials e Cable and Shielded cable Butt splices Cable ties Bushings strain relief Anchors screws etc Tools Hand Tools Screwdrivers Hammer wire cutters pliers etc Wire wrap amp unwrap tools or punch tool Crimping tool Hammer drill and drill bits Gf wall mounting devices L e N 4 4 Mounting the TELSEC The TELSEC is shipped with two 2 angle brackets which allow the system to be mounted in either a 19 inch or 23 inch equipment rack The brackets are reversible with a long side and a short side To mount the system in a 19 inch rack See Figure 3 the long side of a bracket is attached to each side of the TELSEC using the 8 mounting hardware provided and the short sides of the bracket are attached to the equipment rack using the 12 mounting hardware 18 RM WMW 800 Manual Rev 3 0 9 9 09 Chapter 4 Installation Instructions Quest Controls Inc TELSEC 2000 1500 RM WM Monitoring Control amp Test Solutions for Telecom User s Manual 2 provided To accommodate 23 inch rack the brackets reversed with the short sides being attached to the TELSEC and the long sides attached to the rack See Figure 4 gt O A 8 BOLT LOCKWASHE
34. names chosen for each of the inputs DEFINE ROOMTEMP UIN 1 TEMPF 0 MSG 1 LOG AVG 30 DEFINE SMOKE UIN 3 DIG ENV CR 5 MSG 3 LOG DEFINE TOXIC UIN 4 DIG ENV MJ 60 MSG 4 LOG These definition lines will configure the TELSEC for our application Of course the individual sensor wires must be terminated at the proper TELSEC input terminal block location Outputs DEFINE VENT FAN RLY 1 OFF STAGED ENERGON DEFINE COOL 1 RLY 2 OFF STAGED ENERGON DEFINE COOL 2 RLY 3 ON STAGED ENERGON DEFINE HEATING RLY 4 ON STAGED ENERGON We chose STAGED for all RL Ys because none of our devices need critical ON OFF timing Control We have the inputs and outputs defined so the next step is to provide the control interface We now define a few setpoints to use in our equations Using setpoints SPTs allows us to easily change our operating parameters later It also gives a front panel user the opportunity to change the settings DEFINE COOL SP SPI l 78 DEFINE CL2DELTA SPT 2 5 DEFINE HEAT SP SET 52 DEFINE HIGHTEMP SPT 4 90 We define a couple of memory variables so we can convert the readings of the inputs see section 7 3 9 DEFINE ROOM TMP VAR 1 0 DEFINE ROOMRH VAR 2 0 100 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 8 Front Panel and Display Quest Controls Inc TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 A message will be defined so it can be sent to the d
35. not need to be entered if you are redefining the point but what to keep the same name FAIL STATE ON Or OFF The relay will take this state immediately after power up and before any equations can affect it lt STAGING TYPE STAGED Three second staging time active for this output IMMEDIATE No staging time between digital output energizing 59 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 6 Programming and Operation Quest Controls Inc TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 lt ENERGIZING TYPE On commands ENERGON Energizes the relay when an ON command is given by an equation or when the user Bypasses the point ON An OFF command by the equations or by the user will de energize the relay ENERGOFF Energizes the relay when an OFF command is given by an equation or when the user Bypasses the point OFF An ON command by the equations or by the user will de energize the relay NOT LOG Type LOG RLY logs on change of state NOT LOG RLY does not log on change of state Default ON STAGED ENERGOFF LOG Examples DEFINE COOL RLY 1 ON STAGED ENERGON LOG DEFINE VENTFAN RLY 2 STAGED ENERGOFF LOG 6 4 3 DEFINE KEY he bEF KEY can be used to program specific functions for the two yellow buttons on the TELSEC keyboard The key labeled COMFORT OCCUPIED MODE is KEY 1 and KEY 2 is labeled LEAD LAG SWITCH The actual function of the keys is d
36. of the equation Unlike many other programming languages the RETURN statement on the TELSEC does not change the order in which the TELSEC performs statements it does not keep the statement following RETURN from being reached and there is no limit on the number of RETURN statements you can use in a single equation Whenever another equation uses the EQU symbol it sees the number value most recently computed by a RETURN statement inside the specified equation For example say equation number 20 wants to pass a number value for use inside equation number 23 One of the statements inside equation 20 is RETURN 100 Equation 23 can make some number of statements conditional so they won t run until equation 20 gives this signal Inside equation 23 you might type IF EQU 20 100 THEN 7 8 3 Multiple Conditionals In the sequence of statements that follows the word THEN there can be another IF test When several IF THEN pairs are used in a single equation pay careful attention to the exact outcome Unless the word ELSE is used the second IF THEN test becomes just one of the statements in the list Therefore the TELSEC only makes the second test if the first one was true Consider this equation IF UIN 1l 72 THEN TURN ON ELY l IF DUIN Z gt 72 THEN TURN ON RLY Z This looks like a case where two relays turn on independently based on two analog inputs say temperatures But this is not how the equation works The fi
37. optional and does not need to be entered if you are redefining the point but what to keep the same name INITIAL VALUE The starting value of the variable The range is 65535 to 65535 Default 0 Example DEFINE ROOMSPT SPT 1 70 6 4 9 DEFINE DOR See CHAPTER 9 ACCESS CONTROL 6 4 10 DEFINE ANM The TELSEC has the ability to send alarms or page up to four phone numbers When an alarm or clear occurs the system will use all alarm numbers that are active at that time Alarm numbers that are not active due to a TOD qualifier will not be used Additionally in the UIN definition for digital alarms or equation alarming you have the option to specify which alarm numbers to use If you specify a number that number will only be used if it is currently active Syntax DEF NAME ANM lt PH gt lt TOD gt lt ON OFF gt lt PAGE MODEM gt when MODEM lt retry gt BACKUP ALMBAUD lt rate gt lt NAME gt A user defined point name This is optional and does not need to be entered if you are redefining the point but what to keep the same name ANM the schedule number from 1 to 4 PHONE NUMBER gt The phone number that the TELSEC will dial in ALARM instances Valid AT command characters can be used in the phone number field for delay pulse dialing etc The number must be enclosed in single quotation marks and has a maximum length of 39 characters 82 RM WM 800 Manual Rev 3 0 9 9 09 Chap
38. product questions or suggestions to improve this User s Manual COPYRIGHT NOTICE Copyright 2000 2007 by Quest Controls Inc QUEST The material discussed in this publication is the proprietary property of QUEST QUEST retains all rights to reproduction and distribution of this publication TELSEC is a registered trademarks of QUEST Specifications are subject to change without notice RM WM 800 Manual Rev 3 0 9 9 09 Chapter 1 Introduction Quest Controls Inc TELSEC 2000 1500 RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 CHAPTER 2 GETTING STARTED 2 1 Overview This section of the manual is designed to give the user a quick lesson on reviewing data and making simple program changes to the TELSEC The first step is to determine what you want to monitor and control Refer to Chapter 5 for application ideas The next step is to install the TELSEC into your facility following the steps in Chapter 4 Once the system is installed you will then want to communicate with the system to interrogate and or program the unit Refer to Chapters 6 amp 7 for detailed information regarding programming and operation Section 2 2 below will provide some basic instructions for communicating interrogating and programming the system Section 2 3 will provide setup information for using ProComm software as your terminal interface 2 2 Modem Serial Port Communications 2 2 1 CALLING THE SYSTEM U
39. serial connection but when a serial cable is connected the remote communication function is disabled for that port Syntax SET lt 1 2 4 gt lt POTS DIRECT NETWORK gt lt BAUD gt 8 7 lt 2 1 gt lt N E O gt lt ECHO T AT SIR BLOCK COMNUMBER Enter1 20r4 Typically COM 1 is for the main alarm center NMA lt TYPE gt POTS Dial up connection DIRECT RS232 connection only NETWORK Network connection Works similar to DIRECT but allows the BACKUP function in the DEF ANM to work when the port is down see section 6 4 10 Note if a COM port is defined as POTS you can still plug into the corresponding serial port and the controller will allow access after it sends out a modem initialization init string and does not receive response The system will then temporarily enter direct connect mode until the user unplugs it lt BAUD gt Enter the speed you want to use for communications from 300 to 9600 baud lt 8 7 gt Data Bits Enter 7 or 8 for the data bits lt 2 1 gt Stop Bits Enter 1 or 2 for the stop bits 69 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 6 Programming and Operation Quest Controls Inc TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 lt N E O gt Parity F even parity O odd parity N no parity lt ON OFF FCHO gt ON Shows characters typed OFF Does not show characters typed AT STR
40. serial port supports the asynchronous serial communications located on the back of the rack mount unit and the bottom of the wall mount unit It also supports a second craft port located on the front of the rack mount unit and the top of the wall mount unit 3 4 2 Modem Port The TELSEC has two optional plug in modems that provides up to 56K baud optional asynchronous communications on the public switch network The modems are used for remote maintenance and or alarm reporting to the NMA network 3 4 3 Ethernet Port The TELSEC system has an optional 10Base T Ethernet port for alarming TL1 messages through a nailed up Telnet connection or by sending SNMP traps v1 or v2c Additionally all status and programming is available through the Telnet connection 3 4 4 Alarm Reporting The TELSEC has the ability to dial out to as many as four pre selected phone numbers whenever an alarm or an alarm clear message must be reported The modem card also has the ability to receive a call from a remote modem and function as the local alarm port Once the connection is established either by receiving a call or initiating a call the modem card provides an asynchronous communications link where TL1 commands can be entered and alarm clear messages can be received 14 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 3 Product Specifications Ce Quest Controls Inc TELSEC 2000 1500 RM WM Monitoring Control amp Test Solutions for Telecom User s Man
41. set point number and new value on the line and then press enter Example DEF SPT 1 80 lt ENTER gt 2 1 1 REV ALARM This command shows the alarm history log which contains all alarm conditions that have occurred and who logged on the system The log contains the most recent 99 entries You can press Control S to stop the data and Control Q to start the data flow Also ESCape will abort the read out 2 1 2 RTRV ALM ALL lt ctag gt This is a TL1 command to show any alarm that is currently active The lt ctag gt is the correlation tag used to correlate the response from the TELSEC to the system that issued the command You may use up to six alohanumeric characters RM WM 800 Manual Rev 3 0 9 9 09 Chapter 2 Getting Started Quest Controls Inc TELSEC 2000 1500 RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 2 1 3 REV LOG lt POINT S gt This command will show the history log for the RLY or UIN point you want Up to four points can be reviewed at a time Example REV LOG UIN 1 REV LOG UIN 1 UIN 2 RLY 1 RLY 2 You can press Control S to stop the data and Control Q to start the data flow Also ESCape will abort the read out 2 1 4 CLEARING TIMERS The input and output timers can be reset to zero by issuing the clear command Example CLEAR RLY 1 16 lt gt clears the timers for outputs 1 through 16 CLEAR UIN 1 16 lt ENTER gt clears the timers for inputs 1 through 16 2
42. the corresponding TELSEC key and the sample display will appear on the TELSEC display 8 3 1 Set Point Modification The TELSEC allows a front panel user to modify the current value of setpoints SPT In order for this to have any affect the TELSEC equations must be designed with the SPTs in mind For example equations see Chapter 7 Equation Language To modify a setpoint follow these directions DEFINE WHICH SETPNT BYPASS SETPNT has the cursor on it so it is the current choice DEFINE SPT ENTER 1 COOL SET 106 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 8 Front Panel and Display Quest Controls Inc TELSEC 2000 1500RM WM J Monitoring Control amp Test Solutions for Telecom User s Manual 2 We currently display SPT SPT001 which is the default name for setpoint one If you have named setpoint one differently the defined name will appear instead You must now choose which SPT you wish to modify Use the UP and DOWN arrow keys to scroll to the proper SPT SETPOINT SPT chosen setpoint Once at the proper setpoint press ENTER to modify it You now have the current value of the setpoint on your display You can modify the value in a few different ways Press the UP and DOWN arrow keys to increment or decrement the value by one To toggle the setpoint s sign press the LEFT arrow key If the number was positive a negative sign will appear If the number was negative the negative sig
43. to a specified state or to override programming for a RLY Once bypassed use the AUTO state to remove the bypass If using a time interval the point will revert back to AUTO state once the period times out The BYPASS command overrides the automatic control Every time the BYPASS command is issued successfully an entry will be recorded in the alarm log reflecting the result aTe RM WM 800 Manual Rev 3 0 9 9 09 Chapter 6 Programming and Operation Quest Controls Inc TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 Syntax BYPASS RLY BYPASS STATES BYPASS gt BYPASS STATE ON Bypasses the RLY ON OFF Bypasses the RLY OFF AUTO Clear any bypass of the RLY BYPASS TIME From 00 01 to 23 59 using HH MM Entering a zero 0 will bypass the RLY forever and will require the user to reset the RLY to automatic manually Example BYPASS RLY 1 ON 00 05 Turns RLY 1 ON for 5 minutes BYPASS RLY 2 3 OFF 0 Turns RLY 2 and 3 OFF forever Operator must BYPASS to AUTO to clear BYPASS BYPASS RLY 2 AUTO Clears any RLY 2 bypass 6 12 COPY Command The COPY command provides a quick and easy way of copying point definitions After programming one point you can use the copy command to write that programming to one or a range of specified points The name of the point is NOT copied You must name your points after the COPY procedure Syntax COPY SOURCE P
44. 0 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 7 4 Timers and Counters The TELSEC has a few special point types These are the digital timer and counter points Each digital output and digitally defined input carries these points You may use these points in your equations to calculate various things run time for equipment pulse accumulation equipment maintenance etc The following sections 4 01 4 04 provide descriptions for each point 7 4 1 Digital Output Points RLY RAC Accumulated oN time counts total on time RNO Interval ON time resets to 0 when RLY goes on and starts counting RNF Interval OFF time resets to 0 when RLY goes off and starts counting RTM RLY event timer time since timers were cleared REC RLY event counter increments when RLY changes State 7 4 2 Digitally defined Input Points UIN DAC Accumulated oN time counts total on time DNO Interval ON time resets to 0 when UIN goes on and counts on time DNF Interval OFF time resets to 0 when UIN goes off and counts on time DTM Digital event timer time since timers were cleared DEC Digital event counter increments when UIN changes State 7 5 Send Command The SEND statement sends point values to the front panel display When you enter a SEND statement you specify what to send using this form SEND lt point gt You may specify any TELSEC point type except ANM The TELSEC will update
45. 0 3 CHART 2 SYSTEM FAILURE 117 10 4 CHART 3 NO DIAGNOSTIC OUTPUT 118 10 5 4 MODEM OUTPUT 119 10 6 CHART 5 E RRONEOUS TROUBLE REPORTS 120 10 7 CHART 6 OTHER PROBLEMS 121 WARRANTY INFORMATION 122 GLOSSARY 123 RM WM 800 Manual Rev 3 0 9 9 09 s Quest Controls Inc TELSEC 2000 1500 RM WM J Monitoring Control amp Test Solutions for Telecom User s Manual 2 CHAPTER 1 Introduction Congratulations on the purchase of your new TELSEC 2000 1500 RMANM product The TELSEC is a state of the art electronic monitor and controller providing you with an integrated solution for the facility management of your remote sites such as CEVs CECs CUEs Shelters Huts Cabinets Customer Prem Sites Central Offices Switching amp Data Centers and Head Ends Acting as your smart eyes and ears at the remote site the TELSEC is capable of performing your HVAC Control and Monitoring Environmental Monitoring Power Capacity and Battery Monitoring Generator Monitoring Telephony Equipment Monitoring Cable Pressure amp Air Flow Monitoring Tower Light Monitoring and Door Access Control all in ONE NEBS LEVEL Ill approved product This Users Manual is intended to provide you with the information you need to get started with the TELSEC understand its specifications how to install it how to apply it how to operate and program it and how to service and maintain it plus much more Please contact us at Quest if you have
46. 1 5 BYPASSING OUTPUTS The BYPASS command is used to override the program and force on or off the RLY output for a period of time You can clear a bypass by using the AUTO command to return the relay to automatic The BYPASS command can be abbreviated to BYP Example BYP RLY 1 ON 00 10 lt gt turns on RLY 1 for ten minutes BYP RLY 2 OFF 0 lt ENTER gt turns off RLY 2 FOREVER BYP RLY 1 2 lt gt returns RLY 1 and 2 to the automatic 21 6 SET ID There are three lines of identification for the system Line one is the systems Target Identifier TID and is sent out when an alarm condition occurs Lines 2 amp 3 can be used to store information about the site and can be reviewed with the LIST ID command IDs can be up to 80 characters long and are contained in single quotes ID 1 will be the TID for the unit which consists of the CLLI code and location information for the system The TL1 specification states that the TID should be no more than 20 characters Quest recommends setting ID 1 to 20 characters or less Example SET ID 1 CEV005 FROM RD 2 1 7 DEFINE ALARM INPUTS Every input is universal and can be set up for analog sensors or contact closures If a point is set Up as a digital point you can define whether the input is normally open or normally closed The following parameters can be set up for a digital input FORMAT DEFINE NAME UIN DIG INVDIG ENV EQPTSA EQPTNSA CR MJ MN DLY
47. 13 4 13 2 14 4 14 2 15 4 15 2 16 4 16 2 17 4 17 2 18 4 18 2 19 4 19 2 20 4 20 2 21 4 21 2 22 4 22 2 23 4 23 2 24 4 24 2 25 Output 4 25 Quest Controls Inc Monitoring Control amp Test Solutions for Telecom I O Port B Block R C 6 1 8 1 6 2 8 2 6 3 8 3 6 4 8 4 6 5 8 5 6 6 8 6 6 7 8 7 6 8 8 8 6 9 8 9 6 10 8 10 6 11 8 11 6 12 8 12 6 13 8 13 6 14 8 14 6 15 8 15 6 16 8 16 6 17 8 17 6 18 8 18 6 19 8 19 6 20 8 20 6 21 8 21 6 22 8 22 6 23 8 23 6 24 8 24 6 25 Output 16 8 25 R C Row and Column number on wire wrap block RM WM 800 Manual Rev 3 0 9 9 09 ld TELSEC 2000 1500 RM WM User s Manual I O Port Point Name Input 33 12V Source Input 34 12V Source Input 35 12V Source Input 36 12V Source Input 37 12V Source Input 38 12V Source Input 39 12V Source Input 40 12V Source Input 41 12V Source Input 42 12V Source Input 43 12V Source Input 44 12V Source Input 45 12V Source Input 46 12V Source Input 47 12V Source Input 48 12V Source Ground Ground Output 17 Output 17 Output 18 Output 18 Output 19 Output 19 Output 20 Output 20 Output 21 Output 21 Output 22 Output 22 Output 23 Output 23 Output 24 Output 24 Figure 9 Input Output Matrix Block Pin R C 10 1 12 1 10 2 12 2 10 3 12 3 10 4 12 4 10 5 12 5 10 6 12 6 10 7 12 7 10 8 12 8 10 9 12 9 10 10 12 10 10 11 12 11 10 12 12 12 10 13 12 13 10 14 12 1
48. 4 10 15 12 15 10 16 12 16 10 17 12 17 10 18 12 18 10 19 12 19 10 20 12 20 10 21 12 21 10 22 12 22 10 23 12 23 10 24 12 24 10 25 12 25 I O Port D Block R C 14 1 16 1 14 2 16 2 14 3 16 3 14 4 16 4 14 5 16 5 14 6 16 6 14 7 16 7 14 8 16 8 14 9 16 9 14 10 16 10 14 11 16 11 14 12 16 12 14 13 16 13 14 14 16 14 14 15 16 15 14 16 16 16 14 17 16 17 14 18 16 18 14 19 16 19 14 20 16 20 14 21 16 21 14 22 16 22 14 23 16 23 14 24 16 24 14 25 Output 32 16 25 Chapter 4 Installation Instructions Quest Controls Inc TELSEC 2000 1500 RM WM Monitoring Control amp Test Solutions for Telecom User s Manual 2 4 7 Connecting to the COM Ports The TELSEC comes standard with two RS232 ports for serial communications and has the option of up to two modems The ports can be configured for lease line communications dial up or direct connect RS232 TELSEC 2000RM Connections Rear View Dial up PPP Provides TCP IP connectivity over PPP via analog modem for the TELSEC and three Door Access Control MORS additional RS232 asynchronous ports for Integrated door access control CAM SC D eos connecting external devices that require supports control and monitoringof _ point to point 2 way remote connectivity over the PPP interface up to 4 doors om n tons Power Status LED Ethernet Port 10 100baseT Ethernet port Craft Port COM 1 Asynchronous pass
49. 60Hz 0 25 amps Front Panel Built in programming panel with 8 keys and a 32 character backlit LCD Display Modem with Caller ID 56K modem with Caller ID Up to 24 phone numbers can be programmed to limit access to the system Note Caller ID service must be present on the phone line Serial Port One asynchronous db9 RS232 serial port Programmable for speed parity and bit format Network Interface option Ethernet 10BaseT with RJ45 connector Protocols Supported cp P Telnet HTTP SMTP SNMP v1 v2c Traps Informs Dial up PPP Provides TCP IP connectivity over PPP via analog modem for the TELSEC and three additional RS232 asynchronous ports for connecting external devices that require remote connectivity over the PPP interface Logging Logs all inputs outputs and alarms up to 16 000 points Software Supports any off the shelf terminal communication software e g HyperTerminal or Web browser e g Internet Explorer amp 6 Firefox amp 1 54 Terminals Two 2 50 PIN Amphenol connectors for outputs discrete and analog inputs Supports 2 wire tip amp ring connections for each point using 25 pair cable Battery Long life lithium 10 year shelf 1 5 years under load T Humidit Temp 1 F 0 5 C Humidity 2 of range Temperature amp Humidity sensors included Sensor Accuracy ambient Operating Temp 40 to 180 F 40 to 82 C 0 95 RH Non condensing
50. 9 9 09 TELSEC 2000 1500RM WM User s Manual USING CIM FOR TERMINATION OF FIELD WIRING INTRUSION BATTERY ON L DISCHARGE TEMP HUMIDTY COMMERCIAL SERO POWERFAIL L 2 QE SMOKE ALARM CS SMOKE ALARM T T FAILURE 7 OUTPU INPUTS IN 1 IN 9 1 IN 1 IN 9 IN 2 IN 10 2 IN 2 IN 10 IN 3 IN 11 3 IN 3 IN 11 IN 4 IN 12 4 IN 4 IN 12 5 IN 13 IN 13 IN 6 IN 14 6 IN 6 IN 14 N7 IN 15 7 IN 7 IN 15 8 N BLACK OUTSIDE AIR TEMPERATURE RED GND GND GND GND Control Interface Module 50 PIN CONNECTOR NOTE TITLE THIS DRAWING IS FOR CONTROLLING A HUT WITH TWO AIR CONDITIONING SYSTEMS AND NO EM MS SEPERATE VENT FAN CONSULT YOUR QUEST DRAWN BY DATE REPRESENTATIVE IF YOU HAVE QUESTIONS NICKEL 4 9 2001 REGARDING THIS DRAWING OR OTHER FILENAME PAGE N zo Chapter 4 Installation Instructions Quest Controls Inc Monitoring Control amp Test Solutions for Telecom TELSEC 2000 1500RM WM User s Manual OPTION B USING WIRE WRAP BLOCK FOR TERMINATION OF FIELD WIRING TEMP HUMIDTY SENSOR Temp RH WRIA GD 5 12 NOISNYLNI ADYVHOSIC NO AYALLVd H3MOd TWIDYANWOO INHV IV 3MOINS 112 3 14 5 2 INHV IV 334O0NS AC UNIT 2 24VAC CONTROL AC UNIT 1 24VAC CONTROL Junivgeadiwa ACISLNO R G Y w qaq MOV 19
51. AL OUTPUTS 1 VENTFAN 9 CEVEMERGENCYLIGHTS EM _ _5 OUTSIDEARRDAMPER 13 6 DEHUMIDIFIER Jaf 7 SUMPPUMPCONTROL 15 8 CEVWORKLIGHTS O J l6 UNIVERSAL INPUTS Sensor Type TEMP F VDC power to unit DRY CONTACT 20 0 DRY CONTACT A UKU 6 COMMERCIAL POWER FAIL DRYCONTACT 2 DRY CONTACT 22 02 8 FIRE DETECTOR FAILURE DRYCONTACT 4 9 VENT FAN PROOF OF RUN DRY CONTACT DRY CONTACT DRY CONTACT DRY CONTACT DRY CONTACT 14 HIGH WATER FLOAT DRY CONTACT SUMP PUMP HIGH FLOAT DRY CONTACT SUMP PUMP LOW FLOAT DRY CONTACT 46 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 5 Application Ce Quest Controls INC TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 5 4 CEMH With 2AC and Separate Vent Fan DIGITAL OUTPUTS 1 VENTFAN 9 CEVEMERGENCY LIGHTS _ j O __ 6 DEHUMIDIFIER 4 7 SUMPPUMPCONTROL SP 8 CEVWORKLIGHTS O J l6 UNIVERSAL INPUTS Sensor Type TEMP F ABL ee VDC powertounit 19 0 DRY CONTACT 0 0 DRY CONTACT 21 6 COMMERCIAL POWER FAIL DRYCONTACT 2 DRY CONTACT 22 02 8 FIRE DETECTOR FAILURE DRYCONTACT 4 9 VENT FAN PROOF OF RUN DRY CONTACT DRY CONTACT DRY CONTACT DRY CONTACT DRY CONTACT 14 HIGH WATER FLOAT DRY CONTACT SUMP PUMP HIGH FLOAT DRY CONTACT SUMP P
52. APR 30 6 4 5 DEFINE TOD Use the DEFINE TOD command to set up the 16 priorities of ON or OFF times for your Tops The can then be used in other TELSEC program areas such as equations input definitions for when logging is to occur alarm numbers to activate the number and card access to determine when a card is valid Note You can only name Tops using the NAME command There are four 4 schedules Syntax DEFINE TOD PRIORITY lt STATE gt lt TIME gt lt DAYLIST gt PRIORITY The priority of this TOD program entry 16 possible lt STATE gt The digital state ON or OFF this TOD will take if the TIME and DAYLIST conditions are satisfied lt TIME gt A time of day in the form HH MM AM PM when this Top should become active Time will be accepted in AM PM or 24 hour military format lt DAYLIST gt Days of the week D O W list or a date schedule DAT If the current date or D O W agrees with the programmed list the TOD priority will return the programmed STATE Examples DEFINE TOD 1 1 ON 8 00 AMM TU W TH F TOD 1 will be oN if the time is after 8 00 AM and the DOW is a weekday DEFINE TOD 1 2 ON 10 00 AM SA SU TOD 1 will be ON if the time is after 10 00 AM and the DOW is on a weekend DEFINE TOD 1 3 OFF 5 01 PM M TU W TH F DEFINE TOD 1 4 OFF 3 01 PM SA SU DEFINE TOD 1 5 OFF 12 01 AM DAT XMASDAY TOD 1 willbe OFF it the time is after 12 01 AM and the DAT schedule XMASDAY is ON Default
53. BITED CARD ACCESS ONTROL VSD 42 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 4 Installation Instructions Ce Quest Controls Inc TELSEC 2000 1500RM WM Monitoring Control amp Test Solutions for Telecom User s Manual 4 10 7 Four Port Card Access Control TELSEC 2000RM TO 4 PORT CARD READER INTERCONNECT DRAWING N n FOUR PORT CARD gga 4 5 o READER MODULE 7JL8J 9 x ll0 x NOT POLARITY SENSITIVE W gt O qP CS 2 Wee Reader amp Keypad A 7 809 009 Y 2 poon1 E I w a z amp SOLO Card Access Reader amp Keypad SOL O e FOR 24VDC POWER O Di CONNECT 24 TO A AND UN 24 TO B GNDO FOR 48VDC POWER 5 Supply E o CONNECT 48 TO B AND e B SOL O 4 5 6
54. CY LIGHTS OUTSIDE AIR DAMPER AUDIBLE ALARM HORN AIR CONDITIONER 1 AIR CONDITIONER 2 HEATER 6 DEHUMIDIFIER 4 0 7 SUMPPUMP 115 9 WORK LIGHTS 16 UNIVERSAL INPUTS Sensor Type TEMP F VDC TEMP F DRY CONTACT 6 INTRUSION DOOR MONITOR DRY CONTACT 22 MUX FAILURE MAJOR ALARM DRY CONTACT DRY CONTACT 8 TOXICGASSENSOR DRY CONTACT 9 SMOKE FIREDETECTOR DRY CONTACT DRY CONTACT DRY CONTACT 7 1 DRY CONTACT 28 0 DRY CONTACT DRY CONTACT 15 SUMP PUMP HIGH FLOAT DRY CONTACT 31 BATTERY STRING TEMPERATURE 3 TEMP F SUMP PUMP LOW FLOAT DRY CONTACT BATTERY STRING TEMPERATURE 4 TEMP F 52 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 5 Application Ce Quest Controls INC TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 5 9 Blank Points List Forms DIGITAL OUTPUTS UNIVERSAL INPUTS Sensor Type TEMP F 7 88 14 VDC 9 oo x A 2 14 52 RM WMW 800 Manual Rev 3 0 9 9 09 Chapter 5 Application Quest Controls Inc TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 CHAPTER 6 PROGRAMMING AND OPERATION 6 1 Getting On line There are four methods of communicating with the TELSEC Ethernet Connection Adial up modem Direct connect RS232 port The front panel keypad The front panel keypad is designed to allow a user to modify and
55. Ce Quest Controls Inc Monitoring Control amp Test Solutions for Telecom TELSEC RM WM Models 800 1500 amp 2000 TL1 Version User s Manual Models 800 1500 amp 2000 Quest Controls Inc 208 9 Street Dr West Palmetto FL 34221 WWW questcontrols com Phone 941 729 4799 Fax 941 729 5480 Email info questcontrols com RM WM 800 Manual Rev 3 0 9 9 09 Monitoring Control amp Test Solutions for Telecom Table Of Contents 2 CHAPTER 1 INTRODUCTION CHAPTER 2 GETTING STARTED 2 1 OVERVIEW 2 2 MODEM SERIAL PORT COMMUNICATIONS 2 2 1 CALLING THE SYSTEM 2 2 2 REV UIN 2 233 REVRLY 2 24 REVSPT 2 2 5 DEF SPT VALUE 2 1 1 REV ALARM 2 14 2 RTRV ALM ALL lt CTAG gt 2 1 3 REV LOG lt POINT S gt 2 1 4 CLEARING TIMERS 2 1 5 BYPASSING OUTPUTS 2 1 6 SETID 2 1 7 DEFINE ALARM INPUTS 2 1 8 DEFINE MSG 2 1 9 SET CLOCK 2 1 10 TRANSMITTING PROGRAMS 2 1 11 WRITING PROGRAMS 2 1 12 SAVING PROGRAMS TO NON VOLATILE MEMORY 2 2 TL1 ALARM FORMAT 2 5 PROCOMM PLUS V4 8 SETTINGS 2 3 1 ASCII TEXT FILE TRANSFER SETUP WINDOW 2 3 2 TERMINAL DISPLAY SETUP OPTIONS 2 3 3 SETTING UP META KEYS FUNCTION KEYS 2 3 4 CAPTURE FILE SETUP 2 3 5 SETUP FOR DIRECT CABLE CONNECTION 2 3 6 DIALING DIRECTORY SETUP CHAPTER 3 PRODUCT SPECIFICATIONS 3 1 1 SCOPE 3 2 DESCRIPTION 3 2 1 FEATURES 3 3 GENERAL REQUIREMENTS 3 3 HARDWARE ARCHITECTURE 3 3 2 BASIC PRODUCT TELSEC RM WM 3 3 3
56. D rate Some alarm receivers may require that you specify the baud rate used when transmitting the alarms With this option you can specify the callout rate of 300 1200 2400 or 9600 baud The TELSEC will use the default rate as defined in the SET COM command if you do not specify a rate Enter the word ALMBAUD plus the rate desired to use this function Default None Example DEFINE HEADQRTS ANM 1 71 813 555 1000 MODEM 1 DEFINE NITEONLY ANM 2 5556637 TOD 1 ON MODEM 1 BACKUP ALMBAUD 2400 DEFINE PAGENUM ANM 3 555 3393 66558 PAGE 6 4 11 DEFINE MSG The TELSEC can send the Msc point as an alarm message through an equation or as part of an input definition see DEFINE UIN store the MsG in the freeform log or send the Msc to the front panel display See Chapter 7 Equation Language for syntax using the SEND LOG and ALARM statements The message must be enclosed in single quotation marks and have a maximum length of 32 characters There are 64 MSGs available Syntax DEFINE lt NAME gt MSG lt ASCII MESSAGE gt lt NAME gt A user defined point name This is optional and does not need to be entered if you are redefining the point but what to keep the same name ASCII MESSAGE Default None Example DEFINE TOOHOT MSG 1 TOO HOT IN SHELTER DEFINE SMOKEALM MSG 2 SMOKE OR FIRE IN SHELTER 63 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 6 Programming and Opera
57. DE lt sp gt ALARM SEQUENCE NUMBER lt sp gt REPT lt sp gt ALM lt sp gt EQPT or ENV lt cr gt lt l1f gt lt sp gt lt sp gt lt sp gt INPUT NOTIFICATION CODE INPUT NAME if EQPT then SA or NSA MM DD HH MM SS ALARMMESSAGE cr lf DATE AND TIME OF ALARM GENERATION ALMCDE C CRITICAL ALARM MAJOR ALARM lt sp gt MINOR ALARM A lt sp gt AUTOMATIC use this for the clear message NOTIFICATION CODE CR Critical alarm MJ Major alarm MN Minor alarm CL Cleared alarm The ALARMMESSAGE is a 32 character message that can be defined for each alarm input The text of the message should be descriptive and provide additional detail on the type of alarm point Sample Environmental alarm SITE401 99 10 26 11 43 39 1 REPT ALM ENV UIN 1 MJ POWER 10 26 11 43 39 COMMERCIAL POWER FAILURE RM WM 800 Manual Rev 3 0 9 9 09 Chapter 2 Getting Started Quest Controls Inc TELSEC 2000 1500 RM WM 9 Monitoring Control amp Test Solutions Telecom User s Manual 2 Sample Clear Alarm SITE401 99 10 26 11 43 59 A 2 REPT ALM ENV UIN 1 CL POWER 10 26 11 43 59 COMMERCIAL POWER FAILURE Sample equipment alarms SITE404 99 10 26 11 43 39 3 REPT ALM EQPT UIN 2 MJ CGA SA 10 26 11 43 39 SITE404 99 10 26 11 43 59 A 4 REPT ALM EQPT UIN 2 CL CGA SA 10 26 11 43 59 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 2 Getting Started TELSEC 2000 1500 RM WM User s Manu
58. DEF CARD 1050 TOD 1 DOR 1 CLEANING CREW Card code 1050 is entered into the database and assigned the name CLEANING CREW This code is limited to when time of day schedule 1 is active and will only work on the first door After completing and changes you will need to save your changes to flash with the SET PRO DEF command 111 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 9 Access Control Quest Controls Inc TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 9 2 5 Setting site code and bit format Determine the site code and the bit format for the cards You will need to know the bit positions for the following parameters facility code start facility code end card id start card id end total bits Call Quest if these parameters are not known Enter the following command line from a logged on terminal DEFINE DOR 1 RLY 1 10 ENERGON lt SITE CODE gt lt FACILITY START gt lt FACILITY END gt lt CARD ID START gt lt CARD ID END gt lt TOTAL BITS gt lt KS gt lt SITE CODE gt The facility or customer code programmed for the card lt FACILITY START gt The position of the first bit is for the facility code lt FACILITY END gt The position of the last bit for the facility code CARD ID START the position of the first bit for the unique cards code CARD ID END The position of the last bit for the unique cards code TOTAL BITS The total number of bits to
59. ED TIMING 7 9 4 USE OF MEMORY 7 9 5 CHECKSUMS 7 10 ESTABLISHING CRITERIA TO WRITE EQUATIONS 7 11 UPLOADING PROGRAMS 7 11 1 XMODEM FILE TRANSFER 7 11 2 ASCI TEXT TRANSFER 7 11 3 SAVING PROGRAMS TO NON VOLATILE MEMORY CHAPTER 8 THE FRONT PANEL AND DISPLAY 8 1 OVERVIEW 8 2 BASIC PRINCIPLES 9 2 1 PASSWORDS 8 2 2 LOGGING OFF 8 2 3 CHOICES 5 2 4 ABORTING 8 2 5 EQUATION GENERATED SENDS 8 2 6 AUTOMATIC DIGITAL INPUT ALARMS 9 2 7 REVIEWING INFORMATION 8 3 PROGRAM MODIFICATION 8 3 1 SETPOINT MODIFICATION 9 3 2 BYPASSING OUTPUTS 9 3 3 SETTING THE CLOCK RM WM 800 Manual Rev 3 0 9 9 09 NT Quest Controls Inc TELSEC 2000 1500 RM WM User s Manual 104 104 104 104 105 105 105 105 106 106 106 106 107 109 Quest Controls Inc TELSEC 2000 1500 RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 Table Of Contents CHAPTER 9 ACCESS CONTROL 110 9 1 OVERVIEW 110 9 2 USING THE ACCESS CONTROL SYSTEM 110 9 2 1 DEFINE THE FEEDBACK DIGITAL POINT 110 9 22 DEFINE YOUR DIGITAL OUTPUT 110 90 2 3 DEFINE THE DOR POINT 110 9 2 4 DEFINE VALID ACCESS CARDS 111 9 2 5 SETTING SITE CODE AND BIT FORMAT 112 9 2 6 USING KEYPAD CODES 112 03 SYSTEM MESSAGES 113 9 3 1 REVIEWING ACCESS CONTROL INFO 113 9 4 LISTING ACCESS CONTROL INFORMATION 113 9 5 REMOVING CARDS 114 CHAPTER 10 SERVICE 115 10 1 TROUBLE SHOOTING PROBLEMS 115 10 2 CHART 1 POWER PROBLEMS 116 1
60. EQUIPMENT UM RS232 SERIAL PORT 25 PAIR ALARM CABLE a 8559 8271 run m om sf o CARDACCESS 1 MCDEM 12v GND 50 POS NEG 2 48 VDC TO FUSE PANEL REAR VIEW PPP MODEM WITH 3 FORWARDING PORTS CONNECT ANY THREE RS232 DEVICES FOR REMOTE COMMUNICATIONS OVER SAME LINE 39 RM WM 800 Manual Rev 3 0 9 9 09 tt ANALOG Dialup B1 Line FOR PPP CONNECTION OR OPTIONAL DSU FOR DIGITAL LINE INTERFACE Chapter 4 Installation Instructions Quest Controls Inc TELSEC 2000 1500RM WM Monitoring Control amp Test Solutions for Telecom User s Manual 4 10 6 Card Access Control TELSEC 2000RM INTERCONNECT DRAWING Use the wire wrap block for alarming and control when rack mounting is desired TELSEC WIRE WRAP POWERING THE TELSEC 2000RM 1 SYSTEM BE POWERED FROM 18 TO 72 VDC 2 CONNECT GROUND STRAP TERMINAL FOR OPTONALSLNUINE 48VDC OPERATION AND TO FOR 24VDC OPERATION READER WITHOUT KEYPAD NMA NMA CRAFT RJ11 RJ11 EXP BUS 222 EH 0099091 D O OX OPTIONAL WIRING OF 50 PIN CABLE TO PORT A OF WIRE WRAP BLOCK INSTEAD OF USING CIM gt TELSEC Use the for environmental alarm
61. G AND OR MAINTAINING QUEST S PRODUCTS UNAUTHORIZED REPRODUCTION IS PROHIBITED RM WM 800 Manual Rev 3 0 9 9 09 POWERING THE TELSEC 2000RM 1 SYSTEM CAN BE POWERED FROM 18 TO 72 VDC 2 CONNECT GROUND STRAP TO TERMINAL FOR 48VDC OPERATION AND TO FOR 24VDC OPERATION TELSEC 2000RM REAR VIEW 6 NMA NMACRAFT Qu RJ11 RJ11 EXP BUS Fa doms GND OPTIONAL WIRING OF 50 PIN 1 2 TELSEC PRIOR TO CABLE TO PORT A OF WIRE WRAP 2 TERMINATE WIRES ON KEYPAD PRIOR TO BLOCK INSTEAD OF USING CIM TERMINATING AT THE TELSEC 3 USE 5 CONDUCTOR 20 AWG SHIELDED CABLE CUT AND INSULATE DRAIN WIRE AT READER GROUND DRAIN WIRE AT CONTROLER ONLY Card Access Reader amp Keypad TITLE CEV RETROFIT 2 AC UNITS FILENAME PAGE O Chapter 4 Installation Instructions Quest Controls Inc Monitoring Control amp Test Solutions for Telecom TELSEC 2000 1500RM WM User s Manual OPTION A USING CIM FOR TERMINATION OF FIELD WIRING IT gt 525 SU amp 8 g 89 ge 5 ae 88 Qs Ve INTRUSION COMMERCIAL SMOKE ALARM z o8 pe oF gt 6 DOOR CONTACTS DISCHARGE SMOKE ALARM FAILURE LIGHT MONITOR GREEN IE PEL 2 coo eLower IN4 INA4 IN5 IN5 IN6 IN6 IN7 IN7 IN 8 IN8 pls In
62. HE Internet Current Transter Protocol Jas Cll Modify options upload LF options upload Don t translate CA Strip LF Protocol CH options download LF options download T RE Don t translate CA Dant translate LF Options A TEENS Other Upload Options OB A Hilisecord delay between chars if Expand tabs EE spaces 7 Terminal Colors Window Colors Other Download Options i Seconds until download time out Strip Bth bit Overrite existing file Display text Delete aborted downloads 1 Delay between lines 1 1 sec Expand blank lines Use 0 for Line pace character Display text 2 3 2 Terminal Display Setup Options wi System Data Fax Internet Curent Terminal vr 100 Modify Terminal Options Transfer Protocol Terminal update Terminal scroll method Terminal keyboard file Fast Normal Scroll vri 00 Enquiry type Enquiry response Scrollback pages EE B 18 Terminal size 24 Rows 132 Columns Terminal Colars Keep cursor in view Line wrap Screen scroll Incoming CR to CR LF Strip bit 8 Block cursor alors aa Destructive backspace Disable host printing Tab stops every 8 positions Raw print mode Edit Keyboard File Advanced 210 RM WM 800 Manual Rev 3 0 9 9 09 Cha
63. M CARD 0 to the system it will delete the entire card database Use this command carefully After completing and changes you will need to save your changes to flash with the SET PRO DEF command 114 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 9 Access Control Quest Controls Inc TELSEC 2000 1500RM WM J Monitoring Control amp Test Solutions for Telecom User s Manual 2 CHAPTER 10 SERVICE 10 1 Trouble Shooting Problems The procedures as outlined in the troubleshooting charts on the following pages should be helpful in isolating the most likely system malfunctions that may occur Troubleshooting Chart Guide Chart 1 Power Problems Chart 2 System Failure Chart 3 No Diagnostic Output Chart 4 Modem Output Chart 5 Erroneous Trouble Reports Chart 6 Other Problems 115 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 10 Service Ce Quest Controls Inc Monitoring Control amp Test Solutions for Telecom 10 2 Chart 1 Power Problems Yes Is the green power indicator LED on No Is 48VDC being supplied to the No system Check voltage and polarity with voltmeter Yes Has the circuit breaker on the power Yes supply tripped Press the connector to make sure it is Yes seated properly No Remove the unit and carefully place it on a static free surface reconnect the power source to the power supply Is NO the green LED on eise RM WM 800 Manual Rev
64. N CONTAINED IN THIS DOCUMENT IS CONSIDERED PROPRIETARY AND WIC Cabinet w 1 A C Unit USE OF NSTALLING AND OR MAINTAINING USE OF INSTALLING AND OR MAINTAINING QUEST S PRODUCTS UNAUTHORIZED NICKEL 5 30 2001 REPRODUCTION IS PROHIBITED FILENAME PAGE DRAWING NOT TO SCALE PSI WIC VSD 2 of 3 295 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 4 Installation Instructions Ce Quest Controls Inc TELSEC 2000 1500RM WM 5 Monitoring Control amp Test Solutions for Telecom User s Manual BL W BL W 221 0 21 gt ls ALARM TB SYS 200 RECTIFIER wiw 2121 0 Ea s sl 2isisisislisisisisisa INTERFACE CABLE wo FAN FAIL I wo RACK FAN POS 1 PIN 6 RACK FAN POS 2 PIN 6 RACK POS 3 PIN 6 C SIDE A 3 UFAP BREAKER o EN SIDE A UFPP BREAKER XB see Fir UFAP FUSE ALARM KRONE BLOCK fo of om Ed pS E ES Ea 215120 gt 7 d 2I E II Sz ce lt a S lt UFPP 1 FUSE ALARM DG a PDFA 1 FUSE ALARM PDFA 2 FUSE ALARM A V SL 50 PIN CABLE TO TELSEC I O DOCUMENT IS CONSIDERED PROPRIETARY AND WIC Cabinet w 1 A C Unit CONFIDENTIAL AND IS PROVIDED FOR THE SOLE TT ae USE OF INSTALLING AND OR MAINTAINING REPRODUCTION IS PROHIBITED SRAWINGNOTTOSGATE MN PAGE PSI WIC VSD 3 of 3 E RM
65. N ON RLY 1 ELSE TURN OFF RLY 1 7 3 3 One time Equations One time only equations can be programmed using the DO command Simply enter the word Do ENTER when at the semicolon prompt and enter an equation The equation will run one time and then destroy itself This is an easy way to make quick changes to the system Example DO lt enter gt ALARM UIN 1 ENV MJ lt enter gt lt enter gt The system will alarm input 1 with Major severity 7 3 4 Typing numbers When typing a number type only the series of digits Commas and or decimal points can not be used If typing a negative number start the number with a minus sign For example 15000 25 0 82 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 8 Front Panel and Display Quest Controls Inc TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 7 3 5 Typing intervals One way to specify an interval is to simply type a counting number as just described A number that represents an interval cannot be negative The TELSEC interprets this number as a number of seconds You can also specify an interval the form hh mm ss hours minutes and seconds For example 1 00 00 represents one hour Typing 1 00 represents 1 minute and typing 0 15 represents a fifteen second interval 7 3 6 Arithmetic The TELSEC uses formulas to perform arithmetic Formulas combine program elements discussed in Chapter 6 Programming Num
66. NE Takes the current program in RAM and writes it to the non volatile flash memory REMOVE Removes the application program stored in flash When the system is cold started it will come back with no application program loaded PROGRAM Starts the Xmodem protocol to receive an application program using Xmodem transfer MAX Starts the Xmodem protocol to receive an operating system Upgrade via Xmodem transfer Contact your Quest representative for available upgrades and further instruction ON Starts the ASCII Text protocol to receive an operating system Upgrade via Text transfer This method should only be used with revision 1 2 or older of the TELSEC The preferred method is the Xmodem transfer Contact your Quest representative for available upgrades and further instruction 6 5 10 SET COM The SET COM command sets the communications functions for the two COM ports plus the pass through port of COM 4 The expansion bus port is COM 3 and there are no user configurable settings COM 1 is typically used for primary communications to a central alarm center and COM 2 is used for craft and regional groups Physically on the unit COM 1 is associated with the rear 5 232 port and the first communications socket M1 COM 2 is associated with the front RS232 Craft port and the M2 communications socket The M1 and M2 sockets support either a modem or an interface card to the Ethernet module Both COM ports can support dual duty of remote and local
67. None 6 4 6 DEFINE EQU See Chapter 7 Equation Language 6 47 DEFINE VAR Use DEFINE VAR to define memory variables used in equations There are 64 available Variables cannot be changed from the front panel Memory variables are useful to report status or to store numbers for equations such as the outcome of a mathematical equation average of two sensors or as a flag to tell other equations to be active based on the value Syntax DEFINE lt gt VAR INITIAL VALUE RM WM 800 Manual Rev 3 0 9 9 09 Chapter 6 Programming and Operation Quest Controls Inc TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 lt NAME gt A user defined point name This is optional and does not need to be entered if you are redefining the point but what to keep the same name VAR INITIAL VALUE The starting value of the variable The range is 65535 to 65535 Equations can change this value The current value can be seen with the REV VAR command where the initial value can be seen with the LIST VAR command Default 0 Example DEFINE ROOMAVG VAR 1 70 6 4 8 DEFINE SPT Use DEFINE SPT to define the setpoints used in equations The difference between SPTs and VARS is that SP Ts can be modified from the front panel There 32 available Syntax DEFINE lt gt SPT INITIAL VALUE lt NAME gt A user defined point name This is
68. OD EQU VAR SPT DOR ANM MSG BAT CARD 6 4 1 DEFINE UIN Inputs come in two types which are Digital and Analog Digital inputs are either dry contact or wet contact 3 75 VDC and can be defined as normally open or normally closed Analog inputs are any device that outputs 0 6 VDC or 0 20 mA The TELSEC provides built in conversion factors for various sensors as well as manual scaling factors for sensors with different ranges and engineering units See section 6 5 7 Use the DEFINE UIN command to define your analog and digital inputs Format DEF NAME UIN ANA lt TEMPC THERMF THERMC RH FC MV PSI HPSI B48 B24 B12 PSI1 PSI2 CFH1 ICFH2 CFH3 CFHA SCALE gt lt OFFS gt MSG lt NOT LOG gt TOD lt NOT AVG 1 120 gt DIG lt DIG INVDIG gt ENV EQPTSA EQPTNSA lt CR MJ MN gt lt DLY 0 600 gt MSG 4 NONE ANM LIST NOT LOG LOG TOD 4 THERMF NAME A user defined point name ie OUTAIR The name is optional in the define command You do not have to enter the NAME and equal sign if you are redefining a point 6 4 1 1 Analog inputs ANA TEMPF Degrees Fahrenheit using AD592 temperature sensors TEMPC Degrees Centigrade using AD592 temperature sensors THERMF Degrees Fahrenheit using 10k Type Ill Thermistor temperature sensors THERMC Degrees Centigrade 10k Type 11 Thermistor temperature sensors RH Relative Humidity conversion factor FC Foot Candle light level conversi
69. OINTTYPE 4 DESTINATION RANGE SOURCE POINTTYPE Available points for the copy command are UIN RLY KEY DAT TOD VAR SPT ANM MSG BAT DESTINATION RANGE A single or list of numbers A list must be delimited by commas and a range uses the dash symbol Example COPY UIN 1 3 Copies programming from UIN 1 to UIN 3 COPY RLY 1 2 4 5 8 Copies programming from RLY 1 to RLY 2 4 5 6 7 8 6 13 CLEAR Command The CLEAR command provides a quick and easy way of resetting TELSEC timers setpoints and variables Timers and event counters will be reset to a zero 0 value while variables and setpoints will be set to their initial defined value Syntax CLEAR lt POINTTYPE gt lt POINTTYPE gt Available points to clear are 72 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 6 Programming and Operation Quest Controls Inc TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 UIN RLY VAR SPT RLO RLF RIM REC DAC DNO DNF DIM DEC Example CLEAR VAR 1 10 CLEAR SPT 3 8 10 32 CLEAR RTM 2 CLEAR UIN 1 CLEAR RLY 5 Note RAC RLO RLF RTM REC the individual Relay point timers and DAC DNO DNF DTM DEC are the individual Digital input timers 6 14 HANGUP Command Use the HANGUP command when you wish to log off the TELSEC when communicating over the modem or to log the user s password off the system if direct connected The modem will hang up and log th
70. ONE BLOCK INTERFACE BL Y BL Y RACK FAN POS 1 PIN 6 VR im RACK FAN POS 42 PIN 6 RACK FAN POS 3 PIN 6 EN SIDE A UFAP BREAKER soca Fe SIDEB SIDE A UFPP BREAKER LES BK SIDE B 1 0 0 0 0 0 lt lt 25 5 ES EJ Ea E f EJ J 8 e gt Ed E eixisixisi uz zIselzis Ea E E G p Ed Ea dd I gt 8 Ed 8 lt lt gt I lt gt UFAP FUSE ALARM UFPP 1 FUSE ALARM GANG CABLE PDFA 1 FUSE ALARM PDFA 2 FUSE ALARM TITLE THE INFORMATION CONTAINED IN THIS VARTAC MESA 4 DOCUMENT IS CONSIDERED PROPRIETARY AND SRAWN EY ATE CONFIDENTIAL AND IS PROVIDED FOR THE SOLE USE OF INSTALLING AND OR MAINTAINING NICKEL 5 4 2001 QUEST S PRODUCTS UNAUTHORIZED EE EIE REPRODUCTION IS PROHIBITED VARTAC MESA 4 VSD 2 2 290 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 4 Installation Instructions Ce Quest Controls Inc Monitoring Control amp Test Solutions for Telecom 4 10 5 TELSEC 800 with 4 Port Serial Bridge TELSEC 2000 1500RM WM User s Manual TELSEC ENVIRONMENTAL MONITORING WITH PASSTHROUGH COMMUNICATIONS FOR DSL EQUIPMENT AT THE RT KRONE BLOCK J64 CABLE PORT B FUSE PANEL ALARMS RECTIFIER ALARMS TEMP SENSOR DOOR MONITOR EXTERNAL CABINETS ONLY TELSEC DSL
71. R AND FLAT WASHER Figure 3 Bracket Orientation for TELSEC Installation into 19 inch Equipment Rack A 8 BOLT LOCKWASHER AND FLAT WASHER Figure 4 Bracket Orientation for TEL SEGC Installation into 23 inch Equipment Rack 4 4 1 Connecting Mounting Brackets There are three 3 sets of two 2 holes on each side of the System console See Figure 4 above Any of these sets may be used to attach the mounting brackets to the system Use the 8 screw with lock washer and flat washer to secure the bracket to the side of the chassis in two places USE ONLY THE ATTACHING SCREWS PROVIDED AND DO NOT ATTACH THE BRACKETS WITHOUT USING THE WASHERS PROVIDED Screws longer than those provided to mount the brackets might engage the cables or interface board inside the unit resulting in damage to one or more system components Clearance on the top and bottom is not a concern because the ventilation perforations are on the side of the console 4 4 2 Attaching the TELSEC RM to the Rack Use the 12 hardware provided to mount the unit to the rack The Mounting ears will accommodate either 1 inch or 1 mounting hole spacing Use a 12 screw with flat washer in front of the mounting bracket and the 12 star washer between the bracket and rack frame to create a good frame ground Mount with two screws per side 19 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 4 Installation Instructions Quest Controls Inc TELSEC 2000 1500 RM WM 3 Monit
72. RACK MOUNT RM WM 800 Manual Rev 3 0 9 9 09 Quest Controls Inc TELSEC 2000 1500 RM WM User s Manual x ON ON O ZA 55 LS kL WNW E 13 13 13 13 13 13 13 Quest Controls Inc Monitoring Control amp Test Solutions for Telecom 2 3 3 4 WALL MOUNT 3 3 5 POWER SUPPLY 3 3 6 EXPANSION MODULE 3 3 7 EXPANSION CARD Table Of Contents 3 3 8 ALARM PORTS AND PRE CONNECTORIZED BLOCK 3 4 COMMUNICATIONS MODULES 3 4 1 LOCAL SERIAL PORT 3 4 2 MODEM PORT 3 4 3 ETHERNET PORT 3 4 4 ALARM REPORTING 3 4 5 DIAL IN PASSWORD SECURITY 3 5 SPECIFICATIONS 3 5 1 TELSEC 1500 2000 3 5 2 TELSEC 800 3 5 3 TELSEC EXPANSION MODULE CHAPTER 4 INSTALLATION INSTRUCTIONS 4 1 SCOPE 4 2 UNPACKING THE SYSTEM 4 2 1 TELSEC RM INCLUDED COMPONENTS 422 TELSEC WM INCLUDED COMPONENTS 4 3 ADDITIONAL MATERIAL AND EQUIPMENT 4 3 1 INSTALLATION MATERIALS 4 3 2 TOOLS 4 44 MOUNTING THE TELSEC 4 4 1 CONNECTING MOUNTING BRACKETS 4 4 2 ATTACHING THE TELSEC RM TO THE RACK 4 5 MOUNTING THE TELSEC WM 4 5 CONNECTING THE MOUNTING PLATES 4 5 2 ATTACHING TO THE WALL 4 6 MOUNTING FIELD TERMINAL DEVICES 4 6 1 WIRE WRAP BLOCK 4 6 2 KRONE PUNCH BLOCK 4 6 3 CONTROL INTERFACE MODULE CIM 4 6 4 INPUT OUTPUT MATRIX 4 7 CONNECTING TO THE COM PORTS 4 7 1 85232 CONNECTION 4 7 2 MODEM CONNECTION 4 8 KEYPAD CARD READER
73. T IS CONSIDERED PROPRIETARY AND CONFIDENTIAL AND IS PROVIDED FOR THE SOLE USE OF INSTALLING AND OR MAINTAINING QUEST S PRODUCTS UNAUTHORIZED SAGE REPRODUCTION IS PROHIBITED CARD ACCESS ON TL BO D s RM WM 800 Manual Rev 3 0 9 9 09 Chapter 4 Installation Instructions Quest Controls Inc TELSEC 2000 1500RM WM 5 Monitoring Control amp Test Solutions for Telecom User s Manual OPTION B USING WIRE WRAP BLOCK FOR TERMINATION OF FIELD WIRING The door actuator can be controlled from any output This example shows the door being controlled by relay 8 Refer to the access control section of the manual for programming and operation ELECTRIC DOOR LATCH 48 VDC SOURCE CURRENT DRAW 25 AMP E DOOR CONTACTS Inline 48V to 24V converter 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 V5 00000000000000000000000 0 TITLE THE INFORMATION CONTAINED IN THIS CARD ACCESS CONTROL DOCUMENT IS CONSIDERED PROPRIETARY AND ATE CONFIDENTIAL AND IS PROVIDED FOR THE SOLE USE OF INSTALLING AND OR MAINTAINING QUEST S PRODUCTS UNAUTHORIZED SUENAME PAGE REPRODUCTION IS PROHI
74. T RIGHT keys to shift to each field When the current date has been entered press the ENTER key CLOCK TIME HH MM SS Use the UP DOWN keys to enter the current hours in military format minutes and seconds Use the LEFT RIGHT keys to shift to each field Note you do not have to enter the seconds When the current date has been entered press the ENTER key to change the clock 109 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 8 Front Panel and Display Quest Controls Inc TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 CHAPTER 9 ACCESS CONTROL 9 1 Overview The TELSEC has an integrated Access Control port for key card code access control of the facility The hardware supports any card swipe or proximity reader using the Wiegand format HID Indala Sensor Diester etc With a maximum database of 600 cards the TELSEC can handle large personnel requirements The hardware also supports digital feedback from the door to alert during illegal entry and door ajar conditions Quest also offers custom card formats tailored to specific applications Contact your authorized Quest representative for more details Quest also offers a peripheral module that will allow up to four card readers and control of four doors 9 2 Using the Access Control System We will discuss the software portion of the TELSEC Access Control system here For Hardware installa
75. TELSEC proceeds to the next equation At other times if some of the facts switch between TRUE and FALSE the statements from different lines may take effect instead The TELSEC always process the equations from the beginning top going left to right Once it finds a TRUE statement it will do the corresponding action statements after the THEN Think of each IF statement as priorities where the first IF statement will be the highest priority 7 3 11 Comparisons The operators and functions in Section 7 3 7 combine numbers and produce a number Comparisons are also operators but they produce a value of TRUE or FALSE The most common place for comparisons is between the words IF and THEN The TELSEC will perform a function only if the comparison is TRUE this is how the TELSEC tests its points Once again using and to stand for any number element the TELSEC provides six comparisons msn TRUE ifm equals n FALSE otherwise m n TRUE if m is less than m gt n TRUE ifm is greater than m lt n TRUE ifm is less than or equal to n m n TRUE if m is greater than or equal to n m n TRUE if m is not equal to less or greater than n As well as comparing number elements digital elements can be compared For example you can see whether a digital input is ON by writing IF UIN SWITCH4 ON In fact digital elements can be compared and combined with number elements by assuming OFF 0 and ON 1 Conjun
76. TELSEC follows normal rules of precedence multiply divide operations first then addition subtraction operations 7 3 8 Functions Functions also combine numeric elements Enter the name of the function an open parenthesis the element or elements to which the function will be applied and a closed parenthesis lf a function will be applied to more than one number separate the numbers by commas The TELSEC provides these functions ABS m Absolute value remove any minus sign that m may have MIN m n Find the minimum lowest number in a list of up to ten numbers MAX m n Find the maximum highest number in a list of up to ten numbers 85 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 8 Front Panel and Display Quest Controls Inc TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 AVG m n Find the average of a list of up to ten numbers The TELSEC adds each element and divides the sum by the count of elements in the list Combinations are legal since formulas and functions are themselves number elements For instance you can put a function inside another function This example returns the lowest of three temperature readings but never returns a number lower than 10 MAX 10 MIN UIN TEMP1 UIN TEMP2 UIN TEMP3 When a function is placed within a function be sure to type matching left and right parentheses Notice in the above example there two left parentheses
77. The statements are separated by commas This usually does not look like an equation from mathematics If the equation doesnt have an assignment or a comparison in it it may not even have an equal sign In the TELSEC equation means a separate goal directed sequence of steps 7 39 1 General Format The general format for writing equations is as follows DEFINE lt EQUNAME gt EQU lt cr gt lt STATEMENT gt lt cr gt lt STATEMENT gt lt cr gt cr lt EQUNAME gt EQUNAME can be any unique 8 character name The symbol can be any number from 1 to a maximum of 64 STATEMENTS are entered on successive lines after the DEFINE line If more than one STATEMENT is to be entered separate them with commas When the equation is completed terminate the entry with two successive carriage returns The TELSEC will then know to process the equation and will report any errors or accept what was sent with an OK followed by the amount of memory the equation occupies 7 3 2 Conditional Equations Conditional equations see Section 7 3 10 are an especially useful form They use the words IF THEN and ELSE The TELSEC performs the statements only IF the specified condition is TRUE Otherwise an ELSE condition statement can be executed This is the way to program the TELSEC to take different actions at different times or in different situations Follows is a typical equation DEFINE TIMESCHD EQU 18 IF TOD 1 ON THEN TUR
78. UATION LANGUAGE 7 1 General Remarks Equations are the heart of the TELSEC s programming Chapter 6 Programming and Operation tells about the various program elements Before writing equations these elements should be defined to give them names and outline how they should work When writing equations defined program elements are combined An equation is a sequence of activities directed toward a specific goal This goal might be computing degree days logging abnormal temperature readings operating RLY 3 as desired or some other function of your choosing As many as 64 equations can be programmed into the TELSEC Each equation has its own goal One equation may compute a number value and convey it to another equation for its use Together these equations control the TELSEC and the equipment attached to its relays The TELSEC operates all equations at the same time For instance if an equation tells the TELSEC to do something in any situation the TELSEC does that thing repeatedly and also does everything it is told to do by any other equation An equation can tell the TELSEC Wait for ten minutes Such a statement doesn t bring the entire TELSEC to a halt but only that equation When any equation is waiting the TELSEC recognizes it and recognizes what the equation is waiting for The TELSEC continually checks to see if the equation can resume operation Section 7 9 3 gives more detailed information about the exac
79. UMP LOW FLOAT DRY CONTACT 47 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 5 Application Ce Quest Controls INC TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 5 5 Hut with 2 AC Units DIGITAL OUTPUTS AC 2 FAN AC 2 COOLING UNIVERSAL INPUTS Sensor Type TEMP F 7 E VDC power to unit DRY CONTACT DRY CONTACT 6 COMMERCIALPOWERFAIL DRY CONTACT DRY CONTACT 8 FIRE DETECTOR FAILURE DRY CONTACT 9 DRY CONTACT 10 RY CONTACT DRY CONTACT 15 fo DRY CONTACT OUTSIDE AIR TEMPERATURE TEMP F 48 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 5 Application Ce Quest Controls INC TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 5 5 CEC CUE With DIGITAL OUTPUTS E UNIVERSAL INPUTS Sensor Type TEMP F i ABJ 1 VDC powertounit 19 Y Y 0 2 DRY CONTACT 20 0 DRY CONTACT A 02 6 COMMERCIAL POWER FAIL DRY CONTACT 27 7 SMOKE FIRE DETECTOR DRY CONTACT 8 FIREDETECTORFAILURE DRY CONTACT 9 1 DRY CONTACT 10 DRY CONTACT RY CONTACT DRY CONTACT DRY CONTACT DRY CONTACT 15 1 1 1 1 1 1 DRYCONTACT 16 PE DRY CONTACT 49 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 5 Application Ce Quest Controls INC TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Teleco
80. age or multiple inputs can use common message MSG format DEFINE MSG 32 CHARACTERS The message be any combination of ASCII alphanumeric characters between the single quotes Note the single quotes are not sent out with the message Sample MSG DEFINE INTRDMSG MSG 1 THE HATCH IS OPEN DEFINE MSG 2 THERE IS A TOXIC GAS ALARM 2 1 9 SET CLOCK The set clock command is used to set the system clock Format SET CLOCK lt DATE FORMAT gt lt TIME FORMAT gt DATE FORMAT MM DD YYYY TIME FORMAT Use HH MM SS with optional AM PM or military time accepted Example SET CLOCK 4 21 1992 3 15 20 PM RM WM 800 Manual Rev 3 0 9 9 09 Chapter 2 Getting Started Quest Controls Inc TELSEC 2000 1500 RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 2 1 10 Transmitting Programs The TELSEC System support two methods for uploading programs to the system which are Xmodenm file transfer and ASCII text transfer 2 1 10 1 Xmodem File Transfer Xmodem is the preferred method of sending programs since it provides error checking and will notify you of any errors in your program Most communications programs support Xmodem transfer In the setup for Xmodem on your communications program choose used relaxed timing if you have that option To start an upload first issue the command SET PRO PRO to the TELSEC The system will respond with START XMODEM you have up to
81. al 2 3 ProComm Plus V4 8 Settings The following pages contain the setup screens for various settings required for communicating with TELSEC 1500 2000 RM WM systems Further adjustments may be required based upon your PC but the suggested settings should provide you with the basic requirements for proper communications and transmitting of programs Clicking on the setup icon on ProComm s main tool bar can access all screens in this document bad Procomm Plus T erminal D xl view Options Data Tools Window Help Rapid Action Bars Script File Data Y Large Action Bars UP v ToolTips v Status Line v Quick Select Line v Meta Keys Upload Files to the Capture data to TELSEC your hard drive Check all options to turn Meta Keys 4 different rows are Quick select line Used to change available by clicking on the far connections from modem to serial ports left of the row and communications settings 4 J b Alt RTRv HDR ALARM ALL ALARM ENV ALARM EGP INPUTS OUTPUTS LOCK DOOR DOOR AUTO BYP DOOR VT 100 ASCII U S Robotics 56K Fax PCI rd sd cd cts 4 19PM Row Coll koi Not Connected 00 00 00 RM WMW 800 Manual Rev 3 0 9 9 09 Chapter 2 Getting Started Quest Controls Inc TELSEC 2000 1500 RM WM Monitoring Control amp Test Solutions for Telecom User s Manual 2 2 3 1 ASCII Text File Transfer Setup Window i Sustem Data faa Fax
82. al Input Generated Alarms REVIEW of all point values Setpoint Entry Bypassing of Outputs Setting the Clock Each of these functions will be explained in detail By allowing these specific functions from the front panel the TELSEC gives a user just enough access to the application as is necessary The system administrator or programmer designs the underlying equations so a front panel user can modify his environment to his liking without disrupting programmed functions As REVIEW YES NO PROGRAM EXIT COMFORT LEAD LA OCCUPIED SWITCH ENTER TELSEC 2000 Front Panel 8 2 Basic Principles 8 2 1 Passwords The TELSEC requires a password when the PROGRAM key is pressed The REVIEW key does not require a password and will allow instant access to TELSEC information The passwords here are the same as those discussed in Chapter 6 Programming and Operation If the MASTER or PROGRAM passwords are entered program changes can be made through front panel access If the password is READ level only the front panel will not be accessible for changes The password field is character entry To change the character above the cursor use the UP and DOWN arrows to scroll through the available letters and symbols When satisfied with the character press the RIGHT arrow key to continue entering characters 104 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 8 Front Panel and Display Quest Controls Inc TELSEC 2000 1500RM WM 3 M
83. an alarm message for high temperature when the temperature is greater than the high temperature alarm setpoint and sends the message to the front display The system will then send a clear message once the input is below the alarm setpoint and stop clear sending the message to the front display Equation Six Equation six is a special equation By using SPTs in our equations we have allowed front panel users to modify the setpoints See Chapter 8 The Front Panel and Display to see how this is done We could have used variables VARS and not allow the front panel user access to our equations We opted not to do so in this case to demonstrate front panel access within limits The TELSEC built in functions of MIN and MAX are utilized here to limit the range a front panel user can modify a setpoint DEFINE STPTLMTS EQU 6 SPT 1 MAX 70 MIN SPT 1 80 SPT 2 MAX O MIN SPT 2 5 55 MIN SPT 3 70 Equation 6 recalculates each setpoint based on the two programmed limits In this way if a front panel user decides to try to change the temperature setpoint SPT 1 to 64 degrees because is too hot the TELSEC will reset the setpoint to a value within the limits In our example the two limits for SPT 1 are 70 and 80 The front panel user can move SPT 1 freely between these values giving him the flexibility of modifying the setpoint somewhat Let s say tries to bring 5 1 up to 82 degre
84. and two right parenthesis The TELSEC will evaluate the MIN function first and then evaluate the MAX function 7 3 9 Inputs in Equations The TELSEC inputs read to the nearest 100 but equations process only whole numbers Therefore an input with the value of 70 15 will be interpreted by the equation as having a numeric value of 7015 and use that value for the basis of comparison You can use this number and compare it to SPT or VAR that are also whole numbers ie if you wanted a SPT of 80 you would enter 8000 or you can perform a mathematical function on the input to covert the number Example DEF CALUIN EQU 1 VAR 1 UIN 1 100 VAR 2 UIN 2 100 Variable one VAR 1 will have the value of the input dived by 100 so in our example it will read 70 instead of 7015 which is 7015 divided by 100 The TELSEC will truncate everything to the right of the decimal 7 3 10 Conditionals Conditional statements can be utilized in equations to link the functions of any system point to a corresponding action They always contain a condition IF followed by an action THEN The keyword IF appears in an equation to make one or more statements after it conditional The conditional statements only take effect if the specified condition is You type IF followed by condition you want to test followed by THEN followed by the action statements IF fact THEN statement statement If there are statements you want to take effect only if the specified
85. arm condition clears Once the condition clears the message will automatically be removed from the display buffer 8 2 Reviewing Information To use the REVIEW command of the TELSEC press the REVIEW key It is not necessary to enter a password A menu appears with a list of points to review Simply scroll to your choice and press the ENTER key The header for the chosen point will display on the first line and the values displayed on the second line If arrows are in the corners of the display scroll the data left and right using the RIGHT and LEFT arrow keys The UP and DOWN arrow keys can be used to rotate between the different points The first point displayed is point number 1 If you need to review point number 3 press the down arrow key twice and point 3 will display For an explanation of the headers and data refer to the Command Syntax area of Chapter 6 Section 6 8 1 NOTE TELSEC data displayed on the front panel is real time Any changes will dynamically update on the display 8 3 Program Modification The next few sections review altering TELSEC program information If you are unsure of what you are doing stop now and get further instruction The next five sections require PROGRAM or MASTER access The keystroke sequence shown will assume that the user has already entered a valid password BYPASS level access is required for bypassing Each step will show a key followed by a sample display The user should press
86. ber arithmetic combines number items such as variables analog inputs event counters and intervals which are numbers of seconds In the TELSEC all numeric program elements have values which are counting numbers such as 0 72 or 20 If you write a formula that uses division or takes a percentage of something the result will be a fraction But before you can store this number anywhere the TELSEC truncates the number For example 18 5 would be 18 If you need greater accuracy multiply the numerator by 10 to move the decimal point before dividing 7 3 7 Operators Using m and n to represent any number or system point that has a numeric value e g UIN RYL VAR SPT etc elements two elements can be combined by typing one of these symbols m n addtwo numbers m n Subtract the second number from the first m n multiply two numbers m n divide the second number into the first m n take m percent of n This is m n 100 m MOD n find the remainder of the division m n Parentheses tell the TELSEC which operators to perform first The TELSEC evaluates everything inside the parentheses before combining the resulting value with anything outside the parentheses For example 3 4 5 has the value 17 3 4 5 has the value 27 When the TELSEC lists an equation it supplies parentheses if the programmer did not type them originally This shows exactly how the TELSEC interpreted the formulas entered The
87. calls from Example SET CID ON turns on the Caller ID function SET CID 1 79415551212 the first acceptable number Default OFF Note The list of numbers will stay in the system if you turn off the CID function You may want to temporarily turn off this function to allow access and then turn it back on later PA RM WM 800 Manual Rev 3 0 9 9 09 Chapter 6 Programming and Operation Quest Controls Inc TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 6 6 LIST Command Use the LIST command to retrieve the TELSEC program data The list command will list back the program element in the exact format that the TELSEC will accept command Syntax LIST lt POINTTYPE gt lt POINTTYPE gt Any TELSEC point type UIN Definitions of the Inputs RLY Definitions of the Outputs KEY Definitions of the two yellow keys on the keypad DAT Alternate date schedule definitions TOD Time OF Day schedule definitions EQU Listing of an equation program VAR The initial setting for memory variables SPT The initial setting for set points DOR Definition of the door access control points ANM Definition of the Alarm phone numbers MSG The definition of all system messages BAT Alarm settings for the Battery monitoring Algorithm ID The System Identification strings PSWD The settings for the various available passwords DLS Day Light Savings settings CARD The definition
88. ctions combine elements such as digital inputs and the results of comparisons Conjunctions are operators but they take the form of separate words The words AND and NOT are conjunctions They mean exactly the same thing as they do in English For example use AND to conjoin two comparisons n 12 AND n 19 85 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 8 Front Panel and Display Quest Controls Inc TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 This formula is TRUE only if both sides are TRUE otherwise it is FALSE You could use the word NOT to reverse this state NOT m 12 AND n 19 This formula is FALSE only if both the comparisons are TRUE You can use the conjunction oR just like AND But this OR is inclusive not an either or as you usually mean in English For example you could write the following m 12 OR n 19 The meaning of this is obvious except for one thing If both halves are TRUE the total formula is still TRUE 7 3 12 The FOR keyword Any comparison or other TRUE FALSE element can be followed with the word FOR and atime interval The time interval can be a constant or any numeric element representing a number of seconds For example IF UIN TEMPSENS gt 85 FOR 0 10 00 This expression asks the TELSEC to see if the input is greater than the number 85 for ten minutes running When the TELSEC reaches a compari
89. e Yes Craft Port functioning now Done No Replace the unit 118 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 10 Service Ce Quest Controls Inc TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 10 5 Chart 4 Modem Output Yes Go to Troubleshooting CHART 5 modem ports Verify the phone line operation and the associated cables No Reset the unit by turning off the power to the system Replace the unit 119 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 10 Service Quest Controls Inc TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 10 6 Chart 5 Erroneous Trouble Reports ingen nee Go to Troubleshooting CHART 6 trouble reports Yes Yes Are all alarm monitor wires Check the program Is the system Yes Go to Troubleshooting CHART 3 programmed properly properly connected and continuity Correct the program and or remove the affected input Has the problem disappeared Done Verify proper connection Replace the unit Has the problem disappeared Contact Quest Controls Technical Center 120 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 10 Service Ce Quest Controls Inc TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 10 7 Chart 6 Other Problems 2 Yes Are you receiving reset message R
90. e equal sign then type a formula Whenever the TELSEC encounters an assignment statement it computes the current value of the formula and stores that value in the element you specified E g element formula Example RLY 1 UIN 4 In the example above the RLY 1 will go ON and OFF as the UIN 4 goes ON and OFF The SET statement is also an assignment statement it has the same effect as the form shown above 7 3 17 SET element TO formula You can assign values to many of the elements presented in Chapter 6 Programming and Operation Inputs cannot be assigned a new value Their value is always a number or ON OFF that is the signal the TELSEC currently reads at that input Relays can be assigned a value of oN or OFF Doing so turns the relay ON or OFF just as the TURN statement does see Section 3 11 These statements are equivalent RLY 1 ON SET RLY 1 TO ON TURN ON RLY 1 7 3 18 Variables Variables exist for the purpose of receiving values in assignments Instead of having a complicated formula in a single assignment statement you can use several assignment statements with shorter formulas Temporary variables hold the partial results Two equations can use variables to communicate For example one equation can put a certain value in a variable e g VAR GOWILD 100 to tell another to start working The other e e RM WM 800 Manual Rev 3 0 9 9 09 Chapter 8 Front Panel and Display Quest Controls Inc TELSEC 2000
91. e or to communicate with other techs This information is displayed with the LIST MAIL command Syntax SET MATL lt MAILNUMBER gt lt MATL STRING gt lt MAILNUMBER gt number from one 1 to four 4 67 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 6 Programming and Operation Quest Controls Inc TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 MAIL STRING gt A string of alphanumeric characters used for this particular mailbox The MAIL strings are displayed during all call ins after the ID strings The maximum length is 80 characters and the string must be enclosed within single quotes 9 Example SET MAIL 1 DISPATCH CHANGE AIR FILTERS NOW SET MAIL 2 KEN I TOLD YOU TO CHANGE THE LIGHT FIXTURE YESTERDAY Default None 6 5 7 SET SCALE There are eight 8 user definable scaling factors that can be used to create custom engineering units for inputs Once you create a scale you can reference it with the DEF UIN command see section 6 4 1 1 Syntax SET SCALE 4 MIN MAX lt 3 CHAR gt MIN The minimum value of the sensor This is the value the TELSEC will display when the input is at zero 0 volts MAX The maximum value of the sensor This is the value the TELSEC will display when the input returns a value of six 6 volts Many sensors return a maximum of five 5 volts so the value must be calculated in thi
92. e than one door lt RLY gt The digital output controlling the door solenoid 110 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 9 Access Control Quest Controls Inc TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 lt SECONDS OPEN gt This field contains the time in seconds that the door digital output will energize during a valid access condition Once a valid card is recognized the output relay will energize for this time allowing the cardholder to open the door Valid seconds are 1 to 59 DIGITAL FEEDBACK optional This field contains the of the feedback digital used to sense actual door opening and closure If a feedback digital was not used for installation leave this field blank The feedback digital will cancel the DOR ON command once the door is open so it can turn off quicker that the value in the SECONDS OPEN field SECONDS TO CLOSE optional This field contains an amount of time in seconds that the TELSEC waits before alarming the door is ajar If you have defined a feedback digital for your door you must enter a number between 1 and 120 in this field If no digital was defined leave this field blank A message will be entered in the access control log if the door is left ajar for longer than this time delay Note An ACCESS level password is necessary to use the DEFINE DOR command 9 2 4 Define valid access cards The syntax to define
93. e user out of the system Syntax HANGUP or HA 6 15 SEARCH Command Use the SEARCH command to look for points in all of your equations The command will report back equation numbers where the point occurs This way you can quickly and easily find every control strategy EQU where the point is referenced Syntax SEARCH lt gt lt POINTTYPE gt Any TELSEC point type Example SEARCH RLY 3 Response Found in equations 1 2 5 and 10 See Chapter 7 Equation Language Section 7 4 18 6 16 Special Command Characters The TELSEC accepts a few additional special function characters 6 16 1 ABORT keys ESCAPE ASCII 27 and Ctrl C ASCII 3 These two characters can be used to abort any TELSEC command or display of information You issue the Ctrl C command by holding down the Ctrl key on your terminal and then pressing the C key All Ctrl sequences are activated in this manner 6 16 2 Flow Control Ctrl Q ASCII 17 and Ctrl S ASCII 19 These two characters are also known as XON and XOFF The Ctrl S is the XOFF and if issued by the user will temporarily stop transmission from the TELSEC The Ctrl Q is the xoN and will cause the TELSEC to continue transmission after an XOFF has been issued It should also be noted that the TELSEC will issue xoN and xoFF characters during high speed downloading of programs when using the ASCII text transfer method us RM WM 800 Manual Rev 3 0 9 9 09 Chapter 6
94. ecifies a service affecting equipment alarm EQPTNSA opecifies a non service affecting equipment alarm lt CR MJ MN gt Alarm Condition CR Critical alarm MJ Major alarm MN Minor alarm lt DELAY 0 600 SECONDS Alarm Delay 0 600 seconds that the system will wait prior to generating an alarm 58 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 6 Programming and Operation Quest Controls Inc TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 lt MSG NONE gt 32 message can be associated with this point See Defining MSGs There are 64 messages available Messages can be added to digital inputs that are defined with the automatic alarming and for digital inputs that are monitor only points or will be alarmed through Equations ANM LIST When digital inputs defined as alarm points ENV EQPTSA EQPTNSA you can specify which alarm phone number you want the system to dial when the point goes into alarm and then clears the alarm condition The acronym for alarm number is ANM Add the list of ANM s one at a time after the Msc NONE gt field Example ANM 1 ANM 2 etc All defined alarm numbers will be dialed if you do not specify ANMs NOT LOG The TELSEC can be programmed for this input to automatically insert an entry into the log Digital inputs log when the point changes state Using the keyword NOT LOG will prevent the system from entering cha
95. econfigure program the system No Are intermittent spontaneous initializations occurring Yes Replace the unit 121 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 10 Service Quest Controls Inc TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 WARRANTY INFORMATION QUEST warrants products of its manufacture to be free from defects in design workmanship and material under normal and proper use and service for a period of 12 months starting upon shipment from the QUEST factory with the exception of Software noted below Products not manufactured by QUEST will have a 90 day warranty Software is warranted to conform to QUEST s Software Product Description applicable at the time of order QUEST s sole obligation hereafter shall be to remedy any nonconformance of the software to the Software Product Description during the 90 day period following delivery This warranty shall not apply to fuses batteries or any product or parts subjected to misuse neglect accident Acts of God or abnormal conditions of operation QUEST agrees to repair or replace at the place of manufacture and without charge all parts of said products that are returned to the QUEST factory within the warranty period provided the warrantor s examination discloses to its satisfaction that the product was defective and that the equipment has not been altered or repaired other than with QUEST s author
96. es because 15 too cold TELSEC will evaluate the MIN sPT 1 80 part of the equation first because of the parenthesis inserted The function will compare the current value of SPT 1 or 82 with a limit of 80 The function will return the minimum MIN of these two values or 80 SPT 1 has now been limited to 80 Personnel can be prevented from wasting energy in this way Equation Seven Equation seven performs a simple function It simply scrolls the analog values across the front panel display to be seen by anyone wanting to know the current conditions DEFINE DISPLAY EQU SEND UIN lt I SEND UIN 102 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 8 Front Panel and Display Quest Controls Inc TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 7 11 Uploading Programs Once all TELSEC programming and equation definitions are complete the information must be uploaded to the TELSEC Entering programs manually is very time consuming Most users write all programs using a computer and word processing software first The programming is entered in ASCII text format Be sure to save the program file in a non document mode in TXT mode You can use the forward slash as the first character on a line to create comments in your program file Once the programs are complete communication software is used to quickly upload the program Prior to uploading the prog
97. etermined by the control strategy equation or EQU written to use them Syntax DEFINE lt NAME gt NAME Auser defined point name KEY4 Auser defined key number assignment Example DEF OCCUPIED KEY 1 DEF LEAD LAG KEY 2 6 4 4 DEFINE DAT Use to define special date ranges or holidays to be used in programming There are eight 8 schedules Date schedules can be used inside of time of day TOD schedules or can be referenced within equations They are used when you want action on a specific date s instead of a day of the week schedule Syntax DEFINE lt NAME gt DAT FIRST DATE lt CONJUNCTION gt SECOND DATE NAME Auser defined point name This is optional and does not need to be entered if you are redefining the point but what to keep the same name FIRST DATE Any valid date entry A valid date can be in numeric format MM DD or text format consisting of month name and numeric date CONJUNCTION AND Denotes two separate dates TO Denotes an inclusive range of dates 60 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 6 Programming and Operation Quest Controls Inc TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 lt SECOND DATE gt Any valid date entry Default None Example DEFINE CHRISTMS DAT 1 DEC 24 DEFINE JULY4TH DAT 2 7 4 DEFINE HOLIDAY DAT 3 12 25 AND 1 1 DEFINE WINTER DAT 4 NOV 1 TO
98. evices that require remote connectivity over the PPP interface Logging Logs all inputs outputs and alarms up to 16 000 points Software Supports any off the shelf terminal communication software e g Procomm HyperTerminal or Web browser e g Internet Explorer 6 Firefox 1 5 Terminals A single 50 pin Amphenol connector for outputs discrete and analog inputs Supports 2 wire tip and ring connections for each point using 25 pair cable Battery Long life lithium 10 year shelf 1 5 years under load Temp Sensor Accuracy 1 F 0 5 C temp sensor s Ambient Operating Temp 40 to 180 F 40 to 82 C 0 95 RH Non condensing Certification NEBS Level III Approved UL Listed CE Dimensions 1 75 H x 13 25 W x 9 5 D 45 mm x 337 mm x 241 mm Shipping Weight 4 lbs 1 81 kg 3 5 3 TELSEC Expansion Module Specifications TELSEC Expansion Module Part Number 150640 for Rack Mount 150724 for Wall Mount Mounting Rack mount 19 and 23 or Wall Mount inputs 32 universal inputs analog 0 5 VDC or 0 20 mA dry contact closure or wet contact 3 75 VDC Outputs 16 Normally Open NO 1 amp at 30 VDC 0 3 amps at 60 VDC 0 5 amps at 125 VAC Certification NEBS Level III Approved UL Listed CE Dimensions Rack mount 17 W X 10 5 DX 1 75 H 43 1cm W X 26 7cm D X 4 5cm H Wall mount 11 H X 11 W X 2 D 279 mm X 279 mm X 51 mm Sm Rack mount 6 lbs 2 7 kg Wei
99. examine his environment The main program must be loaded over the Ethernet modem or from the serial port All four methods of communication are password protected and the TELSEC will always ask for a password when system interrogation or programming is attempted The default passwords are MASTER PROGRAM and READ After entering either the MASTER or PROGRAM password you are ready to begin programming 6 1 1 Modem The TELSEC system supports two modems for dialup communications To communicate with the TELSEC via dial up modem you need an AT command set compatible modem on the other end with communications software to handle the call Any off the shelf package will do For software recommendations contact your Quest representative The TELSEC modem will connect using the highest negotiated speed Be certain the calling modem is set to use error correction and data compression The phone should ring once and the TELSEC will answer After a few seconds the TELSEC will print out the system identification and will be ready to accept a command The system will prompt for a password when the first recognizable command is entered If you press the enter key twice prior to entering a command the system will prompt for your Username and then password The default user names and passwords are the same l e MASTER and MASTER Enter any recognized password to begin your session When finished with the TELSEC simply hang up drop DTR to t
100. f power to the TELSEC the TELSEC automatically enables all equations The equations are then processed and run in order expeditiously 7 9 4 Use of Memory When an equation is defined the TELSEC will report how many bytes of memory the equation requires No equation is allowed fill more than 256 bytes When an equation that is too complex is entered the TELSEC will alert the programmer The equation can be simplified or variables can be used to pass information to other equations so that some of the computation can take place there The TELSEC byte report will alert the programmer when an equation being entered is getting close to the 256 byte limit Equations obtain memory in 32 byte sections If the TELSEC reports an equation used 37 bytes you should recognize that the equation actually used two 32 byte sections and actually removed 64 bytes from the total available memory in the TELSEC 7 9 5 Checksums The TELSEC system will do a check sum test on all equations when the unit comes up from a power failure or when the system is reset This test ensures the integrity of programmed control strategies Any equation that does not have the same check sum as that prior to the power fail or reset will be disabled and will not perform any control or monitoring functions The system will automatically insert an alarm in the alarm log stating that a failure for an equation has occurred If an alarm phone number is programmed
101. fecting lt severity gt CR Critical alarm MJ Major alarm MN Minor alarm CLEAR Alarm condition has cleared NONE Alarm condition is status only list of ANM Optional Like the digital alarms in section 6 4 1 3 you can specify which alarm numbers to dial when the alarm is generated All active numbers will be dialed if you do not specify Once an entry has been placed into the alarm log the TELSEC will take appropriate action If alarm phone numbers ANMs have been defined the TELSEC will wait for the modem to become available and then attempt to call out the alarm Once the TELSEC makes the alarm callout connection it will dump all alarms not yet sent in the alarm log The information contained in an alarm callout includes system TID the current date and time and the point information specified to alarm This information will be sent in a TL1 formatted message Example of an alarm equation DEF HITEMP EQU 1 IF UIN TEMP2 VAR SETPOINT THEN ALARM UIN TEMP2 ENV MJ WAIT UNTIL UIN TEMP2 VAR SETPOINT ALARM UIN 2 ENV CLEAR Notice that a WATT UNTIL statement ends this equation block This will keep this equation from continuing to enter ALARM statements in the alarm log each time this equation is processed The equation will now only process once and WAIT UNTIL the alarm condition has gone away before it processes the rest of the equation and goes back to the beginning again Example of an alarm equation with s
102. function evaluates the stored value will be the average between the last calculated value and the new calculated value 7 8 7 Pulse Command The pulse command allows the TELSEC to turn on or off a relay quickly with very detailed timing The Pulses are accurate to the nearest 10 of a second An example of using this function would be for connecting to pulse to analog transducers where sending contact closure for a specific period will change the amount of output that occurs such as with variable speed motors or variable position dampers The command format is PULSE lt ON OFF gt RLY lt gt FOR time in 10ths gt Where lt ON OFF gt Turn the Relay either ON or OFF d The relay time in 10ths Time in tenths A 1 1 10 10 1 second etc Example IF statement THEN PULSE ON RLY 1 FOR 1 WAIT 5 00 If the statement is true then the relay will pulse on for 1 10 of a second and then the equation will wait 5 minutes IF statement THEN PULSE ON RLY 1 FOR VAR 1 WAIT 5 00 If the statement is true then the relay will pulse on for the value of variable 1 and then the equation will wait 5 minutes Another equation can be used to change the value of variable 1 7 8 8 COM Port Status The status of the two communications ports can be monitored by equations and then additional alarming or control functions can be accomplished based on the status The point names are 95 RM WM 800 Manual Rev 3 0 9 9 09 Chapte
103. gh Shipping eight Wall mount 4 lbs 1 8 kg 16 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 3 Product Specifications Quest Controls Inc TELSEC 2000 1500 RM WM 5 Monitoring Control amp Test Solutions for Telecom User s Manual 2 CHAPTER 4 INSTALLATION INSTRUCTIONS 4 1 Scope This Chapter describes the hardware installation for the TELSEC Rack Mount and Wall Mount RM WM For a general description of the TELSEC refer to Chapter 3 Product Specifications The TELSEC comes in two basic hardware configurations The TELSEC RM figure 1 is a rack mounted unit designed to fit in either a 19 or 23 rack The TELSEC WM figure 1 is a wall mounted unit designed to mount to any type of wall surface that can support the product Quest Controls Inc 3 A OP S2 2 Quest Cc amp Test Solutions for Telecom D www quettcontroli com TELSEC RM CRAFT Figure 1 TELSEC RM Rack Mount LSEC WM A Quest Controls ms 4 m Figure 2 TELSEC WM Wall Mount 4 2 Unpacking the System The TELSEC may be ordered in a number of configurations to suit a wide variety of installations All options ordered are tested and installed at the factory and the complete system is ready for installation when it is removed from the shipping carton This carton and the packaging material should be retained in case it becomes necessary to retur
104. ghted continuously to indicate the system is connected to the source voltage Standard 2 position screw terminal provides interconnection of the power source and a built in re settable fuse provides surge and overload protection 3 3 6 Expansion Module The TELSEC 2000 expansion module is a remote module that will expand a basic TELSEC input and output capability The module provides an additional 32 universal inputs and 16 control contacts This unit comes in either rack mount or wall mount configuration and plugs into the TELSEC RM or WM through a 3 wire network connection The Expansion module can be located up to 1000 feet 300M from the main TELSEC system 3 3 7 Expansion Card The TELSEC 1500 expansion card is a plug on module that will expand a basic TELSEC 1500 to accommodate an additional 16 universal inputs and 8 outputs This module is typically installed in the factory but is designed to be field upgradeable if required 3 3 8 Alarm Ports and Pre Connectorized Block Type Pre connectorized Terminal Blocks Part 300718 The terminal block is designed to be used with all terminations required for dry and wet dry alarms It is a Telzon type connectorized terminal block and has 4 predetermined 50 pin TELCO connectors on the rear and 8 horizontal rows of 200 wire wrap pins for cross connecting the alarm leads from the specific device being monitored 3 4 Communications Modules 3 4 1 Local Serial Port The local
105. has been written in this way the variable may not need to be used at all the MIN function itself can be used in place of the variable 7 9 1 Avoiding Repeat Effects Keep in mind that the TELSEC runs each equation continually If a WAIT statement is reached the TELSEC will Suspend operation on that equation until the conditions are achieved You must consider whether an equation will produce one effect or many effects and whether these effects are desired 7 9 2 Repeat effects may not matter Suppose the goal of a certain equation is to put RLY LIGHTS in the correct state This equation can be written so that the TELSEC will either reach TURN ON RLY LIGHTS or TURN OFF RLY LIGHTS every time In this case it does not matter how often the equation runs as long as it does the right thing each time This is because turning on the lights has no effect if they re already on If the equation is written to complete a task such as pulsing a relay making a phone call logging sending messages etc it is important to ensure the action only occurs once per occurance The WAIT UNTIL FALSE statement is a typical way to produce a single effect If an equation starts with an IF THEN test it may end with the same test preceded by WAIT UNTIL NOT This keeps the TELSEC from starting the equation again until the situation that made the TELSEC initiate the equation has ceased Follows is an example of this form IF UIN ALARMED THEN statement
106. he modem using your communications software or issue the HANGUP HA command the TELSEC will log out If the TELSEC senses no modem activity after a 10 minute period it will hang up the modem and log out 6 1 2 Communications Terminal To get on line using a communications dumb terminal connect a 9 pin serial cable to the terminal port on the front of the TELSEC Set your terminal for 9600 baud 8 data bits no parity and 1 stop bit Press Enter and a string of text will appear on the terminal as the TELSEC detects the new hardware connected to the db9 port and will interrogate to find whether or not a modem has been plugged in If you press the enter key twice prior to entering a command the system will prompt for your Username and then password The default user names and passwords are the same le MASTER and MASTER After attempting to initialize the port the TELSEC will display a message stating direct connect mode established You may now enter a command and begin your session When finished disconnect your terminal and the TELSEC will log you out 54 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 6 Programming and Operation Quest Controls Inc TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 6 1 3 Telnet over Ethernet The Telnet connection over the optional Ethernet interface will act just like the direct connection to the TELSEC Use your Tel
107. ing and control or when rack space is not available for a wire wrap block NOTE Card Access Reader amp Keypad 1 DISCONNECT POWER TO TELSEC PRIOR TO CONNECTION TITLE THE INFORMATION CONTAINED IN THIS 2 TERMINATE WIRES ON KEYPAD PRIOR TO CARD ACCESS CONTROL DOCUMENT IS CONSIDERED PROPRIETARY AND TERMINATING AT THE TELSEC CONFIDENTIAL AND IS PROVIDED FOR THE SOLE 3 USE 5 CONDUCTOR 20 AWG SHIELDED CABLE CUT HDD DATE USE OF INSTALLING AND OR MAINTAINING AND INSULATE DRAIN WIRE AT READER GROUND NICKEL 11 6 2007 QUEST S PRODUCTS UNAUTHORIZED DRAIN WIRE AT CONTROLER ONLY FIEENENIE SAGE VISIODOCUMENT 1 OF 3 40 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 4 Installation Instructions Quest Controls Inc TELSEC 2000 1500RM WM 5 Monitoring Control amp Test Solutions for Telecom User s Manual OPTION A USING CIM FOR TERMINATION OF FIELD WIRING The door actuator can be controlled from any output This example shows the door being controlled by relay 8 Refer to the access control section of the manual for programming and operation DOOR CONTACTS ELECTRIC DOOR LATCH OUTPUTS INPUTS v B 1 Dd l Inline 48V to 24V converter JL v 7 2 4 9 z 2 9 3 v 4 4 INS O a 5 0 IN 5 O ed 6 m Ne PI E N d 7 IN 7 Ne O be we N ao P5 GND 48 VDC SOURCE CURRENT DRAW 25 AMP 50 PIN CONNECTOR TITLE DOCUMEN
108. ing of a point Offset Adjustment of a value to return the correct amount Operating System Internal workings of a microprocessor controlled device Much like the human brain PID Abbreviation for Proportional Integral Derivative An algorithm to calculate a position based upon historical trends Point A single entity of programming Priorities Facility to order a decision making process Qualifier Digital point used to allow different statements to be processed under only certain conditions If the qualifier is not true the statement would not be evaluated RTRV Retrieval command A TL1 command used to retrieve the system ID and alarm data Setpoint User defined value used in comparison or as a target a TID Target identifier or system identification Used with TL1 messaging when entering a command or generating alarms Time Schedule Facility to compare a collection of times to the current time and return a digital value TL1 Transaction language 1 A format or protocol developed by Telcordia formerly Bellcore for transmitting alarms and interrogating the TELSEC Index
109. into the log space for this point Use the word Loc if you want to log the input or use NOT LOG to prevent automatic entry into the history log NOT AVG This input be programmed to have instantaneous data or averaged data sampled every minute for the log entry NOT AVG will cause the system to wait the delay time and then enter the current reading into the history log AvG will cause the system to average the sensor reading over the interval time and then enter the average reading once the interval time has been met LOG INTERVAL Input the minute interval for log entries here The range is 1 120 minutes 6 4 1 2 Example Analog Define UIN DEF ROOMTEMP UIN 1 TEMPF 1 MSG 1 LOG AVG 15 DEF ROOM UIN 2 RH 0 LOG NOT AVG 16 DEF OUTAIR UIN 7 THERMF 0 LOG TOD 1 AVG 30 DEF DC AMPS DIN l6 SCALE 1 LOG AVG 5 6 4 1 3 Digital inputs DIG lt DIG INVDIG gt A point defined as DIG will show an ON or alarm value when a contact closure is made normally open A point defined as INVDIG will show an ON or alarm value when the input is in the open state normally closed DIGITAL Digital input point for normally open points INVDIG Digital input point for normally closed points Alarm Type lt ENV EQPTSA EQPTNSA gt This section is optional for automatic alarming of the point Omit this section for inputs that are monitor only or will be alarmed through the equations ENV Specifies an environmental alarm EQPTSA op
110. ir own names For example the TELSEC has default name of UIN001 for UIN 1 This name does not provide much information for this point Let s say this point is a temperature sensor input for the outside air temperature lf this point is named OUTAIR it will have much more meaning in your programming 6 3 3 HELP Command Issuing the HELP or command alone will present the user with a list of available KEYWORD entries A KEYWORD entry is defined as any command that starts a TELSEC programming line The available KEYWORD list is DEFINE CLEAR REVIEW LIST NAME SET REMOVE BYPASS HELP HANGUP SEARCH A user must start a line of programming with one of these KEYWORDS You can see specific help on a KEYWORD by entering the KEYWORD followed by the ENTER key Further help levels can be seen by entering the KEYWORD followed by a point type 6 3 4 Short Cuts All commands can be abbreviated to the first three characters command from another For example the REVIEW command can be shortened to REV 56 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 6 Programming and Operation Quest Controls Inc TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 6 4 DEFINE Command The DEFINE command begins all point definition programming By defining a point the TELSEC is programmed as to how that specific point will operate Each of the following point types can be defined UIN RLY KEY DAT T
111. isplay when the alarm occurs DEF HIGHTEMP MSG 1 HIGH TEMP ALARM IN ROOM Equation One Its purpose is to convert the temperature and humidity readings and store the outcome in memory variables to be used by the other equations DEFINE CALCUINS EQU 1 VAR 1 UIN 1 100 VAR 2 UIN 2 100 Equation Two Its purpose is to control RLY 2 which is the air conditioner Stage 1 DEFINE COOL__1 EQU 2 IF UIN 3 ON THEN TURN OFF RLY 2 ELSE gt SPL 1 FOR 2 00 THEN TURN ON 2 ELSE IF lt SPT 1 FOR 2 00 THEN TURN OFF RLY 2 Notice there are three 3 IF THEN ELSE statements in the equation This corresponds to the amount of tasks this equation must handle The three tasks in priority are as follow Task1 Turn off the air conditioning if the smoke detector is on Task 2 Turn on the AC if the temperature is greater than the current setpoint for two minutes Task 3 Turn off the AC if the temperature is less than the current setpoint for two minutes Equation Three The control strategy for the second air conditioner can be programmed as follows DEFINE COOL 2 EQU 3 IF UIN 3 ON THEN TURN OFF RLY 3 ELSE IF gt SPI 1 SEI 2 FOR 2 00 THEN TURN ON RELY ELSE IF lt SPT 1 FOR 2 00 THEN TURN OFF RLY 3 Again there are three 3 IF THEN ELSE statements in the equation This corresponds to the number of tasks this equation must handle The three tasks are as follow
112. ization and by its approved procedures Repair or replacement of QUEST products does not extend the original warranty period A product or board may be deemed beyond repair if QUEST determines that it has been subject to misuse improper maintenance negligence or accident damaged or had its serial number or any part thereof altered defaced or removed If the failure has been caused by misuse neglect accident or abnormal conditions of operation or if the warranty period has expired repairs will be billed at a nominal cost This warranty is in lieu of all other warranties expressed or implied including but not limited to any implied warranty of merchantability fitness or adequacy for any particular purpose or use In no event shall QUEST be liable for any special incidental or consequential damages whether in contract tort or otherwise 120 RM WM 800 Manual Rev 3 0 9 9 09 Warranty 2 Glossary Alarm Receiver Device used to gather and display alarms Usually a printer or computer with a modem is used Alarm Condition generated by unusual circumstances Alarms are used to alert someone to a particular condition Analog Most easily defined as a range of values as opposed to two distinct values in the case of digital Analog Output A DC voltage or milli amps output used to control an analog device through a range of action Analog Input Sensing device that returns an analog value Bypass Overriding a p
113. lection has been made press the ENTER key Another menu or the requested data will be displayed 8 24 Aborting Often we get busy and forget what we are doing The TELSEC may present a menu and you have no idea of how you got there If this occurs press the EXIT key to escape The EXIT key will abort the current choice and return to the initial state Display of ID and Time When not in use the front panel display shows the contents of ID 1 on the first line and the current date and time on the second line After the user logs off the front panel this information will return TELSEC 2000 JAN 14 12 15 PM 8 2 5 Equation Generated SENDs In Chapter 7 Equation Language we discussed the SEND keyword when used in equations The SEND command allows equations to display information on the front panel of the TELSEC Any TELSEC point or timer can be displayed on the front panel The SEND option can be used to alert occupants to trouble or to continually display information 105 RM WMW 800 Manual Rev 3 0 9 9 09 Chapter 8 Front Panel and Display Quest Controls Inc TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 8 2 6 Automatic Digital Input Alarms Any UIN defined as a digital alarm point see section 6 4 1 3 will either display the status ON status of the point or the optional 32 message defined for the point This message will continue to display until the al
114. line 48V to 24V converter 48 VDC SOURCE CURRENT DRAW 25 AMP THE INFORMATION CONTAINED IN THIS DOCUMENT IS CONSIDERED PROPRIETARY AND CONFIDENTIAL AND IS PROVIDED FOR THE SOLE USE OF INSTALLING AND OR MAINTAINING QUEST S PRODUCTS UNAUTHORIZED REPRODUCTION IS PROHIBITED RM WM 800 Manual Rev 3 0 9 9 09 TB2 TEMP HUMIDTY SENSOR _ E OUTPUTS INPUTS 5 1 4 CXDICXD XL T4 4 ram L lt r KD 11 we ra RO 1 zz E DIEA DIEA DEA DIECA DIEA DEX eX DECXDICX 1 ADE ram Vd NOTE THIS DRAWING IS FOR RETROFITTING A CEV WITH TWO AIRCONDITIONING SYSTEM AND A SEPERATE VENT FAN CONSULT YOUR QUEST REPRESENTATIVE IF YOU HAVE QUESTIONS REGARDING THIS DRAWING OR OTHER APPLICATIONS E EPL i 1 RELAYS K1 K7 ARE 24V COIL RELAYS 2 RELAY K8 IS 120V COIL 3 ALL CONTROL RELAYS ARE WIRED TO EXISTING CONTACTORS FOR CONTROLLING THE CORRESPONDING ITEMS 4 K7 WARNING LIGHT CONTROL ASSUMES THE STATUS LIGHTS RUNS THROUGH THE EXISTING HATCH SWITCH TO TURN OFF THE LIGHTS WHEN THE HATCH IS CLOSED VENT ALARM MOISTURE SENSOR EXPLOSIVE GAS TOXIC GAS HIGH WATER OUTSIDE AIR TEMPERATURE TITLE DRAWN BY DATE FILENAME PAGE CEV RETROFIT 2 AC N L 2 O0F3 Chapter 4 Installation Instructions Ce Quest Cont
115. m User s Manual 2 CTAG Correlation tag Used to match the response to the command with who sent the command Example RIRV HDR TELSECEM RTRV HDR K 6 9 2 RTRV ALM The RTRV ALM command is used to review active alarms By issuing the command the TELSEC will show all currently active alarms Use the REV ALARM command to see a history log of alarms The format for RTRV ALM command is as follows RTRV ALM lt TYPE gt lt TID gt lt SID gt lt CTAG gt TYPE ALL Will show all active alarms ENV Shows active environmental alarms EQPT Shows active equipment alarms TID Target identifier first line of the ID This can be left out for direct connect STD Not currently used by the system CTAG Correlation tag to match the request with response Examples RTRV ALM ALL TELSECRM X123 RIRV ALM ENV XYZ RIRV ALM EQPT TEBSECRM iK 6 10 NAME Command Use the NAME command to set names for any TELSEC system points The name assignments can be as many as eight 8 characters long and must start with an alpha letter A Z The characters 96 and amp can also be used within the name Syntax NAME STRING lt POINT gt STRING string up to as many as eight characters POINT 4 Anyofthe TELSEC System points Available system points are UIN RLY KEY DAT TOD EQU VAR SPT DOR ANM MSG BAT CARD Example NAME FAN FAIL UIN 5 6 11 BYPASS Command Use the BYPASS command to toggle RLYs
116. m User s Manual 5 6 CEC CUE With 2AC DIGITAL OUTPUTS HVAC FIRE LOCKOUT 1 E e ___ 8 HVAC FIRE LOCKOUT 2 l UNIVERSAL INPUTS Sensor Type TEMP F 4 VDC power to unit DRY CONTACT DRY CONTACT 6 COMMERCIAL POWER FAIL DRY CONTACT SMOKE FIRE DETECTOR DRY CONTACT 8 FIREDETECTORFAILURE DRY CONTACT _ DRY CONTACT 10 DRY CONTACT 42 RY CONTACT DRY CONTACT DRY CONTACT DRY CONTACT 15 15 1 1 1 1 1 DRYCONTACT 16 PE DRY CONTACT 50 RM WMW 800 Manual Rev 3 0 9 9 09 Chapter 5 Application Ce Quest Controls INC TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 5 7 Remote Cabinet Monitoring DIGITAL OUTPUTS UNIVERSAL INPUTS Sensor Type TEMP F VDC power to unit DRY CONTACT DRY CONTACT 6 COMMERCIAL POWER FAIL DRY CONTACT RECTIFIER FAILURE MAJOR DRY CONTACT 8 RECTIFIER FAILURE MINOR DRY CONTACT 9 POWERPLANTFUSE DRY CONTACT 10 LOW VOLTAGE DISCONNECT DRY CONTACT 7 0 DRY CONTACT 28 DRY CONTACT 29 UKU DRY CONTACT WET CONTACT DRY CONTACT 51 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 5 Application Ce Quest Controls INC TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 5 8 CEV With Telephony and Battery Temperature Monitoring DIGITAL OUTPUTS VENT FAN 9 EMERGEN
117. mands 2 1 11 Writing programs A standard file is provided for Cabinets Huts and CEV s To provision a new site use the appropriate template and modify it add delete according to what will be monitored at the site Save the changes to a separate file so you have a copy of the sites programming 2 1 12 Saving Programs to Non Volatile Memory All programming when loaded to the system is stored in battery backed up RAM The program can be written to the non volatile FLASH memory once you have completed your provisioning To store all programs to FLASH Type the command SET PROGRAM DEFINE and the system will respond with a message stating it is writing to the FLASH Format SET PROGRAM DEFINE enter Note you can abbreviate this command to SET PRO DEF RM WM 800 Manual Rev 3 0 9 9 09 Chapter 2 Getting Started Quest Controls Inc TELSEC 2000 1500 RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 2 22 TL1 Alarm Format Once a point is determined to be in alarm the controller will automatically send the alarm and log the event in the alarm log When the alarm goes away the controller will automatically send out a clear message in TL1 format The clear will also be logged in the alarm log Refer to sections 2 1 7 and 6 4 1 for programming alarm points TL1 ALARM MESSAGE FORMAT cr lf lf Nd M SS cr lf lt sp gt lt sp gt lt sp gt TID lt sp gt YY MM DD lt sp gt HH ALMC
118. mentl BY element2 SET elementl TO elementl element2 If the word By and the second element are omitted the INCREMENT statement simply adds one 1 to the value of the number element specified 7 3 20 2 Decrement Statement The DECREMENT statement decreases the value of a specified numeric element The two statement forms below have an identical effect the DECREMENT form is legal only where the SET form would be legal DECREMENT elementl BY element2 SET elementl TO elementl element2 Examples INCREMENT VAR 1 DECREMENT SPT 1 BY 2 SET VAR TEMPSPT TO 70 If word By and the second element are omitted the DECREMENT statement simply subtracts one 1 from the value of the numeric element specified 7 3 20 3 Clear Statement The CLEAR statement sets an element s value back to zero The exceptions are variables and setpoints where the command resets the variable to its initial defined value The two statement forms below have an identical effect the CLEAR form Is legal only where the SET form would be legal CLEAR element SET element TO 0 The CLEAR statement is typically used to reset the values of point statistics If you CLEAR RLY Or UIN all associated timers and counters are set to zero Examples CLEAR VAR HOWMANY CLEAR SPT COUNTER CLEAR REC 4 CLEAR RTM 4 CLEAR RLY 1 CLEAR UIN DIGSWTCH 89 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 8 Front Panel and Display Quest Controls Inc TELSEC 200
119. ming and Operation Quest Controls Inc TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 63 Command Syntax This section outlines the syntax for defining the TELSEC s points through the modem local communication port or Telnet This is a reference section Each command will be listed and then each command component will be explained in detail If defaults exist for a specific command or point they will be shown here For the actual programming of the TELSEC see Chapter 7 Equation Language 6 3 1 Conventions Text shown in this TYPEFACE contain commands that are sent to the TELSEC Optional text is shown in brackets text lf the user can enter one command from a list greater than less than symbols denote the list lt list gt These same conventions are used with the TELSEC help prompts All programming must be ended by pressing the ENTER RETURN or semicolon key lf a mistake is made during input use the backspace character to erase or press the escape ESC key to abort 6 3 2 A Word about Names The TELSEC associates an eight character alohanumeric name with every point The name must start with an alpha A Z character followed by up to seven alpha numeric A Z 0 9 or special characters The special characters are amp and The TELSEC will not recognize a space within a name The TELSEC has default names for all points but we recommend users assign the
120. mory and doesn t affect the program stored in flash unless you do a SET PRO DEF command to store the new settings from RAM memory Syntax REMOVE SOURCE POINTTYPE gt lt SOURCE POINTTYPE gt Available point types are RLY KEY DAT TOD EQU DOR ANM MSG PSWD CARD MAIL Example REMOVE PSWD 1 Deletes PSWD 1 from the system REMOVE EQU 1 4 Removes equation 1 through 4 REMOVE TOD 1 Removes programming for all priorities of 1 IICAUTION The REMOVE command will wipe out programming for the TELSEC Use it with caution 68 REVIEW Command The REVIEW command is used to see the current status of a point or of several points Syntax REVIEW lt POINTTYPE gt lt POINTTYPE gt Available point types are UIN RLY DAT TOD EQU VAR SPT DOR BAT ALARM LOG BUS Note Under the LOG command you will have access to LOG UIN f OrRLY 4 Review log entries for the specified point LOG FREE POINT 4 Review the freeform log entries These are entries put in the log with equations LOG ACCESS Review the Access Control Log ALARM Review the entries in the Alarm Log 6 8 1 Column Header Definitions Each point type and TELSEC header will be explained in this section In all cases the will be the point number physical or virtual and the NAME will be the user defined name given to each point 74 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 6 Programming and Operation Quest Controls Inc TELSEC 2000 1500RM WM 3 Monitoring
121. n the unit to the cud s RM WM 800 Manual Rev 3 0 9 9 09 Chapter 4 Installation Instructions Quest Controls Inc TELSEC 2000 1500 RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 factory for repair In addition to the TELSEC unit the following items will be found inside the carton 4 21 TELSEC RM Included Components e Two 2 reversible rack mounting brackets e Mounting Hardware four each of 8 screws 8 lock washers 8 flat washers 12 screws 12 internal tooth star washers and 12 flat washers e Two 5 5 tie wraps for securing the 50 pin amphenol cables to the input output connectors e One Ferrite coil for incoming power noise suppression Humidity Temp sensor with enclosure and mounting hardware e Phone cords Optional one for each modem provided with the unit e Users Manual on Tech Doc CD e Configuration sheet listing all serial numbers and options installed in the unit 4 2 2 TELSEC WM Included Components e Two mounting brackets e Mounting Hardware four each 6 flat head screws e One 5 5 tie wraps for securing the 50 pin amphenol cable to the input output connectors One Ferrite coil for incoming power noise suppression e Humidity Temp sensor removable but comes mounted to bottom of chassis Phone cords Optional one for each modem provided with the unit e Users Manual on Tech Doc CD e Configuration sheet listing all serial numbers and options
122. n will disappear You can also press the EXIT key to abort your changes T New Setpoint Press ENTER now to make your change active You have now modified a setpoint The display will return to the setpoints list The up down arrow keys can be used to select another setpoint or press EXIT to return to the main screen 8 3 2 Bypassing Outputs The TELSEC allows a front panel user to bypass digital RLY outputs To do so follow these directions DEFINE WHICH SETPNT BYPASS SETPNT has the cursor on it so it is necessary to press the RIGHT arrow once to scroll to BYPASS 107 RM WMW 800 Manual Rev 3 0 9 9 09 Chapter 8 Front Panel and Display Quest Controls Inc TELSEC 2000 1500RM WM J Monitoring Control amp Test Solutions for Telecom User s Manual DEFINE WHICH REVIEW BYPASS CLOCK Press ENTER to activate BYPASS TYPE Choose which output type to bypass The current choice is RLY Press enter again BYPASS RLY 1 AC1 FN We currently display RLY RLY001 which is the default name for relay one If you have named relay one differently the defined name will appear instead Choose which RLY to bypass Use the UP and DOWN arrow keys to scroll to the proper RLY 2 Once at the proper RLY press ENTER to bypass it T BYPASS RLY RLY chosen relay Choose how to bypass the RLY ON and OFF are self explanatory Choose AUTO to clear any bypass active at thi
123. nch or 23 inch standard telephone type rack mounting utilizing reversing brackets to provide flexibility for positioning the system on the rack The front panel includes a 32 character display 8 button keypad and a RS232 connector craft port for local serial input output The rear of the product includes a green LED to indicate power on or off two 50 pin connectors for inputs outputs connectors for power expansion and communication ports and a connector for card access control 3 3 4 Wall Mount The TELSEC wall mount enclosure is designed to mount to the wall of any type facility The unit comes with two mounting plates which should be attached to the back of the unit The front panel includes a 32 character display and 8 button keypad The bottom includes a green LED to indicate power on or off connectors for power and expansion and communication ports as well as a connector for card access control The top includes two 50 pin connectors for input outputs and RS232 connector craft port for serial input output RM WM 800 Manual Rev 3 0 9 9 09 Chapter 3 Product Specifications Quest Controls Inc TELSEC 2000 1500 RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 3 39 5 Power Supply The TELSEC is powered by a negative 48 VDC battery or an equivalently rated 48 VDC source The system can also be powered from 24 VDC The green LED on the lower right of the back panel will be li
124. nds can be saved to an ASCII Text file and then loaded via ProComm to the controller Make sure your ASCII download settings are set up as follows 5 STRIP LF on upload 6 5 millisecond character delay 7 Don t expand blank lines ProComm default is to expand blank lines 8 Use software flow control XON XOFF Note you must be logged on with a password in order for the system to take your program files The system will respond with OK after each program line An error message will be displayed if a line is not accepted When this occurs correct the line and then either retransmit the file or copy and paste the correction to the system by using the Windows copy and paste commands 7 11 3 Saving Programs to Non Volatile Memory All programming when loaded to the system is stored in battery backed up RAM The program can be written to the non volatile FLASH memory once you have completed your provisioning To store all programs to FLASH Type the command SET PROGRAM DEFINE and the system will respond with a message stating it is writing to the FLASH 103 RM WMW 800 Manual Rev 3 0 9 9 09 Chapter 8 Front Panel and Display Quest Controls Inc TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 CHAPTER 8 THE FRONT PANEL AND DISPLAY 8 1 Overview The TELSEC allows the following functions from the front panel Display of ID and Time Equation Generated SEND information Digit
125. nection Properties 2x Baud rate 9600 Party Mone Even Odd Mark Space a JB Modem Data bits 8 C 7 Connection T Dialing Stop bits f 1 1472 Options Use hardware flow control calls cept date terminal calls 2 3 6 Dialing Directory Setu Connection Directory P5 DIR X File Edt Options Connection Help mm SN x amp 3c FiA a Add Directory Entry Hee p Data Fax Voice Telnet FIle Mail News Hame Company 1500 Area Code Data Number Data Connection 941 555 1 212 u s Robotics Fax Country Terminal United States of America 1 00 Always dial az long distance dial Data Number Group Frotacal Cancel Dial Help la 9 Click on the Connection Directory from the main screen and then choose ADD ENTRY to create an entry for the site 2 9 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 2 Getting Started Quest Controls Inc TELSEC 2000 1500 RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 CHAPTER 3 PRODUCT SPECIFICATIONS 3 1 1 Scope Chapter 3 describes the general specifications of the TELSEC 800 1500 and 2000 environmental control monitoring and alarming system It describes only the general specifications of the system
126. nergized the door control point to allow access 6 8 10 REVIEW BAT i NAME VOLTAGE TIME REMAINING CAPACITY VOLTAGE The voltage being reported by the input monitoring the batteries This is typically UIN 3 which is tied to the incoming power to the TELSEC TIME REMAINING The amount of time remaining in hours until low voltage disconnect is reached When the system in not in battery discharge the TELSEC will make the TIME REMAINING equal the capacity CAPACITY The estimated total capacity in hours of the battery plant This figure is calculated during battery discharge and is updated every 15 minutes while in discharge Note values of 0 for the time remaining and capacity mean that the system has not been in a discharge so it has not done the initial calculations 6 8 11 REVIEW ALARM This command will cause a list back of the alarm history log There are no headers for this log The most recent 99 alarms will be listed with the most recent at the beginning of the log to the oldest at the end The log will also include system notices that are logged but not sent out to an alarm center 6 8 12 REVIEW LOG The system logging retrieval scheme allows the user to review combinations of as many as four inputs and outputs The system will also allow you to specify a start date and time and a retrieval interval The interval allows you to specify the frequency of the data that you are reviewing lf you log analog inputs every 10 minutes bu
127. net client to establish a connection to the IP address Then enter the username and password when prompted 6 1 4 Front Panel To get on line using the front panel begin by pressing either the REVIEW or PROGRAM key The TELSEC will require a password for PROGRAM access Using the up and down arrow keys to scroll through the letters appearing on the display to the first letter of the password When set use the right arrow key to move over to the next letter position Once there use the up and down arrows to display the second letter of your password Continue until the complete password has been entered Use the left arrow key to make corrections When finished press the ENTER key The TELSEC will display if the correct password has been entered You may now begin your session When finished pressing the EXIT key two times in succession will log the user off the front panel If no keys are pressed for a period of ten 10 minutes the TELSEC will automatically log off the user 6 2 Definitions and Basic Information 6 21 TELSEC Program Language The TELSEC uses a control program called Equation Language for developing control strategies in addition to the standard ON OFF discrete alarm monitoring which is handled with a single define statement The building blocks for this system are called points A point can be any input output or control unit Each point has a name associated with it A program i
128. nge of states in the history log TOD This is an optional setting where you can enter a time of day schedule TOD so that the input only logs when the schedule is in the ON condition THERMF This is an optional parameter that tells the system to use the built in thermistor circuit for sensing the digital input The thermistor circuit looks for voltage in the 0 to 5v range This option is useful when piggybacking other alarm systems that are monitoring the same point Examples DEFINE SMOKE UIN 4 INVDIG ENV MJ 10 MSG 4 LOG DEFINE FUSEPNL UIN 5 DIG EQPTSA MJ 1 MSG 5 ANM 1 ANM 3 LOG DEFINE LIGHT SW UIN 10 DIG LOG DEFINE FIRETRBL UIN 11 INVDIG ENV MJ 10 MSG 11 LOG THERMF DEFINE Vent SW UIN 12 DIG MSG 12 LOG Default Inputs 1 2 amp 3 are preset as UIN 1 TEMPF for the included temp sensor ULN Z FH for the included humidity sensor UIN 3 B48 for monitoring the incoming power to the unit 6 4 2 DEFINE RLY Digital outputs are the TELSEC s interface to the outside world Countless different devices can be controlled using the digital outputs of the TELSEC In simple terms the digital outputs turn a connected device ON or OFF according to programmed parameters Use the DEF RLY command to define all of your digital outputs Syntax DEFINE lt NAME gt RLY FAIL STATE lt STAGING TYPE lt ENERGIZING lt NOT LOG gt lt NAME gt A user defined point name This is optional and does
129. oF ILLEGAL SITE CODE Acard with a site code differing from the one defined using the DEFINE DOR command was found No access was given 9 3 1 Reviewing Access Control Info All access control system transactions are stored in a log in the TELSEC memory To review this information enter the command REVIEW LOG ACCESS The log data will be output listed with the most recent transactions first to the oldest entries There are approximately 800 entries available in the log 9 4 Listing Access Control Information When the programming for the access control system is complete the data can be listed back for storage or reference using the LIST command To list the door definition use LIST DOR To list the valid card data use LIST CARD will show all cards in the database If nothing is displayed then there are no cards in the data base LIST CARD 3100 will list the card with access code 3100 If nothing is displayed then the card number is not in the data base 113 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 9 Access Control Quest Controls Inc TELSEC 2000 1500RM WM J Monitoring Control amp Test Solutions for Telecom User s Manual 2 9 5 Removing Cards The REM CARD lt card gt command will delete a specific card from the data base Format REM CARD lt card gt Where lt card gt the access code number of the card Example REM CARD 3050 REM CARD 4095 CAUTION If you send the command RE
130. ode Decimal 011234 4660 4 Next use the calculator that comes with windows Set it up for scientific format and click HEX numbers Enter the unique 4 digits for the user and click on the DEC The calculator will convert the number for you For example a four digit key code of 1234 will be entered into the system as 4660 The command to enter the code will then look like the following DEFINE CARD 4660 JOHN DOE lt enter gt 112 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 9 Access Control Quest Controls Inc TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 When John wants access to the facility he will enter 01 value in the lt Ks gt field followed by 1234 After completing and changes you will need to save your changes to flash with the SET PRO DEF command 9 3 System Messages The system will log one of the following statements in the access log when a card is flashed to the system NOTICE IN 09 25 07 14 21 00 DOR 1 CARD 345 OSCAR GRAHAM ACCESS GRANTED valid card has been received and the door relay has been energized NOTICE IN 09 25 07 14 20 00 DOR 1 CARD 8 DICK BRUTIS ILLEGAL ATTEMPT Access was attempted and denied to card 4 The card was not found in the database This message will show you if anyone with the correct site code on their card does not have access to the door NOTICE IN 09 25 07 14 20 00 DOR 1 CARD NONE
131. of the month the day of the week and the month in which you want the DLS to take effect lt FIRST SECOND THIRD FOURTH LAST To specify the position in the month lt DOW gt To specify which Day Of the Week DLS occurs lt MONTH gt Enter the month of daylight savings The word NONE can be entered for no DLS clock adjustment Example SET DLS SPRING SECOND SUNDAY MARCH SET DLS FALL FIRST SUNDAY NOVEMBER SET DLS FALL NONE SET DLS SPRING NONE Default DLS SPRING SUNDAY MAR 11 2007 2 00 00 AM DLS FALL SUNDAY NOV 4 2007 2 00 00 AM Once a date type is entered the TELSEC calculates the actual date of DLS The LIST DLS command can then be used to see the actual date The time adjustment occurs at 2 00 AM on the calculated date 6 5 5 SET BUS The set BUS command is used to turn on the communications to the TELSEC expansion module Once the BUS is set to ON you will have access to the additional 32 inputs numbered 33 64 and 16 inputs numbered 17 32 Additionally if communications fails between the modules the TELSEC will automatically generate a BUS alarm to notify the alarm center of a problem The system will also display the BUS alarm on the front display Syntax SET BUS lt ON OFF gt lt ON OFF gt ON turns on the bus communications and OFF disables the BUS communications Example SET BUS ON abr BUS ORE Default SET BUS OFF 6 5 6 SETMAIL SET MAIL is used to store information about the sit
132. of this is to have all conditionals bounded Use the power of digital elements to make an equation shorter and more elegant Digital elements are TRUE FALSE elements such as comparisons schedules or digital inputs or relays which can be ON or OFF In the TELSEC TRUE is equivalent to ON and to the number value 1 FALSE Is the same as OFF or 0 Consider the following equation UIN OCCUPTED THEN TURN ON RLY LIGHIS ELSE TURN OFF RLbr LIioHls The equation above checks whether UIN OCCUPIED is TRUE ON and moves ON to RLY LIGHTS If UIN OCCUPIED IS FALSE OFF It moves OFF tO RLY LIGHTS In both cases the desired effect is to move the value of UIN OCCUPIED directly to RLY LIGHTS Write this directly RLY LIGHTS UIN OCCUPIED This puts the relay in sync with the input A more general statement of this idea is Write a formula that is true in all cases instead of using THEN to test each case at a time Follows is an equation that computes the lower of two temperatures IF UIN TEMP1 lt UIN TEMP2 THEN VAR LOWER UIN TEMP1 207 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 8 Front Panel and Display Quest Controls Inc TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 ELSE VAR LOWER UIN TEMP2 A much easier way to do the same thing is to use the built in MIN function to get the minimum temperature VAR LOWER MIN UIN TEMP1 UIN TEMP2 Once it
133. on factor MV Milli volt conversion factor PSI 0 100 PSI Ibs per square inch conversion factor HPSI 0 500 PSI conversion factor B48 48v battery monitoring from 37 to 60 VDC B24 24v battery monitoring from 21 to 30 VDC B12 12v battery monitoring from 0 to 15 VDC PSI1 resistive cable pressure transducers 0 9 5 PSIG PSI resistive cable pressure transducers 5 14 5 PSIG resistive cable flow transducers 0 9 5 SCFH CFH2 resistive cable flow transducers 0 19 0 SCFH CFH3 resistive cable flow transducers 0 47 5 SCFH CFH4 resistive cable flow transducers 0 95 0 SCFH SCALE Use a manual scaling factor for this input See section 6 5 7 mb RM WM 800 Manual Rev 3 0 9 9 09 Chapter 6 Programming and Operation Quest Controls Inc TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 lt OFFSET gt number between 127 and 127 must be entered here Only whole numbers will be accepted This number is used to correct the sensor reading MSG The message option MSG allows you to assign one of the 64 messages to the input When the point is alarmed the system will send the assigned message in the alarm message TOD This is an optional setting where you can enter a time of day schedule TOD so that the input only logs when the schedule is in the ON condition lt NOT LOG gt The TELSEC can be programmed for this input to automatically insert an entry
134. onitoring Control amp Test Solutions for Telecom User s Manual 2 When password entry is complete press the ENTER key If a valid password has been entered the TELSEC will display momentarily If the password was invalid the TELSEC will display INVALID PASSWORD and program modifications will not be allowed Once you have entered a correct password the PROGRAM key will allow you to modify TELSEC information 8 2 2 Logging Off To log off the front panel press the EXIT key twice in succession The TELSEC will prompt LOGOFF Y N To log off of the system at this point press the YES key To continue using the front panel press the NO key The TELSEC will also automatically log you off if the inactivity delay of 10 minutes elapses without a key being pressed 8 2 3 Choices The front panel and display provide an interactive environment for the TELSEC user The TELSEC will provide the user a menu of choices from which to choose The TELSEC question will be posed on the first line of the display and the menu will be on the second line All menu selections are made using the scroll arrow keys A flashing block will appear in the middle of the current selection The block will scroll based on the key input If there is more information than will fit on the display arrows will appear in the left and right corners indicating the RIGHT and LEFT scroll keys can be used to access this information Once a se
135. ontrol amp Test Solutions for Telecom User s Manual 2 ELSE TURN OFF RLY 16 This example will turn on relay 16 if the battery status is either 5 Major Time remaining alarm and in discharge or 13 Critical and Major Time remaining alarm and in discharge are TRUE Turning on a relay can be to provide an input to another device notify the equipment of the problem or it can be connect to a local alarm device 7 9 Shortcuts The TELSEC s large number of operators functions and statements provide many different ways of solving a problem or specifying programmed action In fact there are usually several ways to write something that will have an identical effect There is no one right way to write an equation Different ways to write the same thing can be compared by asking these questions Does the equation work as desired In every situation Is it as readable as it could be Are there any wasted steps How much of the TELSEC s memory does it occupy That is could the equation be written more briefly An efficient equation makes the TELSEC do no more computing than necessary it has the shortest possible form and it is readable This last attribute produces efficiency by saving time when you or someone else must change it Trade offs must sometimes be made For example an equation that is longer than necessary may be written to emphasize what its function is or make it easier to change An example
136. optional AT init string is available for ports defined as POTS It is recommended that you do not change the init string unless you are familiar with AT command sets and require setting changes for proper connectivity BLOCK This is an optional perameter that will prevent any program changes from a remote site via modem dialup If BLOCK is specified then no changes will be accepted via the modem regardless of the persons password level Example SET COM 1 NETWORK 9600 8 1 N ON SET COM 2 DIRECT 9600 8 1 N OFF SET COM 2 POTS 9600 8 1 N ON SET COM 4 DIRECT 9600 7 1 E OFF Default SET COM 1 POTS 9600 8 1 ON 1 46 150 16506 0357 45 SET 2 POTS 9600 8 1 N ON 1 46 150 16506 0357 45 SET 4 DIRECT 9600 8 1 OFF NOTE Default COM settings are dependant on how the system is configured at the factory 6 5 11 SET FALSE The SET FALSE command is used to let the TELSEC mimic a Sparton 5354 system so it can be polled with customer specific polling programs Refer to Technote 1033 for use and operation Quest recommends that you do not set this mode on unless you are sure it is required for compatibility with your alarm center Syntax SET FALSE lt ON OFF gt lt ON OFF gt ON Mimic Sparton 5354 OFF Normal TELSEC operation Example SET FALSE OFF Default OFF m RM WM 800 Manual Rev 3 0 9 9 09 Chapter 6 Programming and Operation Quest Controls Inc TELSEC 2000 1500RM WM
137. oring Control amp Test Solutions for Telecom User s Manual 2 4 5 Mounting the TELSEC WM The unit is designed to mount to a wall without having to remove the cover The system comes with two mounting plates to mount the unit to wall or to the front of an electrical enclosure 4 5 1 Connecting the Mounting Plates Use the four 6 flat head screws to secure the mounting plates to the back of the chassis 4 5 2 Attaching to the Wall Use the appropriate anchors not provided for the type of wall you are mounting the TELSEC on The mounting holes will accommodate a 8 screw It is recommended that the panel be mounted so that the display can be seen at eye level Approx six feet from the floor 4 6 Mounting Field Terminal Devices The TELSEC RM WM supports four methods for field wiring of inputs and outputs The wire wrap block and Krone punch block are used when rack mounting of field wiring is required and the Control Interface Module CIM is used for a wall mounted field termination device The fourth method for field wiring is to direct wire from the alarm point with a cable that has a 50 pin amphenol connector to connect to the TELSEC All four methods ultimately connect the field wiring to the 50 pin ports on the TELSEC Some application may require that a CIM module is used for the first 16 inputs and 8 outputs and a wire wrap block is used for inputs 17 32 and outputs 9 16 See figure 5 Use the wire wrap block for ala
138. pecify which ANM s to use DEF HITEMP EQU 1 IF UIN TEMP2 VAR SETPOINT THEN ALARM UIN TEMP2 ENV MJ ANM 1 ANM 3 WAIT UNTIL UIN TEMP2 VAR SETPOINT ALARM UIN 2 ENV CLEAR ANM 1 ANM 3 If the TELSEC can not complete the alarm callout it will wait five 5 minutes and then attempt the call again This ensures alarms are not missed due to busy or noisy phone lines 104 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 8 Front Panel and Display Quest Controls Inc TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 7 7 Freeform Logging The Loc statement makes an entry into the freeform log When you type a Loc statement you must specify the element to store using this form LOG lt point gt The TELSEC records the current value of the specified element in the log noting the current date and time The log also keeps an indication of the name of the element you logged You may review this information using the REVIEW LOG FREE command see section 6 8 12 The freeform log contains approximately 800 entries arranged in a circular queue If the log is full when the LOG statement processes the current entry causes the oldest entry to scroll out of the log Example DEF LOGAVG EQU 1 VAR 1 AVG UIN 1 UIN 5 100 LOG VAR 1 WAIT 10 00 This equation variable 1 equal to the average reading of input 1 and 5 divided by 100 see section 7 3 9 and then logs variable 1 The equation
139. pter 2 Getting Started Quest Controls Inc TELSEC 2000 1500 RM WM Monitoring Control amp Test Solutions for Telecom User s Manual 2 2 3 3 Setting up Meta Keys Function Keys W Sustem Data ad Fax Internet Terminal Colors Translate T able Mone Capture Mone Cancel Help Meta Keys are the function keys along the bottom of the screen Obtain the Meta Key file from Quest Controls and copy it to your ProComm Plus directory 2 3 4 Capture File Setup Setup xi wl System Data ra Fax MENO Capture File Options X a Recording Options Protocal write text as it appears on screen Setup Files Terminal C write filtered text with na emulation escapes Options Meta Ke White raw text including all escapes AB Terminal Me Fonts Te tak k Control Options Duenarite existing capture file Translat Mone eminal Colors windo Colors 1 E Capture Mone Setup Cancel Help Capture file is used to save data retrieved from the system to your hard drive RM WM 800 Manual Rev 3 0 9 9 09 Chapter 2 Getting Started Quest Controls Inc TELSEC 2000 1500 RM WM Monitoring Control amp Test Solutions for Telecom User s Manual 2 3 5 Setup for Direct Cable Connection amp System Hodem Con
140. r 8 Front Panel and Display Quest Controls Inc TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 1 COM2 and will have the following value based on the status of the Data Carrier Detect DCD and Data Set Ready DSR signals DSR DCD BIT o 10 0 amp DSR are not present 1 JO DCD present but not DSR HL pe DSR present but not DCD DSR DCD present Example DEF CK_COM1 EQU 1 IF 1 0 THEN ALARM MSG 1 EQPTSA MJ WAIT UNTIL COM1 3 This equation will see if the COM 1 has lost connectivity and then alarm a message saying the connection to COM1 is down Once COM1 is active again the equation will send a Clear alarm message 7 8 9 Battery Monitor Status The equations can monitor the status of the battery monitoring algorithm to allow the user additional access to the various states of the algorithm The BAT status is made up of 4 Bits of data that are added together to create one decimal number that represents the current status The Bits are as follows BAT Siatus Bits Bit 0 Set to 1 for discharge state clear for charge Bit 1 Set to 1 for low capacity alarm state clear for no alarm Bit 2 Set to 1 for low time remaining major clear for no alarm Bit 3 Set to 1 for low time remaining critical clear for no critical BAT Value in Equations and meaning 0 0000 No alarms battery charging 1 0001 No alarms
141. r daylight savings DLS This feature can be changed or turned off using the SET DLS command 65 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 6 Programming and Operation Quest Controls Inc TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 6 5 3 SET PSWD SET PSWD is used to set the available access codes and level of access Syntax SEI PSWD lt gt lt READ PROG BYPASS ACCESS PORT MASTER gt UNAME PSWD lt PSWD NUMBER A number from 1 to 50 ACCESS LEVELS READ Allows REVIEW HELP HANGUP PROGRAM Alows CLEAR LIST NAME SET REMOVE COPY SEARCH DEFINE BYPASS Allows BYPASS commands ACCESS Allows DEFINE CARD DEFINE DOR REVIEW LOG ACCESS LIST CARD PORT Allows pass through access to the COM4 serial port Use this if you have a device connected to the optional serial port on the TELSEC The settings for COMA are set with the SET COM command Note once you access the port you will have to disconnect and reconnect to access information on the TELSEC MASTER Allows SET PSWD DEFINE EQU UNAME The alphanumeric username for the particular PSWD TYPE Maximum length is eight characters The username must be enclosed within single quotes The system uses the username and password combination when you press two successive enter keys when first logging on via the Modem or Serial port lt PSWD STRING The alphanumeric password code for
142. ram it is recommended that you first set the system clock using the SET CLOCK command refer to section 6 5 2 The TELSEC supports two methods for uploading programs the first and preferred method is using Xmodem protocol 7 11 1 Xmodem File Transfer Xmodem is the preferred method of sending programs since it provides error checking and will notify you of any errors in your program Most communications programs support Xmodem transfer In the setup for Xmodem on your communications program choose used relaxed timing if you have that option To start an upload first issue the command SET PRO PRO to the TELSEC The system will respond with START XMODEM XFR you have up to 1 minute to start sending the program or the system will time out and abort the transfer process Send the program to the TELSEC using the Xmodem protocol If the program is accept completely then the system will respond with a message showing the number of bytes received Otherwise the system will respond with an error message telling you what the problem is Example RCV ERR 2 LINE O A 2 error code means the system timed out waiting for reception of the file RCV ERR 5 LINE 8 A 5 error code means there is a problem with the line in the program This message will show the line number in the program where the error was found 7 11 2 ASCII Text Transfer The TELSEC system accepts ASCII downloads using software flow control All of your provisioning comma
143. redetermined position CTAG Correlation tag Used with TL1 message to match responses with who send the command Date Schedule Facility to compare the current date to a user defined date or range of dates DB9 Nine position connector used to connect equipment Digital Either of two values OFF IN OUT OLD NEW Examples ON Digital Input Sensing device that senses contract closure Digital Outputs Facility to drive a digital device to one of two states DOW Acronym for Day of the Week Energy Management Means of controlling the amount of input energy usually electricity necessary to power certain devices Equation A series of statements use to control outputs Facility Automation Means of properly controlling certain devices automatically without human intervention Hardware Term for various electrical and mechanical devices Input Any sensing device that returns a meaningful value RM WM 800 Manual Rev 3 0 9 9 09 Quest Controls Inc Monitoring Control amp Test Solutions for Telecom Edid TELSEC 2000 1500RM WM User s Manual Keyword One of a list of words with reserved meaning that cannot be used for any other purpose Logging Method of recording information for later use MADC Abbreviation for milli amperes of direct current Modem Device which allows data to be transmit over the phone lines Name Set of unique characters used to extend the mean
144. rming and control when rack mounting is desired TELSEC WIRE WRAP TELSEC 2000RM REAR VIEW NMA NMA CRAFT gt a ST RS22 R11 R11 EXP BUS lt fe ooooo O CARD ACCESS OPTIONAL WIRING OF 50 PIN CABLE TO PORT A OF WIRE WRAP BLOCK INSTEAD OF USING CIM TELSEC CIM Use the CIM for environmental alarming and control or when rack space is not available for a wire wrap block Figure 5 Field wiring options EM RM WM 800 Manual Rev 3 0 9 9 09 Chapter 4 Installation Instructions Quest Controls Inc TELSEC 2000 1500 RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 4 6 1 Wire Wrap Block Quest s Wire Wrap block Figure 6 p n 300718 can be used to terminate all field wiring The block will support four 50 pin ports for a maximum of 64 inputs and 32 outputs Mount the block to the rack using the supplied bracket and then use a 25 pair cable p n 300705 to interconnect the ports on the block to the TELSEC Make sure the connecter is seated properly into the connector at each end and secured with the locking screw and tie wrap WIRE WRAP BLOCK FOR TERMINATION OF FIELD WIRING 1 2 3 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 4 5 6 7
145. roduct can be installed in The TELSEC product is extremely flexible which allows the user to monitor and control a wide variety of items in many different facilities Contact your Quest representative if you have questions about applications that are not covered by this section Each application in this section will have a Points List identifying the various points to be monitored and controlled There are blank Points List pages in the back of this section that you can use for your specific facility 44 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 5 Application Ce Quest Controls Inc Monitoring Control amp Test Solutions for Telecom 5 2 CEV with Two Air Conditioners DIGITAL OUTPUTS TELSEC 2000 1500RM WM User s Manual RED GREEN WARNING LIGHTS 15 8 HATCH CONTROL UNIVERSAL INPUTS Sensor Type Sensor Type CEV TEMPERATURE TEMP F RH VDC power to unit DRY CONTACT Terminal Strip 6 COMMERCIALPOWERFAIL DRY CONTACT DRY CONTACT 8 FIRE DETECTOR FAILURE DRY CONTACT 9 VENT FAN PROOF OF RUN DRY CONTACT DRY CONTACT Terminal Strip DRY CONTACT DRY CONTACT 14 HIGH WATER FLOAT DRY CONTACT 15 DRY CONTACT RM WM 800 Manual Rev 3 0 9 9 09 SPARE INPUTS FOR MORE INPUTS 45 Chapter 5 Application Ce Quest Controls INC TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 5 3 CEV With 1AC and Integrated Vent Fan DIGIT
146. rols Inc TELSEC 2000 1500RM WM 5 Monitoring Control amp Test Solutions for Telecom User s Manual OPTION B USING WIRE WRAP BLOCK FOR TERMINATION OF FIELD WIRING NOTE THIS DRAWING IS FOR RETROFITTING A CEV WITH TWO AIRCONDITIONING SYSTEM AND A SEPERATE 1 RELAYS K1 K7 ARE 24V COIL RELAYS VENT FAN CONSULT YOUR QUEST REPRESENTATIVE 2 RELAY K8 IS 120V COIL 3 ALL CONTROL RELAYS ARE WIRED TO EXISTING CONTACTORS FOR IF YOU HAVE QUESTIONS REGARDING THIS DRAWING CONTROLLING TIE CORRESPONDING ITEMS OR OTHER APPLICATIONS 4 K7 WARNING LIGHT CONTROL ASSUMES THE STATUS LIGHTS RUNS THROUGH THE EXISTING HATCH SWITCH TO TURN OFF THE LIGHTS WHEN THE HATCH IS CLOSED _ INPARALLEL 25 WwitHswitcH dd LEG TO LIGHTS dNaL 3GISLnO NOISNYLNI SLOVLNOS YOOd TO GREEN LIGHT ON CEV STATUS ADYVHOSIC NO 44 VIOH3ININOO INHV IV AXONS 3ufriva INHVTIV 34OWS INHV TV LN3A HOSN3S HHflLSIOIN SVO H3AISO IldX4 SVD DIXOL HU3lVM HOIH TEMP HUMIDTY aj SENSOR EN HORN PANEL INHV IV J1gianv JU D lt 3 t D Q D lt O a D T TO 120V RELAY T 120 RELAY m IN GUTTER Q F 9 2 12 3 4 56 IV H8 Ilo IHOI1IH2 I3 15016 17 18 19 20 21 22 23 24 p SONTACTOR 2 e OL d AC1 4 e o 1 I
147. rst test controls the entire equation the TELSEC doesn t even compare UIN 2 gt 72 unless itfound UIN 1 gt 72 was TRUE and turned on RLY 1 The conditionals presented so far are unbounded That is the first conditional used in an equation makes the rest of the equation conditional The section below 7 8 4 presents bounded a gt RM WM 800 Manual Rev 3 0 9 9 09 Chapter 8 Front Panel and Display Quest Controls Inc TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 conditionals Use them to limit the range of an IF statements effects so several unrelated events in a single equation can be controlled 7 8 4 Statement Blocks A statement block is a sequence of statements preceded by Do and followed by END Usea statement block anywhere a single statement can be used except inside another statement block Follows is an example of a statement block DO TURN ON RIY l TURN ON RLY 2 SEND MSG 1 END There may be a series of statements between po and END separated by commas But do not type a comma immediately before the word END A comma be needed before the word Do or after the word END Imagine that the entire DO END range were replaced with a single statement Supply commas if that single statement would need them before or after it for instance if other statements or statement blocks immediately precede or follow the DO END range 7 8 5 Nested IFs
148. s developed by defining these points and setting certain constraints around them The TELSEC has been designed to enable a person with no experience in programming to easily learn the system 6 2 2 A Word about Passwords Before we begin learning about the TELSEC let us first review system security The TELSEC has five levels of security READ PROGRAM BYPASS ACCESS and MASTEHR The READ priority allows users to access only STATUS information Input values output states and control states can be viewed by a user with READ priority If a user wants to change any programmed settings he must have a PROGRAM password This level accesses all programming functions except equations and card access and STATUS information The BYPASS level allows a user to use the BYPASS command The ACCESS level allows a user to use the functions associated with the card access capabilities of the TELSEC The MASTER level includes access to all previous levels allows change of the control logic EQUs AND allows change of the user passwords There are 50 available passwords in the system As discussed earlier the TELSEC comes pre programmed with the passwords MASTER password 50 PROGRAM password 49 and READ password 48 for the three levels of security It is a good idea to change all three passwords before any programming is done In this way you can ensure your system integrity 55 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 6 Program
149. s of a CARD for the card access option BUS Shows if the BUS is set to ON or OFF MAIL Shows the four mail box lines for user messages SCALE Shows the scale factors for the manual scales LIST Shows how the equations will list back COM The current settings for the communications ports FALSE Status of the Sparton Mimic mode APPEND Shows if ID 2 is being appended to the alarm message CID Shows if Caller ID is on and valid phone numbers An optional number list shows the specified point type This can be used for all points that more than one entry Examples LIST UIN 1 2 5 7 Programming will list for UINs 1 2 5 6 7 LIST RLY Programming will list for all RLY points LIST TOD 1 Programming will list for TOD 1 The LIST command supports the key word ALL which will cause the system to list back all of the TELSEC programming with the exception of the card access CARD database This is useful for retrieving the program for storage on a local computer Example LIST ALL lists all programming except CARDs _ 72 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 6 Programming and Operation Quest Controls Inc TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 6 7 REMOVE Command Use the REMOVE command to delete a point s from the TELSEC programming memory Some items may not be removed and should be re defined rather than removed The points you removed only affects RAM me
150. s situation Example you have a 0 100 amp transducer that provides a proportional signal of 0 5 VDC There is 20 amps per volt DC 100 5 so at 6 volts the sensor would read 120 amps Enter 120 as the maximum and 0 as the minimum 3 CHAR NAME The three character name that will display when any input defined with this SCALE is REVIEWed Example SET SCALE 1 0 60 AMP scale for a 0 50 amp transducer with an output of 0 5 vdc SET SCALE 2 25 125 RH scale for a 0 100 humidity sensor over 4 20 mA which is converted to 1 5 vdc Default None There are eight 8 user definable scaling factors 6 5 8 SET LIST SET LIST establishes the format for how equations will be displayed when they are listed for viewing Syntax SET LIST lt NUMBER NONE gt NUMBER NAME NONE gt Equations will list using the format PT NAME Example UIN OUTATIR NUMBER Equations will list using the format PT NUMBER Example UIN 3 NONE Equations will list using the format NAME Example OUTAIR Default NUMBER 68 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 6 Programming and Operation Quest Controls Inc TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 6 5 9 SET PROGRAM The SET PROGRAM command is used to receive application programs store programs remove programs and perform upgrades Syntax SET PROGRAM TYPE lt TYPE gt DEFI
151. s time BYPASS STATE 2 ON OFF AUTO BYP If AUTO is chosen press ENTER the TELSEC will restore the RLY to its AUTO state and return to the initial display If ON or OFF is chosen the TELSEC will display the screen below BYPASS TIME ENTER HH MM Now enter the RLY bypass time Use the UP DOWN arrow keys to input the time Use the LEFT RIGHT arrow keys to move to each field The maximum time allowed is 23 hours and 59 108 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 8 Front Panel and Display Quest Controls Inc TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 minutes If 00 00 is entered the RLY will be bypassed FOREVER In this state it is necessary to bypass the RLY to the AUTO state to clear the FOREVER bypass Once time is entered press the ENTER key to bypass the RLY the information was entered incorrectly an ERROR message will be displayed Check to make sure you entered a valid time The BYPASS procedure is now completed 8 3 3 Setting the Clock The TELSEC allows a front panel user to set the internal clock To do so follow these directions V DEFINE WHICH SETPNT BYPASS SETPNT has the cursor on it so you need to press the RIGHT arrow two times to scroll to CLOCK gt DEFINE WHICH REVIEW CLOCK Press ENTER to activate CLOCK CLOCK DATE MM DD YY Use the UP DOWN keys to enter the current month date and year Use the LEF
152. sabled it it resumes its wait until the specified time is up or the specified condition is TRUE The equation disregards time that passed while it was disabled or conditions it is waiting for that were TRUE only while the equation was disabled Using ENABLE on an equation that was already enabled has no effect 92 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 8 Front Panel and Display Quest Controls Inc TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 Suppose equation number 1 specifies a power failure recovery sequence as mentioned above Then any other equation could make this sequence happen at any time using this statement ENABLE EQU 1 7 8 2 Returning Values Section 7 3 16 gives an example of an equation assigning a value to a variable so that another equation will see the value and do something This is an example of communication between equations Each equation has a variable associated with it You specify it by typing the symbol EQU followed by the equation s number This can be used anywhere that a numeric element is legal The RETURN statement is used by an equation to specify a value for that equation s variable Any equation can then read the specified value using the symbol EQu as described above Type RETURN and then a numeric formula RETURN number or value of a formula The TELSEC computes the current value of that formula and makes it the value
153. se a terminal communications program such as Hyper Terminal or ProComm to connect to the system Communication settings are 9600 baud no parity 8 data bits and 1 stop bit The following commands work whether you are direct connected through the craft port or connecting remotely The system will ask you for a password when you do the first command Your password will log off after 10 minutes of inactivity 2 2 2 REV UIN Shows the current status of the inputs UIN is the acronym for universal inputs NAME VALUE SEVERITY DESCRIPTION ACCUM INT ON INT OFF TIMER EVENT 1 TEMP 76 4 F 2 HUMIDITY 44 3 RH 3 FLOATVDC 50 8 VDC 4 INTRUDER OFF MJ N INTRUSION DOOR OPEN N 00 00 00 00 10 58 10 58 0 5 BATDSCHR OFF MJ BATTERY ON DISCHARGE 00 00 00 00 10 57 10 57 0 6 POWER OFF MJ COMMERCIAL POWER FAILURE 00 00 00 00 10 58 10 58 0 7 RECT OFF MJ RECTIFIER MAJOR ALARM 00 00 00 00 10 57 10 57 0 8 RECT OFF MN RECTIFIER MINOR ALARM 00 00 00 00 10 56 10 56 0 9 FUSE OFF MJ FUSE FAILURE 00 00 00 00 10 56 10 56 0 10 RECTHI OFF MJ RECTIFIER HIGH VOLTAGE 00 00 00 00 10 56 10 56 0 11 LWBATVG OFF CR LOW BATTERY VOLTAGE 00 00 00 00 10 55 10 55 0 ACCUM accumulated on timer INT ON interval on timer INT OFF interval off timer TIMER total elapsed time since timers were cleared EVENT event counter RM WM 800 Manual Rev 3 0 9 9 09 Chapter 2 Getting Started Quest Controls Inc TELSEC 2000 1500 RM WM
154. son of this form it sets an internal timer to 00 00 The TELSEC continually tests the element If it is TRUE the timer runs If the TELSEC ever finds it FALSE the timer goes back to 00 00 Only if the timer reaches the specified interval in this example ten minutes does the equation proceed So if a comparison with the word FOR is entered it takes the TELSEC at least the specified interval and possibly longer to produce a result 7 3 13 Switching Relays The TURN statement sets a specified relay to the ON or OFF state Chapter 6 Programming discusses relays and explains what ON OFF means in the real world There two forms of the statement both require exactly one relay to be specified TURN ON rly lt gt TURN OFF rly lt gt A sequence of TURN statements separated by commas can be used in an equation to switch more than one relay The TURN statement has no effect if the relay was already ON or OFF It simply stays in the desired state Examples TURN ON RLY 14 TURN OFF RLY COOL_1 7 3 14 Waiting The WAIT statement indicates that any remaining statements in the equation should not run until some time in the future When the TELSEC reaches a WAIT statement it suspends work on that equation for some number of seconds that you specify When typing a WAIT statement you must specify a number of seconds either by typing an interval or by specifying a numeric element WAIT interval
155. statement statement statement WALT UNTIL NOT UIN ALARMED This equation does four things if an alarm button is pressed The WAIT statement at the end waits until the button is released If you pushed the button again the four statements would run again But if you didn t include the WAIT statement the TELSEC would do the four statements as many times as it could until you let up on the button Using a DISABLE statement is another way to produce a one time equation The last statement in the equation is a DISABLE statement that refers to the equation it is in This means that when the TELSEC runs completely through the equation it finishes by taking the equation out of service Another equation could use the ENABLE statement to make the first equation run again one time Normally equations that disable themselves run once after a restart or power failure since the TELSEC re enables all equations on startup 98 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 8 Front Panel and Display Quest Controls Inc TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 7 9 3 Detailed Timing The TELSEC runs any equation that isn t disabled by obeying each of the statements in the sequence in which they appear The IF statement makes the TELSEC skip over some statements in certain cases Some statements such as WAIT make the TELSEC stop working on that equation though it contin
156. t Solutions for Telecom User s Manual OUTPUTS INPUTS XD DK A X A X DIC DK A gt md A L 4 X yr A x PN Figure 8 CIM Board 4 6 4 Input Output Matrix Figure 9 below is a matrix showing the wire color for each input and output and the pinout for the wire wrap block Use this chart to determine where to land each field wire whether you are using a CIM look at input output number wire wrap row column pin number Krone block match wire color or direct termination to cable match wire color 99 _ RM WMW 800 Manual Rev 3 0 9 9 09 Chapter 4 Installation Instructions x 2 Cable Cable Pin Wire Color 1 BLU WHT 26 WHT BLU 2 ORN WHT 27 WHT ORN 3 GRN WHT 28 WHT GRN 4 BRN WHT 29 WHT BRN 5 SLA WHT 30 WHT SLA BLU RED 31 RED BLU 7 ORN RED 32 RED ORN GRN RED 33 RED GRN BRN RED 34 RED BRN 10 SLA RED 35 RED SLA 11 BLU BLK 36 BLK BLU 12 ORN BLK 37 BLK ORN 13 GRN BLK BLK GRN 14 BRN BLK 39 BLK BRN 15 SLA BLK 40 BLK SLA 16 BLU YEL 41 YEL BLU 17 ORN YEL 42 YEL ORN 18 GRN YEL 43 YEL GRN 19 BRN YEL 44 YEL BRN 20 SLA YEL 45 YEL SLA 21 BLU VIO 46 VIO BLU 22 ORN VIO 47 VIO ORN 23 GRN VIO 4 VIO GRN 2 BRN VIO 49 VIO BRN 25 SLA VIO 50 VIO SLA I O Port A Block R C 2 1 4 1 2 2 4 2 2 3 4 3 2 4 4 4 2 5 4 5 2 6 4 6 2 7 4 7 2 8 4 8 2 9 4 9 2 10 4 10 2 1 4 11 2 12 4 12 2
157. t sequence in which the TELSEC runs equations 7 2 The Components of Equations 7 2 1 Formulas Formulas tell the TELSEC to do arithmetic Formulas combine program elements that have numeric values by adding multiplying taking remainders of division and other operations When a formula appears in an equation the TELSEC does the computation and uses the resulting number in place of the formula See Section 7 3 6 7 2 2 Assignments Assignments look like equations in mathematics because they use an equal sign However equations in the TELSEC mean something different The TELSEC computes the value of the formula on the right side of the equal sign and assigns it to the object on the left side So you can write seemingly impossible math equations such as VAR 4 VAR 4 1 7 2 3 Statements Statements take actions like turning on a relay logging data or making a phone call Each statement has a different form and requires entry of a different combination of formulas or program elements Assignments are a form of statement This chapter will present each type of statement and provide examples of how they are used 81 RM WMW 800 Manual Rev 3 0 9 9 09 Chapter 8 Front Panel and Display Quest Controls Inc TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 7 3 The Form of Equations Every equation consists of its define line and one or more statements
158. t want to see a report showing the value every hour then you would specify an interval of 60 for every sixty minutes Syntax REVIEW POINT 1 gt lt POINT 2 POINT 3 gt POINT 4 gt MM DD YY lt HH MM gt lt AM PM gt lt INTERVAL gt Examples 75 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 6 Programming and Operation Quest Controls Inc TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 REVIEW LOG UIN 1 REVIEW LOG UIN 1 UIN 2 RLY 1 RLY 2 REVIEW LOG UIN 1 UIN 2 RLY 1 RLY 2 3 31796 REVIEW LOG UIN 1 UIN 2 RLY 1 RLY 2 3 31 96 3 00 AM REVIEW LOG UIN 1 UIN 2 RLY 1 RLY 2 3 31 96 3 00 AM 60 Use of REVIEW LOG To see history log entries with date time and point value in ascending oldest to newest date time order REVIEW LOG FREE POINT 4 Entries in the freeform log will display with date and time stamp in ascending order Example REV LOG FREE Shows all entries in the free form log REV LOG FREE VAR 1 Shows entries for variable 1 only REVIEW LOG ACCESS Access control entries will display with date and time stamp in descending order See Chapter 9 Access Control for more information 6 8 13 REVIEW BUS ADDR PRESENT STATE RETRIES CRCERRS ADDR The address of the expansion module Currently there is only one module supported PRESENT This field will show YES or NO depending on if the module is defined to be on SET BUS ON STATE The s
159. tatus of the module The value will be either OK or ERR RETRIES when the module is in error this field will show the number of retries the TELSEC did to try and communicate with the expansion module CRCERRS This field counts the total number of errors that have occurred when the TELSEC IS trying to communicate with the expansion module 69 TL1 Commands TL1 stands for Transaction Language 1 The TELSEC supports TL1 alarm messaging for all alarms being sent out The alarms are formatted in TL1 regardless of whether the connection type is direct lease line or dial up All digital inputs can be defined as alarm points and will automatically generate an alarm if an on condition is detected for the specified delay see DEFINE UIN Equations can also generate TL1 alarms based upon a monitor and control strategy that the operator defines The following commands are available for use with the TELSEC and are available without logging on a password 6 9 1 RTRV HDR The RTRV HDR command is used to retrieve the system identification which is contained in the definition of ID 1 see DEFINE ID Ihe command format is as follows RIRV HDR TID S95lD5 LIAG TID Target identifier the first ID line This can be omitted on direct connect SID Not presently used 7D RM WM 800 Manual Rev 3 0 9 9 09 Chapter 6 Programming and Operation Quest Controls Inc TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Teleco
160. tem the green LED indicator will light steadily A series of sign on messages will appear on the display as the system comes on line After successful initialization the system should be configured to match the particular requirements of the present installation Configuration may be accomplished quickly and easily using a laptop computer connected to the maintenance port on the front of the TELSEC Refer to Chapter 6 Programming for more detailed configuration procedures 4 10 Typical Control Diagrams This section contains various wiring diagrams showing how to wire different components to the TELSEC Refer to the individual wiring instructions that come with each component for detail installation and operating instructions 97 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 4 Installation Instructions Ce Quest Controls Inc Monitoring Control amp Test Solutions for Telecom 4 10 1 Typical CEV Control and Monitoring TELSEC 2000 1500RM WM User s Manual TELSEC 2000RM INTERCONNECT DRAWING Use the wire wrap block for alarming and control when rack mounting is desired TELSEC WIRE WRAP BLOCK A B C D TELSEC CIM Use the CIM for environmental alarming and control or when rack space is not available for a wire wrap block THE INFORMATION CONTAINED IN THIS DOCUMENT IS CONSIDERED PROPRIETARY AND CONFIDENTIAL AND IS PROVIDED FOR THE SOLE USE OF INSTALLIN
161. ter 6 Programming and Operation Quest Controls Inc TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 lt TOD gt lt ON OFF gt An optional TOD qualifier be used to make this ANM active when the TOD schedule is in either the ON or OFF state If the TOD qualifier s state is the same as this state the alarm will call out If the states are not true the alarm will not call out lt MODEM gt An ANM defined as PAGE will dial phone number including all pauses etc It will do this one time and is intended to connect to a digital pager and send the remaining digits after the pause character This way the technician will now what site has paged them An ANM defined as MODEM will attempt to connect to another modem and send the alarm message Typically the receiving modem is attached to a PC and setup to receive alarms The TELSEC will continually attempt to call the modem number until successful in sending the alarm message retry The retry delay is the amount of minutes the TELSEC should wait between calls before making another attempt or moving to the next valid number The value can be between 1 and 5 minutes BACKUP The BACKUP option works in conjunction with the SET COM command see section 6 5 10 If one COM port is defined as Network and the other as POTS then the system will only use this alarm number if the NETWORK connection is down ALMBAU
162. the formulas have no control over what values users may enter through the front panel Suppose someone modifies the setpoint to 30 degrees F The room will get extremely cold Therefore this potential must be taken into account when writing equations to impose limits on the setpoints This must be done before the setpoint is used in another equation Here is the new example DEFINE ACIVARH VAR 1 75 High setting DEFINE ACIVARL VAR 2 65 Low setting DEFINE ACISPT SPT 1 70 DEFINE ACILMT EQU 9 SPT 1 MIN VAR 1 MAX VAR 2 SPT 1 DEFINE EQU 10 IF UIN ROOMTEMP gt SPT ACISPT THEN TURN ON RLY 1 ELSE TURN OFF REX 1 Notice that equation 9 limits the setpoint value between the two variables This method controls the range that a user can modify a setpoint The TELSEC will then run equation 10 with the corrected setpoint value 88 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 8 Front Panel and Display Quest Controls Inc TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 7 3 20 Additional ways to change values The values of specified numeric elements can be changed using the INCREMENT or DECREMENT statements 7 3 20 1 Increment Statement INCREMENT statement increases the value of a specified numeric element The two statement forms below have an identical effect the INCREMENT form is legal only where the SET form would be legal INCREMENT ele
163. the front panel with a new message If no new message exists the current message will continue on the display If there is another message to be displayed the current message will be displaced by the new message The front display has a thirty two message buffer and will round robin each message or point to the screen Once you send a point to the screen it will continue to be displayed until you issue a SEND point CLEAR statement If you SEND MSG to the front panel the name of the MSG will not appear The actual MSG text will appear on the front panel display The first sixteen characters show on the first line and characters 17 32 show on the second line Example DEF DISPLAY EQU 1 SEND UIN 1 SEND UIN 2 SEND UIN 3 IF UIN 4 ON THEN SEND MSG 4 ELSE SEND MSG 4 CLEAR 90 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 8 Front Panel and Display Quest Controls Inc TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 7 6 Alarm Equations The ALARM statement places point values into the ALARM log and causes a TL1 message to be generated When an ALARM statement is entered specify what to send using this form ALARM lt point gt lt type gt lt severity gt list of ANM lt point gt Any point within the TELSEC such aS UIN RLY SPT MSG ETC ENV Used for environmental alarms EQPTSA Equipment service affecting EQPTNSA Equipment non service af
164. the particular PSWD TYPE Maximum length is eight characters The password code must be enclosed within single quotes 9 The password levels associate specifically with commands If you want access to a specific command you must specify a password with the corresponding level A MASTER level alone would not have access to the REVIEW command You need READ access for this command to function The PORT Is autonomous to the other levels Passwords with PORT in them only have access to the pass through port which is COM4 Example SET PSWD 1 READ AAA AAA SET PSWD 2 READ PROGRAM BYPASS TECH 77618 SET PSWD 3 READ PROGRAM BYPASS ACCESS MASTER BIG KAHUNA SET PSWD 4 PORT COMA COM4 Default SET PSWD 48 READ READ SET PSWD 49 READ PROGRAM BYPASS PROGRAM SET PSWD 50 READ PROGRAM BYPASS ACCESS MASTER MASTER 6 5 4 SET DLS Daylight Savings This is used to change the default daylight savings time Syntax SEI DLS lt SPRING FALL gt lt lt FIRST SECOND THIRD FOURTH LAST gt lt DOW gt lt MONTH gt NONE gt lt SPRING FALL gt 66 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 6 Programming and Operation Quest Controls Inc TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 SPRING Clock moves ahead one hour FALL Clock moves back one hour FIRST SECOND THIRD FOURTH LAST DOW lt MONTH gt Specify the position
165. then send a major severity alarm if the estimated time remaining is less than this value The value is entered in minutes TIME CR ALM gt Time remaining Critical Alarm The system calculates the remaining amount of time before reaching low voltage disconnect The system will then send a critical severity alarm if the estimated time remaining is less than this value The value is entered in minutes Default DEFINE BATTERY BAT 1 UIN 3 480 240 120 Use input 3 with a capacity alarm of 8 hours a major time remaining of 4 hours and a critical time remaining of 2 hours 6 4 13 DEFINE CARD See CHAPTER 9 ACCESS CONTROL 65 SET Command The SET command is used to configure items that are global to all the other functions such as the system clock passwords and communications ports to name a few The available items to SET are ID CLOCK PSWD DLS BUS MAIL SCALE LIST PROGRAM COM FALSE APPEND CID 64 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 6 Programming and Operation Quest Controls Inc TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 6 5 1 The Set ID command is used to set the system identification There three lines available for the user to change Syntax SET ID lt IDNUMBER gt ID STRING gt SET ID lt IDNUMBER gt A number from 1 to 3 TELSEC actually has four 4 ID strings but the fourth is unchangeable ID STRING
166. then waits 10 minutes before running again 7 8 Advanced Equation Functions 7 8 4 Enable Disable When an equation is first defined it becomes enabled This means it is set to operate continually Section 7 9 3 discusses the exact sequence of activities An equation can be disabled or enabled Disabling an equation takes it out of service The TELSEC suspends all work on the disabled equation for as long as it is disabled One equation can disable or enable another equation or disable itself A restart or power failure always re enables all equations In addition a restart or power failure re starts all equations at the beginning The DISABLE statement disables an equation After typing DISABLE specify the equation to disable DISABLE equation The equation is out of service and has no further effect on the TELSEC until the next time an equation or an operator ENABLES it see below restarts the TELSEC or if the power fails If the specified equation was already out of service the DISABLE statement has no effect Having an equation disable itself is a useful programming technique For instance equation number 1 can specify a power failure recovery sequence The equation ends by disabling itself The ENABLE statement enables an equation ENABLE follows the same form as DISABLE ENABLE equation The equation resumes operation starting where it left off when you disabled it If the equation was in a WAIT statement when you di
167. through serial RS232 port DC Power Input 18 to 65 VDC 1 0 Connection Two 25 pair Amphenol connectors Expansion Bus 16 inputs 8 outputs per connector for RS485 connects to the TELSEC RME rack I O connection to Wirewrap Block expansion module for up to 64 universal Punchdown Block or Screw in Terminals inputs and 32 digital outputs Figure 10 Serial and Modem Ports 4 7 4 RS232 Connection The DB9 RS232 ports are set up as DCE devices so that a laptop can be connected to the TELSEC with a straight through 9pin cable The ports default setting is 9600 baud no parity with 8 data bits and 1 stop bit Either RS232 port can be directly connected to a terminal server or be used for a Craft interface 4 7 2 Modem Connection The TELSEC supports up to two modems p n 300204 for remote dialup connections over a standard POTS phone line Connect the modems to a functional phone line by using the RJ11 cables provided with the unit Refer to the configuration sheet that shipped with the unit to determine which port COM1 or COM2 the modem is in 4 8 Keypad Card Reader The TELSEC supports one card reader which is wired to the back of the rack mount chassis bottom of wall mount via a pluggable connector refer to figure 11 The card reader is typically mounted near the door that is to be controlled Read the installation documentation that comes with the reader for detail installation instructions 924 RM WM 800 Manual
168. tion Quest Controls Inc TELSEC 2000 1500RM WM 3 Monitoring Control amp Test Solutions for Telecom User s Manual 2 6 4 12 DEFINE The define BAT command is used to set the alarm parameters used with the automatic battery monitoring algorithm built into the TELSEC system The TELSEC will monitor the batteries from the incoming power to the system and report the battery voltage on input 3 Syntax DEF NAME BAT lt UIN X gt lt CAP ALM gt lt TIME MJ ALM gt lt TIME CR ALM gt lt NAME gt user defined point name This is optional and does not need to be entered if you are redefining the point but what to keep the same name BAT the number of the battery point Currently only one 1 is supported lt UIN X gt the input number where the battery voltage is being monitored from UIN 3 is tied to the incoming power of the unit so if the TELSEC is being powered from the source to be monitored no further wiring is required lt CAP ALM gt This is the capacity alarm threshold Capacity is defined as the calculated total amount of time from discharge until the predicted time the battery voltage will reach the low voltage disconnect The value for this alarm is entered in Minutes and will alarm if the calculated Capacity is less than this value TIME MJ ALM gt Time remaining Major Alarm The system calculates the remaining amount of time before reaching low voltage disconnect The system will
169. tion see CHAPTER 4 INSTALLATION INSTRUCTIONS Once the card reader and door have been wired into the TELSEC you are ready for programming 9 21 Define the feedback digital point Optional If the door closure is wired to the TELSEC to provide feedback this input must be defined as DIGITAL This is done using the following command line see section 6 4 1 3 DEFINE DOORSTAT UIN DIGITAL LOG The is the UIN point where feedback digital is landed The name DOORSTAT be any eight character name 9 2 2 Define your Digital Output Typically you will define your relay output with this command line section 6 4 2 DEFINE DOORRLY RLY OFF IMMEDIATE ENERGON Where is the digital output point where the door opening circuit is landed If the output is required to have inverted logic refer to the DEFINE RLY portion of your TELSEC Users Manual for more information 9 2 3 Define the DOR point Define the DOR point to correlate a valid card presented to a reader with the control of a particular output that is actuating the door mechanism This point returns an ON or OFF state using the CARD information which will be defined later The syntax for this command is DEFINE NAME DOR lt gt lt RLY gt SECONDS OPEN DIGITAL FEEDBACK SOICONDS TO CLOGE lt NAME gt A unique user defined point name lt gt Select DOR point 1 4 Note you must have the 4 port door peripheral present to Support mor
170. tive terminal the one on the right Connect the positive lead from the power source to the positive terminal Finally connect the earth ground strap to the positive terminal for systems with the positive as ground 48V typical or connect to the negative terminal for power supplies that have the negative grounded 24V typical Make sure that the system is fused externally with a two 2 amp fuse The system does have an internal resetable fuse but it is still advisable to fuse externally The green power LED will be illuminated when power is present to the system 4 9 2 Install Ferrite Coil Each TELSEC comes with a ferrite coil that needs to be installed on the incoming power cable The ferrite coil should be located as close to the incoming power terminals as possible Clamp the coil around the incoming power leads Note make a loop in the power cable and clip the coil into the loop to prevent the coil from sliding see Figure 12 26 RM WM 800 Manual Rev 3 0 9 9 09 Chapter 4 Installation Instructions Quest Controls Inc TELSEC 2000 1500 RM WM J Monitoring Control amp Test Solutions for Telecom User s Manual 2 WARNING 48 VOLTS CAN BE HAZARDOUS REMOVE THE RACK FUSE BEFORE CONNECTING OR DISCONNECTING THE POWER SUPPLY 4 9 3 Powering up The TELSEC When the TELSEC has been completely installed power should be supplied to the system by replacing the rack fuse If stable power is being supplied to the sys
171. ual 3 4 5 Dial in Password Security In order to prevent unauthorized access to the TELSEC through modem connection a password prompt will appear anytime a successful connection is made In response to the prompt the user must enter a correct password followed by a carriage return If the user fails to enter a valid password in one attempt the modem will be disconnected The user has 10 seconds to enter a valid password otherwise the TELSEC will consider the lack of response to be an invalid password and the modem card will disconnect When a valid password is entered the TELSEC will respond with a login message and will be ready to accept commands 3 5 Specifications 3 5 1 TELSEC 1500 2000 Specifications TELSEC 1500RM TELSEC 2000RM TELSEC 1500WM TELSEC 2000WM Part Number 150619 150618 150617 150612 Mounting Mounting Rack mount 19 or 23 Wall mount Number of Universal Inputs 16 32 16 32 Number of Outputs 8 NO 16 NO 8 NO 16 NO Input Types All universal inputs can be analog 0 5 VDC or 0 20 dry contact closure or wet contact 3 75 VDC Output Types Normally Open NO 1 amp at 30 VDC 0 3 amps at 60 VDC 0 5 amps at 125 VAC Card Access Supports industry standard Wiegand format proximity or card swipe readers Up to 4 doors can be controlled Control 4 doors with 3500 cards Logs 500 most recent events Power 8 to 65 VDC 0 5 amps Optional 120 110 VAC
172. ues to run other equations If it s time for the TELSEC to run an equation see below but that equation is waiting then instead of going to the start of the equation the TELSEC goes to the point where it left off and checks whether the equation can stop waiting When the TELSEC reaches the end of an equation or the last statement it s allowed to obey because of IF statements then it is done with that equation and goes on to another one see below The next time it runs the original equation it goes back to the start If an equation starts with an IF statement detecting an unusual condition the TELSEC makes the specified test every time it runs the equation Typically it gets the value FALSE decides there s nothing else it can do in this equation and stops running it until the next time Including the RATE function in an equation makes certain computations occur every time the TELSEC runs a specific equation even if the equation is waiting and can t continue These computations will not occur however if the equation is disabled After a cold start such as that during the TELSEC installation there are no equations so none will run When a new equation is defined it becomes enabled This means the TELSEC runs it at least once The equation may take itself out of service This would still produce a one time effect unless another equation disabled it before the TELSEC reached it After a reset such as restoration o
173. your cards is DEFINE CARD lt NEXT CARD NUMBER lt TOD gt DEFINE CARD CARD ID LTOD T DOR 1 DOR 2 DOR 3DOR 4 lt gt lt CARD ID gt This field contains the card number sometimes referred to as Badge ID or Card ID of the card you wish to have access to your door The TELSEC will accept numbers from to 1048575 but the maximum number of cards in the system is 600 TOD optional This field contains an optional time schedule number used to grant access only during valid time periods If the application requires this option refer to the DEFINE TOD section 6 4 5 of the TELSEC User s Manual and input the special time period criteria The TOD may now be entered in this field and this particular card number will only be given access during an ON state of the TOD DOR 1 DOR 2 DOR 3 DOR 4 you can specify which DOR point will work with this card if you have more than one dor wired into your system If you do not specify DOR then the TELSEC system will automatically make the card valid for all DOR points lt NAME gt TELSEC will allow you to attach a 16 character name to the card The name can contain spaces and must be defined between quotation marks Example DEF CARD 300 JOHN Q TECH Card code 300 is entered in the database and assigned the name JOHN Q TECH There is not limit based on time of day and this card has access to all available doors
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